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Deutsche Hydrografische Zeitschrift

, Volume 27, Issue 2, pp 67–96 | Cite as

Hydrographische Bibliographie

  • H. Mädler
  • G. Heise
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Ozeanographie Bottom forms UDC 551.462

  1. Ahrens, L. H., [u.a.:] Physics and Chemistry of the Earth. Vol. 8. Oxford [usw.]: Pergamon Press (1971). S. 29–48: LePichon, X., Ewing, M., Truchan, M., Sediment transport and distribution in the Argentine Basin. 2. Antarctic Bottom Current passage into the Brazil Basin. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1426.]—Ahrens, L. H., [u.a.:] Physics and Chemistry of the Earth. Vol. 8. Oxford [usw.]: Pergamon Press (1971). S. 79–121: Lonardi, A. G., Ewing, M., Sediment transport and distribution in the Argentine Basin. 4. Bathymetry of the continental margin, Argentine Basin and other related provinces. Canyons and sources of sediments. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1428.]Google Scholar
  2. Annu. can. hydrogr. Conf. 11, 1972. Vol. 1, S. 171–179: Simons, T. J., Scientific requirements for bathymetry.Google Scholar
  3. Annu. offshore Technol. Conf. 4, 2, 1972. Pap. OTC 1652, S. 343–362: Cloet, R. L., Mobility of large sediment features in the southern North Sea.Google Scholar
  4. Bathymetric chart: Gulf of St. Lawrence. 1∶1.000.000. Proj.: Lambert conformal Cartography by the Canadian Hydrographic Service. Ottawa: Canadian Hydrogr. Serv., Mar. Sci. Direct., Dept of the Environment 1973. 1 Kt. (Chart No. 811-A)Google Scholar
  5. Bathymetric chart, Labrador continental margin. 1∶1.500.000. Projection: Lambert Conformal. Interpretative compilation by A. C. Grant. Publ. by the Canadian Hydrographic Service, Marine Sciences Directorate, Department of the Environment, Ottawa. Ottawa 1972. (Chart No. 813).Google Scholar
  6. Bathymetric chart, Lake Erie. Natural scale 1∶400.000. Proj.: Polyconic. Publ. by the Canadian Hydrographic Service, Marine Sciences Branch, Dept. of the Environment. Ottawa 1971. 1 Bl.Google Scholar
  7. Belderson, R. H., Kenyon, N. H., Stride, A. H., Sonographs of the sea floor. A picture atlas. Amsterdam [usw.]: Elsevier 1972. 185 S. m. Abb.Google Scholar
  8. Berthois, L., Brenot, R., Bathymétrie du talus continental. ... Après les sondages exécutés à bord des navires océanographiques “Président Théodore Tissier” & “Thalassa”, “Jean Charcot” & “Job ha Zélian”. [Karten.] [Vermutl. hrsg. von: Institut Scientifique et Technique des Pêches maritimes.] [Paris 1966 (?).] 11 Bl.Google Scholar
  9. Bull. Amer. Assoc. Petrol. Geol. 56, 1972.No. 10, S. 1975–1983: Burke, K., Longshore drift, submarine canyons, and submarine fans in development of Niger Delta.Google Scholar
  10. Bull. Geol. Soc. Amer. 83, 1972. S. 1671–1692: Herron, E. M., Sea-floor spreading and the Cenozoic history of the east-central Pacific. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1788.]Google Scholar
  11. Bull. Inst. Pêches marit. Maroc., No.20, 1972. S. 121–128: Mathieu, R., Les sédiments de la marge continentale marocaine entre El-Jadida et Casablanca.Google Scholar
  12. Commemorative chart of New Zealand including Norfolk and Campbell I[sland]s. James Cook bicentenary, 1769–1969. Scale 1∶3.000.000 at lat. 35°. Depths, heights, magnetic variation curves. Wellington: Hydrographic Branch, Navy Off. 1969. 1 Bl. N. Z. 11 C.Google Scholar
  13. Dt. hydrogr. Z. 25, 1972.No. 5, S. 193–201: Meyer, O., Voppel, D., Fleischer, U., Results of bathymetric, magnetic and gravimetric measurements between Iceland and 70°N.Google Scholar
  14. Dock Harb. Author. 52,1972.No. 618. S. 501–503: Decca survey aids seabed exploration.Google Scholar
  15. Dokl. Akad. Nauk. SSSR.208, 1973.No. 1, S. 214–217: Udintsev, G. B., Litvin, V. M., Marova, N. A., New data on morphostructure of the Atlantic Ocean riftzone.—Dokl. Akad. Nauk. SSSR. 208, 1973.No. 3, S. 679–682: Malovitskii, J. P., Terekhov, A. A., On the nature of Arkhangelskii submarine ridge in the Black Sea. [Jeweils in russ. Spr.]Google Scholar
  16. Eade, J. V., Banganella Bank bathymetry. 1∶200,000 at lat. 41°. Wellington: New Zealand Oceanogr. Inst. 1972. Kt.Google Scholar
  17. Eade, J. V., Ha'apai bathymetry. 1∶200,000 at lat. 19°. Wellington: New Zealand Oceanogr. Inst. 1972. 1 Kt.Google Scholar
  18. Eade, J. V., Hauraki bathymetry. 1∶200,000 at lat. 41°. Publ. by the Department of Scientific and Industrial Research. Wellington: New Zealand Oceanogr. Inst. 1972. 1 Kt. (Coastal Chart Series)Google Scholar
  19. Earth planet. Sci. Letters. 11, 1971. S. 83–89: Haworth, R. T., A geophysical profile in the South-east Pacific. [Auch: Coll. Contr. Bedford Inst. No. 216.]—Earth planet. Sci. Letters. 17, 1973.No. 2, S. 411–415: Clague, D. A., Dalrymple, G. B., Age of Koko Seamount, Emperor Seamount chain.Google Scholar
  20. ESSA Monogr. 3, 1966. 6 Bl.: Nichols, H., Perry, R. B., Bathymetry of the Alëuten Arc, Alaska. Scale 1∶400,000. Plate 1–6.Google Scholar
  21. Geophys. Astrophys. Monogr. 2, 1972. 184 S. m. Abb.: Coulomb, J., Sea floor spreading and continental drift. Übers. aus d. Franz.Google Scholar
  22. J. geophys. Res. 77, 1972.No. 26, S. 5000–5032: Johnson, T., Molnar, P., Focal mechanisms and plate tectonics of the Southwest Pacific. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1837.]—J. geophys. Res. 77, 1972.No. 26, S. 5054–5057: Vogt, P. R., Comments on paper by X. Le Pichon, R. D. Hyndman, and G. Pautot, “Geophysical study of the opening of the Labrador Sea”.—J. geophys. Res. 77, 1972.No. 29, S. 5688–5696: Johnson, G. L., Southall, J. R., Young, P. W., Origin and structure of the Iceland plateau and Kolbeinsey Ridge.—J. geophys. Res. 77, 1972.No. 29, S. 5812–5819: Bryan, W. B., Morphology of quench crystals in submarine basalts. [Auch: Contr. Woods Hole ocean. Instn. No. 2767.]Google Scholar
  23. Komplexnye issledovanija prirody okeana. Moskva: Izd. Moskovskogo Universiteta 1972. Bd. 3, S. 151–155: Dolotov, Ju. S., Jurkevič, M. G., Šadrin, I. F., Über die jahreszeitlichen Änderungen des Unterwasser-Abhangs, der aus Muschelmaterial besteht. [In russ. Spr.]Google Scholar
  24. Linden, W. J. M. van der Hayes, D. E., Resolution bathymetry. 1∶1,000,000 at lat. 46°. Publ. by the Department of Scientific and industrial Research. Wellington: New Zealand Oceanogr. Inst. 1972. 1 Kt. (Oceanic Chart Series)Google Scholar
  25. Mar. Geol. 13, 1972.No. 3, S. M42-M50: Garde, S. C., Pramode, K. P., Joshi, M. S., Source cut-off and regeneration model for the thermotectonic activity of Indian Ocean ridges.—Mar. Geol. 13, 1972.No. 4, S. 225–237: Roberts, D. G., Slumping on the eastern margin of the Rockall Bank, North Atlantic Ocean.—Mar. Geol. 13, 1972.No. 5, S. 311–321: Davies, T. A., Wilde, P., Clague, D. A., Koko seamount: a major guyot at the southern end of the Emperor seamounts.—Mar. Geol. 13, 1972.No. 5, S. 323–334: Reimnitz, E., Barnes, P., Forgatsch, T., Influence of grounding ice on the Arctic shelf of Alaska.Google Scholar
  26. Mar. Technol. Soc. J. 6, 1972.No. 6, S. 34–36: Pierce, J. W., Siegel, F. R., Marine bottom sampling from helicopter.Google Scholar
  27. Materialy Poljar. nauč.-issl. Inst. morsk. ryb. Choz. Okeanogr. 19, 1972. S. 188–191: Litvin, V. M., The area, amount and average depth of the Norwegian-Greenland basin. [In russ. Spr.]Google Scholar
  28. “Meteor” Forsch.-Ergebn. (C). No.10, 1972. S. 17–38: Seibold, E., Cruise 25/1971 of R. V. “Meteor”: continental margin of West Africa. General report and preliminary results.Google Scholar
  29. Natural Resources Chart. 1∶250.000. Transverse Mercator Projection. Publ. by the Canadian Hydrogr. Serv., Mar. Sci. Br., Dep. of Energy, Mines and Resources. Ottawa 1971 —Google Scholar
  30. Nature, Lond. Vol.240,No. 5377,1972. S. 124: Diving off Azores.—Nature, Lond. Vol. 240, No. 5380, 1972. S. 338–342: Vogt, P. R., Evidence for global synchronism in mantle plume convection, and possible significance for geology.Google Scholar
  31. Nature, phys. Sci. Vol.239, No. 93, 1972. S. 91–93: Hekinian, R., Volcanics from the Walvis Ridge.—Nature, phys. Sci. Vol. 240, No. 98, 1972. S. 35–37: Herron, E. M., Two small crustal plates in the South Pacific near Easter Island.Google Scholar
  32. Norris, R. M., Linden, W. J. M., van der, Karamea bathymetry. 1∶200,000 at lat. 41°, Publ. by the Department of Scientific and Industrial Research. Wellington: New Zealand Oceanogr. Inst. 1972. 1 Kt. (Coastal Chart Series)Google Scholar
  33. Note. Inst. Phys. Globe Univ. Paris. No.26.1968. 8 S. [nebst] Suppl. 1–3.: Berthois, L., Schlich, R., Patriat, P., Carte bathymétrique du Sud de l'Océan Indien Text.. Dazu: Carte bathym. 3. éd. 1969. Bl. 1–5. Carte bathym. 4. éd. 1970. Bl. 1–6.Google Scholar
  34. NZOI Rec. 1, 1972.No. 5, S. 67–106: Wanoa, R. J., Lewis, K. B., Gazetteer of seafloor features in the New Zewland region.Google Scholar
  35. Offshore Serv. 1972.Oct., S. 34–35: Kelland, N. C., Hopkins, J. C., Mosaics from high resolution side scan sonar.Google Scholar
  36. Okeanologija. 12, 1972.No. 5, S. 823–830: Agapova, G. V., Geomorphology of the Peruvian-Chilian Trench.—Okeanologija. 12, 1972.No. 6, S. 1028–1036: Rozanova, T. V., New petrographic data on metamorphic rocks from the rift zone of the Arabian-Indian submarine ridge. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  37. Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol.1, 1971. S. 840–854: Loe, H., Brunvoll, N., Natural depths along shores in the North Sea and adjacent seas.Google Scholar
  38. Proc. US Navy Symp. milit. Oceanogr. 6, 1969. Vol.1, S. 345–353: Chase, T. E., Smith, S. M., Mapping the North Pacific Ocean sea floor.—Proc. US Navy Symp. milit. Oceanogr. 8, 1971. Vol. 1, S. 89–102: Spiess, F. N., Lowenstein, C. D., Seafloor pathfinding.Google Scholar
  39. Publ. Ext. cult. didáct. Mus. argent. Cienc. natur. No. 19. 1972. 114 S.: Mailhe, A. R., Terminología relacionada con la geomorfología litoral y submarina <con equivalentes en aleman, frances, ingles y portugues>.Google Scholar
  40. Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 577–581: Sègre, A., Stocchino, C., Nouvelles observations sur la géologie et la morphologie des montagnes sous-marines de la mer Tyrrhénienne.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 21, 1972.No. 4, S. 211–212: Ardel, A., Kurter, A., Topographie sous-marine de la mer de Marmara.Google Scholar
  41. Rep. hydrogr. Res., Tokyo No.4, 1968. S. 1–3 u. 2 Abb.: Iwabuchi, Y., Saiki, K., Topography of the Philippine Trench.Google Scholar
  42. Researches in hydrography and oceanography. Ed.: D. Shoji. Tokyo: Hydrographic Department 1972. S. 5–35: Iwabuchi, Y., Nakajima, T., Some topographies around the Japanese Islands.Google Scholar
  43. SACLANTCEN Conf. Proc. No. 7. 1972. (=Oceanography of the Strait of Sicily) S. 193–208: Morelli, C., Bathymetry, gravity and magnetism in the Strait of Sicily. [Auch: Contr. Oss. geofis. sperim., Trieste. No. 211.]Google Scholar
  44. Techn. Rep. Woods Hole oceanogr. Instn. Ref. No. 72-95, 1972. 9 S.: Uchupi, E., Emery, K. O., Seismic reflection, magnetic, and gravity profiles of the eastern Atlantic continental margin and adjacent deep-sea floor. 1. Cape Francis (South Africa), to Congo Canyon (Republic of Zaire).Google Scholar
  45. Umschau. 72, 1972.No. 22, S. 734–736: Minato, M., Wie sind die Tiefseebecken in den Randmeeren des westlichen Pazifik entstanden?Google Scholar
  46. Undersea Technol. 13, 1972.No. 9, S. 25–26: Edmiston, K., Two-foot contour chart produced for Texas Flower Garden Reef.Google Scholar
  47. Understanding the Mid-Atlantic Ridge. A comprehensive program. The rep. of a special workshop held under the auspices of the Ocean Sci. Comm. of the NAS-NRC Ocean Affairs Board Jan. 24–28, 1972. Washinton, D. C.: National Acad. of Sciences 1972. 131 S.Google Scholar
  48. (Veröff.) Dt. geod. Kommiss. (C). No. 179. 1972, 115 S.: Lange, T., Seetiefenmessung mit einem LIDAR-System. Möglichkeiten und Grenzen, dargestellt an verschiedenen Modellfällen.Google Scholar
  49. Vie et Milieu, Paris (B), 22, 1971.No. 1, S. 1–38: Chassefière, B., Lévy, A., Contribution à l'étude écologique des “cadoules” de la lagune de Thau.Google Scholar

Physical properties UDC 551.463.1 551.463.3 551.463.6 551.463.7

  1. Beitr. Meeresk., H.29, 1972. S. 93–107: Matthäus, W., Die Viskosität des Meerwassers.Google Scholar
  2. Deep-Sea Res. 20, 1973.No. 1, S. 101–105: Millero, F. J., Theoretical estimates of the isothermal compressibility of sea water. [Auch: Contr. Rosenstiel School mar. atmos. Sci. No. 1567.]Google Scholar
  3. J. geophys. Res. 77, 1972.No. 27, S. 5132–5146: Drost-Hansen, W., Molecular aspects of aqueous interfacial structures. [Auch: Contr. Lab. Water Res. Univ. Miami. No. 4.]Google Scholar
  4. J. mar. Res. 31, 1973.No. 1, S. 21–39: Millero, F. J., Hansen, L. D., Hoff, E. V., The enthalpy of seawater from 0 to 30°C and from 0 to 40‰ salinity. [Auch: Contr. Rosenstiel School mar. atmos. Sci. No. 1588.]Google Scholar
  5. J. sediment. Petrol. 41, 1971. S. 882–883: Whitmarsh, R. B., Precise sediment density determination by gamma-ray attentuation alone. [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley. 19, 1971. No. 829.]Google Scholar
  6. Kieler Meerforsch. 28, 1972.No. 2, S. 130–138: Rohde, J., Darstellung funktionaler Zusammenhänge zwischen physikalischen Größen des Meerwassers durch Näherungspolynome.Google Scholar
  7. Limnol. & Oceanogr. 17, 1972.No. 5, S. 651–660: Murray, S. P., Turbulent diffusion of oil in the ocean.Google Scholar
  8. Okeanologija 13, 1973.No. 2, S. 230–234: Fonarev, G. A., Shneer, V. S., Ponsov, A. G., Electric field measurements in tidal currents. [In russ. Spr. m. engl. Abstr.]Google Scholar
  9. Proc. US Navy Symp. milit. Oceanogr. 6, 1969. Vol. 1, S. 427–436: Connors, D. N., The heat of mixing of sea water.Google Scholar
  10. Radio electron. Eng. 42, 1972.No. 10, S. 447–452: Bogie, I. S., Conduction and magnetic signalling in the sea; a background review.—Radio electron. Eng. 42, 1972.No. 10, S. 453–456: Tucker, M. J., Conduction signalling in the sea.Google Scholar
  11. Trudy. Gosudarstv. okeanogr. Inst. 115, 1972. S. 49–60: Prokof'eva, I. M., [Einige Untersuchungsergebnisse der Wandelbarkeit der Temperatur an der Meeresoberfläche und Bestimmung einer räumlichen Diskontinuität von Beobachtungen.] [In russ. Spr.]Google Scholar

Underwater sound UDC 551.463.2

  1. Acustica. 26, 1972.No. 2, S. 55–66: McCann, D. M., Measurements of the acoustic properties of marine sediments.Google Scholar
  2. Antarct. Map Folio Ser. No.13, 1970. S. 6, Kt. 19.: Hunkins, K., Sound channels in Antarctic waters.Google Scholar
  3. Aust. J. Phys. 25, 1972.No. 4, S. 419–428: Dexter, P. E., Observations of the backscatter of ultrasonic waves from a rough water surface.Google Scholar
  4. Deep-Sea Res. 19, 1972.No. 10, S. 691–706: Watkins, W. A., Schevill, W. E., Sound source location by arrival-times on a non-rigid three-dimensional hydrophone array. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2768.]Google Scholar
  5. Encyclopaedic dictionary of Physics. Ed.: J. Thewlis. Oxford, New York: Pergamon 1971. Suppl. Vol. 4, S. 13–16: McCartney, B. S., Ambient noise in the sea. [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley 19, 1971. No. 811.]Google Scholar
  6. The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972).Vol. 1, S. 427–440: Katakura, K., Kobayashi, M., Tannaka, Y., Under-water viewing system.—The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972).Vol. 1, S. 441–453: Ogura, T., Kawashima, T., Uesugi, N., Underwater ultrasonic imaging system.Google Scholar
  7. J. Acoust. Soc. Amer. 52, 1972. P. 2,No. 3, S. 944–960: Brown, M. V., Saenger, R. A., Bistatic backscattering of low-frequency underwater sound from the ocean surface. [Auch: Contr. Geophys. Sci. Lab. New York Univ. No. 106.]—J. Acoust. Soc. Amer. 52, 1972. P. 2,No. 3, S. 961–974: Del Grosso, V. A., Mader, C. W., Speed of sound in sea-water samples.—J. Acoust. Soc. Amer. 52, 1972. P. 2,No. 3, S. 975–980: Epstein, D., Keller, J. B., Expansion and contraction of planar, cylindrical, and spherical underwater gas bubbles.—J. Acoust. Soc. Amer. 52, 1972. P. 2,No. 3, S. 981–988: Ferris, R. H., Comparison of measured and calculated normal-mode amplitude functions for acoustic waves in shallow water.—J. Acoust. Soc. Amer. 52, 1972. P. 2,No. 3, S. 993–999: Urick, R. J., Noise signature of an aircraft in level flight over a hydrophone in the sea.—J. Acoust. Soc. Amer. 52, 1972. P. 2,No. 3, S. 1000–1010: Weinberg, N. L., Dunderdale, T., Shallow water ray tracing with nonlinear velocity profiles.—J. Acoust. Soc. Amer. 52, 1972. P. 2,No. 3, S. 1060–1061: Blatstein, I. M., Comparison of ray theory and modified ray theory near a convergence zone caustic.—J. Acoust. Soc. Amer. 52, 1972. P. 2,No. 3, S. 1062–1064: Castelliz, H., On the intensity of aeolian sound under water.—J. Acoust. Soc. Amer. 52, 1972. P. 2,No. 5, S. 1437–1441: Barnard, G. R., Willette, J. G., Truchard, J. J., Parametric acoustic receiving array.—J. Acoust. Soc. Amer. 52, 1972. P. 2,No. 5, S. 1450–1455: Henriquez, T. A., An extended-range hydrophone for measuring ocean noise.—J. Acoust. Soc. Amer. 52, 1972. P. 2,No. 5, S. 1456–1464: Horton, C. W., Jones, J. D., A corrugated cylinder as a waveguide and end-fire radiator for underwaterGoogle Scholar
  8. J. Fish. Res. Bd Can. 29, 1972,No. 10, S. 1419–1423: Donaldson, H. A., Pearcy, W. G., Sound-scattering layers in the northeastern Pacific.Google Scholar
  9. Mar. Technol. Soc. J. 6, 1972.No. 6, S. 37–38: Pickett, R. L., Precision of sound speed estimated from BT's.Google Scholar
  10. Meerestechnik. 3, 1972.No. 6, S. 237–239: Voglis, G. M., Unterwasser- “Sehen” mit Schallwellen.Google Scholar
  11. Mber. Dt. Akad. Wiss. Berlin 13, 1971.No. 9, S. 675–681: Sager, G., Die Lösung des Schallwegintegrals bei einer Schallverteilung nach dem hyperbolischen Tangens.—Mber. Dt. Akad. Wiss. Berlin 13, 1971 No. 10-12, S. 793–804, 804–817: Sager, G., Zur Geometric von Schallstrahlen mit linearquadratisch kombinierten Ansatz v=v (z.). I. II.Google Scholar
  12. Morskoj Sbornik. Moskva 1972, No.12, S. 67–69: Prostakov, A., Hydroakustische Funkverbindung-worin besteht ihre Eingenart?—Morskoj Sbornik. Moskva 1973,No. 4, S. 68–72: Tarasjuk, Ju., Peterkov, V., [Ozeanische hydroakustische Polygone.] [Jeweils in russ. Spr.]Google Scholar
  13. Nature, phys. Sci. Vol.240,No. 100,1972. S. 86–87: Browning, D. G., Gorman, J. M., Jones, E. N., Lake Tanganyika sound attenuation experiment.Google Scholar
  14. NOLTR 67-12, 1967. III, 20 S., 13 Abb.: Urick, R. J., A prediction model for shallow water sound transmission.Google Scholar
  15. Okeanologija. 12, 1972.No. 5, S. 932–035: Prozorova, N. P., On the computation of the coefficient of sound scattering by the bathypelagic swim-bladder fish shoals based on the seining data.—Okeanologija. 12, 1972.No. 5, S. 982–986: Andreeva, I. B., the nature of scatterers and frequency characteristics of the sound scattering layers in the ocean.—Okeanologija. 12, 1972.No. 5. S. 1091–1094: Prozorova, N. P., Frequency characteristics of the resonance scatterers in biological aggregations of the ocean.—Okeanologija. 13, 1973.no. 2. S. 245–248: Bogdanova, N. B., Aratskaya, V. V., The evevation profile of sound velocity in the Drake Passage, its seasonal and spatial changes. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  16. Proc. US Navy Symp. milit. Oceanogr. 6, 1969.Vol. 1, S. 414–426: Katz, E. J., Variableness of the Sound velocity profile about the Mid-Atlantic Ridge axis.—Proc. US Navy Symp. milit. Oceanogr. 6, 1969, Vol. 1, S. 437–449: Hunkins, K., Sound scattering layers in the Arctic Ocean observed from Fletcher's Ice Island <T-3>.—Proc. US Navy Symp. mitil. Oceanogr. 8, 1971, Vol. 1, S. 408–420: Nadeau, P. G., Weapon performance predictions.—Proc. US Navy Symp. milit. Oceanogr. 8, 1971. Vol. 1, S. 421–447: Katz, E. J., The sound channel axis in the western Mediterranean.Google Scholar
  17. Studi in onore di Guiseppina Alivertl. Napoli 1972. S. 139–156: Paolini, E., Misure di attenuazione di impulsi sonori nel Mare Tirreno.Google Scholar

Optics UDC 551.463.5

  1. Acta geophys. polon. 20, 1972.No. 3-4, S. 305–310: Dera, J., Zalewski, S. M., Zajworoniuk, T., Preliminary study of a correlation between attenuation of irradiance and the concentration of suspended matter in the sea.—Acta geophys. polon. 20, 1972.No. 3-4, S. 311–321: Wensierski, W., Dera, J., Olszewski, J., An experiment with radiobuoy for remote optical measurements in the sea. [In poln. Spr. m. engl. Abstr]Google Scholar
  2. The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972).Vol. 1, S. 550–559: Kobori, F., Problems of oceanic illuminiation.Google Scholar
  3. Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 8, 1972.No. 10, S. 1114–1119: Bushmakova, O. V., Bass, L. P. Zege, E. P., The determination of the energy by an artificial source with the use of the transport approximation.—Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 7, 1972.No. 10. S. 1120–1123: Timofeyeva, V. A., The relationships among optical coefficients in turbid media. [Jeweils in russ. Spr.]Google Scholar
  4. J. appl. Met. 12, 1973.No. 1, S. 228–229: Payne, R. E., Comments on “Some high values for the albedo of the sea”.Google Scholar
  5. J. cons. 34, 1972.No. 3, S. 416–422: Dickson, R. R., On the relationship between ocean transparency and the depth of sonic scattering layers in the North Atlantic.Google Scholar
  6. J. geophys. Res. 77, 1972.No. 30, S. 5917–5929: Wu, S. T., Fung, A. K., A noncoherent model for microsurface. —J. geophys. Res. 77, 1972.No. 33, S. 6528–6538: Rosenkranz, P. W., Staelin, D. H., Microwave emmissivity of ocean foam and its effect on nadrial radiometric measurements.Google Scholar
  7. J. opt. Soc. Amer. 63, 1973.No. 3, S. 321–324: Zaneveld, J. R. V., Pak, H., Method for the determination of the index of refraction of particles suspended in the ocean.Google Scholar
  8. Limnol. & Oceanogr. 17, 1972.No. 3, S. 462–466: Idso, S. B., Modifications of shielded net radiometers to measure solar radiation profiles in water.—Limnol. & Oceanogr. 17, 1972,No. 3, S. 466–475: Burr, A.H., Duncan, M. J., Portable spectroradiometer for underwater environments.—Limnol. & Oceanogr. 17, 1972.No. 6, S. 826–832: Gordon, H. R., Brown, O. B., A theoretical model of light scattering by Sargasso Sea particulates.—Limnol. & Oceanogr. 17, 1972.No. 6, S. 833–839: Carder, K. L., Tomlinson, R. D., Beardsley, G. F., A technique for the estimation of indices of refraction of marine phytoplankters.Google Scholar
  9. Mar. Sci. Month., Jap. 4, 1972.No. 9, S. 7–10: Hishida, K., “Optical Oceanography”.—Mar. Sci. Month., Jap. 4, 1972.No. 9. S. 35–39: Shikama, N., Teramoto, T., The refractive index of sea water. [Jeweils in japan. Spr. m. engl. Abstr.]Google Scholar
  10. Mar. Technol. Soc. J. 7, 1973.No. 1, S. 29–33: Barrick, D. E., The use of skywave radar for remote sensing of sea states.Google Scholar
  11. Maritimes. 16, 1972.No. 1, S. 15–17: Payne, R. E., Albedo or how much of the sun's energy is absorbed by the sea.Google Scholar
  12. Okeanologija. 12, 1972.No. 5, S. 929–932: Karabashev, G. S., Solovyev, A. N., Bioluminescence in the Baltic Sea. [In russ. Spr. m. engl. Abstr.]Google Scholar
  13. Proc. US Navy Symp. milit. Oceanogr. 7, 1970.Vol. 1, S. 11–28: Leath, D. W., The significance of marine bioluminescencein sound scattering layer migration.Google Scholar
  14. Rapp. P.-V. Commiss. int. Explor. Mer. Médit. 20, 1972.No. 4, S. 645–649: Prieur, L., Photomètre sousmarine destiné à mesures un flux photons <Quantum-mèrer>. —Rapp. P.-V. Commiss. int. Explor. Mer. Médit. 21, 1972,No. 4, S. 159–164: Nyffeler, F., Prieur, L., Mesure des Propriéties optiques de l'eau de mer-Relations avec l'hydrologie et l'activité biologique.Google Scholar
  15. Thalassia jugosl. 5, 1969. S. 329–336: Škrivanić, A., Pučar, Z., Kečkeš, S., Hydrographic and biotical conditions in the North Adriatic — II: Peenetration of light into the sea.Google Scholar
  16. Williams, J., Optical properties of the sea. Annapolis, Md.: United States Naval Institute 1970. X, 123 S.Google Scholar

Suspensions UDC 551.463.8

  1. Basic Res. Progr. Rep. Coast. Engng Lab. Techn. Univ. Denmark. 21, 1970. S. 7–14: Engelund, F., A note on the mechanics of sediment suspension.Google Scholar
  2. Deep-Sea Res. 10, 1972.No. 10, S. 719–726: Harris, J. E., Characterization of suspended matter in the Gulf of Mexico. 1. Spatial distribution of suspended matter.Google Scholar
  3. The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren-Kaikan, Tokyo (Tokyo 1972).Vol. 2 1786–1800: Choe, S., Studies on the seasonal variations of plankton organisms and suspended particulate matter in the coastal area of Ko-ri.Google Scholar
  4. J. geophys. Res. 77, 1972.No. 27, S. 5255–5265: Prospero, J. M., Carlson, T. N., Vertical and areal distribution of Salaran dust over the western equatorial North Atlantic Ocean.—J. geophys. Res. 77, 1972.No. 33, S. 6576–6588: Ichiye, T., Bassin, N. J., Harris, J. E., Diffusivity of suspended matter in the Caribbean Sea.Google Scholar
  5. Limnol. & Oceanogr. 17, 1972.No. 3, S. 327–340: Sheldon, R. W., Prakash, A., Sutcliffe, W. H., The size distribution of particles in the ocean.—Limnol. & Oceanogr. 17, 1972.No. 3. S. 341–438: Reiswig, H. M., the spectrum of particulate organic matter of shallow-bottom boundary waters of Jamaica.—Limnol. & Oceanogr. 17, 1972,No. 3, S. 349–355: Loder, T. C., Hood, D. W., Distribution of organic carbon in a glacial estuary in Alaska. [Auch: Contr. Inst. mar. Sci. Univ. Alaska. No. 159.]—Limnol. & Oceanogr. 17, 1972.No. 5, S. 784–787: Harris, J. E., McKee, T. R., Wilson, R. C., Preparation of membrane filter samples for direct examination with an electron microscope.Google Scholar
  6. Mar. Sci. Month., Jap. 4, 1972.No. 9, S. 24–28: Sakamoto, W., Physical property of inorganic suspended matter.—Mar. Sci. Month., Jap. 4, 1972.No. 9. S. 40–44: Kajihara, M., Some optical problems considered from the observation near the seabed. [Jeweils in japan. Spr. m. engl. Abstr.]Google Scholar
  7. Okeanologija. 12, 1972.No. 5, S. 905–910: Belyaev, Yu. I., Gordeev, V. V., Determination manganese, silver, lead and cadmiumm in the marine suspended matter by the atomic absorption method using the are atomizer.—Okeanologija. 13, 1973.No. 1, S. 95–106: Sorokin, Yu. I., Productivity of the bacterial plankton in the West Pacific. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  8. Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol.1, 1971. S. 227–245: Burrell, D. C., Suspended sediment distribution patterns within an active turbidoutwasch flord. [Auch: Contr. Inst. mar. Sci. Univ. Alaska No. 115.]Google Scholar
  9. Rapp. P.-V. Commiss. inst. Explor. Mer. Médit. 20, 1972.No. 4, S. 651–652: Copin-Amieil, C., Étude chimique des particules en suspenson dans l'eau du mer.Google Scholar
  10. Vop. Geogr., Mosk. 84, 1970. S. 115–129: Zenkovich, V. P., Muddy strata formation in the near-shore waters of the sea. [in russ. Spr. m. engl. Abstr.]Google Scholar

Chemistry UDC 551.464

  1. Ahrens, L. H. [u.a.]: Physics and chemistry of the earth. Vol. 8. Oxford [usw.]: Pergamon Press (1971). S. 307–333: Wedepohl, K. H., Environmental influences on the chemical composition of shales and clays.Google Scholar
  2. Analyst, Cambr. 77, 1952. S. 188–195: Smales, A. A., Pate, B. D., The determination of sub-microgram quantities of arsenic by radioactivation. Part 2. The determination of arsenic in sea-water.Google Scholar
  3. Analyt. Chem. 45, 1973.No. 1, S. 136–140: Fanning, K. A., Pilson, M. E. Q., On the spectrophotometric determination of dissolved silica in natural water.Google Scholar
  4. Analyt. chim. Acta 62, 1972. S. 22–203: Topping, G., Pirie, J. M., Determination of inorganic mercury in natural waters.Google Scholar
  5. Ann. Inst. océanogr., Paris. 48, 1971–1972 (1972),No. 2, S. 141–156: Nival, P., Malara, G., Charra, R., La matière organique particulaire en Méditerranée occidentale en mars 1970 (chlorophylle, protéines, glucides). Mission “Médiprod II” du “Jean-Charcot”Google Scholar
  6. Annu. offshore Technol. Conf. 3, 1, 1971.Pap. OTC 1368, S. 429–434: Ennis, C. E., Problems and solutions in large scale evaporation.Google Scholar
  7. Apl. Microbiol., 19, 1970.No. 6, S. 960–962: Seki, H., Microbial biomass on particular organic matter in sea water of the euphotic zone. [Auch: Contr. No. 262: S. 460–462, Coll. Repr. Oc. Res. Inst. Univ. Tokyo. 9, 1970 (1971).]Google Scholar
  8. Atom, Lond. No.198, 1973. S. 88–98: Hawes, R. I., Sea water destillation studies in the U.K.A.E.A.Google Scholar
  9. Baseline studies of heavy metal, balogenated hydrocarbon, and petroleun hydrocarbon pollutants in the marine environment and research recommendations. Deliberations of the Int. Decade of Ocean Explor. <IDOE> Baseline Conf., May 24–26, 1972, New York. E. D. Goldberg, convener. [Washington: Nat. Sci. Foundation, Off. for the Int. Decade of Ocean Explor.] 1972. XI, 54 S.Google Scholar
  10. Beitr. Meeresk., H.29, 1972. S. 115–127: Berge, H., Brügmann, L., Indirekte Bestimmung von Fluoridionen im Meerwasser durch Wechselstrompolarographie.Google Scholar
  11. Gah. ORSTOM, Océanogr. 10, 1972.No. 1, S. 71–73: Angot, M., Comparaison de deux méthodes de traitement des échantillons déau <“in situ réel” et “in situ simulé”> pour l'étude de la production primaire par la technique de carbone 14.—Cah. ORSTOM, Océanogr. 10, 1972.No. 3, S. 267–274: Dandonneau, Y., Étude du phytoplancton sur le plateau continental de Côte d'Ivoirre. II. Réprésentativité de l'eau de surface pour la description et pour l'interpretation des phénomènes dynamiques.Google Scholar
  12. Contr. Sedimentol. Res. Lab. Fla St. Univ. No. 34. 1972. XI, 161 S. m. Abb. u. Tab.: Schornick, J. C., uranium and thorium isotope geochemitry in ferromanganese concretions from the southern Ocean. [Diss., Fla State Univ., May 1972.]Google Scholar
  13. CRC crit. Rev. solid St. Sci. 1970.Sept., S. 409–478: Spencer, D. W., Brewer, P.M G., Analytical methods in oceanography.Google Scholar
  14. Deep-Sea Res. 19, 1972.No. 10, S. 727–730: Windom, H. L., Smith, R. G., Distribution of cadmium, cobalt, nickel and zinc in southeastern United States continental shelf waters.—Deep-Sea Res. 19, 1972.No. 10. S. 731–735: Choi, C. I., Primary production and release of dissolved organic carbon from phytoplankton in the western North Atlantic Ocean.—Deep-Sea Res. 19, 1972.No. 10. S. 747–752: Carr, R. A., Hoover, J. B., Wilkniss, P. E., Cold-vapor atomic absorption analysis for mercury in the Greenland Sea.—Deep-Sea Res. 19, 1972.No. 12, S. 847–863: Fanning, K. A., Pilson, M. E. Q., A model for the anoxic zone of the Cariaco Trend.—Deep-Sea Res. 18, 1972.No. 12, S. 899–902: Kamp-Nielsen, L., Some comments on the determination of copper fractions in natural waters.—Deep-Sea Res. 20, 1973.No. 1, S. 87–99: Ben-Yaakov, S., Goldhaber, M. B., The indleunce of sea water composition on the apparent constants of the carbonate system.—20, 1973,No. 3, S. 221–233: Liss, P. S., Process of gas exchange across an air-water interface.Google Scholar
  15. Doc. sci. Centre Pointe-Noire ORSTOM. N. S. No. 25. 1972. 48 S., 21 Abb.: Dufour, P., Merle, J., Station côtière en Atlantique tropical. Hydroclimat et production primaire.—Doc. sci. Centre Pointe-Noire ORSTROM. N. S. No. 29, 1972, 21 S.: Citeau, J., Analyse du molybdère dissous dans l'eau de mer.Google Scholar
  16. Dokl. Akad, Nauk SSSR.206, 1972.No. 5, S. 1207–1210: Alekin, O. A., Morachevskii, D. E., Saturation of the Mediterranean Sea water with calcium carbonate.—Dokl. Akad, Nauk SSSR. 207, 1972.No. 1, S. 182–189: Baturin, G. N., On the proportion of average concentrations of uranium and organic matter in recent sea and ocean sediments.—Dokl. Akad, Nauk SSSR 208, 1973.No. 3, S. 705–706: Kholina, Iu. B. Zarinskii, V. A., Popov, S. I., Separation of dispered components of the oceanic water by the electric filtration method.—Dokl. Akad, Nauk SSSR. 209, 1973,No. 5, S. 1210–1212: Khailov, K. M., Finenko, G. A., Burlakova, Z. P., On the relation between stationary concentrations of organic matter basic forms in sea water and unit rates of their trophic consumption by organisms of coastal associations. [Jeweils: in russ Spr.]Google Scholar
  17. Dyrssen, D. [u.a.]: The changing chemistry of the oceans. Stockholm 1972. (Nobel Symposium 20.) S. 53–73: Hahan, J., Nitrous oxide in air and sea water over the Atlantic Ocean.—Dyrssen, D. [u.a.]: The changing chemistry of the oceans. Stockholm 1972. (Nobel Symposium 20.) S. 121–145: Machta, L., The role of the oceans and biosphere in the carbon dioxide cycle.—Dyrssen, D. [u.a.]: the changing chemistry of the oceans. Stockholm 1972. (Nobel Symposium 20.) S. 147–160: Pytkowicz, R. M., The chemical stability of the oceans and the CO2 system.—Dyrssen, D. [u.a.]: The changing chemistry of the oceans. Stockholm 1972. (Nobel Symposium 20.) S. 161–169: Jernelöv, A., Mercury — A case study of marine pollution.—Dyrssen, D. [u.a.]: The changing chemistry of the ocean. Stockholm 1972. (Nobel Symposium 20.) S. 171–176: Ui, J., A few coastal pollution problems in Japan.—Dyrssen, D. [u.a.]: The changing chemistry of the oceans. Stockholm 1972. (Nobel Symposium 20.) S. 177–188: Harvey, G. R., Bowen, V. T., Backus, R. H., Chlorinated hydrocarbons in open-ocean Atlantic organisms.—Dyrssen, D. [u.a.]: The changing chemistry of the oceans. Stockholm 1972. (Nobel Symposium 20.) S. 189–204: Sorokin, Y. I., Microbial activity as a biogeochemical factor in the ocean.—Dyrssen, D. [u.a.]: The changing chemistry of the ocean. Stockholm 1972. (Nobel Symposium 20.) S. 205–207: Skopintsev, B., On the age of stable organic matter-aquatic humus in oceanic waters.—Dyrssen, D. [u.a.]: The changing chemistry of the oceans. Stockholm 1972. (Nobel Symmposium 20.) S. 223–266: Odum, H. T., Chemical cycles with energy circuit models.—Dyrssen, D. [u.a.]: The changing chemistry of the oceans. Stockholm 1972. (Nobel Symposium 20.) S. 329–346: Stumm, W., the acceleration of the hydrogeochemical cycliong of phosphorus.—Dyrssen, D. [u.a.]: The changing chemistry of the oceans. Stockholm 1972. (Nobel Symposium 20.) S. 347–364: Berner, R. A., Sulfate reduction, pyrite formation, and the oceanic sulfur budget.Google Scholar
  18. Earth planet. Sci. Letters. 16, 1972.No. 2, S. 245–249: Calvert, S. E., Price, N. B., Diffusion and reaction profiles of dissolved manganes in the pore waters of marine sediments.—Earth planet. Sci. Letters. 17, 1973.No. 2, S. 295–305: Craig, H., Krishnaswami, S., Somayajulu, B. L. K.,210Pb226Ra: Radioactive disequilibrium in the deep sea.—Earth planet. Sci. Letters. 17, 1973.No. 2, S. 306–318: Chung, Y., Craig, H., Radium-226 in the eastern equatorial Pacific.—Earth planet. mSci. Letters. 17, 1973.No. 2. S. 319–323: Chung, Y., Excess radon in the Santa Barbara basin.Google Scholar
  19. Endeavour. Vol.31.No. 114.1972. S. 113–117: Tooms, J. S., Rohsoffe aus dem Meer und ihre Gewinnungsmöglichkeiten.Google Scholar
  20. Eos, Wash., Vol.52.1971.No. 6, S. 237–244: Turekian, K. K., Marine geochemistry.Google Scholar
  21. Estuar. coast. mar. Sci. 1, 1973.No. 1, S. 71–79: Farrington, J. W., Quinn, J. G., Petroleum hydrocarbons in Narragansett Bay. 1. Survey of hydrocarbons in sediments and clams (Mercenaria mercenaria). [Auch: Contr. Woods Hole Oceanogr. Inst. No. 2880.]—Estuar. coast. mar. Sci. 1, 1973.No. 1, S. 81–87: Zafiriou, O. C., Petroleum hydrocarbons in Narragansett Bay. 2. Chemical and isotopic analysis. [Auch: Contr. Woods Hole Oceanogr. Inst. No. 2881.]—Estuar. coast. mar. Sci. 1, 1973.No. 1, S. 107–111: Hair, M. E., Bassett, C. R., Dissolved and particulate humic acids in an east coast estuary.Google Scholar
  22. Geochim. cosmochim. Acta. 36, 1972.No. 11, S. 1237–1253: Thompson, G., A geochemical study of some lithified carbonate sediments from the deep-sea.—Geochim. cosmochim. Acta. 37, 1973.No. 1, S. 53–68: Gardner, L. R., Chemical models for sulfate reduction in closed anaerobic marine environments.—Geochim. cosmochim. Acta. 37, 1973.No. 5, S. 1327–1337: Kullenberg, B., Gupta, R. S., Fluoride in the Baltic.Google Scholar
  23. Handbook of geochemistry. K. H. Wedepohl [ed.] Berlin, Heidelberg, New York: Springer. Vol. II, 3, 1972. [Losebl.-Ordner].Google Scholar
  24. Helgoländ. wiss. Meeresunters. 24, 1973.No. 1-4, S. 465–475: Gundersen, K., In situ determination of primary production by means of a new incubator ISIS. [Auch: Contr. Hawaii Inst. Geophys. No. 399.]Google Scholar
  25. The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972).Vol. 2, S. 2029–2039: Ishizaka, S., The National R & D Project of sea water desalination.—The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972).Vol. 2, S. 2040–2051: Goto, T., A byproduct recovery process from waste brine of a multistage flash plant.Google Scholar
  26. Invest. pesq., Barcelona.35, 1971.No. 1, S. 221–232: MacIsaac, J. J., Olund, R. K., An automated extraction procedure for the determination of ammonia in seawater.Google Scholar
  27. Jber. Ges. Kernenergieverwertung Schiffbau Schiffahrt, 1971. S. 158–163: Meerwasserentsalzung.Google Scholar
  28. J. Cons. 34, 1972.No. 3, S. 423–454: Sorokin, Yu. I., The bacterial population and the processes of hydrogen sulphide oxidation in the Black Sea.—J. Cons. 34, 1972.No. 3, S. 516–521: Grasshoff, K., Johannsen, H., A new sensitive and direct method for the automatic determination of ammonia in sea water.—J. Cons. 34, 1972.No. 3, S. 522–528: Grasshoff, K., Wenck, A., A modern version of the Mohr-Knudsen titration for the chlorinity of sea water.Google Scholar
  29. J. Earth Sci. 10, 1962.No. 1, S. 34–50: Sugawara, K., Terada, K., Kanamori, S., On different distribution of calcium, strontium, iodine, arsenic and molybdenum in the northwestern Pacific, Indian and Antarctic Oceans.Google Scholar
  30. J. Fish. Res. Bd. Can. 29, 1972.No. 12, S. 1786–1787: Hurst, R. E., The representation of lower molecular weight fatty acids by the Bligh and Dyer extraction method.—J. Fish. Res. Bd. Can. 30, 1973.No. 2, S. 215–222: Cattell, S. A., The seasonal cycle of vitamin B1, in the Strait of Georgia, British Columbia.—J. Fish. Res. Bd. Can. 30, 1973.No. 3, S. 345–356: Daley, R. J., Gray, C. B. J., Brown, S. R., A quantitative, semiroutine method for determining algal and sedimentary chlorophyll derivatives.Google Scholar
  31. J. geophys. Res. 77, 1972.No. 27, S. 5302–5306: Wheeler, J., Some effects of solar levels of ultraviolet radiation on lipids in artificial sea water.Google Scholar
  32. J. Mar. biol. Assoc. U.K. 52, 1972.No. 4, S. 1045–1055: Treguer, P., Le Corre, P., Courtot, P., A method for determination of the total dissolved free fatty-acid content of sea water.Google Scholar
  33. J. mar. Res. 31, 1973.No. 1, S. 79–86: Ben-Yaakov, S., Kaplan, I. R., Comments on “Redox potentials by equilibration”, by W. C. Breck. with reply.Google Scholar
  34. J. Oceanogr. Soc. Japan. Vol.28, 1972.No. 1, S. 8–17: Shimura, S., Ischimura, S., Primary productivity in coastal water adjacent to the Kuroshio off Shimoda. [Auch: Contr. Shimoda mar. biol. Stat. No. 239, 1971.]—J. Oceanogr. Soc. Japan. Vol. 28, 1972.No. 1, S. 27–36: Takahashi, M., Satake, K., Nakamoto, N., Chlorophyll distribution and photosynthetic activity in the north and equatorial Pacific Ocean along 155°W. 1971.—J. Oceanogr. Soc. Japan. Vol. 28. 1972.No. 1, S. 37–38: Robertson, D. E., Short Communication. Salinity Reductions resulting from freezing seawater in polyethylene bottles. 1972.Google Scholar
  35. J. phys. Oceanogr. 3, 1973.No. 2, S. 230–236: Frank, D. J., Deuterium distribution in the Gulf of Mexico.Google Scholar
  36. Kieler Meeresforsch. 28, 1972.No. 2, S. 99–118: Kremling, K., Untersuchungen über die chemische Zusammensetzung des Meerwassers aus der Ostsee. 3. Frühjahr 1969 — Herbst 1970.Google Scholar
  37. Lagena. 1970. No.25, 26, S. 17–21: Morelock, J., Silice en el ambiente marino.Google Scholar
  38. Limnol. & Oceanogr. 17, 1972.No. 3, S. 371–382: McCarthy, J. J., Eppley, R. W., A comparison of chemical, isotopic, and enzymatic methods for measuring nitrogen assimilation of marine phytoplankton. —Limnol. & Oceanogr. 17, 1972.No. 3, S. 383–393: Whitfield, M., The electrochemical characteristics of natural redox cells.—Limnol. & Oceanogr. 17, 1972.No. 4, S. 524–531: Gundersen, K., Mountain, C. W., Taylor, D., Some chemical and microbiological observations in the Pacific Ocean off the Hawaiian Islands. [Auch: Contr. Hawaii Inst. Geophys. No. 398.]—Limnol. & Oceanogr. 17, 1972.No. 4, S. 570–582: Nissenbaum, A., Kaplan, I. R., Chemical and isotopic evidence for the in situ origin of marine humic substances. [Auch: Publ. Inst. Geophys. planet. Phys. Univ. Calif. No. 973.]—Limnol. & Oceanogr. 17, 1972.No. 4, S. 616–618: Berman, T., Profiles of chlorophyll concentrations by in vivo fluorescence: some limnological applications.—Limnol. & Oceanogr. 17, 1972.No. 4, S. 618–622: Gorham, E., Sanger, J. E., Fossil pigments in the surface sediments of a meromictic lake. [Auch: Contr. Limnol. Res. Center. Univ. Minnesota. No. 104.]—Limnol. & Oceanogr. 17, 1972.No. 4, S. 622–626: Machan, R., Ott, J., Problems and methods of continuous in situ measurements of redox potentials in marine sediments.—Limnol. & Oceanogr. 17, 1972.No. 4, S. 633–635: Gibson, C. E., Stewart, D. A., Changes in the water chemistry of Lough Neagh over a 10-year period.—Limnol. & Oceanogr. 17, 1972.No. 5, S. 661–671: Zirino, A., Yamamoto, S., A pH-dependent model for the chemical speciation of copper, zinc, cadmium, and lead in seawater.—Limnol. & Oceanogr. 17, 1972.No. 5, S. 749–758: Clark, M. E., Jackson, G. A., North, W. J., Dissolved free amino acids southern California coastal waters.—Limnol. & Oceanogr. 17, 1972.No. 5, S. 777–784: Marvin, K. T., Proctor, R. R., Neal, R. A., Some effects of filtration on the determination of nutrients in fresh and salt water. [Auch: Contr. Nat. mar. Fish. Serv. biol. Lab., Galveston, No. 320]—Limnol. & Oceanogr. 17, 1972.No. 6, S. 885–900: Cline, J. D., Richards, F. A., Oxygen deficient conditions and nitrate reduction in the eastern tropical North Pacific Ocean. [Auch: Contr. Dep. Oceanogr. Univ. Wash. No. 670.]—Limnol. & Oceanogr. 17, 1972.No. 6, S. 931–937: Hager, S. W., Atlas, E. L., Gordon, L. I., A comparison at sea of manual and autoanalyzer analyses of phosphate, nitrate, and silicate.—Limnol. & Oceanogr. 17, 1972.No. 6, S. 958–959: Pytkowicz, R. M., Comments on “The control of seawater pH by ion pairing” (P. J. Wangersky).—Limnol. & Oceanogr. 17, 1972.No. 6, S. 959–962: Kester, D. R., Effect of ion pairing on the pH of seawater, with reply: Ion pairing and pH. By P. J. Wangersky.—Limnol. & Oceanogr. 18, 1973.No. 1, S. 86–94: Ben-Yaakov, S., pH buffering of pore water of recent anoxic marine sediments.—Limnol. & Oceanogr. 18, 1973.No. 1, S. 95–105: Bradshaw, A., The effect of carbon dioxide on the specific volume of seawater. [Auch: Contr. Woods Hole Oceanogr. Inst. No. 2751.]—Limnol. & Oceanogr. 18, 1973.No. 1, S. 106–120: Smith, S. V., Carbon dioxide dynamics: a record of organic carbon production, respiration, and calcification in the Eniwetok Reef flat community. [Auch: Contr. Hawaii Inst. Geophys. No. 434.]—Limnol. & Oceanogr. 18, 1973.No. 1, S. 143–145: Shapiro, J., A field fixation technique for dissolved phosphate in lake water. [Auch: Contr. Limnol. Res. Center Univ. Minnesota No. 117.]—Limnol. & Oceanogr. 18, 1973.No. 1, S. 146–150: Degobbis, D., On the storage of seawater samples for ammonia determination.—Limnol. & Oceanogr. 18, 1973.No. 1, S. 150–152: Cooke, R. C., The use of activated charcoal for the removal of oxygen from gas systems.—Limnol. & Oceanogr. 18, 1973.No. 1, S. 152–154: Czaplewski, R. L., Parker, M., Use of a BOD (Biological Oxygen Demand) [aus 87408 Lesez.] oxygen probe for estimating primary productivity.Google Scholar
  39. Mahasagar. 4, 1971.No. 3-4, S. 108–110: Sharma, G. S., The specific alkalinity in the northern Indian Ocean during the Southwest monsoon.—Mahasagar. 5, 1972.No. 2, S. 88–91: Anantha P., Setty, M. G., Mineral resources of the sea.Google Scholar
  40. Mar. Biol. 7, 1970.No. 2, 167–170: Legendre, L., Watt, W. D., The distribution of primary production relative to a cyclonic gyre in Baie des Chaleurs. [Auch: Trav. Pêch. Québéc. No. 30.]—Mar. Biol. 10, 1971.No. 1, S. 52–65: Platt, T., Conover, R. J., Variability and its effect on the 24th chlorophyll budget of a small marine basin. [Auch: Coll. Contr. Bedford Inst. No. 231; Can. Contr. IBP No. 97.]Google Scholar
  41. Mar. Chem. 1, 1972.No. 1, S. 3–26: Ben-Yaakov, S., On the CO2−O2 system in the northeastern Pacific.—Mar. Chem. 1, 1972.No. 1, S. 43–53: Bertine, K. K., The deposition of molybdenum in anoxic waters.—Mar. Chem. 1, 1972.No. 1, S. 61–73: Ohwada, K., Taga, N., Distribution and seasonal variation of vitamin B1?, thiamine and biotin in the sea.—Mar. Chem. 1, 1972.No. 2, S. 75–88: Leyendekkers, J. V., The chemical potentials of seawater components.—Mar. Chem. 1, 1972.No. 2, S. 89–104: Millero, F. J., Lepple, F. K., The density and expansibility of artificial seawater solutions from 0 to 40°C and 0 to 21‰ chlorinity. [Auch: Contr. Rosenstiel School mar. atmos. Sci. No. 1605.]—Mar. Chem. 1, 1972.No. 2, S. 127–136: Zsolnay, A., The relative distribution of non-aromatic hydrocarbons in the Baltic in September 1971.—Mar. Chem. 1, 1972.No. 2, S. 137–149: Dyrssen, D., Hansson, I., Ionic medium effects in sea water- a comparison of acidity constants of carbonic acid and boric acid in sodium chloride and synthetic sea water.—Mar. Chem. 1, 1972.No. 2, S. 151–156: Copin-Montegut, C., Copin-Montegut, G., Comparison between two processes of determination of particulate organic carbon in sea water.Google Scholar
  42. Mar. Pollution Bull. 3, 1972.No. 11, S. 169–171: Shiber, J. G., Ramsay, B., Lead concentrations in Beirut waters.—Mar. Pollution Bull. 3, 1972.No. 12, S. 188–190: Nickless, G., Stenner, R., Terrille, N., Distribution of cadmium, lead and zinc in the Bristol Channel.Google Scholar
  43. Mar. Publ. Ser. Univ. Rhode Isl. No.2, 1973. S. 2-1–2-36: Kester, D. R., Courant, R. A., A summary of chemical oceanographic conditions: Cape Hatteras to Nantucket Shoals.—Mar. Publ. Ser. Univ. Rhode Isl. No. 2, 1973. S. 3–1–3–100: Smayda, T. J., A survey of phytoplankton dynamics in the coastal waters from Cape Hatteras to Nantucket.Google Scholar
  44. Mar. Sci. Month., Jap. 4, 1972.No. 9, S. 50–54: Fujita, Y., Underwater irradiation and phytoplankton photosynthesis. —Mar. Sci. Month., Jap. 4, 1972.No. 9, S. 55–61: Kamatani, A., Silica cycle in the ocean. [Jeweils in japan. Spr. m. engl. Abstr.]Google Scholar
  45. Maritimes, Vol.16, 1972.No. 4, S. 11–12: Johnson, D. L., Arsenic in the ocean.Google Scholar
  46. Materialy Poljar. nauč.-issl. Inst. morsk. ryb. Choz. Okeanogr. 19, 1972. S. 126–135: Zlobin, V. S., Endaltsev, N. V., Forecasting of the seasonal distribution of phosphates in the layer of photosynthesis with the use of a random function. [In russ. Spr.]Google Scholar
  47. Medd. Havsfiskelab., Lysekil, hydrogr. Avd., No. 133, 1972. 12 S.: Öström, B., Expendable ampuls for oxygen determination. [In schwed. Spr. m. engl. Abstr.]—Medd. Havsfiskelab., Lysekil, hydrogr. Avd., No. 134, 1972. 8 S.: Fonselius, S. H., On primary production in the Baltic. [Auch: Contr. ICES C. M. 1971/L: 16.]—Medd. Havsfiskelab., Lysekil, hydrogr. Avd., No. 138, 1972. 14 S.: Bladh, J.-O., Measurements of yellow substances in the Baltic and neighbouring seas during 1970–1972. [Auch: Conf. balt. Oceanogr. 8, 1972. Pap.]Google Scholar
  48. “Meteor”-Forsch.-Ergebn. (A). No.11, 1972. S. 74–88: Rabsch, U., Zur Verteilung von Sauerstoff und von Nährstoffen im Persischen Golf auf Grund von Beobachtungen von F. S. “Meteor” im Frühjahr 1965.Google Scholar
  49. Morskoj Sbornik. 2, 1973. S. 13–25: Gorškov, S. G., [Kriegsmarine im Kriege und im Frieden: Probleme bei der Nutzung des Weltmeeres.] [In russ. Spr.]Google Scholar
  50. Nature, phys. Sci. Vol.240, No. 100, 1972. S. 89–90: Polifka, J. R., Atwood, D. K., Pilkey, O. H., Compositional changes of recent mollusc shells on the sea floor.—Nature, phys. Sci. Vol. 240, No. 102, 1972. S. 137–139: Audley-Charles, M. G., Cretaceous deep-sea manganese nodules on Timor: implications for tectonics and olistostrome development.Google Scholar
  51. Navigation, Paris, Vol.20, No. 80, 1972. S. 395–411: Charbonnier, G., Un nouveau type de loch.Google Scholar
  52. Ocean Industry. Vol.7,1972.No. 10, S. 54–55: Heavy metal deposits discovered in South Pacific.Google Scholar
  53. Oceanogr. Mag. 24, 1972.No. 1, S. 65–79: Yoshimura, H., On the distribution of phosphorus along 170°W longitude in the Pacific and Antarctic Oceans.Google Scholar
  54. Oceanogr. mar. Biol. 8, 1970, S. 203–224: Ackefors, H., Löfroth, G., Rosén, C.-G., A survey of the mercury pollution problem in Sweden with special reference to fish.—Oceanogr. mar. Biol. 9, 1971. S. 11–60: Pytkowicz, R. M., Kester, D. R., The physical chemistry of sea water.—Oceanogr. mar. Biol. 10, 1972. S. 349–414: Strickland, J. D. H., Research on the marine planktonic food web at the Institute of Marine Resources: a review of the past seven years of work.Google Scholar
  55. Okeanologija. 12, 1972.No. 5, S. 803–808: Skopintsev, B. A., On the saturation of the Black Sea deep water with calcium phosphate.—Okeanologija. 12, 1972.No. 5, S. 809–816: Aizatulin, T. A., Khailov, K. M., Kinetics of the transformation of proteins and polysaccharides dissolved in the sea water through the interaction with detritus.—Okeanologija. 12, 1972.No. 5, S. 898–905: Starikova, N. D., Yablokova, O. G., On the methods for determining free saccharides <carbohydrates> in the sea water, suspended matter and bottom sediments.—Okeanologija. 12, 1972.No. 6, S. 1003–1009: Maksimova, M. P., Nitrogen and phosphorus regeneration rates computed for the Indian Ocean.—Okeanologija. 12, 1972.No. 6, S. 1010–1019: Lyakhin, Yu. I., Saturation of the Atlantic water with calcium carbonate.—Okeanologija. 12, 1972.No. 6, S. 1107–1112: Starikova, N. D., Korzhikova, L. I., Determination of fixed amino acids and fixed carbohydrates in the sea water and sediment.—Okeanologija. 13, 1973.No. 2, S. 249–254: Glazovsky, N. F., Ivanov, V. A., Meskheteli, A. V., On the studies of submarine springs.—Okeanologija. 13, 1973.No. 2, S. 255–258: Patin, S. A., Some peculiarities of the occurence of metals in the pelagic ecosystem of the ocean.—Okeanologija. 13, 1973,No. 2, S. 307–313: Kuzmenko, L. V., Primary production of the northern Arabian Sea. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  56. Pomorski Zborni, Zadar, 8, 1970. S. 847–856: Pucher-Petković, T., Seasonal and long-term fluctuations of the primary production in the Central Adriatic. [In jugosl. Spr. m. engl. Abstr.]Google Scholar
  57. Proc. R. Soc. Edinb. (B), 72, 1971–1972 (1972), S. 167–182: Thomson, J., Walton, A., Natural radioactive decay series elements in the oceans and sediments.—Proc. R. Soc. Edinb. (B), 72, 1971–1972 (1972), S. 183–191: Baturin, G. N., Ilyina, T. D., Popov, N. I., Soviet investigations of natural radionuclides in marine and ocean sediments.—Proc. R. Soc. Edinb. (B), 72, 1971–1972 (1972), S. 357–364: Goldberg, E. D., The fluxes of marine chemistry.—Proc. R. Soc. Edinb. (B), 72, 1971–1972 (1972), S. 365–369: Fedosov, M. V., Development of marine hydrochemical research by Russian and Soviet fishery institutions.—Proc. R. Soc. Edinb. (B), 72, 1971–1972 (1972), S. 371–380: Edmond, J. M., The thermodynamic description of the CO2 system in sea water: development and current status.—Proc. R. Soc. Edinb. (B), 72, 1971–1972 (1972), S. 381–387: Lyman, J., Development of ideas concerning the carbon dioxide system in sea water up to 1940.—Proc. R. Soc. Edinb. (B), 72, 1971–1972 (1972), S. 389–399: Whitfield, M., Progress towards a chemical model for sea water.—Proc. R. Soc. Edinb. (B), 72, 1971–1972 (1972), S. 401–409: Johnston, R., The theories of August Pütter.—Proc. R. Soc. Edinb. (B), 73, 1971–1972 (1972). S. 203–211: Fournier, R. O., The transport of organic carbon to organisms living in the deep oceans.Google Scholar
  58. Proc. Symp. Nitrogen Fixation.2, 1970. S. 127–130: Hattori, A., Wada, E., A note on denitrification in the central Pacific Ocean. [Auch: Contr. No. 241. S. 222–235, Coll. Repr. Oc. Res. Inst. Univ. Tokyo. 9, 1970 (1972).]Google Scholar
  59. Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 657–659: Donadey, G., Rosset, R., Dosage direct de traces de métaux lourds en solution dans l'eau de mer par la méthode de redissolution anodique par polarographie à impulsion.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 661–662: Cruzado, A., Macchi, G., Ballester, A., Analyse chimique continue de la mer.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 665–668: Longinelli, A., Oxygen Isotopic composition of dissolved sulfate in Mediterranean sea water samples.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 669–672: Ilic, K., Quelques observations sur la quantité des phosphates libres <P−PO4> et du phosphore total <P> dans l'eau près de l'île Banjole et en haute mer <5,11 et 20 milles>.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 673–675: Scaccini-Cicatelli, M., Les variations des sels d'azote et de phosphore dans les eaux côtières d l'Adriatique occidentale au cours d'une année.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 677–678: Scaccini-Cicatelli, M., Poli Molinas, M., Olmo, M.-V., L'apport en sels nutritifs à la mer par deux cours d'eau qui descendent des Apennins.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 687–689: Voljin, V., Bulumac, P., Iliescu, V., Identification et dosage de l'arsenic dans l'eau de la mer Noire — côte roumaine — par la méthode d'activation.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 695–697: Barić, A., Branica, M., Behaviour of indium in sea water.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 701–703: Marazović, L., Pucar, Z., Electrophoretic investigations of the behaviour of65ZN in sea water, sea water-EDTA systems and NaCl-EDTA solutions.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 21, 1972.No. 3, S. 133–135: Vatova, A., Résultats de huit années d'observations sur la productivité des mers de Tarente.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 21, 1972.No. 6, S. 293–295: Fukai, R., Rapaire, J.-L., Vas, D., Mesure par spectrométrie gamma des avtivités relatives d'un mélange de radioéléments d'énergies voisines. Note préliminaire.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 21, 1972.No. 6, S. 297–300: Thommeret, J., Veglia, A., Morel, J., Tentative d'identification du 65Zn dans l'eau de pluie et l'eau de mer au cours de l'année 1970.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 21, 1972.No. 11, 4 S.: Catalano, G., Cescon, B., Macchi, G., Considérations sur l'emploi du calcium, du magnésium et des sulfates comme traceurs des eaux continentales dans le Nord Adriatique. [Auch: Contr. Oss. geofis. sperim., Trieste. No. 198.]Google Scholar
  60. Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 191–194: Zlobin, V. S., Elements of forecasting of seasonal changes in the concentrations of phosphates in the Norwegian Sea.Google Scholar
  61. Rec. oceanogr. Works Japan. 11, 1972,No. 2, S. 53–63: Miyake, Y., Sugimura, Y., Uchida, T., A new method of spectrophotometric determination of uranium in sea water and uranium content with224U/238U ratio in the Pacific water.—Rec. oceanogr. Works Japan. 11, 1972,No. 2, S. 65–72: Yamamoto, T., Chemical studies on the seaweeds <27>. The relations between concentration factor in seaweeds and residence time of some elements in sea water.Google Scholar
  62. Rep. Div. Fish. Oceanogr. Aust. No.51, 1972. 60 S.: Major, G. A., Dal Pont, G., Klye, J., Laboratory techniques in marine chemistry.Google Scholar
  63. Rep. hydrogr. Res., Tokyo No.3, 1967. S. 33–47: Higano, R., Seto, Y., Saruwatari, R., Distribution of chemical constituents of sea water in the eastern sea off Philippines and in the Luzon straits.—Rep. hydrogr. Res., Tokyo No. 4, 1968. S. 21–27: Higano, R., Some problems on the silicate analysis method for sea water.—Rep. hydrogr. Res., Tokyo No. 6, 1971. S. 79–84: Hishida, M., The new evidence of phosphate minimum layer of the deep water in the Japan Sea. [Jeweils in japan. Spr. m. engl. Abstr.]Google Scholar
  64. Rev. Trav. Inst. Pêches marit. 36, 1972.No. 3, S. 361–365: Michel, P., Mesure de la demande chimique en oxygène dans l'eau de mer.Google Scholar
  65. Sbornik Rab. Leningr. petrozavodsk. gidromet, Obs. 7, 1970. S. 244–259. Klabukova, V. V., [Über die Abhängigkeit zwischen salzbildenden Ionen und der Ionensumme im östlichen Teil des Finnischen Meerbusens.] [In russ. Spr. m. dt. Abstr.]Google Scholar
  66. Sov.-kubinsk. rybochoz. Issl. 3, 1971. S. 47–53: Bessonov, N. M., Calderón, G., Ernandez, A. [Einige Ergebnisse experimenteller Untersuchungen der Primär-produktivität und der organischen Stoffe.]—Sov.-kubinsk. rybochoz. Issl. 3, 1971. S. 64–71: Maksimova, M. P., [Elemente des Karbonatsystems in den Wassermassen des Karibischen Meeres.] [Jeweils in russ. Spr. m. span. Abstr.]Google Scholar
  67. Städtehygiene. 24, 1973.No. 3, S. 54–56: Harmsen, H., Die erste kommunale Meerwasserentsalzungsanlage.—Städtehygiene. 24, 1973.No. 3, S. 56–57: Lenhard, M., Die Pumpen in der Meerwasserentsalzungsanlage in Helgoland.Google Scholar
  68. Stumm, W., Morgan, J. J., Aquatic chemistry. New York [usw.]: Wiley-Interscience 1970. 583 S.Google Scholar
  69. Techn. Rep. Ser. Int. atom. Energy Ag. No.118. 1970. S. 93–127: Bowen, V. T., Analyses of sea-water for strontium and strontium-90.—Techn. Rep. Ser. Int. atom. Energy, Ag. No. 118. 1970. S. 129–186: Folsom, T. R., Sreekumaran, C., Some reference methods for determining radioactive and natural caesium for marine studies.—Techn. Rep. Ser. Int. atom. Energy Ag. No. 118. 1970. S. 187–211: Høgdahl, O. T., Analytical procedures involved in the measurement of radioactive and stable cerium in the marine environment. —Techn. Rep. Ser. Int. atom. Energy, Ag. No. 118. 1970. S. 213–218: Popov, N. I., Experimental determination of the physiochemical state of cerium-144 in sea-water.—Techn. Rep. Ser. Int. atom. Energy. Ag. No. 118. 1970. S. 223–241: Preston, A., Dutton, J. W. R., Review of methods for the determination of selected cobalt nuclides in marine materials.—Techn. Rep. Ser. Int. atom. Energy Ag. No. 118. 1970. S. 243–259: Branica, M., Determination of zinc in the marine environment.—Techn. Rep. Ser. Int. atom. Energy Ag. No. 118. 1970. S. 261–273: Rozhanskaya L. I., Analytical techniques for determining stable zinc in sea-water.—Techn. Rep. Ser. Int. atom. Energy Ag. No. 118. 1970. S. 275–284: Chesselet, R., Review of the techniques of measuring stable and radioactive Ru, Mn, Cr, Fe and Zr−Ni in a marine environment.Google Scholar
  70. Téthys. 4, 1972.No. 1, S. 41–50: Braud, J.-P., Etude de la fixation et de la concentration des insecticides organochlorés par les algues pluricellulaires de l'étang de Berre.Google Scholar
  71. Thalassia jugosl. 5, 1969, S. 17–24: Branica, M., Bilinski, H., Pokrić, B., Application of tyndallometric measurements on precipitation studies in distilled water and sea water.—Thalassia jugosl. 5, 1969. S. 185–191: Kveder, S., Kečkeš, S., Hydrographic and biotical conditions in the North Adriatic-V: Primary phytoplankton productivity. —Thalassia jugols. 5, 1969. S. 257–263: Petek, M., Branica, M., Hydrographical and biotical conditions in North Adriatic-III: Distribution of zinc and iodate.Google Scholar
  72. Thiemig-Taschenb., 45, 1973, S. 129–153: Hauser, H., Das Meerwasser als Rohstoffquelle.Google Scholar
  73. Trudy. Gosudarstv. okeanogr. Inst. 113, 1972. 104 S.: [Fragen der Methodik hydrochemischer Meeresunter-suchungen.] [Red.:] S. G. Oradovskij. [Darin:]—Trudy. Gosudarstv. okeanogr. Inst. 113, 1972. S. 4–14: Oradovskij, S. G., [Gegenwärtige Lage und Perspektiven der Vervollkommnung von Bestimmungs-methoden der wichtigsten chemischen Verschmutzung von Wassermassen des Meeres.]—Trudy. Gosudarstv. okeanogr. Inst. 113, 1972 S. 15–20: Veličkevič, A. K., [Chemische Natur und Bestimmungs-methoden von Xanthogenaten.]—Trudy. Gosudarstv. okeanogr. Inst. 113, 1972. S. 21–29: Afanas' eva, N. A., [Chemische Natur und Bestimmungs-methoden von oberflächenaktiven Anionenstoffen (Detergentien).]—Trudy. Gosudarstv. okeanogr. Inst. 113, 1972. S. 30–41: Tokuev, Ju. S., [Bestimmung gelöster Gase im Meerwasser nach einer Methode der Gaschromatographie.]—Trudy. Gosudarstv. okeanogr. Inst. 113, 1972. S. 42–46: Revina, S. K., Kriul'kov, V. A., [Bestimmungsmethode von natürlichen Lignin (Protolignin) im Meerwasser.]—Trudy. Gosudarstv. okeanogr. Inst. 113, 1972. S. 47–53: Orlova, I. G., [Anlage für eine coulomb-metrische Bestimmung von Ammoniumstickstoff im Meerwasser mittels Titration von regenerierten Wasserstoffionen.] —Trudy. Gosudarstv. okeanogr. Inst. 113, 1972. S. 60–65: Alekseeva, L. M., [Kolorimetrische Bestimmung von Phenolen im Meerwasser mit Pyramidon und Ammoniumpersulfat.]—Trudy. Gosudarstv. okeanogr. Inst. 113 1972. S. 54–59: Tokuev, Ju. S., Oradovskij, S. G., [Vervoll-kommnung der Wiegemethode für die Bestimmung von Rohölerzeugnissen im Meerwasser.]—Trudy. Gosudarstv. okeanogr. Inst. 113, 1972. S. 66–71: Afanas'eva, N. A., Oradovskij, S. G., [Potentiometrische Bestimmungsmethode von Natrium im Meerwasser.]—Trudy. Gosudarstv. okeanogr. Inst. 113, 1972. S. 72–78: Oradovskij, S. G., [Photoelektrokolorimetrische Bestimmungsmethode von pH im Meerwasser.]—Trudy. Gosudarstv. okeanogr. Inst. 113, 1972. S. 79–94: Cernyšev, V. I., Tokuev, Ju. S., [Thermische Oxidation von Dioxyphenylalanin als Kontrollmethode freiradikaler Prozesse bei der Verwertung organischer Stoffe aus Meer-wassermassen.] [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  74. Vie et Milieu, Paris (B) 22, 1971.No. 2, S. 247–256: Brouardel, J., Production primaire et fixation à l'obscurité mesurees par la méthode du14C, en Méditerranée, à proximité de Monaco.Google Scholar

Radioactivity UDC 551.464.1:541.28 551.464.6.02 551.464.7.02

  1. J. Fish. Res. Bd. Can. 29, 1972.No. 10, S. 1482–1486: Schultz, D. M., Quinn, J. G., Fatty acids in surface particulate matter from the North Atlantic.Google Scholar
  2. Oceanogr. mar. Biol. 10, 1972. S. 137–223: Duursma, E. K., Geochemical aspects and applications of radionuclides in the sea. [Auch: Radioactivity Sea No. 30.]Google Scholar
  3. Proc. R. Soc. Edinb, (B). 72, 1971–1972 (1972).No. 1, S. 411–423: Preston, A., Woodhead, D. S., Mitchell, N. T., The impact of artificial radioactivity on the oceans and on oceanography.Google Scholar
  4. Przegl. geofiz. 17 (25),1972.No. 2, S. 155–164: Grossman, A., Kwapuliński, J., Measurement of the specific radioactivity of the water with big salt contents. [In poln. Spr. m. engl. Abstr.]Google Scholar
  5. Rapp. P.-V. Commiss. int. Explor. Mer. Médit. 20, 1972.No. 4, S. 653–655: Pernin, R., Oriol, P., Varlet, F., Application de l'analyse par activation au dosage d'éléments tracés <résultats préliminaires>.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 725–727: Georgescu, I. I., Skolka, V. H., Sur la radio-activité du seston de l'eau de la mer Noire et de l'Algue Cystoseira barbata de la plateforme continentale roumaine, pendant les années 1964–1967.—Rapp. P.-V. Commiss. int. Explor. Mer. Médit. 20, 1972.No. 4. S. 735–737: Tassi Pelati, L., Triulzi, C., The radioactivity of some plankton and sea water samples collected during 1960–1968 period.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 743–745: Voljin, V., Bulumac, P., Sur la radio-activité du milieu marin de la mer Noire.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972. No. 6, S. 301–303: Triulzi, C., Tassi-Pelati, L., Radioactivity of some plankton and sea water samples collected in the Taranto Gulf (Ionian Sea).—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 6, S. 305–308: Schreiber, B., Tassi-Pelati, L., Mezzadri, M. G., Radioecological researches in the Taranto Gulf.Google Scholar
  6. Researches in hydrography and oceanography Ed.: D. Shoji. Tokyo: Hydrographic Department 1972. S. 203–249: Shiozaki, M., Oda, K., Kimura, T., The artificial radioactivity in sea water.Google Scholar
  7. Techn. Rep. Ser. Int. atom. Energy Ag. No. 118, 1970. 284 S.: Reference methods for marine radioactivity studies. [Ed. by Y. Nishiwaki and R. Fukai.] [Darin:]—Techn. Rep. Ser. Int. atom. Energy Ag. No. 118, 1970. S. 219–221: Ganguly, A. K., Koshy, E., Desai, M. V. M., Studies on organo-metallic interaction in the marine environment.Google Scholar
  8. Zorina, T. A.: Aids to oceanographic research. Washington, 1971. S. 1–17: Nelepo, B. A., Vinogradov, A. S., Methods and devices for measuring the radioactivity of sea water.Google Scholar

Water masses UDC 551.465.1 551.465.11 551.465.12 551.465.16

  1. Annu. offshore Technol. Conf. 4, 2, 1972.Pap. OTC 1692, S. 669–674: Mainville, C. R., Evans, D. J., Earle, M. D., Theoretical hindcast of currents and water elevations using numerical models.Google Scholar
  2. Basic Res. Progr. Rep. Coast. Engng Lab. Techn. Univ. Denmark. 23, 1971. S. 27–31: Engelund, F., Meandering and braiding in straight alluvial channels.Google Scholar
  3. Cah. ORSTOM, Océanogr. 10, 1972.No. 3, S. 275–287: Desrosières, R., Wauthy, B., Distribution du phytoplancton et structure hydrologique dans la région des Tuamotu (Océan Pacifique central).Google Scholar
  4. Craig, R. E., Marine physics. London, New York: Acad. Pr. 1973. 82 S.Google Scholar
  5. Deep-Sea Res. 19, 1972.No. 11, S. 781–791: Howe, M. R., Tait, R. I., The role of temperature inversions in the mixing processes of the deep ocean.Google Scholar
  6. Izv. Akad. Nauk SSSR, Fiz. Atmos. Okeana. 8, 1972.No. 10, S. 1017–1028: Abramov, A. A., Tareev, B. A., Ulyanova, V. I., The instability of a two-layer flow with antisymmetrical velocity profile in the upper layer.—Izv. Akad. Nauk SSSR, Fiz. Atmos. Okeana. 8, 1972.No. 10, S. 1052–1072: Kagan, B. A., Laikhtman, D. L., Oganesyan, L. A., A numerical experiment on seasonal variability of global circulation in a barotropic ocean.—Izv. Akad. Nauk SSSR, Fiz. Atmos. Okeana. 8, 1972.No. 10.S. 1073–1079: Perederei, A. I., Sarkisyan, A. S., Exact solutions of some transformed equations of dynamics of sea currents. [Jeweils: in russ. Spr. m. engl. Abstr.]—Izv. Akad. Nauk SSSR, Fiz. Atmos. Okeana. 8, 1972.No. 12, S. 1327–1330: Ivano, Ju. A., Linejkin, P. S., Monin, A. S., On the works of B. A. Tareev on the ocean dynamics. [In russ. Spr.]Google Scholar
  7. J. Phys., Lond. (E). 4, 1971. S. 405–413: Tucker, M. J., Measurement in Oceanography. [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley. 19, 1971. No. 827.]Google Scholar
  8. Lusquiños, A., Valdez, A. J., Aportes al conocimiento de las masas de agua del Atlántico Sudoccidental. Buenos Aires: Servicio de Hidrografia Naval, Armada Argentina 1971. 48 S. m. Abb.Google Scholar
  9. Lutjeharms, J. R. E. A guide to research done concerning ocean currents and water masses in the South West Indian Ocean. Cape Town: University, Dept. of Oceanography 1972. 577 S. m. Abb. u. Tab.Google Scholar
  10. Manuscr. Rep. Ser. Mar. Sci. Direct. Dep. Environm., Ottawa, No. 29, 1972. 51 S.: Ronday, F. C., Modèle mathématique pour l'étude de la circulation due à la marée en Mer du Nord.Google Scholar
  11. Mar. Publ. Ser. Univ. Rhode Isl. No. 2, 1973. Getr. Pag. m. Abb. u. Tab.: Coastal and offshore environmental inventory. Cape Hatteras to Nantucket Shoals [Auch: Occ. Publ. Grad. School Oceanogr., Kington No. 5.]Google Scholar
  12. Okeanologija.12, 1972.No. 5, S. 780–786: Dubravin, V. F., Navrotskaya, S. E., On water masses of the south-eastern part of the Atlantic Ocean.—Okeanologija. 13, 1973.No. 2. S. 216–221: Kirko, I. M., Bezbogov, A. A., On a possibility of physical modelling of some phenomena in the earth's hydrosphere. [Jeweils: in russ. Spr. m. engl. Abstr.]—Okeanologija. 13, 1973.No. 2, S. 379–382: Koshlyakov, M. N., Fomin, L. M., The American project of the mid-ocean dynamics experiment. [In russ. Spr.]Google Scholar
  13. Pacif. mar. Sci. Rep., Can. No. 71-1. 1971. o. Pag.: Perkin, R. G., Walker, E. R., Salinity calculations from in situ measurements.Google Scholar
  14. Pomorski Zborni, Zadar, 8, 1970. S. 857–865: Karlovac, J., Some biological indicators of the circulation of water masses. [In jugosl. Spr. m. engl. Abstr.]Google Scholar
  15. Pure appl. Geophys. 99, 1972.No. 7, S. 169–200: Gates, W. L., Numerical studies of transient planetary circulations in a wind-driven ocean.Google Scholar
  16. Rapp, P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 631–634: Štirn, J., The general oceanological characteristics of the North Adriatic during 1965.Google Scholar
  17. Rep. mar. Sci. Affairs, WMO No. 6 Vol. 1, 1973. S. 75–80: Smed, J., On the requirements of fisheries for processed oceanographic information.—Rep. mar. Sci. Affairs, WMO No. 6, Vol. 1, 1973, S. 90–94: Tomczak, G., Fisheries requirements to IGOSS (Integrated Global Ocean Station System).—Rep. mar. Sci. Affairs, WMO No. 6, Vol. 1, 1973. S. 95–111: Laurs, R. M., Requirements of fishery scientists for processed oceanographic information.Google Scholar
  18. Researches in hydrography and oceanography Ed.: D. Shoji. Tokyo: Hydrographic Department 1972. S. 151–201: Nitan, H., On the deep and the bottom waters in the Japan Sea.Google Scholar
  19. Rev. Mus. argent. Cienc. natur. 2, 1968.No. 6, S. 199–224: Boltovskoy, E., Hidrologia de las aguas superficiales en la parte occidental del Atlantico Sur. [In span. Spr. m. engl. Abstr.]Google Scholar
  20. SACLANTCEN Conf. Proc. 1972.No. 7, S. 108–118. 14 Abb.: Miller, A. R., The Levantine Intermediate Water mass from Sardinia to Rhodes.Google Scholar
  21. Sov.-kubinsk. rybochoz. Issl. 3, 1971. S. 14–32: Bessonov, N. M., Elizarov, A. A., Gonzales, O., [Grundsätzliche Wesenszüge der ozeanographischen Gestaltungsbedingungen auf der Campeche-Bank im Zusammenhang mit der Ausbreitung und Konzentration organischer Fischereirohstoffe.] [In russ. Spr. m. span. Abstr.]Google Scholar
  22. Techn. Ser. Intergovernm. ozeanogr. Commiss. 1972.No. 10, S. 39–43: Swallow, J. C., A review of recent physical oceanographic work in the Indian Ocean.Google Scholar
  23. Thalassia jugosl. 5, 1969. S. 435–441: Vučetić, T., Contribution to the knowledge of biologic indicators of water masses in the Mediterranean. [In jugoslav. Spr. m. engl. Abstr.]Google Scholar
  24. Vop. Geogr., Mosk. 84, 1970. S. 174–187: Bulgakov N. P., The form of T, S curves as source of information about ocean water structure.—Vop. Geogr., Mosk. 84, 1970. S. 213–223: Sapozhnikov, V. V., The using of the hydrochemical characteristics to estimate movement water in the ocean. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar

Water masses: Mixing UDC 551.465.15

  1. Basic Res. Progr. Rep. Coast. Engng Lab. Techn. Univ. Denmark. 23, 1971. S. 21–26: Hansen, E., Measurements of Lagrangian characteristics for surface turbulence.Google Scholar
  2. Bull. Soc. r. Sci. Liège, 41, 1972.No. 9-10, S. 521–526: Nihoul, J. C. J., Shear effect diffusion in shallow open seas.Google Scholar
  3. Cah. Méc. mat. No. 4, (1971). 90 S.: Ronday, F. C., Étude de la dispersion d'un polluant en mer du Nord.Google Scholar
  4. Deep-Sea Res. 19.1972.No. 12, S. 823–832: Garrett, C., Munk, W., Oceanic mixing by breaking internal waves.—Deep-Sea Res. 20, 1973.No. 3, S. 269–283: Solomon, H., wintertime surface layer convection in the Arctic Ocean.Google Scholar
  5. [Four] papers on surface turbulence and diffusion. Lyngby: Inst. of Hydrodynamics & Hydraul. Engng 1972. S. 1–24: Engelund, F., Turbulence in water I.Google Scholar
  6. Geochim. cosmochim. Acta. 36, 1972.No. 12, S. 1395–1406: Ben-Yaakov, S., Diffusion of sea water ions. 1. Diffusion of sea water into a dilute solution.Google Scholar
  7. Hidrogr. Godišn. 1971 (1972). S. 61–73: Bone, M., Diffusion and the tracers experiments. [In jugosl. Spr. m. engl. Abstr.]Google Scholar
  8. Hoult, D. P., Oil on the sea. New York & London 1969. S. 53–63: Fay, J. A., The spread of oil slicks on a calm sea.Google Scholar
  9. Izv. Akad. Nauk SSSR. Fiz. Atmosf. Okeana. 9, 1973.No. 3, S. 272–292: Kitaigorodsky, S. A., Miropolsky, Yu. Z., Filyushkin, B. N., On distinguishing between internal waves and turbulence in the ocean by temperature fluctuation data.—Izv. Akad. Nauk SSSR. Fiz. Atmosf. Okeana. 9, 1973.No. 3, S. 293–303: Benilov, A. Yu., On the generation of turbulence in the ocean by the surface waves. [In russ. Spr. m. engl. Abstr.]Google Scholar
  10. J. Engng Math. 6, 1972.No. 3, S. 257–272: Anwar, H. O., The radial spreading as a free surface layer of a vertical buoyant jet.Google Scholar
  11. J. Hydraul. Div. Am. Soc. civ. Engrs. 95, 1969.No. 4, S. 1149–1162: Engelund, F., Dispersion of floating particles in uniform channel flow. [Auch [Four] papers on surface turbulence and diffusion. Lyngby: Inst. of Hydrodynamics & Hydraul. Engng 1972.]—J. Hydraul. Div. Am. Soc. civ. Engrs. 98, 1972. S. 1143–1156: Anwar, H. O., Appearence of unstable buoyant jet.—J. Hydraul. Div. Am. Soc. civ. Engrs. 98, 1972. S. 1255–1273: Hansen, E., Lagrangian characteristics of surface turbulence. [Auch: [Four] papers on surface turbulence and diffusion. Lyngby: Inst. of Hydrodynamics & Hydraul. Engng 1972.]Google Scholar
  12. J. phys. Oceanogr. 3, 1973.No. 1, S. 133–138: Blumsack, S. L., Length scales in a rotating stratified fluid on the beta plane. [Auch: Contr. Geophys. Fluid Dynam. Inst. Fla. St. Univ. No. 70.]—J. phys. Oceanogr. 3, 1973.No. 1. S. 162–165: Tomezak, M., Note on diffusion in coastal upwelling.—J. phys. Oceanogr. 3, 1973 No. 2, S. 241–243: Stewart, R. E., Unusual plume behavior from an ocean outfall off the east coast of Florida.Google Scholar
  13. Kieler Meeresforsch. 28, 1972.No. 2, S. 162–177: Hubrich, L-M., Zur horizontalen Ausbreitung von kontinuierlichen Abflüssen in das küstennahe Meer-am Beispiel einer Abwassereinleitung in die Kieler Bucht.Google Scholar
  14. Lacombe, H., Les mouvements de la mer. Courants vagues et houle, marées. Paris: Doin 1971. 98 S. m. 41 Abb.Google Scholar
  15. Limnol. & Oceanogr. 18, 1973.No. 1, S. 72–85: Lerman, A., Jones, B. F., Transient and steady-state salt transport between sediments and brine in closed lakes.Google Scholar
  16. Nav. Res. Rev., Wash. 25, 1972.No. 10, S. 9–20: Coleman, J. M., Wright, L. D., Suhayda, J. N., Density gradients at river mouths.Google Scholar
  17. N. Z. J. mar. Freshw. Res. 6, 1972.No. 3, S. 329–342: Stanton, B. R., Two-dimensional model of diffusion processes around a river mouth.Google Scholar
  18. Nota interna Ist. Fis. Marconi, Roma. No. 409, 1972. 9 S.: Bernacchioni, P., Salusti, E., On the Richardson's theory of turbulent diffusion in sea-water.Google Scholar
  19. Oceanogr. mar. Biol. 8, 1970. S. 11–32: Bowden, K. F., Turbulence. II.Google Scholar
  20. Physics of Fluids 15, 1972.No. 8, S. 1372–1376: Spiegel, E. A., Qualitative model for turbulent intermittency.—Physics of Fluids 15, 1972.No. 10, S. 1728–1734: Yen, J. T., Kinetic theory of turbulent flow.—Physics of Fluids 15, 1972.No. 12, S. 2098–2105: Cheng, R. T., Numerical solution of the Navier-Stokes equations by the finite element method.—Physics of Fluids 16, 1973.No. 1, S. 13–30: Tchen, C. M., Repeated cascade theory of homogeneous turbulence.Google Scholar
  21. Progr. Rep. Inst. Hydrodynam, hydraul. Engng Techn. Univ. Denmark. No. 26, 1972, S. 3–6: Hansen, E., Pedersen, F. B., Space-time correlation measurements in water.Google Scholar
  22. Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 7–12: Monin, A. S., Specific features of the sea turbulence.—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 13–18: Long, R. R., Turbulence from breaking of internal gravity waves.—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 19–24: Nasmyth, P. W., Some observations on turbulence in the upper layers of the ocean.—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 25–28: Woods, J. D., Vertical mixing processes in the ocean.Google Scholar
  23. Rep. hydrogr. Res., Tokyo No. 3, 1967. S. 25–32: Yano, Y., Numerical computation of a steady diffusion problem [In japan. Spr. m. engl. Abstr.]Google Scholar
  24. Rep. mar. Sci. Affairs, WMO No. 7, Vol.2, 1973, S. 170–185. Mollo-Christensen, E., Koziol, P., Underway and scanning measurement of airsea surface layer properties.Google Scholar
  25. SACLANTCEN conf. Proc. 1972. No. 7, S. 38–44: Frassetto, R., A study of the turbulent flow and character of the water masses over the Sicilian Ridge in both summer and winter. [Auch: SACLANTCEN techn. Mem. No. 93.]Google Scholar
  26. SACLANTCEN Techn. Mem. No. 182. 1972. 32 S.: Molcard, R., Milocmed 1968: a drogue experiment in the Ionian Sea. Part II: a study of a large-scale diffusion.Google Scholar
  27. Techn. Rep. Chesapeake Bay Inst. No. 79, 1973. 89 S., 158 S.: Seitz, R. C., Observations of intermediate and small scale turbulent water motion in a stratified estuary (parts 1 and 2).Google Scholar
  28. Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. No.112. S. 107–113: Ivanov, V. N., Michajlov, Ju. D., [Beurteilung der Dissipationsgeschwindigkeit einer turbulenten Energie und des Koeffizienten einer horizontalen turbulenten Diffusion im Baltischen Meer.] Mit dt. Übers. des Abstr.[In russ. Spr.]—Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. No. 112. S. 114–121: Konovalova, I. Z., [Einige Besonderheiten in der horizontalen Turbulenz in der küstenahen Meereszone.]Google Scholar

Stratification 551.465.4

  1. Ann. Inst. océanogr., Paris. 48, 1971–1972 (1972).No. 2, S. 113–140: Maillard, C., Étude hydrolique et dynamique de la mer Rouge en hiver.Google Scholar
  2. Annu. Rep. Mar. biol. Stat. Univ. Liverpool, Port Erin. No.84, 1971 (1972). S. 49–52: Slinn, D. J., Eastham, J. F., Chemical constituents in sea-water off Port Erin during 1971.Google Scholar
  3. Antarct. Map Folio Ser. No. 6, 1967. 10 S. Text, 14 Kt.: Gordon, A. L., Structure of Antarctic waters between 20°W and 170°W. [Auch: Contr. Lamont geol. Obs. No. 1022.]—Antarct.Map Folio Ser. No. 13, 1970, S. 1–5, Kt. 1–18: Gordon, A. L., Goldberg, R. D., Circumpolar characteristics of Antarctic waters. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1445.]Google Scholar
  4. Aust. J. mar. Freshw. Res. 24, 1973.No. 1, S. 1–20: Timms, B. V., A limnological survey of the freshwater coastal lakes of East Gippsland, Victoria.Google Scholar
  5. Beitr. Meeresk., H.29, 1972. S. 35–51: Matthäus, W., Zur Hydrographie der Gotlandsee I. Säkulare Variationen von Salzgehalt und Temperatur.—Beitr. Meeresk., H. 29, 1972. S. 67–77: Wolf, G., Salzwassereinbrüche im Gebiet der westlichen Ostsee.Google Scholar
  6. Black, C. F., The turbulent distribution of temperature in the ocean. Santa Monica, Calif.: Bissett-Berman Corporation 1965. (Getr. Pag.)Google Scholar
  7. Bol. Inst. esp. Oceanogr. No. 152, 1972. 39 S.:Molina, R., Contribution to the study of the upwelling off the North-West coast of the Iberian Peninsule. [In span. Spr. m. engl. Abstr.]—Bol. Inst. esp. Oceanogr. No. 158, 1972. 79 S.: Mascareño, D. A., Algunas consideraciones oceanográficas de las aguas del archipiélago canario.Google Scholar
  8. Bol. Inst. oceanogr., S. Paulo. 20, 1971. S. 61–84: Magliocca, A., Some chemical aspects of the marine environment off the Amazon and Pará Rivers, Brazil. [Auch: Publ. Inst. oceanogr., S. Paulo. No. 309.]Google Scholar
  9. C. R. Acad. Sci., Paris. (B) 271, 1970. S. 869–872: Donguy, J.-R., Rotschi, H., Sur un courant Est dans le Pacifique central tropical Sud. [Auch: Rec. Trav. ORSTOM Nouméa, Océanogr. No. 4, 1972. No. 72.]Google Scholar
  10. Deep-Sea Res. 19, 1972.No. 12, S. 865–877: Wright, W. R., Northern sources of energy for the deep Atlantic. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2852].—Deep-Sea Res. 20, 1973.No. 1, S. 9–38: Warren, B. A., Transpacific hydrographic sections at lats. 43°S. and 28°S: the SCORPIO Expedition-II. Deep water. [Auch: Contr. Woods Hole oceanogr. Instn No. 2885.]—Deep-Sea Res. 20, 1973.No. 1, S. 39–49: Reid, J. L., Transpacific hydrographic sections at lats. 43°S. and 28°S: the SCORPIO Expedition-III. Upper water and a note on southward flow at mid-depth.—Deep-Sea Res. 20, 1973.No. 1, S. 51–68: Reid, J. L., The shallow salinity minima of the Pacific Ocean.—Deep-Sea Res. 20, 1973.No.2, S. 111–140: Gill, A. E., Circulation and bottom water production in the Wedell Sea.—Deep-Sea Res. 20, 1973.No. 2, S. 141–177: Gill, A. E., Niiler, P. P., The theory of the seasonal variability in the ocean.Google Scholar
  11. Della Croce, N., Galleri, G., Grosso, F., Prime osservazioni sulle caratteristiche ecologiche delle acque della rada di La Spezia. Genova: 1972. 13 S.Google Scholar
  12. Dt. gewässerkdl. Mitt. 16, 1972.No. 6, S. 159–163: Kothé, P., Sindern, J., Die Verbreitung des Makro-Zoobenthos im Nord-Ostsee-Kanal und ihre Abhängigkeit vom Salzgehalt.Google Scholar
  13. Doc. sci. Centre Rech, océanogr., Abidjan. Vol.3,No. 2,1972. S. 1–30: Morlière, A., Rebert, J. P. Etude hydrologique du plateau continental Ivoirien.Google Scholar
  14. Dokl. Akad. Nauk. SSSR. 207, 1972.No. 3, S. 702–705: Treshnikov, A. F., Baranov, G. I., New data on water circulation of the Arctic Basin.—Dokl. Akad. Nauk. SSSR. 208, 1973.No. 4, S. 833–836: Monin, A. S., Fedorov, K. N., Shevtsov, V. P., On the vertical meso- and microstructure of ocean currents. [Jeweils in russ. Spr.]Google Scholar
  15. Eos, Wash., Vol.52, 1971.No. 6, S. 236–237: Cox, C. S., Oceanic microstructure.Google Scholar
  16. Geod. geophys. Veröff, R.4,H. 7,1972. 57 S.: Schemainda, R., Schulz, S., Nehring, D., Beiträge der DDR zur Erforschung der küstennahen Wasserauf-triebsprozesse im Ostteil des nördlichen Zentralatlantiks. Teil I: Das ozeanographische Beobachtungsmaterial der Meßfahrt 1970.Google Scholar
  17. Geophys. Fluid Dynam. 3, 1972.No. 3, S. 181–209: Hart, J. E., A laboratory study of baroclinic instability. —Geophys. Fluid Dynam. 3, 1972.No. 3, S. 211–224: Chandra, B., Smylie, D. E., A laboratory model of thermal convection under a central force field.Google Scholar
  18. Hidrogr. Godišn. 1971 (1972). S. 41–60: Nožina, I., North adriatic rivers and their influence tophysical properties of the sea. [In jugosl. Spr. m. engl. Abstr.]Google Scholar
  19. The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972). Vol. 1. S. 255–269: Cooksa, V. I., On classification of the ocean intermediate layers.—The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972). Vol. 1. S. 411–426: Mackenzie, K. V., Experiences with accurate pressure, temperature, and sound speed measurements in the ocean.Google Scholar
  20. Izv. Akad. Nauk SSSR, Fiz. Atmos. Okeana. 8, 1972.No. 10, S. 1042–1051: Vasilenko, V. M., Gavrilin, B. L., Mirabel', A. P., The statistical characteristics of the vertical structure of the currents in the Atlantic Ocean.—Izv. Akad. Nauk SSSR, Fiz. Atmos. Okeana. 9, 1973.No. 2, S. 155–171: Garnich, N. G., Miropolsky, Yu. Z., Fedorov, K. N., Some results of a statistical analysis of the thin thermohaline structure of the ocean. [Jeweils in russ. Spr. m. engl. Abstr.]—Izv. Akad. Nauk SSSR, Fiz. Atmos. Okeana. 9, 1973.No. 2, S. 210–212: Dobroklonsky, S. V., Kontoboitseva, N. V., Experiments on determination of the thickness of turbulent layer in monochromatic waves.—Izv. Akad. Nauk SSSR,Fiz. Atmos. Okeana. 9, 1973.No. 4, S. 442–444: Monin, A. S., Fedorov, K. N., On fine structure of ocean upper layer. [Jeweils in russ. Spr.]Google Scholar
  21. J. Cons. 34, 1972.No. 3, S. 379–388: Szekielda, K.-H., Upwelling studies with satellites.Google Scholar
  22. J. geophys. Res. 77, 1972.No. 30, S. 5971–5980: White, W. B., Evans, M. W., Synoptic time and length scales of motion in the North Equatorial Current System of the Pacific Ocean.—J. geophys. Res. 77, 1972.No. 33, S. 6604–6607: Pocklington, R., Secular changes in the ocean off Bermuda. — [Auch: Bermuda biol. Stat. 552.]—J. geophys. Res. 77, 1972.No. 36, S. 7138–7150: Bathen, K. H., On the seasonal changes in the depth of the mixed layer in the North Pacific Ocean. [Auch: Contr. Hawaii Inst. Geophys. No. 295.]—J. geophys. Res. 77, 1972.No. 36, S. 7151–7156: Bruce, J. G., Hydrography of the Alula-Fartak trench. [Auch: Contr. Woods Hole oceanogr. Instn No. 2912.]—J. geophys. Res. 77, 1972.No. 36, S. 7175–7187: Roden, G. I., Temperature and salinity fronts at the boundaries of the subarctic-subtropical transition zone in the western Pacific. [Auch: Contr. Dep. Oceanogr. Univ. Wash. No. 0672].—J. geophys. Res. 77, 1972.No. 36, S. 7196–7202: Wong, C. S., Deep zonal water masses in the equatorial Pacific Ocean inferred from anomalous oceanographic properties.Google Scholar
  23. J. Mar. biol. Assoc. U. K. 52, 1972.No. 4, S. 915–930: Armstrong, F. A. J., Butler, E. I., Boalch, G. T., Hydrographic and nutrient chemistry surveys in the western English Channel during 1963 and 1964.—J. Mar. biol. Assoc. U. K. 52, 1972,No. 4, S. 931–937: Southward. A. J., Butler, E. I., A note on further changes of sea temperature in the Plymouth area.—J. Mar. biol. Assoc. U. K. 52, 1972,No. 4, S. 987–996: Southward, A. J., Demir, N., The abundance and distribution of eggs and larvae of some teleost fishes off Plymouth in 1969 and 1970.Google Scholar
  24. J. mar. Res. 31, 1973,No. 1, S. 90–92: Mamayev, O. I., Comments on Veroni's paper, “On properties of seawater defined by temperature, salinity, and pressure”.Google Scholar
  25. J. Oceanogr. Soc. Japan. 28, 1972.No. 2, S. 71–93: Alvarez-Borrego, S., Gordon, L. I., Jones, L.B., Oxygen-carbon dioxide-nutrients relationships in the southeastern region of the Bering-Sea.Google Scholar
  26. J. Oceanol. Soc. Korea. 7, 1972.No. 1, S. 15–18: Park, C. K., Hourly change of temperature and salinity in the Korea Strait. [In korean.Spr. m. engl. Abstr.]Google Scholar
  27. J. phys. Oceanogr. 2, 1972.No. 4, S. 444–455: Beardsley, R. C., Festa, J. F., A numerical model of convection driven by a surface stress and non-uniform horizontal heating.—J. phys. Oceanogr. 2, 1972.No. 4, S. 456–461: Huppert, H. E., Turner, J. S., Double diffusive convection and its implications for the temperature and salinity structure of the ocean and Lake Vanda.—J. phys. Oceangr. 2, 1972.No. 4, S. 462–469: Foster, T. D., Haline convection in polynyas and leads.—J. Phys. Oceanogr. 2, 1972.No. 4, S. 470–475: Pochapsky, T. E., Malone, F. D., Spectra of deep vertical temperature profiles.—J. phys. Oceanogr. 2, 1972.No. 4, S. 510–514: Bryan, K., Cox, M. D., An approximate equation of state for numerical models of ocean circulation. —J. phys. Oceanogr. 2, 1972.No. 4, S. 514–517: Friedrich, H., Levitus, S., An approximation to the equation of state for sea water, suitable for numerical ocean models. [Auch: Contr. Geophys. Sci. Lab. New York Univ. No. 128.].—J. phys. Oceanogr. 3, 1973.No. 1, S. 16–32: Hurlburt, H. E., Thompson, J. D., Coastal upwelling on a ß-plane.[Auch: Contr. Geophys. Fluid Dynam. Inst. Fla St. Univ. No. 71.]—J. phys. Oceanogr. 3, 1973.No. 1, S. 33–46: Thompson, J. D., O'Brien, J. J., Time-dependent coastal upwelling. [Auch: Contr. Geophys. Fluid Dynam. Inst. Fla St. Univ. No. 73.]—J. phys. Oceanogr. 3, 1973.No. 1, S. 47–56: Garvine, R. W., The effect of bathymetry on the coastal upwelling of homogeneous water.—J. phys. Oceanogr. 3, 1973.No. 2, S. 185–196: Denman, K. L., Miyake, M., Upper layer modification at Ocean Station “Papa”: observations and simulation.—J. phys. Oceanogr. 3, 1973.No. 2, S. 203–212: Johnson, J. A., Upwelling layers in asteady, winddriven stratified ocean.—J. phys. Oceanogr. 3, 1973.No. 2, S. 226–229: Lazier, J. R. N., Temporal changes in some fresh water temperature structures.Google Scholar
  28. Kieler Meeresforsch. 28, 1972.No. 2, S. 139–161: Shaffer, G., A theory of time-dependent upwelling induced by a specially- and temporally-varying wind with emphasis on the effects of a seabreeze-landbreeze cycle.Google Scholar
  29. Komplexnye issledovanija prirody okeana. Moskva: Izd. Moskovskogo Universiteta 1972.Bd. 3 S. 3–27: Vlademircev, Ju. A., Kosarev, A. N., Gestaltung und Ausbreitung des tiefen Wassers im Roten Meer.—Komplexnye issledovanija prirody okeana. Moskva: Izd. Moskovskogo Universiteta 1972. Bd. 3, S. 28–36: Bubnov, V. A., Einige hydrologische Wesenszüge in der Romanche-Senke.—Komplexnye issledovanija prirody okeana. Moskva: Izd. Moskovskogo Universiteta 1972. Bd. 3, S. 37–47: Kuksa, V. I., Mandyč, A. T., Über die Ausbreitung intermediärer Wassermassen von der Bandasee in den Indischen Ozean.—Komplexnye issledovanija prirody okeana. Moskva: Izd. Moskovskogo Universiteta 1972. Bd. 3. S. 184–211: Belaja, T. I., Fedorov, V. D., Hydrologische und hydrochemische Besonderheiten des Weißen Meeres als Voraussetzungen, die das Niveau ihrer Primärproduktivität bestimmen. [Jeweils in russ. Spr.]Google Scholar
  30. Limnol. & Oceanogr. 17, 1972.No. 5, S. 672–677: Lee, A. H., Rodgers, G. K., Temperature fine structure in Lake Ontario.—Limnol. & Oceanogr. 17, 1972.No. 5, S. 731–737: Welch, E. B., Emery, R. M., Matsuda, R. I., The relation of periphytic and planktonic algal growth in an estuary to hydrographic factors.—Limnol. & Oceanogr. 17, 1972.No. 6, S. 918–922: Timms, B. V., A meromictic lake in Australia.—Limnol. & Oceanogr. 18, 1973.No. 1, S. 121–130: Morcos, S. A., Messieh, S. N., Circulation and salinity distribution in the southern part of the Suez Canal.Google Scholar
  31. Look Lab Hawaii. 2, 1971.No. 3, S. 3–23: Bathen, K. H., Spatial and temporal variations in the depth of the mixed layer in the North Pacific Ocean.Google Scholar
  32. Mar. Publ. Ser. Univ. Rhode Isl. No.2, 1973. S. 1-1–1-72. Bumpus, D. F., Lynde, R. E., Shaw, D. M., Physical oceanography.Google Scholar
  33. Mar. Res. Agric. Fish. Scot., No. 3, 1972. 50 S.: Milne, P.H., Hydrography of Scottish west coast sea lochs.Google Scholar
  34. Merentutkimuslait. Julk. No.237, 1972. S. 3–12: Voipio, A., Mälkki, P., Variations of the vertical stability in the Northern Baltic.Google Scholar
  35. „Meteor”-Forsch.-Ergebn. (A.). No.11, 1972. S. 1–57: Mittelstaedt, E., Der hydrographische Aufbau und die zeitliche Variabilität der Schichtung und Strömung im nordwestafrikanischen Auftriebsgebiet im Frühjahr 1968.—„Meteor”-Forsch.-Ergebn. (A). No. 11, 1972. S. 58–73: Koske, P. H., Hydrographische Verhältnisse im Persischen Golf auf Grund von Beobachtungen von F. S. „Meteor” im Frühjahr. 1965.Google Scholar
  36. NASA Techn. Mem. TM-X-65 387. 1970. 56 S. m. Abb.: Szekielda, K.-H., The development of upwelling along the Somali coast as detected with the Nimbus 2 and Nimbus 3 satellites.Google Scholar
  37. N. Z. J. mar. Freshw. Res. 6, 1972.No. 3, S. 343–351: Heath, R. A., Oceanic upwelling produced by northerly winds on the North Canterbury Coast, New Zealand.Google Scholar
  38. Oceanogr. mar. Biol. 8, 1970, S. 33–71: Lee, A., The currents and water masses of the North Sea.—Oceanogr. mar. Biol. 8, 1970. S. 73–202: Morcos, S. A., Physical and chemical oceanography of the Red Sea.—Oceanogr. mar. Biol. 8, 1970, S. 225–249: Forstner, H., Rützler, K., Measurements of the micro-climate in littoral marine habitats.Google Scholar
  39. Okeanologija. 12, 1972.No. 5, S. 763–770: Kazansky, A. B., Some theoretical problems of the global water exchange.—Okeanologija. 12, 1972.No. 5. S. 787–791: Leontieva, V. V., On the origin of the warm intermediate layer of the Pacific subarctic zone. [Jeweils in russ. Spr.m. engl. Abstr.]—Okeanologija. 12, 1972.No. 6, S. 950–955: Agafonova, E. G., Galerkin, L. I., Monin, A. S., On the origin of thermohaline circulation in the ocean.—Okeanologija. 12, 1972.No.6, S. 956–965: Fedorov, K. N., Temperature inversions of the Red and Mediterranean seas. [Jeweils in russ. Spr.]Google Scholar
  40. Proc. Int. Conf. Port Oc.Engng arct. Cond. 1, Vol.2, 1971. S. 1400–1411: Ljøen, R.,On short-term variations of the hydrographical conditions in the Skagerrak and adjacent sea.Google Scholar
  41. Proc. US Navy Symp. milit. Oceanogr. 6, 1969. Vol.1, S. 457–471: Neshyba, S., Neal, V. T., Denner, W., The significance of temperature stratification in the Arctic.—Proc. US Navy Symp. milit. Oceanogr. 8, 1971. Vol. 1, S. 349–357: Keen, D. J., Validity for in situ BT's for tactical sonar prediction.—Proc. US Navy Symp.milit. Oceanogr. 8, 1971. Vol. 1, S. 370–393: Laevastu, T., Houston, W. S., Numerical analysis and prediction of ocean circulation and thermal structure.Google Scholar
  42. Przegl. geofiz. 17 (25),1972.No. 2, S. 147–153: Piechura, J., Thermohaline convection in the southern Baltic. [In poln. Spr. m. engl. Abstr.]Google Scholar
  43. Publ. Centre nat. Exploit. Océans, Sér. Résult. Campag. Mer No.4, 1972. S. 83–88: Zabourdaef, V. J., Ivanof, A. F., Paranitchev, L. G., Structure hydrologique à grande échelle.Google Scholar
  44. Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 619–621: Sharaf El Din, S. H., Some aspects of the hydrographic conditions of the Eastern part of the Mediterranean Sea.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 681–683: Škrivanić, A., Ilić, K., Hydrographic and biotical conditions in North Adriatic. IX. Hydrochemistry and some factors influencing the hydrography.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 21, 1972.No. 4, S. 153–156: Fieux, M., Observations hydrologiques hivernales dans le Rech Lacaze-Duthiers (golfe du Lion). —Rapp. P.-V. Commiss. int. Explor. Mer. Médit. 21, 1972.No. 4, S. 197–201: Duplessy, J.-C., Fieux, M., Étude isotopique des apports d'eau douce en Méditerranée occidentale.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 21, 1972.No. 4, S. 225–226: Trotti, L., Peculiarities of deep water distribution in the Middle Adriatic Sea.Google Scholar
  45. Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 29–34: Zenk, W., Observations of temperature and salinity fine-structure in deep water west of Gibraltar, resulting from turbulent and molecular mixing processes.—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 42–43: Glagoleva, M. G., Skriptunova, L. I., Water temperature variations in the mixed layer of the Atlantic Ocean and their forecast.—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 89–93: Ihme, H.M., Hinkelmann, H., Rohde, J., Variable physical data of the ocean measured by a new completed Hydrosonde.—Rapp. P.-v., Cons. Explor. Mer, 162, 1972. S. 167–183: Dickson, R. R., Variability and continuity within the Atlantic Current of the Norwegian Sea.—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 195–200:Malmberg, S.-A., Stefánsson, U., Recent changes in the water masses of the East Icelandic Current.—Rapp. P.-v. Cons. Explor.Mer, 162, 1972. S. 206–212: Dinsmore, R. P., Moynihan, M. J., On the interchange of Labrador Sea and North Atlantic Ocean waters.—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 222–226: Rossov, V. V., Kislyakov, A. G., The Polar Front in the North Atlantic in 1968–69. —Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 251–263: Thompson, B. J., Thermal structure of the western Gulf Stream region, April and October 1967.Google Scholar
  46. Rec. oceanogr. Works Japan. 11, 1972.No. 2, S. 47–51: Yoshida, K., Shoji, D., Masuzawa, J., A possible interaction between the storm tides and the Kuroshio —a speculation on the recent floods.Google Scholar
  47. Rep. hydrogr. Res., Tokyo No.7, 1971. S. 23–31: Shoji, D., Endo, H., Dominant oscillations of subsurface sea water temperature and residual tide level at Miyake Island.Google Scholar
  48. Rep. mar. Sci. Affairs, WMO No. 7, Vol.2, 1973. S. 283–289: Iwamiya, H., Sekimoto, M., Sub-surface temperature observation by reversing thermometer, BT, XBT, and STD.—Rep. mar. Sci. Affairs, WMO No. 7, Vol. 2, 1973. S. 326–332: Stidd, C. K., Borne, R. M., Time and space scales of ocean temperature relationships.—Rep. mar. Sci. Affairs, WMO No. 7, Vol. 2, 1973. S. 333—334: Barnett, T. P., The North Pacific experiment: a study of large scale ocean and atmosphere fluctuations in the Pacific.Google Scholar
  49. Richardson, I. D., Estimación de los recursos marinos frente a la costa Atlantica de America del Sur. Übers. aus d. Engl. Buenos Aires: Servicio de Hidrografia Naval, Secretaria de Marina 1964. 23 S. m. Abb. u. Tab.Google Scholar
  50. SACLANTCEN Conf. Proc. 1972. No.7, S. 5–10: Molcard, R., The Strait of Sicily in relation to the general circulation of the Mediterranean.—SACLANTCEN Conf. Proc. 1972.No. 7, S. 68–81: Grancini, G., Lavenia, A., Mosetti, F., A contribution to the hydrology of the Strait of Sicily. [Auch: Contr. Oss. geofis. sperim., Trieste. No.222.]—SACLANTCEN Conf. Proc. 1972.No.7, S. 119–125: Katz, E., Intermediate water downstream of the Strait of Sicily.—SACLANTCEN Conf. Proc. 1972.No. 7, S. 126–143. 11 Abb.: Johannessen, O. M., Lee, O. S., A deep stepped thermohaline structure deep in the Mediterranean.—SACLANTCEN Conf. Proc. 1972.No. 7, S. 144–152: Woods, J. D., The structure of fronts in the seasonal thermocline.—SACLANTCEN Conf. Proc. 1972.No. 7, S. 153–175: Briscoe, M. G., Johannessen, O. M., Vincenzi, S., The Maltese Oceanic Front: a surface description by ship and aircraft.Google Scholar
  51. SACLANTCEN Techn. Mem. No. 181, 1972. 33 S.: Dahme, A., De Haen, A., Milocmed 1968: a drogue experiment in the Ionian Sea. Part I: the temperature time series.—SACLANTCEN Techn. Mem. No. 184, 1972 29 S.: Bethell, J. P., The fine structure of the ocean: a review.Google Scholar
  52. Ser. Atlas mar. Environment. Fol. 21, 1972. 2 S., 17 S. Tab., 10 Taf.: Colton, J. B., Stoddard, R. R., Average monthly sea-water temperatures, Nova Scotia to Long Island. 1940–1959.Google Scholar
  53. Sovetsko-francuzkie issledovanija. Vzaimodejstvie okeana i atmosfery. Sevastopol' 1972. S. 69–75: Zabourdaev, V. I., Ivanov, A. F., Paranitchev, L. G., Champs hydrologiques de grande échelle. [In russ. Spr. m. franz. Abstr.]Google Scholar
  54. Sov.-kubinsk. rybochoz. Issl. 3, 1971. S. 54–63: Bessnov, N. M., Gonzales, O., Über die Ursachen der Produktivitätsänderungen in den Wassermassen des Golf von Mexico.]—Sov.-kubinsk. rybochoz. Issl. 3, 1971. S. 117–129: Bessonov, N. M., Elizarov, A. A., [Über die Wandelbarkeit der ozeanographischen Bedingungen und der Produktivität in den kubanischen Gewässern in den Gebieten der Garnelen-Massenfischerei <am Beispiel der Bucht von Cienfuegos>.] [Jeweils in russ. Spr. m. span. Abstr.]Google Scholar
  55. Studi in onore di Guiseppina Aliverti. Napoli 1972. S. 41–54: La Fond, K. G., La Fond, E. C., Roughness of the thermocline.—Studi in onore di Guiseppina Aliverti. Napoli 1972. S. 91–100: Miller, A. R., Temperature-salinity regime in a North-South section of the Tyrrhenian Sea. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2725.]Google Scholar
  56. Techn. Note Fleet numer. Weather Central, Monterey No. 56, 1970. 11 S. Text, Abb. u. Tab.: Wolff, P. M., Problems in the operational prediction of the ocean environment.Google Scholar
  57. Techn. Pap. Div. Fish. Oceanogr. Aust. No. 33, 1972. 17 S.: Rochford, D. J., Nutrient enrichment of east Australian coastal waters. 1. Evans Head upwelling.—Techn. Pap. Div. Fish. Oceanogr. Aust. No. 34, 1973. 9 S.: Boland, F. M., A monitoring section across the East Australian Current.Google Scholar
  58. Techn. Rep. Lamont-Doherty geol. Obs. CU-7-69. 1969. 19 S. m. Tab., 74 Abb.: Piip, A., Precision sound velocity profiles in the ocean. 5. Sound speeds and temperatures of Bermuda waters in autumn and winter <Oct. 1964 – March 1966>.Google Scholar
  59. Téthys 4, 1972.No. 3, S. 515–534: Travers, A., Travers, M., Données sur quelques facteurs de l'écologie du plancton dans la région de Marseille. 2. La température, les précipitations, la stabilité et la circulation des eaux.Google Scholar
  60. Thalassia jugosl. 5, 1969. S. 35–51: Buljan, M., Oceanographic conditions in the Middle Adriatic area. III. Long-term observations of temperature and salinity fluctuations.—Thalassia jugosl. 5, 1969. S. 133–140: Ilić, K., Božić, E., Quelques observations hydrographiques dans les parages de Rovinj. [In jugosl. Spr. m. franz. Abstr.]—Thalassia jugosl. 5, 1969. S. 177–183: Kečkeš, S., Kveder, S., Lovašen, Ž., Hydrographic and biotical condition in North Adriatic—VI: The influence of physical, chemical and biotical conditions on the primary phytoplankton productivity.—Thalassia jugosl. 5, 1969. S. 315–328: Škrivanić, A., Hydrographic and biotical conditions in the North Adriatic I: Hydrochemistry and some factors influencing hydrography.Google Scholar
  61. Trudy Gidromet. nauč.-issl. Centr SSSR. 60, 1972. S. 62–66: Kalackij, V. P., [Berechnung der Lagerungstiefe von der oberen jahreszeitlichen Sprungschichtgrenze im Ozean.] [In russ. Spr.]Google Scholar
  62. Trudy. Gosudarstv, okeanogr. Inst. Leningrad, 1972. No.114. S. 89–95: Aldošina, E. I., [Über Karten der auf- und absteigenden Wassermassen für Atlanten mit hydrometeorologischen und Fischerei-Daten.] [In russ. Spr.]Google Scholar
  63. Uhren, Juwelen, Schmuck 9, 1973. S. 38: Boothe, Meeresforschung mit Hilfe der Uhrzeit.Google Scholar
  64. Vie et Milieu, Paris (B).22 1971.No. 1, S. 61–74: Jacques, G., Razouls, C., Thiriot, A., Données météorologiques et hydrologiques de la région de Banyuls-sur-Mer (point côtier). Année 1968–1969. —Vie et Milieu, Paris (B). 22, 1971.No. 2, S. 257–286: Braconnot, J.-C., Contribution à l'étude biologique et écologique des Tuniciers pélagiques Salpides et Doliolides. I—Hydrologie et écologie des Salpides.Google Scholar
  65. Vop. Geogr., Mosk. 84, 1970. S. 188–201: Stepanov, V. N., On the vertical circulation and water structure of the Arctic basin. [In russ. Spr. m. engl. Abstr.]Google Scholar

Currents UDC 551.465.5

  1. Ahrens, L. H. [u.a.:] Physics and Chemistry of the Earth. Vol. 8. Oxford [usw.]: Pergamon Press (1971). S. 1–28: Le Pichon, X., Eittreim, S. L., Ludwig, W. J., Sediment transport and distribution in the Argentine Basin. 1. Antarctic Bottom Current passage through the Falkland Fracture Zone. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1425.]Google Scholar
  2. Ann. Meteor., Offenbach No.6, 1973. S. 181–186: Kahlig, P., Über eine Modifikation der Ekman-Theorie stationärer Driftströme.Google Scholar
  3. Annu. offshore Technol. Conf. 3, 1, 1971.Pap. OTC 1347, S. 215–219: Goldman, J. L., The effect of time dependent transports in storm generated currents.—Annu. offshore Technol. Conf. 4, 1, 1972.Pap. OTC 1518, S. 69–76: Hall, J. M., Hurricane-generated ocean currents — part 1: The development of a measurement program.—Annu. offshore Technol. Conf. 4, 1, 1972.Pap. OTC 1519, S. 77–90: Pease, T. E., Analytical solutions for coastal currents.Google Scholar
  4. Arch. Met. Geophys. Biokl. (A).21.1972.No. 4, S. 419–430: Birchfield, G. E., Wind-driven currents in a large lake or sea.Google Scholar
  5. Atlas Calif. coop. ocean. Fish. Invest. No. 16, 1972. 12 S. Text, 140 S. Kt.: Crowe, F. J., Schwartzlose, R. A., Release and recovery records of drift bottles in the California current region 1955 through 1971.Google Scholar
  6. Aust. J. Mar. Freshw. Res. 23, 1972.No. 2, S. 99–103: Hamon, B. V., Cresswell, G. R., Structure functions and intensities of ocean circulation off east and west Australia.Google Scholar
  7. Beitr. Meeresk., H.29, 1972. S. 19–28: Lass, H.-U., Über die Anwendung der dynamischen Methode bei zeitlich veränderlichem Massenaufbau des Ozeans.—Beitr. Meeresk., H. 29, 1972. S. 29–33: Helm, R., Zur Windabhängigkeit der Strömungsrichtung im Fehmarnbelt.Google Scholar
  8. Ber. Dt. wiss. Kommiss. Meeresforsch. 22, 1973.No. 4, S. 411–426: Wegner, G., Geostrophische Oberflächenströmung im nördlichen Nordatlantischen Ozean im Internationalen Geophysikalischen Jahr 1957/58.Google Scholar
  9. Bull. Amer. met. Soc. 53,1972.No. 10, S. 970: Cold water eddy no 2 tagged.Google Scholar
  10. ull. Pusan Fish. College. 11, 1971.No. 2, S. 73–80: Chang, J., Park, S., Sung, B.-O., Drift bottle and dye diffusion experiments in waters off Kori. [In korean. Spr. m. engl. Abstr.]Google Scholar
  11. Capurro, L. R. A., Medicion de corrientes superficiales y profundas en el Pasaje Drake. Buenos Aires: Servicio de Hidrografia Naval 1967. 57 S. m. Abb. (H. 641) [In span. Spr. m. engl. Kurzfassg.]Google Scholar
  12. Coast Geod. Survey techn. Mem. 5, 1968. 18 S.: Ramey, E. H., Measurement of ocean currents by photogrammetric methods.Google Scholar
  13. Data Rep. Dep. Oceanogr. Ore. St. Univ. 52. Ref. 72–13. 1972. 63 S.: 1970 Totem wind and current data. Complied by N. P. Plutchak.Google Scholar
  14. Deep-Sea Res. 19, 1972.No. 9, S. 633–650: Harris, T. F. W., Sources of the Agulhas Current in the spring of 1964.—Deep-Sea Res. 19, 1972.No. 10, S. 707–718: Stommel, H., Arons, A. B., On the abyssal circulation of the world ocean. 5. The influence of bottom slope on the broadening of inertial boundary currents.—Deep-Sea Res. 19, 1972.No. 12, S. 833–846: Gonella, J., A rotary-component method for analysing meteorological and oceanographic vector time series. [Auch: Contr. Woods Hole oceanogr. Instn No. 2791.]—Deep-Sea Res. 19, 1972.No. 12, S. 879–893: Parker, C. E., Some direct observations of currents in the Gulf Stream. [Auch: Contr. Woods Hole oceanogr. Instn No. 2845.]—Deep-Sea Res. 19, 1972.No. 12 S. 895–898: Wilkinson, D. L., An apparent similarity among ocean eddies.—Deep-Sea Res. 20, 1973.No. 1, S. 69–86: Philander, S. G. H., The equatorial thermocline.—Deep-Sea Res. 20, 1973.No. 3, S. 261–268: Pollard, R., Interpretation of near-surface current meter observations. [Auch: Contr. Wood Hole Oceanogr. Inst. No. 2860.]Google Scholar
  15. Dt. hydrogr. Z. 25, 1972.No. 6, S. 265–278: Kowalik, Z., Winddriven circulation in a shallow stratified sea.Google Scholar
  16. Dock Harb. Author. 53, 1973.No. 628, S. 391–395: Last, J. D., Roberts, E. W., With pollution in mind ... a buoy tracking system for water movement surveys.Google Scholar
  17. Dokl. Akad. Nauk SSSR, 207, 1972.No. 5, S. 1177–1180: Kolesnikov, A. G., Vasiliev, A. S., Ganson, P. P., New data on the circulation of waters in the tropical region of the Pacific Ocean.—Dokl. Akad. Nauk SSSR, 207, 1972.No. 6, S. 1456–1459: Kort, V. G., Bubnov, V. A., Zubin, A. B., Dynamic structure of the region of Antillo-Guianian countercurrent.—Dokl. Akad. Nauk SSSR, 208, 1973.No. 4, S. 829–832: Vapniar, D. U., The influence of Rossby equatorial waves on stationary currents. [Jeweils in russ. Spr.]Google Scholar
  18. Dyrssen, D. [u.a.]: The changing chemistry of the oceans. Stockholm 1972. (Nobel Symposium 20.) S. 19–25: Veronis, G., Physical models of large scale ocean circulation.Google Scholar
  19. Eos, Wash., Vol.52, 1971.No. 6, S. 225–227: Webster, F., Variability of ocean circulation.—Eos, Wash., Vol. 52, 1971.No. 6, S. 227–229: Reid, J. L., Deep circulation.—Eos, Wash., Vol. 52, 1971.No. 6, S. 230–232: Gordon, A. L., Antarctic Circulation.Google Scholar
  20. Geophys. Fluid Dynam. 3, 1972.No. 2, S. 105–123: Philander, S. G. H., The equatorial dynamics of a deep homogeneous ocean.Google Scholar
  21. Geophys. J. R. astr. Soc. 30, 1972.No. 4, S. 415–432: Heaps, N. S., Estimation of density currents in the Liverpool Bay area of the Irish Sea.Google Scholar
  22. Hidrogr. Godišn. 1971 (1972). S. 129–151: Nožina, I., Vužak, Z., Contribution to studying sea currents in the Adriatic Sea. [In jugosl. Spr. m. engl. Abstr.]Google Scholar
  23. The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972). Vol. 1, S. 67–70: Oyama, K., Ishiyama, S., Increase and decrease of ocean current and the development of coastal waters from the comparative studies of molluscan assemblages.—The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972). Vol. 1, S. 166–182: Tabata, S., Significance of long-term oceanographic measurements to the selection of waste disposal sites.Google Scholar
  24. Int. Indian Oc. Exped. oceanogr. Monogr. No. 1, 1970. 68 S.: Düing, W., The monsoon regime of the currents in the Indian Ocean. [Auch: Contr. Hawaii Inst. Geophys. No. 330.]Google Scholar
  25. Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana.8, 1972.No. 11, S. 1202–1215: Sarkisyan, A. S., Keondzhyan, V. P., The calculation of sea level surface and total mass transport function for the North Atlantic.—Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 8, 1972.No. 12, S. 1297–1307: Keondzhyan, V. P., Diagnostic calculation of current velocities at sixteen levels for the North Atlantic. [Jewils: in russ. Spr. m. engl. Abstr.]—Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 9, 1973.No. 1, S. 105–109: Kort, V. G., Koshlyakov, M. N., Ivanov-Franzkevich, G. N., Variability of large scale currents at hydrophysical “Polygon” in Tropical Atlantic. [In russ. Spr.]Google Scholar
  26. J. Cons. 34, 1972.No. 3, S. 389–415: Riley, J. D., Ramster, J. W., Woodhead seabed drifter recoveries and the influence of human, tidal, and wind factors.Google Scholar
  27. J. Fish. Res. Bd. Can. 30, 1973.No. 1, S. 121–123: Ingram, R. G., Winter surface currents around Cape Breton Island.—J. Fish. Res. Bd. Can. 30, 1973.No. 2, S. 261–267: Levy, E. M., Walton, A., Dispersed and particulate petrolium residues in the Gulf of St. Lawrence.Google Scholar
  28. J. geophys. Res. 77, 1972.No. 30, S. 5981–5986: Tsuchiya, M., A subsurface North Equatorial Countercurrent in the eastern Pacific Ocean.—J. geophys. Res. 77, 1972.No. 30, S. 5987–5992: Devine, M., Some aspects of the dynamics of the Antarctic Circumpolar Current.—J. geophys. Res. 77, 1972.No. 30. S. 6000–6013: Brooks, I., Lick, W., Lake currents associated with the thermal bar.—J. geophys. Res. 77, 1972.No. 30. S. 6021–6024: Mantyla, A. W., Use of satellite navigation for indications of equatorial surface currents.Google Scholar
  29. J. mar. Res. 31, 1973.No. 1, S. 87–89: Alexander, R. C., Comments on Johnson's paper, “On the winddriven circulation of a stratified ocean”.Google Scholar
  30. J. Oceanogr. Soc. Japan. 28, 1972.No. 2, S. 48–62: Hidaka, K., How faithfully will the geostrophic currents represent the existing ocean currents?Google Scholar
  31. J. Phys. Oceanogr. Vol.1, 1971.No. 2, S. 92–104: Csanady, G. T., Baroclinic boundary currents and long edge-waves in basins with sloping shores.—J. phys. Oceanogr. Vol. 1, 1971.No. 2, S. 105–122: Chi Kan Huang, J., The thermal current in Lake Michigan.—J. phys. Oceanogr. Vol. 1, 1971.No. 2, S. 123–129: Warsh, K. L., Echternacht, K. L., Garstang, M., Structure of near-surface currents east of Barbados.—J. phys. Oceanogr. Vol. 1, 1971.No. 2, S. 130–138: Hantel, M., The entrainment influence on the ocean surface layer in tropical Latitudes.—J. phys. Oceanogr. Vol. 2, 1972.No. 4, S. 305–318: Bye, J. A. T., Sag, T. W., A numerical model for circulation in a homogeneous word ocean.—J. phys. Oceanogr. Vol. 2. 1972.No. 4, S. 319–335: Bryan, K., Cox, M. D., The circulation of the world ocean: a numerical study, P. 1, A homogeneous model.—J. phys. Oceanogr. Vol. 2. 1972.No. 4, S. 336–354: Holland, W. R., Hirschman, A. D., A numerical calculation of the circulation in the North Atlantic Ocean.—J. phys. Oceanogr. Vol. 2, 1972.No. 4, S. 355–362: Birchfield, G. E. Theoretical aspects of wind-driven currents in a sea or lake of variable depth with no horizontal mixing.—J. phys. Oceanogr. Vol. 2, 1972.No. 4, S. 363–371: Thomson, R. E., On the Alaskan Stream.—J. phys. Oceanogr. Vol. 1, 1971.No. 2, S. 382–390: Huang, J. C. K., Recent decadal variation in the California current system.—J. phys. Oceanogr. Vol. 1, 1971.No. 2, S. 498–508: Csanady, G. T., Frictional currents in the mixed layer at the sea surface.—J. phys. Oceanogr. Vol. 1, 1971.No. 2, S. 509–510: Rooth, C., A linearized bottom friction law for large-scale oceanic motions. [Auch: Contr. Rosenstiel School mar. atmos. Sci. Univ. Miami. No. 1541.]—J. phys. Oceanogr. Vol. 3, 1973.No. 1, S. 3–15: Killworth, P. D., On the circulation of a homogeneous ocean induced by the presence of continental slopes.—J. phys. Oceanogr. Vol. 3, 1973.No. 1, S. 61–65: Saunders, P. M., The instability of a baroclinic vortex. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2896.]—J. phys. Oceanogr. Vol. 3, 1973.No. 1, S. 156–161: White, W. B., An ocean wake in the Equatorial Undercurrent downstream from the Galapagos archipelago.—J. phys. Oceanogr. Vol. 3, 1973.No. 1, S. 165–167: Yeski, L. A., Green III, T., Scarpace, F., On current measurements in Lake Superior by photogrammetry.—J. phys. Oceanogr. Vol. 3, 1973.No. 2, S. 169–172: Vonder Haar, T. H., New estimate of annual poleward energy transport by northern hemisphere oceans.—J. phys. Oceanogr. Vol. 3, 1973.No. 2, S. 237–238: Gotthardt, G. A., Observed formation of a Gulf Stream anticyclonic eddy.Google Scholar
  32. J. Tokyo Univ. Fish., Vol.58, 1972.No. 1-2, S. 27–40: Saito, Y., Takasugi, Y., On the vertical circulation of local wind-driven current in the coastal region.—J. Tokyo Univ. Fish., Vol. 58, 1972.No. 1-2 S. 41–56: Saito, Y., Suginohara, N., On the northward concentration of the wind-driven ocean circulation.Google Scholar
  33. Limnol. & Oceanogr. 17, 1972.No. 3, S. 403–409: Palmer, M. D., Izatt, J. B., Lake movements with partial ice cover.—Limnol. & Oceanogr. 17, 1972.No. 4, S. 636–638: Gross, M. G., Bumpus, D. F., Residual drift of near-bottom waters in Long-Island Sound, 1969. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2766.]Google Scholar
  34. Manuscr. Rep. Ser. Mar. Sci. Direct. Dep. Environm., Ottawa. No. 27, 1972. 54 S.: Ronday, F. C., Modèle mathématique pour l'étude des courants résiduels dans la Mer du Nord.Google Scholar
  35. Mar. Observer. Vol.43, No. 239, 1973. S. 31–35: Sanderson, R. M., The alternating currents of the equatorial Indian Ocean.Google Scholar
  36. Maritimes.1972.August S. 15–16: Richardson, P. L., Tracking a Gulf Stream eddy.Google Scholar
  37. Met. i Gidrol. 1972. No.10, S. 77–81: Gimeyn, D. I., Kagan, B. A., On effect of interaction of periodic velocity oscillations and turbulence in drift currents.—Met. i Gidrol. 1972.No. 11, S. 75–81: Sinelschikov, V. S., Wind currents with bottom slipping in shallow water bodies. —Met. i Gidrol. 1973.No. 1, S. 79–84: Kozlov, V. F., On methods for ocean current calculation from the giben density field. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  38. Morskoj Sbornik. 2, 1973. S. 82–84: Bogdanov, K., [Äquatoriale tiefe Gegenströmungen im Ozean.] [In russ. Spr.]Google Scholar
  39. N. Z. J. mar. Freshw. Res., 6, 1972.No. 1 u 2, S. 148–177: Heath, R. A., Choice of reference surface for geostrophic currents around New Zealand.—N. Z. J. mar. Freshw. Res., 6, 1972.No. 1 u. 2, S. 178–184: Ridgway, N. M., Direction of drift of surface oil with wind and tide.—N. Z. J. mar. Freshw. Res., 6, 1972.No. 3, S. 352–364: Heath, R. A., Wind-derived water motion off the east coast of New Zealand.Google Scholar
  40. Newsletter. Weather Bur., Pretoria, 1972. No.285, S. 196–201; Smit, J. M. A., Some observations on the sub-tropical convergence and the Agulhas current.Google Scholar
  41. Nota interna Ist. Fis. Marconi, Roma. No. 366, 1972. 9 S.: Malvestuto, V., Zirilli, F., The horizontal Coriolis component μ in a stratified non viscous ocean.—Nota interna Ist. Fis. Marconi, Roma. No. 377, 1972. 16 S.: Bardoz, C., Salusti, E., On the pressure in the sea: a simple model.—Nota interna Ist. Fis. Marconi, Roma. No. 403, 1972. 20 S.: Malvestuto, V., Salusti, E., Zirilli, F., On a semigroup approach to oceanography: the treatment of the linearized equations for non viscous ocean.—Nota interna Ist. Fis. Marconi, Roma. No. 404, 1972. 8 S.: Malvestuto, V., Zirilli, F., The horizontal component μ of earth rotation and the related Coriolis force in a homogenous ocean.Google Scholar
  42. Ocean Engng. 2, 1972.No. 3, S. 95–114: Paquette, R. G., Some statistical properties of ocean currents.—Ocean Engng. 2, 1972.No. 3, S. 141–157: Skop, R. A., Clark, A. van, The bending of a neutrally buoyant, tensioned pipe in a steady current.Google Scholar
  43. Ocean Industry.7, 1972.No. 9, S. 174–176: Kort, V., Interesting results from Soviet survey.Google Scholar
  44. Oceanogr. Mag. 24, 1972.No. 1, S. 1–23: Moriyasu, S., On short-term fluctuations of the Tsushima Current to the northwest of the Noto Peninsula in October 1969.—Oceanogr. Mag. 24, 1972.No. 1, S. 39–55: Iida, H., Edge waves on the linearly sloping coast. II. Forced waves and β-effect.Google Scholar
  45. Okeanologija.12, 1972.No. 5, S. 892–897: Daricheva, L. V., Duvanin, A. I., Chuprynin, V. I., Simulation of the ocean-atmosphere self-oscillating system. —Okeanologija. 13, 1973.No. 1, S. 51–65: Burkov, V. A., Monin, A. S., Global features of the water circulation in the World Ocean.—Okeanologija. 13, 1973.No. 2, S. 222–225: Bryantsev, V. A., Gomez, J., Stable currents of the Campeche Bank. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  46. Pilot Chart of the North Atlantic Ocean. U. S. Naval Oceanogr. Off., Washington. January 1973. [Rückseite:] General surface current chart of the world. January, February, and March. Current observations over the thirty-year period 1933 to 1963.Google Scholar
  47. Proc. Int. Conf. Prot Oc. Engng arct. Cond. 1, Vol.1, 1971. S. 514–535: Saetre, R., Ljøen, R., The Norwegian coastal current.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 2, 1971. S. 893–908: Lindh, G., Bengtsson, L., Wind-induced circu-Google Scholar
  48. Proc. R. Soc. Edinb. (B) 72, 1971–1972 (1972).No. 1, S. 341–349: Mann, C. R., A review of the branching of the Gulf Stream system.—Proc. R. Soc. Edinb. (B). 72. 1971–1972 (1972).No. 1, S. 351–356: Brekhovskikh, L. M., Fedorov, K. N., Fomin, L. M., Historical evolution of modern oceanography towards largescale physical experiments in the ocean.—Proc. R. Soc. Edinb. (B). 73, 1971–1972 (1972).No. 1, S. 59–67: Mota, A. Teixeira da, Atlantic winds and ocean currents in Portuguese nautical documents of the sixteenth century.Google Scholar
  49. Progr. Rep. Inst. Hydrodynam. hydraul. Engng Techn. Univ. Denmark. No.25, 1972. S. 3–8: Engelund, F., Pedersen, F. B., Surface jet at small Richardson numbers.Google Scholar
  50. Publ. Centre nat. Exploit. Océans. Sér. Résult. Campag. Mer No.4, 1972. S. 67–73: Pastoukhov, A. F., Timchenko, I. E., Structure des champs de courants dans la partie Nord-Ouest de la Méditerranée.—Publ. Centre nat. Exploit. Océans. Sér. Résult. Campag. Mer No. 4, 1972. S. 91–106: Crepon, M., Gonella, J., Lacombe, H., Participation française à l'opération COFRASOV 1 Coopération Océanographique Franco-Soviétique).—Publ. Centre nat. Exploit. Océans. Sér. Résult. Campag. Mer. No. 4, 1972. S. 113–128: Crepon, M., Hydrodynamique marine en régime impulsionnel.Google Scholar
  51. Pure appl. Geophys. 109, 1972.No. 9, S. 208–220: Darbyshire, J., The effect of bottom topography on the Agulhas Current.Google Scholar
  52. Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 35–41: Longuet-Higgins, M. S., On the interpretation of records of time-varying currents.—Rapp. p.-v. Cons. Explor. Mer, 162, 1972. S. 159–166: Maximov, I. V., Sarukhanyan, E. I. Smirnov, N. P., Long-term variations of the North Atlantic Current and their possible causes.—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 227–231: Sharaf El din, S. H., The dynamics of the residual flow along the northwest coast of England.—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 232–247: Hill, H. W., Ramster, J. W., Variability in current meter records in the Irish Sea.—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 248–250: Sauskan, E. M., Current variations as observed at multi-diurnal stations in the Atlantic Ocean.—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 264–275: Beckerle, J. C., Eddy circulation patterns in the Sargasso Sea. [Auch: Contr. Woods Hole oceanogr. Instn No. 2128.]—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 276–279: Kort, V. G., New data on the dynamic structure of the western boundary currents in the Tropical Atlantic—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 280–284: Mratov, K. Ya., On principal water divergence and convergence of the eastern Tropical Atlantic.—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 296–299: Aagaard, K., The winddriven circulation of the Greenland and Norwegian seas and its variability. [Auch: Deep-Sea Res. 17, 1970. S. 281–291.]Google Scholar
  53. Rec. oceanogr. Works Japan. 11, 1972.No. 2, S. 39–45: Teramoto, T., Measurements of vertical profile of horizontal velocity in the sea.Google Scholar
  54. Rep. Div. Fish. Oceanogr. Aus. No. 52, 1972.5 S.: Cresswell, G. R., Wind-driven ocean surface transport around Australia.Google Scholar
  55. Rep. Geophys. Inst. Bergen, A, 1973. No. 31, Getr. Pag.: Rossby T., Preliminary studies of vertical shear.Google Scholar
  56. Researches in hydrography and oceanography. Ed.: D. Shoji. Tokyo: Hydrographic Department 1972. S. 113–149: Shoji, D., The Kuroshio south of Japan in 1965.Google Scholar
  57. Rev. Met. marit. 1972.No. 10, S. 5–8: Las circulaciones atmosferica y oceanica.Google Scholar
  58. SACLANTCEN Conf. Proc. 1972.No. 7, S. 82–95. 14 Abb.: Molcard, R., Preliminary results of current measurements in the Strait of Siciliy in May 1970.‐SACLANTCEN Conf. Proc. 1972.No. 7, S. 96–106: 10 Abb.: Gonella, J. A., Some statistical characteristics of ocean motions from current measurements.Google Scholar
  59. Sci. Rep. Univ. Miami, Rosenstiel School mar. atmos. Sci. UM-RSMAS-72061. 1972. 33 S. m. Abb.: Düing, W., Rooth, C., Worthem, S., On the influence of bottom friction on transient baroclinic wind response.Google Scholar
  60. Sovetsko-francuzkie issledovanija. Vzaimodejstvie okeana i atmosfery. Sevastopol' 1972. S. 15–25: Crepon, M., Gonella, J., Lacombe, H., Participation française aux recherches conjointes franco-sovietique (“Cofrasov-1”). —Sovetsko-francuzkie issledovanija. Vzaimodejstvie okeana i atmosfery. Sevastopol' 1972. S. 48–61: Gonella, J., Le courant de dérive d'après les observations effectuées à la Bouée-Laboratoire. —Sovetsko-francuzkie issledovanija. Vzaimodejstvie okeana i atmosfery. Sevastopol' 1972. S. 62–68: Pastouhov, A. F., Timchenko, I. E., Structure des champs des courants dans la région nord-ouest de la Méditerranée. [Jeweils in russ. Spr. m. franz. Abstr.]Google Scholar
  61. Sov.-kubinsk. rybochoz. Issl. 3, 1971. S. 9–13: Elizarov, A. A., Gomez, J., [Über die Dynamik der Wassermassen, die Kuba umgeben.]—Sov.-kubinsk. rybochoz. Issl. 3, 1971. S. 130–141: Elizarov, A. A., Machado, I., [Über die Wandelbarkeit der Yucatan-Strömung und der Zirkulationsarten im Canal de Yucatan im Zusammenhang mit der Konzentration kommerziell verwertbarer Organismen auf der Campeche-Bank.] [Jeweils in russ. Spr. m. span. Abstr.]Google Scholar
  62. Studi in onore di Guiseppina Aliverti. Napoli 1972. S. 55–74: Larson, S., Laevastu, T., Numerical analysis of ocean surface currents.—Studi in onore di Guiseppina Aliverti. Napoli 1972. S. 75–90: Fomin, L. M., Moskalenko, L. V., On the influence of a bottom topography and the earth's rotation on the wind-driven circulation in the Mediterranean Sea.Google Scholar
  63. Techn. Rep. Hydrogr. Off. Republ. Korea. 1971. S. 7–16: Hong, S.-M. General current circulation in the Yongil Man in the spring. In korean. Spr. m. engl. Abstr.Google Scholar
  64. Tellus, Vol.24, 1972.No. 5, S. 414–420: Janowitz, G. S., the effect of finite vertical Ekman number on the coastal boundary layers of a lake.Google Scholar
  65. Téthys 4, 1972.No. 2, S. 269–312: Castelbon, C., Étude de la circulation des masses d'eau dans le golfe de Marseille.Google Scholar
  66. Thalassia jugosl. 5, 1969. S. 465–475: Zore-Armanda, M., Oceanographic conditions in the Middle Adriatic area. — II. System of currents in the surface layer and their effect on the temperature distribution.Google Scholar
  67. Trudy Gidromet. nauč.-issl. Centr SSSR. 51, 1969. S. 3–15: Sauskan, E. M., [Kurzperiodische Strömungsänderungen im nordwestlichen Teil des Stillen Ozeans und ihre Voraussage.]—Trudy Gidromet. nauč.-issl. Centr SSSR. 51, 1969. S. 16–28: Linejkin, P. S., [Bodentopographie und tiefe Strömungen im Ozean.]—Trudy Gidromet. nauč.-issl. Centr SSSR. 51 1969. S. 49–54: Getman, I. F., Kutalo, A. A., [Berechnung voller Strömungen an der Grenze des nördlichen und mittleren Kaspischen Meeres unter Berücksichtigung der Konturen von Küstenlinien.] [Jeweils in russ. Spr.]Google Scholar
  68. Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. No.112, S. 44–56: Konovalova, I. Z., Lagutin, B. L., Ovsjannikova, O. A., [Bestimmung zustandsbedingter Kennzeichen von Strömmungen in der küstennahen Zone der Meere.]—Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. No. 114. S. 80–88: Soskin, I. M., Gerasimenko, V. I., [Wärmeadvektion durch die Nordatlantische Meeresströmung.]—Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. No. 114. S. 96–108: Erofeeva, E. S., [Geostrophische Strömungen im nordöstlichen Teil des Atlantischen Ozeans.] —Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. 115, 1972. S. 26–40: Škudova, G. Ja., [Berechnung stationärer Strömungen im nördlichen Kaspischen Meer.] [Jeweils in russ. Spr.]Google Scholar
  69. Vie et Milieu, Paris (B) 22, 1971.No. 2, S. 227–238: Saint-Guily, B., Influence d'une profondeur variable sur les courants induits par le vent.Google Scholar
  70. Vop. Geogr., Mosk. 84, 1970. S. 202–212: Lappo, S. S., The currents in ocean, connected with the travelling baric systems [In russ. Spr. m. engl. Abstr.]Google Scholar

Surface water UDC 551. 465.6

  1. Annu. offshore Technol. Conf. 4, 2, 1972.Pap. OTC 1638, S. 211–220: Weisblatt, E. A., Culver, J. L., Remote multifrequency reconnaissance of coastal environments.Google Scholar
  2. Arch. Met. Geophys. Biokl. (A). 21, 1972.No. 4, S. 399–412: Tiefenau, H., Fabian, P., The specific ozone destruction at the ocean surface and its dependence on horizontal wind velocity from profile measurements.Google Scholar
  3. Atmos. Technol., Boulder 1, 1973. S. 43–48: Brown, E. N., Scarpace, F. L., Airborne infrared imaging system.Google Scholar
  4. Aust. J. mar. Freshw. Res. 24, 1973.No 1, S. 21–71: Walken, K. F., Studies on a saline lake ecosystem.Google Scholar
  5. Balech, E., Notas históricas y críticas de la oceanografía biológica Argentína. Buenos Aires: Servicio de Hidrografia Naval, Armada Argentina, 1971. 57 S. m. Abb. u. Tab.Google Scholar
  6. Bild d. Wiss. 10, 1973.No. 4, S. 362–372: Kaminski, H., Geoforschung. Erkundung aus der Umlaufbahn.Google Scholar
  7. Bol. Inst. esp. Oceanogr. No. 157, 1972. 16 S.: Cano, N. L., Castillejo, F. F., de, Contribución alconocimiento del mar de Alborán. III. Variaciones del remolino anticiclónico.Google Scholar
  8. Boundary-Layer Meteor. 3, 1972.No. 1, S. 15–46: Pandolfo, J. P., Jacobs, C. A. Numerical simulations of the tropical air-sea planetary boundary layer.Google Scholar
  9. Bull. Fish. Res. & Dev. Ag., Pusan. No.9, 1972. S. 29–45: Lim, K. B., On the study of monthly variation of surface water temperature and its annual mean condition in the coast of Korea. [In korean. Spr. mit. engl. Abstr.]Google Scholar
  10. Bull. Nansei reg. Fish. Res. Lab. No.5, 1972. S. 11–24: Hanaoka, F., Some notes on fluctuations of the catch related to the short-term environmental changes in the purse-seine fishing grounds around the Nansei waters. [In japan. Spr. m. engl. Abstr.]Google Scholar
  11. Cah. ORSTOM, Océanogr. 10, 1972.No. 1, S. 99–104: Donguy, J. R., Comparaison de données superficielles avec celles de satellites artificiels dans la partie occidentale de l'Océan Indien.Google Scholar
  12. Dt. hydrogr. Z. 25, 1972.No. 5, S. 202–215: Harvey, J. G., Water temperatures at Menai Bridge Pier, 1955–1968.Google Scholar
  13. Dokl. Akad. Nauk SSSR. 207, 1972.No. 3, S. 586–588: Agafonova, E. G., Monin, A. S., Statistics of temperature and salinity of water surface of the Atlantic Ocean. [In russ. Spr.]Google Scholar
  14. Dyrssen, D. [u. a.]: The changing chemistry of the oceans. Stockholm 1972. (Nobel Symposium 20.) S. 27–51: Namias, J., Large-scale long-term fluctuations in some atmospheric and oceanic variables.Google Scholar
  15. Eos, Wash.,53,1972.10.S. 875–876: Oceanographers tag huge North Atlantic eddy.Google Scholar
  16. Hidrogr. Godišn, 1971 (1972). S. 89–102: Gačić, M., Smirčić, T., Analyse statistique de la dynamique de la couche superficielle dans la baie de Kaštela. [In jugosl. spr. mit franz. Abstr.]Google Scholar
  17. J. appl. Met. 11, 1972.No. 8, S. 1164–1174: Namias, J., Experiments in objectively predicting some atmospheric and oceanic variables for the winter 1971–72.Google Scholar
  18. J. Cons. 34, 1972.No. 3, S. 532–534: Dow, R. L., Fluctuations in Gulf of Maine sea temperature and specific molluscan abundance.Google Scholar
  19. J. geophys. Res. 77, 1972.No. 27, S. 5076–5086: Barker, D. R., Zeitlin, H., Metal-ion concentrations in seasurface micro-layer and size-separated atmospheric aerosol samples in Hawaii. [Auch: Contr. Hawaii Inst. Geophys. No. 480.]—J., geophys. Res. 77, 1972.No. 27, S. 5170–5176: Horne, R. A., Structure of sea water and its role in chemical mass transport between the sea and the atmosphere.—J. geophys. Res. 77, 1972.No. 27, S. 5177–5182: Jarvis, N. L., Effect of various salts on the surface potential of the water-air interface.—J. geophys. Res. 77, 1972.No. 27. S. 5243–5254: Piotrowicz, S. R., Ray, B. J., Hoffman, G. L., Trace metal enrichment in the seasurface micro-layer.—J. geophys. Res. 77, 1972.No. 27, S. 5278–5282: Szekielda, K.-H., Kupferman, S. L., Klemas, V., Element enrichment in organic films and foam associated with aquatic frontal systems.—J. geophys. Res. 77, 1972.No. 27, S. 5293–5301: Wallace, G. T., Loeb, G. I., Wilson, D. F., On the flotation of particulates in sea water by rising bubbles.Google Scholar
  20. J. phys. Oceanogr. Vol. 1, 1971.No. 2, S. 65–81: Namias, J., The 1968–69 winter as an outgrowth of sea and air coupling during antecendent seasons.—J. phys. Oceanogr. Vol. 2, 1972.No. 4, S. 391–404: Clark, N. E., Specification of sea surface temperature anomaly patterus in the eastern North Pacific.Google Scholar
  21. Mahasagar. 4, 1971.No. 3-4, S. 101–107: Lonkar, S. D., Seasonal variations in the hydrological conditions in the coastal waters of Ratnagiri.Google Scholar
  22. Mar. clim. Summ. Nat. oc. atmos. Admin. 4, 1973. 22 S. Text, 556 S. Tab.Google Scholar
  23. Marine climatological tables of the North Pacific Ocean for 1967. By Marine Division JMA. Tokyo: Japan Meteorological Agency 1972. 181 S. Abb. u. Tab.Google Scholar
  24. Mariner's Weather Log. 17, 1973.No. 1, S. 1–3: Pashinski, D. J., Maul, G. A., Use of ocean temperature while coasting between the Straits of Florida and Cape Hatteras.Google Scholar
  25. Mar. Technol. Soc. J. 7, 1973.No. 1, S. 10–13: Collins, C. A., Wilson, W. S., Carlmark, J., The North Pacific Experiment probes weather phenomenon.Google Scholar
  26. Met. j Gidrol. 1972. No.9, S. 93–96: Romanov, Yu. A., Shishkov, Yu. A., Variations in air temperature and humidity before showers in the near sea-surface layer in the vicinity of the equator. [In russ. Spr.]Google Scholar
  27. Met. Abh., Berlin. 99,1972.No. 1, 109 S., 11 Kt.:Bothe, D., Infrarot-Strahlungsmessungen der NIMBUSSatelliten im spektralen Fensterbereich bei 4 μ und die meteorologisch-synoptische Auswertung der digitalen Meßdaten.Google Scholar
  28. Month. Weather Rev., Wash. 100.1972.No. 8, S. 597–606: Sanders, F., Meteorological and oceanographic conditions during the 1970 Bermuda Yacht Race.Google Scholar
  29. NASA Contractor Rep. CR-1960. 1972. XIII, 266 S.: Hidy, G. M., Hall, W. F., Hardy, W. N., Development of a satellite microwave adiometer to sense the surface temperature of the world oceans.Google Scholar
  30. NASA techn. Note. NASA TN D-6684, 1972. Allison, L. J., Steranka, J., Holub, R. J., Air-sea interaction in the tropical Pacific Ocean.Google Scholar
  31. Nature, Lond., Vol.240, No. 5383, 1972. S. 552–553: Chester, R., Stoner, J., Concentration of suspended particulate matter in surface sea water.Google Scholar
  32. N. Z. J. mar. Freshw. Res., 6, 1972.Nb. 1 u. 2, S. 133–147: Farkas, E., Sea surface temperatures and atmospheric circulation anomalies south of New Zealand during 1957 to 1966.Google Scholar
  33. NOAA. 3, 1973.No. 2, S. 5–11: Cook, A. K., Space watch on the global sea.Google Scholar
  34. Oceanogr. Mag. 24, 1972.No. 1, S. 57–63: Akagawa, M., The mean sea surface temperature of the Okhotsk Sea in cooling season (second report). Normal sea surface temperature.Google Scholar
  35. Oceans, S. Diego. 5, 1972,No. 5, S. 72–74: Daignault, F., New mission.Google Scholar
  36. Okeanologija. 12, 1972.No. 6, S. 975–981: Lelikova, E. F., Kharkov, B. B., On the numerical calculation on surface temperature in the ocean.—Okeanologija. 13, 1973,No. 2, S. 235–237: Agafonova, E. G., Monin, A. S., Thermohaline statistics of the Indian Ocean surface water. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  37. Pacif. mar. Sci. Rep., Can. 72–3. 1972. 39 S.: Gower, J. F. R., A survey of the uses of remote sensing from aircraft and satellites in oceanography and hydrography —Pacif. mar. Sci. Rep., Can. 72–13. 1972. III, 93 S. m. abb. u. Tab.: Hollister, H. J., Landnes, A. M., Sea surface temperatures and salinities at shore stations on the British Columbia coast 1914–1970.Google Scholar
  38. Proc. US Navy Symp. milit. Oceanogr. 6, 1969. Vol. 1, S. 365–376: Wilkerson, J. C., Noble, V. E., Potential impact of satellite data on sea surface temperature analysis.—Proc. US Navy Symp. milit. Oceanogr. 7, 1970. Vol. 1, S. 88–100: Cottrell, W. N., Ruggles, K. W., The planned operational use of satellive data in deriving sea surface temperature information for naval operations.—Proc. US Navy Symp. milit. Oceanogr. 8, 1971. Vol. 1, S. 362–364: Namias, J. The time and space scales and the rangs of occan and atmosphere prediction. [Abstr. only]Google Scholar
  39. Publ. Centre nat. Exploit. Oceans. Sér. Résult. Campag. Mer No. 4, 1972. S. 13–25 Naumenko, M. F., Isaeva, L. S., Timofee, N. A., Études hydrométéorologiques et actionètriques éffectuées par l'expédition franco-soviétique. (Méditerranée — été 1969).—Publ. Centre nat. Exploit. Oceans. Sér. Résult. Campag. Mer No. 4, 1972. S. 129–140: Deschangps, P. V., Lecomte, P., Vanhoutte, J. C., Mesues radiométriques de la température de la surface de l'océan sur la bouée Laboratoire.Google Scholar
  40. Rapp. P.-V. Commiss. int. Explos. Mer. Médit. 21, 1972.No. 4, S. 203–205: Zore-Armanda, M., Response of the Mediterranean to the oceanographic/meteorological conditions of the North Atlantic.—Rapp. P.-V. Commiss. int. Explor. Mer. Médit. 21, 1972.No. 4, S. 207–210: Zore-Armanda, M., Répartition saisonnière de la salinité et régime des courants dans les aux de l'Adriatique.—Rapp. P.-V. Commiss. int. Explos. Mer. Médit. 21, 1972.No. 4, S. 217–220: Colacino, M., Sullmisura della temperatura superficiale del mare mediante radiometri all'infrarosso.—Rapp. P.-V. Commiss. int. Explor. Mer. Médit. 21, 1972.No. 4, S. 221–223: Colacino, M., Vivona, F. M., Misure radiometriche da aeeo della temperatura superficiale del mare.Google Scholar
  41. Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 120–132: Lamb, H. H., Ratcliffe, R. A. S., On the magnitude of climatic anomalies in the oceans and some related observations of atmospheric circulation behaviour.—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 139–153: Rodewald, M., Long-term variations of the sea temperature in the areas of the nine North Atlantic Ocean Weather Stations during the period 1951–1968.—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 154–158: Potayehuk, S. I., Some results of the statistical analysis of the long-term variability of water temperature in the North Atlantic. —Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 201–205: Stefánsson, U., Near-shore fluctuations of the frontal zone southeast of Iceland.—Rapp. P.-v. Cons. Explor. Mer, 162, 1972. S. 213–219: Martin, J. H. A., Marine climati changes in the north-east Atlantic, 1900–1966.Google Scholar
  42. Rep. mar. Sci. Affairs, WMO, No. 7, Vol.2, 1973. S. 76–81: Robson, M. E., Deficiencies in shipboard observations. —Rep. mar. Sci. Affairs, WMO No. 7, Vol. 2, 1973. S. 96–103: Rees, J. G., The recording of sea surface temperatures in ships of the Royal Navy.—Rep. mar. Sci. Affairs, WMO No. 7, Vol. 2, 1973. S. 104–115: Treussart, H. P., Evolustion des moyens d'observation météorologique à bord des navires.—Rep. mar. Sci. Affairs, WMO, No. 7, Vol. 2, 1973. S. 290–314: Black, P. G., Mallinger, W. D., Use of satellite infrared imagery airborne expendable bathythermographs and airborne precision infrared thermometers to infer the mutual intercction of hurricanes and the upper mixed layer of the ocean.—Rep. mar. Sci. Affairs, WMO No. 7, Vol. 2, 1973. S. 426–437: Vockeroth, R. E., Cook, J. M., A proposed shipboard meteorological cata system.Google Scholar
  43. Rev. Mus. argent. Cienc. natur. 2, 1968.No. 8, S. 257–277: Esnal, G. B., Salpas colectadas por “El Austral” y el “Walther Herwig” en el Oceano Atlaisico. [In span. Spr. m. engl. Abstr.]Google Scholar
  44. Riv. ital. Geofis. 21, 1972.No. 3-4, S. 132–134: Dabini Oliva, G., Ferrarone, F., Ferretti, L., Cińque anni di osservaziooi idrologiche nella Siazione Sperimentale del Laboratorio per la Corrosione Marina dei Metalli <C.N.R.> situata all'imboccaturadi levante del Porto di Genova.—Riv. ital. Geofis. 21, 1972,No. 3-4, S.135–138: Ferretti, L., Validità del metode chimico e del metodo conduotometrico ad induzione nella deter-minazione della salinità nelle acque portuali. [Jeweils in ital. Spr. m. engl. Abstr.]Google Scholar
  45. Techn. Pap. Bur. Sport Fish. US Fish Wildl. Serv. No. 11, 1967. 8 S.: Squire, J. L., Surface temperature gradients observed in marine areas receiving warm water discharges.Google Scholar
  46. Techn. Rep. Jap. met. Ag. No. 80, 1972. 116 S.: Marine meteorological study of the Japan Sea. [In japan. Spr. m. engl. Abstr.]Google Scholar
  47. Temperaturas de superficie 〈aire-agua〉; estaciones costeras del Mar Argentino. Buenos Aires: Servicio de Hidrografia Naval 1972. 23 S. m. Tab.Google Scholar
  48. Trudy Gidromet. nauč.-issl. Centr SSSR. 51, 1969. S. 86–92: Milejko, G. N., [Über die Auswertung von Strahlungsaufnahmen der Oberflächentemperatur der Meere für Berechnungs- und Voraussagezwecke.]—Trudy Gidromet. nauč.-issl. Centr SSSR. 51, 1969. S. 93–100: Serjakov, E. I., Strela, V. V., [Über die Auswertung der dynamisch-statistischen Methode bei langfristigen Voraussagen der Meeresthermik.]—Trudy Gidromet. nauč-issl. Centr SSSR. 51, 1969. S. 132–151: Karakaš, E. S., [Über die Genauigkeit der befristeten und mittleren Werte der Wassertemperatur in der küstennahen Meereszone, abhängig von der Frequenz und der Zeit der Beobachtungen.] [Jeweils in russ. Spr.]Google Scholar
  49. Trudy. Gosudarstv. okeanogr. Inst. 115, 1972. S. 129–134: Kirillov, I. F., Ovsjannikov, A. N., [Bestimmung der zeitlichen Diskontinuität von Beobachtungen der Wassertemperatur in der küstennahen Meereszone.] [In russ. Spr.]Google Scholar
  50. Veröff. Inst. Küst.- u. Binnenfisch. No. 54, 1973. 20 S.: Kühl, H., Wassertemperatur, Salzgehalt und andere chemische Faktoren an der “Alten Liebe” in Cuxhaven im Jahre 1972.Google Scholar
  51. Weatherwise. Vol.25, 1972.No. 5, S. 209–219: Pyle, R. L., Weather satellite capabilities: present and future.Google Scholar
  52. Welch, W. R., Monthly and annual means of surface sea water temperature, Boothbay Harbor Maine, 1905 through 1972. Boothbay Harbour: National Mar. Fisheries Serv., Biological Lab. (1972). 5 ungez. S. m. Tab.Google Scholar

Environmental interactions UDC 551.465.7/.8

  1. Acta hydrophys. Bd.17, 1972.H. 1, S. 47–51: Schröder, W., Zur großen Sturmflut vom Februar 1825.Google Scholar
  2. Annu. offshore Technol. Conf. 3, 1, 1971.Pap. OTC 1348, S. 221–234: Blumberg, R., Pendleton, E., Shaw, J. R., Real-time prediction of hurricane effects on coastal facilities.—Annu. offshore Technol. Conf. 3, 1, 1971.Pap. OTC 1349, S. 235–242: Wright, F. F., Suspension transport in southern Alaskan coastal waters.—Annu. offshore Technol. Conf. 3, 1, 1971.Pap.OTC 1352, S. 269–278: Chesnutt, C. B., Schiller, R. E., Scour of Gulf Coast beaches due to wave action.—Annu. offshore Technol. Conf. 4, 1, 1972.Pap.OTC 1515, S. 35–42: Shemdin, O. H., Modeling of wind over water.—Annu. offshore Technol. Conf. 4, 1, 1972 Pap. OTC 1603, S. 853–862: Wright, S. G., Dunham, R. S., Bottom stability under wave induced loading.Google Scholar
  3. Arch. Met. Geophys. Biokl. (A) 22, 1973.No. 1, S. 47–70: Dobesch, H., Das Wind-, Temperatur- und Feuchteprofil über einer freien Wasserfläche.Google Scholar
  4. Atmos. Environm. 7, 1973.No. 1, S. 107–118: John, W., Kaifer, R., Rahn, K., Trace element concentrations in aerosols from the San Francisco Bay Area.Google Scholar
  5. Beitr. Meeresk., H.29, 1972. S. 53–66: Sager, G., Windwirklängen in der Ostsee.Google Scholar
  6. Boundary-Layer Meteor., Vol.3, 1972.No. 2, S. 201–213: Hicks, B. B., Some evaluations of drag and bulk transfer coefficients over water bodies of different sizes.Google Scholar
  7. Bull. Amer. met. Soc., Vol.53, 1972.No. 11, S. 1083–1102: Hidy, G. M., A view of recent air-sea interaction research.—Bull. Amer. met. Soc., Vol. 54, 1973.No. 3, S. 246–247: Cold water eddies and the weather.Google Scholar
  8. Contr. Geophys. Inst. Kyoto Univ. No.11, 1971. S. 71–76: Imasato, N., Kunishi, H., A note on the energy transfer from wind to waves.Google Scholar
  9. Deep-Sea Res. 19, 1972.No. 9, S. 669–671: McDonald, K., Simmons, G., Temperature coefficient of the thermal conductivities of ocean sediments. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2887.]Google Scholar
  10. Dt. gewässerkdl. Mitt. 16, 1972.No. 6, S. 153–159: Rodloff, W., Hydrologische Betrachtungen zur Ostseesturmflut vom 12./13. November 1872.Google Scholar
  11. Dock Harb. Author. 52, 1972.No. 618, S. 504–506: Kidd, G. T., Buller, A. T., McManus, J., Siltation in a dock at Tayport.Google Scholar
  12. Dokl. Akad. Nauk. SSSR, Moskva. Tom 207, 1972 No. 4, S. 842–845: Liubimova, E. A., Gorshkov, A. P., Vlasenko, V. I., Measurements of heat flow near the Kuril island arc, in Kamchatka, and on lake “Kurilskoe”.—Dokl. Akad. Nauk. SSSR, Moskva. Tom 208, 1973.No. 4, S. 841–843: Khundzhua, G. G., Andreev, E. G., On the determination of heat and water vapour flows in the ocean-atmosphere system according to the data to temperature profile observations in a thin surface layer of the sea. [Jeweils in russ. Spr.]Google Scholar
  13. Dyrssen, D. [u. a.]: The changing chemistry of the oceans. Stockholm 1972. (Nobel Symposium 20.) S. 93–120: Chesselet, R., Morelli, J., Menard, P. B., Some aspects of the geochemistry of marine aerosols.Google Scholar
  14. Eos, Wash., Vol.52, 1971.No. 6, S. 389–394: Pond, S., Air-sea interaction.Google Scholar
  15. Folia geogr. dan. 12,1972.No. 1, 83 S. m. Abb., 5 Taf.: Jacobsen, N. K., Rejsbymarsken.Google Scholar
  16. Galazij. G. I. (Hauptred.): Sejši na ozerach-poverchnostnye i vnutrennie. Leningrad 1970. S. 39–49: Krochin, E. M., (Windbedingtes Hoch- und Niedrigwasser im Dal'nee See) [In russ. Spr.]Google Scholar
  17. GARP Publ. Ser. No. 8, 1972. S. 81–91: Parameterization of sub-grid scale processes. Rep. of the JOC Study Group Conf. in Leningrad, 1972. Darin: Ocean coupling and response times.Google Scholar
  18. Geol. Mag. 107, 1970. S. 389–394: Kenyon, N. H., The origin of some transverse sand patches in the celtic sea. [Auch: Coll. Repr. Nat. Inst. Oceanogr. Wormley 19, 1971. No. 805.]—Geol. Mag. 107, 1970. S. 469–477: Stride, A. H., Shape and size trends for sand waves in a depositional zone of the North Sea. [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley. 19, 1971. No. 822.]Google Scholar
  19. Hansa. 109, 1972.No. 22, S. 2123–2125: Kiecksee, H., Die große Sturmflut von 1872.Google Scholar
  20. Hidrogr. Godišn. 1971 (1972). S. 75–87: Zore-Armanda, M., Quantity of ice in the North Atlantic Ocean and some oceanographic/meteorological conditions of the eastern Mediterranean. [In jugosl. Spr. m. engl. Abstr.]Google Scholar
  21. The 2ndInt. Ocean Dev. Cons, Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo, 1972).Vol. 1, S. 1–17: Sharaf el Din, S. H., Longshore sand transport in the surf zone along the Mediterranean Egyptian coast.—The 2ndInt. Ocean Dev. Cons, Oct. 5–7 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972).Vol. 1, S. 226–254: Quinn, W. H., Large-scale air-sea interactions and long-range forecasting.Google Scholar
  22. Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 9, 1973.No. 3, S. 326–330: Katkov, V. L., The flow of fluid generated by the external vortex. [In russ. Spr.]Google Scholar
  23. J. Fish. Res. Bd. Can. 30, 1973.No. 1, S. 53–62: Murty, T. S., Yuen, K. B., Balanced versus geostrophic wind-stress for Hudson Bay.Google Scholar
  24. J. geophys. Res. 77, 1972.No. 27, S. 5100–5105: Bloch, M. R., Luecke, W., Geochemistry of ocean water bubble spray.—J. geophys. Res. 77, 1972.No. 27. S. 5106–5115: Bodhaine, B. A., Pueschel, R. F., Flame photometric analysis of the transport of sea salt particles.—J. geophys. Res. 77, 1972.No. 27, S.5116–5131: Chesselet, R., Morelli, J., Buat-Menard, P., Variations in ionic ratios between reference sea water and marine aerosols.—J. geophys. Res. 77, 1972.No. 27, S. 5147–5151: Frank, E. R., Lodge, J. P., Goetz, A., Experimental sea salt profiles.—J. geophys. Res. 77, 1972.No. 27, S. 5152–5160: Green, W. D., Maritime and mixed maritime-continental aerosols along the coast of southern California.—J. geophys. Res. 77, 1972.No. 27, S. 5161–5169: Hoffman, G. L., Duce, R. A., Consideration of the chemical fractionation of alkali and alkaline earth metals in the Hawaiian marine atmosphere.—J. geophys. Res. 77, 1972.No. 27, S. 5183–5200: Junge, C. E., Our knowledge of the physico-chemistry of aerosols in the undisturbed marine environment.—J. geophys. Res. 77, 1972.No. 27, S. 5201-5203: Koske, P. H., Martin, H., Ion fractionation at the surface of aqueous inorganic salt solutions by means of a'film centrifuge’.—J. geophys. Res. 77, 1972.No. 27, S. 5204–5210: Lemlich, R., Adsubble processes: foam fractionation and bubble fractionation.—J. geophys. Res. 77, 1972.No. 27, S. 5211–5228: MacIntyre, F., Flow patterns in breaking bubbles.—J. geophys. Res. 77, 1972.No. 27. S. 5229–5238: Moyers, J. L., Duce, R. A., Gaseous and particulate iodine in the marine atmosphere.—J. geophys. Res. 77, 1972.No. 27 S. 5239–5242: Nishimura, M., Tanaka, K. Sea water may not be a source of boron in the atmosphere.—J. geophys. Res. 77, 1972.No. 27, S. 5266–5277: Simpson, H. J., Aerosol cations at Mauna Loa Observatory. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1841]—J. geophys. Res. 77, 1972.No. 27, S. 5283–5292: Tsunogai, S., Saito, O., Yamada, K., Chemical composition of oceanic aerosol.—J. geophys. Res. 77, 1972.No. 27, S. 5307–5315: Wilkniss, P. E., Bressan, D. J., Fractionation of the elements F, Cl, Na, and K at the sea-air interface.—J. geophys. Res. 77, 1972.No. 27, S. 5316–5321: Woodcock, A. H., Smaller salt particles in oceanic air and bubble behavior in the sea. [Auch: Contr. Hawaii Inst. Geophys. No. 479.]—J. geophys. Res. 77, 1972.No. 27, S. 5322–5329: Hoffman, G. L., Duce, R. A., Hoffman, E. J., Trace Metals in the Hawaiian marine atmosphere.—J. geophys. Res. 77, 1972.No. 27, S. 5330–5338. Moyers, J. L., Duce, R. A., Gaseous and particulate bromine in the marine atmosphere.—J. geophys. Res. 77, 1972.No. 27, S. 5339–5349: Seto, F. Y. B., Duce, R. A., A laboratory study of iodine enrichment on atmospheric sea-salt particles produced by bubbles—J. geophys. Res. 77, 1972.No. 29, S. 5697–5704: Sclater, J. G., Ritter, U. G., Dixon, F. S., Heat flow in the southwestern Pacific.—J. geophys. Res. 77, 1972.No. 29, S. 5705–5719: Sclater, J. G., Heat flow and elevation of the marginal basins of the western Pacific.—J. geophys. Res. 77, 1972.No. 30, S. 5870–5875: Mangarella, P. A. Chambers, A. J., Street, R. L., Laboratory and field interfacial energy and mass flux and prediction equations.Google Scholar
  25. J. Mar. biol. Assoc. U. K. 52, 1972.No. 4, S. 903–914: Webb, J. E., Theodor, J. L., Wave-induced circulation in submerged sands.Google Scholar
  26. J. mar. Res. 31, 1973.No. 1, S. 93–95: Schooley, A. H., Wind-swept water surface in laboratory cooled by applying heat.Google Scholar
  27. J. Met., Soc, Japan, 50, 1972.No. 5, S. 423–430: Yamamoto, G., Chein, B. T., Yasuda, N. Evaporation from deep lakes in Japan—J. Met, Soc. Japan, 50, 1972.No. 6, S. 570–575: Kondon, J., Applicability of micrometeorological transfer coefficient to estimate the long-period means of fluxes in the air-sea interface.Google Scholar
  28. J. Oceanol. Soc. Korea. 7, 1972.No. 1 S. 19–23: Han, Y. H., Heat budget over the south-western part of the Japan Sea in the month of January and cold water mass in the Korea Strait. [In korean. Spr. m. engl. Abstr.]Google Scholar
  29. J. phys. Oceanogr. Vol.1, 1971.No.2, S. 82–91: Galt, J. A., A numerical investigation of pressure-induced storm surges over the continental shelf — S. 145–148: Caldwell, D. R., Elliott, W. P., Surface stresses produced by rainfall.—J. phys. Oceanogr. Vol. 2, 1972.No. 4, S. 372–381: White, W. B., Barnett, T. P., A servomechanism in the ocean/atmosphere system of the mid- latitude North Pacific.—J. phys. Oceanogr. Vol. 2, 1972.No. 4, S. 432–438: Lee, F. A., Some nonlinear aspects of wind-wave interactions. [Auch: Contr. Dep. Oceanogr. Univ. Wash. No.660.]—J. phys. Oceanogr. Vol. 2, 1972.No. 4, S. 476–486: Holland, J. Z., Comparative evaluation of some BOMEX measurements of sea surface evaporation, energy flux and stress.—J. phys. Oceanogr. Vol. 2, 1972.No. 4, S. 487–497: Paulson, C. A., Leavitt, E., Fleagle, R. G., Air-sea transfer of momentum, heat and water determined from profile measurements during BOMEX. [Auch: Contr. Dep. atmos. Sci. Univ. Wash. No. 252.]—J. phys. Oceanogr. Vol. 3, 1973.No. 1, S. 86–92: Stegen, G. R., Gibson, C. H., Friehe, C. A., Measurements of momentum and sensible heat fluxes over the open ocean.—J. phys. Oceanogr. Vol. 3, 1973.No. 1, S. 93–101: Mangarella, P. A., Chambers, A. J., Street, R. L., Laboratory studies of evaporation and energy transfer through a wavy air-water interface.—J. phys. Oceanogr. Vol. 3, 1973.No. 1, S. 167–168: Monahan, E. C., Comments on “variations in Aitken and giant nuclei in marine air.” With reply. [Auch: Publ. Dep. Met. Oceanogr. Univ. Mich. No. 211.]—J. phys. Oceanogr. Vol. 3, 1973.No. 2, S. 173–184: Denman, K. L., A time-dependent model of the upper ocean.Google Scholar
  30. Küste. 1972. No.23, S. 1–62: Führböter, A., Köster, R., Kramer, J., Sandbuhne vor Sylt zur Stranderhaltung—Küste. 1972.No. 23, S. 63–111: Lüders, K., Führböter, A., Rodloff, W., Neuartige Dünen- und Strandsicherung im Nordwesten der Insel Langeoog.—Küste. 1972 No.23, S. 112–121: Ulrich, J., Untersuchungen zur Pendelbewegung von Tiderippeln im Heppenser Fahrwasser (Innenjade).—Küste. 1972.No. 23, S. 122–149: Wieland, P., Untersuchungen zur geomorphologischen Entwicklungstendenz des Außensandes Blauort.—Küste. 1972.No. 23, S. 189–200: Magens, C., Die Sichelbuhne.Google Scholar
  31. Mar. Geol. 13, 1972 No. 3, S. M51-M60: Kelling, G., Stanley, D. J., Sedimentary evidence of bottom current activity, Strait of Gibraltar region.Google Scholar
  32. Mar. geophys. Res. 1, 1972.No. 4, S. 451–455: Clark, T. F., Malcolm, F. J., Korgen, B. J., An improved Ewing heat probe frame.Google Scholar
  33. Mariner's Weather Log. 17, 1973.No. 2, S. 66–69: Strommen, N. D., Fall storm and high lake levels spell disaster around the Great Lakes.Google Scholar
  34. Maritimes, 17, 1973.No. 1, S. 12–14: Piotrowicz, S. R., Duce, R. A., New light on chemical action where the sea meets the air.Google Scholar
  35. Marine meteorology and oceanography. Operations 1970. Instructor: G. B. Britton. Air-sea interaction studies 1970. [Reading, Berksh., Engl.:] Univ. of Reading, Dep. of Geophys. [um 1970] 34 S. Text, 18 S. Fotogr., 19 Abb.Google Scholar
  36. Marit. Sediments. 6, 1970.No. 3, S. 90–101: Drapeau, G., Sand waves on Browns Bank observed from the “Shelf Diver”. [Auch: Coll. Contr. Bedford Inst. No. 236.]Google Scholar
  37. Materialy Poljar. nauč.-issl. Inst. morsk. ryb. Choz. Okeanogr. 19, 1972. S. 148–158: Seryakov, E. I., Bulaeva, V. M., Vdovkin, M. S., On typization of the heat balance of the North Atlantic surface. [In russ. Spr.]Google Scholar
  38. Mem. Lab. nac. Eng. civ., Lisboa, 1972. No. 414. 21 S.: Vera-Cruz, D., Artificial nourishment of Copacabana Beach.Google Scholar
  39. “Meteor”-Forsch.-Ergebn. (C) No.11, 1972. S. 105–108: Haenel, R., Heat flow measurements in the Ionian Sea with a new heat flow probe.Google Scholar
  40. Met. Mag., Lond., 101, 1972.No. 1205. S. 356–362: Grindley, J., Hydrology of the North sea: run-off and precipitation.—Met. Mag., Lond. Vol. 102, 1973, No. 1208, S. 65–73: Blackall, R. M., Warming of the lower troposphere by the sea.Google Scholar
  41. Met. i Gidrol. 1972. No.10, S. 70–76: Dzhamalov, R. G., Zekhtser, I. S., Meskheteli, A. V., On the role of the ground runoff in formation of salt content of the Caspian Sea.—Met. i Gidrol. 1973.No. 1, S. 37–46: Rafailova, Kh. Kh., Macroscale interaction between the atmosphere and the oceans and the role of the latter in formation of the anomalous stratospheric circulation. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  42. Met. Rdsch. 25, 1972.No. 6, S. 171–180: Fechner, H., Die Leistung der Reibungskräfte in der Atmosphäre über Nordatlantik und Europa während der Hamburger Sturmflutwetterlage 1962—Met. Rdsch. 25, 1972.No. 6, S. 180–181: Georgii, H.-W., Gravenhorst, G., Untersuchungen zur Konstitution des Aerosols über dem Atlantischen Ozean.Google Scholar
  43. Met. Stud. Bur. Met., Melbourne, No. 26, 1972. 562 S.: Zillman, J. W., A study of some aspects of the radiation and heat budgets of the southern hemisphere oceans.Google Scholar
  44. Meyniana. 22, 1972. S. 85–88: Newton, R. S., Werner, F., Color enhanced photographs: two examples from marine geological studies—Meyniana. 22, 1972 S. 89–94: Newton, R. S., Werner, F., Transitional-size ripple marks in Kiel Bay 〈Baltic Sea〉.Google Scholar
  45. Mitt.-Bl. Bundesanst. Wasserb., Karlsruhe 1972. No.33, S. 1–14: Rohde, H., Meyn, G., Untersuchungen über das hydrodynamische Verhalten oberflächenmarkierten Sandes und über die Einbringemethode bei Leitstoffuntersuchungen.—Mitt.-Bl. Bundesanst. Wasserb., Karlsruhe 1972. No. 33, S. 15–33: Ruck, K. W., Erfahrungen beim Präparieren von Sand für Leitstoffuntersuchungen.Google Scholar
  46. Morskoj Sbornik. 1973. No.4, S. 87–91: Plachotnik, A., [Wechseleinfluß des Ozeans und der Atmosphäre.] [In russ. Spr.]Google Scholar
  47. Nature, Lond. Vol.240, No. 5375, 1972. S. 44–45: Johnson, D. L., Bacterial reduction of arsenate in sea water.Google Scholar
  48. Okeanologija. 12, 1972.No. 5, S. 911–923: Pykhov, N. V., Longinov, V. V., On the methods for computing the parameters of turbidity currents [In russ. Spr. m. engl. Abstr.]—Okeanologija. 12, 1972.No. 5, S. 936–940: Savenko, V. S., Korzh, V. D., On the transport of the sea water salts to the atmosphere under physical evaporation. [In russ. Spr.]—Okeanologija. 12, 1972.No. 6, S. 987–996: Abramov, R. V., Cloud systems above the tropical Atlantic based on the satellite data.—Okeanologija. 12, 1972.No. 6, S. 997–1002: Sorkina, A. I., On seasonal development of the atmospheric circulation processes above the oceans.—Okeanologija. 12, 1972.No. 6, S. 1044–1046: Kuzmin, V. A., Suzyumov, A. E., Bezlyudov, A. V., Geothermic soundings on the Manihiki Plateau and the Marcus-Necker Rise (the Pacific Ocean).—Okeanologija. 13, 1973.No. 2, S. 292–296: Pykhov, N. V., Conditions and causes for the disturbance of sediment stability on the ocean bottom. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  49. Práce Stud. Výzk. Úst. vodohosp. No. 120, 1968. 84 S., 27 Taf.: Váša, J., Das direkte Messen der Verdunstung von freier Wasseroberfläche. [In tschech. Spr. m. dt. Abstr.]Google Scholar
  50. Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol.2, 1971. S. 1186–1202: Kamphuis, J. W., Beach data colection programme in Canada.Google Scholar
  51. Progr. Rep. Inst. Hydrodynam. hydraul. Engng Techn. Univ. Denmark No.24, 1971. S. 51–54: Engelund, F., The solitary sand wave. P. 1.—Progr. Rep. Inst. Hydrodynam. hydraul. Engng Techn. Univ. Denmark. No. 25, 1972. S. 9–16: Fredsøe, J., The solitary sand wave. P. 2.—Progr. Rep. Inst. Hydrodynam. hydraul. Engng Techn. Univ. Denmark. No. 27, 1972. S. 33–36: Engelund, F., Gravesen, H., Settling of suspended sediment in a divergent channel.Google Scholar
  52. Przegl. geofiz. 17 (25),1972.No. 1, S. 47–55: Garbalewski, C., On the investigations of the vertical exchange of polluting materials at air-sea interface.—Przegl. geofiz. 17 (25), 1972.No. 2, S. 95–105: Mikulski, Z., Polish initiatives on the estimation of the water balance of the Baltic Sea. [Jeweils in poln. Spr. m. engl. Abstr.]Google Scholar
  53. Publ. Centre nat. Exploit. Océans. Sér. Résult. Campag. Mer No.4, 1972. S. 7–12: Kolessnikov, A. G., Neouymine, G. G., Principaux résultats des recherches franco-soviétiques portant sur l'interaction océan-atmosphère.—Publ. Centre nat. Exploit. Océans. Sér. Résult. Campag. Mer No. 4, 1972. S. 25–33: Volkov, J. A., Mordoukhovitch, M. J., Mesures des flux turbulents d'énergie cinétique et de chaleur, effectuées sur la Bouée-Laboratoire française.—Publ. Centre nat. Exploit. Océans. Sér. Résult. Campag. Mer No. 4, 1972 S. 107–111: Gonella, J., Stanislas, G., Réponse des couches de surface à l'action du vent d'après les observations effectuées à bord de la “Bouée Laboratoire”.Google Scholar
  54. Publ. Math. Res. Center Univ. Wisconsin No.28, 1972. S. 53–93: Einstein, H. A., A basic description of sediment transport on beaches—Publ. Math. Res. Center Univ. Wisconsin No. 28, 1972. S. 249–295: Kennedy, J. F., Locher, F. A., Sediment suspension by water waves.Google Scholar
  55. Quart. J. R. met. Soc. 99, 1973. No. 420, S. 393–395: Ramage, C. S., Murakami, T., Comment on the paper by the P. R. Rowntree: “The influence of tropical east pacific Ocean temperatures on the atmosphere.” with reply. [Auch: Contr. Dep. Met. Univ. Hawaii No. 72-16.]Google Scholar
  56. Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 627–630: Zore-Armanda, M., Calculpréliminaire de l'évaporation dans l'Adriatique.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 21, 1972.No. 4, S. 167–169: Gonella, J., Stanislas, G., Réponse des couches de surface à l'action du vent d'après les observations effectuées à bord de la; Bouée laboratorire”.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 21, 1972 No. 4, S. 193–196: Crepon, M., Fieux, M., Influence du vent sur le niveau de la mer.Google Scholar
  57. Rapp, P.-v. Cons. Explor. Mer. 162, 1972, S. 108–119: Bjerknes, J., Global ocean-atmosphere interaction.—Rapp. P.-v. Cons. Explor. Mer. 162, 1972. S. 184–190: Mork, M., On ocean responses to atmospheric forces.Google Scholar
  58. Rep. mar. Sci. Affairs, WMO No. 6, Vol.1, 1973. S. 47–55: Brin, M., Vitureau, M., Interactions ocean-atmosphere.—Rep. mar. Sci. Affairs, WMO No. 7, Vol. 2, 1973. S. 315–325: Magata, M., On the plan of AMTEX (Air-Mass Transformation Experiment) observational problems.Google Scholar
  59. Sovetsko-francuzkie issledovanija Vzaimodejstvie okeana i atmosfery. [Sowietisch-französische Untersuchungen. Wechselwirkung zwischen dem Ozean und der Atmosphäre.] Sevastopol': Morskoj gidrofizičeskij institut 1972. 146 S.—Sovetsko-francuzkie issledovanija. Vzaimodejstvie okeana i atmosfery. [Sowietisch-französische Untersuchungen. Wechselwirkung zwischen dem Ozean und der Atmosphäre.] Sevastopol': Morskoj gidrofizičeskij institut 1972. S. 6–14: Kolesnikov, A. G., Neouymine, H. G., Résultats essentiels des recherches conjointes franco-soviétiques sur le thème: “Interaction de l'océan et de l'atmosphère”.—Sovetsko-francuzkie issledovanija. Vzaimodejstvie okeana i atmosfery. [Sowietisch-französische Untersuchungen. Wechselwirkung zwischen dem Ozean und der Atmosphäre.] Sevastopol': Morskoj gidrofizičeskij institut 1972. S. 77–81: Gonella, J., Stanislas, G., Réponse des couches de surface à l'action du vent d'après les observations effectuées à bord de la Bouée-Laboratoire.—Sovetsko-francuzkie issledovanija. Vzaimodejstvie okeana i atmosfery. [Sowietisch-französische Untersuchungen. Wechselwirkung zwischen dem Ozean und der Atmosphäre.] Sevastopol': Morskoj gidrofizičeskij institut 1972. S. 102–109: Volkov, J. A., Mordouhovitch, M. I., Mesure des flux turbulents d'impulsion et de chaleur à la Bouée-Laboratoire française.—Sovetsko-francuzkie issledovanija. Vzaimodejstvie okeana i atmosfery. [Sowietisch-französische Untersuchungen. Wechselwirkung zwischen dem Ozean und der Atmosphäre.] Sevastopol': Morskoj gidrofizičeskij institut 1972. S. 141–144: Verchinski, N. V., Panine, G. N., Expérience de mesure du flux de l'humidité au-dessus de la Méditerranée par la méthode de pulsation. [Jeweils in russ. Spr. m. franz. Abstr.]Google Scholar
  60. Studi in onore di Guiseppina Aliverti. Napoli 1972. S. 27–40: Fedorov, K. N., On the summer daily heating and diurnal heat budget of the upper ocean layer.Google Scholar
  61. Techn. Rep. Hydrogr. Off. Republ. Korea. 1971. S. 16–22: Hwang, C. P., On the variation of sea level due to meteorological disturbances on the coast of Korea. 1. Storm surges caused by typhoon Billie, 1970, on the western and southern coast of Korea. [In korean. Spr. m. engl. Abstr.]Google Scholar
  62. Techn. Ser. Intergovernm. oceanogr. Commiss. 1972. No.10, S. 23–37: Ramage, C. S., Recent meteorological results from the International Indian Ocean Expedition. [Auch: Contr. Dep. Met. Univ. Hawaii No. 71-4.]Google Scholar
  63. Tectonophysics. 8, 1969, S. 319–344: LePichon, X., Langseth, M. G., Heat flow from the Mid-Ocean Ridges and sea-floor spreading.Google Scholar
  64. Trudy Gidromet. nauč.-issl. Centr SSSR. 51, 1969. S. 29–42: Kutalo, A. A. [Über ein nichtlineares Ekmanproblem.]—Trudy Gidromet. nauč-issl. Centr SSSR. 51, 1969 S. 43–53: Kalackij, V. I., [Einfluß von Parametern der Übergangsschicht bei der Wechselwirkung zwischen Ozean und Atmosphäre.]—Trudy Gidromet. nauč.-issl. Centr SSSR. 51, 1969. S. 54–63: Rybak, B. Ch., [Zu der Berechnung von Sturmfluten im Weißen Meer].—Trudy Gidromet. nauč.-issl. Centr. SSSR. 51, 1969. S. 75–85: Glagoleva, M. G., [Über die Möglichkeit einer Voraussage der Temperaturverteilung des Wassers in der Fläche.]—Trudy Gidromet. nauč.-issl. Centr. SSSR. 51, 1969. S. 120–131: Šeremetevskaja, O. I., [Praktische Annahmen der Beurteilung des Wärmehaushalts im nördlichen Teil des Stillen Ozeans.].—Trudy Gidromet. nauč.-issl. Centr. SSSR. 60, 1972. S. 55–58: Ovsienko, S. N., [Berechnung windbedingter auf und ab Schwankungen des Asowschen Meeresniveaus.] [Jeweils in russ. Spr.]Google Scholar
  65. Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. No. 108, 236 S: [Gegenwärtiger und perspektiver Wasser- und Salzhaushalt der Südlichen Meere der UdSSSR.] (Red.: A. I. Simonov. N. P. Goptarev)—Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972, No. 114. S. 3–43: Soskin, I. M., Wechselwirkung zwischen der Wandelbarkeit des Wärmezustandes in den Oberflächenwassermassen des Nordatlantischen Ozeans und einigen Merkmalen der atmosphärischen Zirkulation]—Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. No. 115, S. 71–82: Luk'janov, V. A., [Berechnungsversuch des katastrophalen Niveauanstiegs an den Kubanufern im Oktober 1969.] [Jeweils in russ. Spr.]Google Scholar
  66. Wearn, P. L., Smith, D. B., The selection of a radioactive tracer material for coastal silt movement studies. Harwell, Berkshire: Atomic Energy Research Establishment, (1971). 15 S. Text, Tab. u. 8 S. Abb.Google Scholar
  67. Weather, Lond. 27, 1972,No. 12, S. 484–494: Ramage, C. S., Interaction between tropical cyclones and the China Seas. [Auch: Contr. Dep. Met. Univ. Hawaii. No. 72-6.]—Weather, Lond. 28, 1973.No. 3, S. 102–105: Farmer' S. A., A note on the long term effects on the atmosphere of sea surface temperature anomalies in the North Pacific Ocean.—Weather, Lond. 28, 1973.No. 3, S. 106–117: Ratcliffe, R. A. S., Recent work on sea surface temperature anomalies related to long-range forecasting.Google Scholar
  68. Wetterlotse. 25, 1973.No. 313/314, S. 15–22: Kruhl, H., Die Ostsee-Sturmflut v. 12./13. November 1872.Google Scholar
  69. Z. Geophys. 38, 1972,No. 4, S. 675–699: Brocks, K., Wechselwirkung Ozean-Atmosphäre.—Z. Geophys. 38, 1972.No. 6, S. 1035–1047: Haenel, R., Heat flow measurements in the Red Sea and the Gulf of Aden.Google Scholar

Surface waves UDC 551.466.2 551.466.3 551.466.4

  1. Annu. offshore Technol. Conf. 3, 1,1971. Pap. OTC1343, S. 165–176: Durning, P. J., Prediction of maximum wave height from historical data.—Annu. offshore Technol. Conf. 3, 1, 1971. Pap. OTC1345, S. 191–206: Patterson, M. M., Hindcasting hurricane waves in the Gulf of Mexico.—Annu. offshore Technol. Conf. 3, 1, 1971. Pap. OTC1379, S. 525–536: Susbielles, G. G., Bunt, J. R. Van Den, Deleuil, G., Wave forces on pile sections due to irregular and regular waves.—Annu. offshore Technol. Conf. 3, 1, 1971. Pap. OTC1383, S. 549–552: Priest, M. S., Wave forces on exposed pipelines on the ocean bed.—Annu. offshore Technol. Conf. 3, 1, 1971. Pap. OTC1385, S. 565–570: Denson, K. H., Priest, M. S., Wave pressures on the underside of a horizontal platform.—Annu. offshore Technol. Conf. 3, 1, 1971. Pap. OTC1402, S. 751–762: Blazy, J. P., Quichaud, P., Sagot, A., ELFOCEAN — full scale tests and mathematical model.—Annu. offshore Technol. Conf. 3, 1, 1971. Pap. OTC1402, S. 763–774: Selna, L. G., Cho, M. D., Nonlinear dynamic response of offshore structures.—Annu. offshore Technol. Conf. 3, 1, 1971. Pap. OTC1403, S. 775–788: Burke, B. G., Tighe, J. T., A time series model for dynamic behavior of offshore structures.—Annu. offshore Technol. Conf. 3, 2, 1971. Pap. OTC1427, S. 147–162: Worthington, H. W., Herbich, J. B., Computer prediction of wave heights in coastal areas.—Annu. offshore Technol. Conf. 3, 2, 1971. Pap. OTC1429. S. 163–170: Baird, W. F., Wu, H. J., Holland, G. L., Canada's wave climate and field measurement program.—Annu. offshore Technol. Conf. 3, 2, 1971. Pap. OTC1431, S. 179–190: Machemehl, J., Herbich, J. B., Wave run-up on composite beaches — effect of roughness.—Annu. offshore Technol. Conf. 3, 2, 1971. Pap. OTC1443, S. 277–288: Titlow, J. D., An earthquake/wave instrumentation system for offshore platforms.—Annu. offshore Technol. Conf. 3, 2, 1971. Pap. OTC1508, S. 919–928: Schueller, G. I., Reliability of circular piles subjected to ocean waves.—Annu. offshore Technol. Conf. 4, 1, 1972. Pap. OTC1516, S. 43–50: Barnett, T. P., Observations of wind have generation and dissipation in the North Sea: implications for the offshore industry.—Annu. offshore Technol. Conf. 4, 1, 1972. Pap. OTC1517, S. 51–68: Bretschneider, C. L., A non-dimensional stationary hurricane wave model.—Annu. offshore Technol. Conf. 4, 1, 1972. Pap. OTC1558, S. 479–494: Fowler, J. R., Bailey, E. I., Dynamic response of surface-moored vertical barrier to wave action by analog and digital simulation.—Annu. offshore Technol. Conf. 4, 1, 1972. OTC1559, S. 495–500: Denson, K. H., Priest, M. S., Lift and drag forces due to wave action on elevated platforms.—Annu. offshore Technol. Conf. 4, 1, 1972. Pap. OTC1589, S. 731–738: Freeman, J. C., Davis, J. C., Storms that cause maximum reported waves.—Annu. offshore Technol. Conf. 4, 1, 1972. Pap. OTC1590, S. 739–758: Jahns, H. O., Wheeler, J. D., Long-term wave probabilities based on hindcasting of severe storms.—Annu. offshore Technol. Conf. 4, 1, 1972. Pap. OTC1593, S. 765–778: Johnson, M. G., Benefits of environmental prediction in the eastern Gulf of Mexico.—Annu. offshore Technol. Conf. 4, 1, 1972. Pap. OTC1613, S. 925–940: Dean, R. G., Application of stream function wave theory to offshore design problems.—Annu. offshore Technol. Conf. 4, 1, 1972. Pap. OTC1614, S. 941–950: Mallery, G. O., Clark, G. C., Cnoidal wave theory for application to offshore structural design.—Annu. offshore Technol. Conf. 4, 1, 1972 Pap. OTC1615, S. 951–964: Schueller, G. I., A probabilistic method for predicting velocities and accelerations of water wave particles.—Annu. offshore Technol. Conf. 4, 1, 1972. Pap. OTC1616, S. 965–976: Chao, Y.-Y., Refraction of ocean surface waves on the continental shelf. Contr. Geophys. Sci. Lab. New York Univ. No. 124.—Annu. offshore Technol. Conf. 4, 2, 1972. Pap. OTC1618, S. 13–28: Herbich, J. B., Hales, L., The effect of tidal inlet currents on the characteristics and energy propagation of ocean waves.—Annu. offshore Technol. Conf. 4, 2, 1972. Pap. OTC1688, S. 637–644: Nolte, K. G., Hsu, F. H., Statistics of ocean wave groups.—Annu. offshore Technol. Conf. 4, 2, 1972. Pap. OTC1689, S. 645–656: Freeman, J. C., Zeis, J. R., Ross, S., Effects of directionality on wave statistics and wave spectra.—Annu. offshore Technol. Conf. 4, 2, 1972, Pap. OTC1691, S. 657–668: Chakrabarti, S. K., Snider, R. H., Laboratory simulation of multidirectional spectra of ocean waves.—Annu. offshore Technol. Conf. 4, 2, 1972, Pap. OTC1693, S. 675–688: Thompson, E. F., Harris, D. L., A wave climatology for U. S. coastal waters.Google Scholar
  2. TheApplication of Ship Motion Research to Design. Seminar 1970. Southampton: Univ., Dept. of Aeronautics and Astronautics 1970. Pap. No. 3, 7 S.; Ewing, J. A., A survey of ocean wave data. [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley. 19, 1971. No. 795.]Google Scholar
  3. Basic Res. Progr. Rep. Coast. Engng Lab. Techn. Univ. Denmark. 21, 1970. S. 19–26: Jonsson, I. G., Graphical determination of the wave length in a homogeneous current field.—Basic Res. Progr. Rep. Coast. Engng Lab. Techn. Univ. Denmark. 23, 1971. S. 11–19: Jonsson, I. G., A new proof of an energy equation for surface gravity waves propagating on a current.Google Scholar
  4. Bell, A. O., North Sea wave spectra. (North Sea Environmental Study group.) o. O. (1972), 5 S., Abb. u. Tab.Google Scholar
  5. Boundary-Layer Meteor, 1, 1971, S. 399–410: Dobson, F. W., The damping of a group of sea waves. [Auch: Coll. Contr. Bedford Inst. No. 226.]Google Scholar
  6. Bull. Disast. Prev. Res. Inst. 16, 3,1967, No. 116, S. 49–75: Iwagaki, Y., Tsuchiya, Y., Chen, H., On the mechanism of laminar damping of oscillatory waves due to bottom friction.Google Scholar
  7. DCAMM Rep. No. 36, 1972. 18 S.: Bertelsen, J. A., Jonsson, I. G., Skovgaard, O., Refraction of surface gravity waves, numerical calculation of wave orthogonals and heights.Google Scholar
  8. Deep-Sea Res. 19, 1972.No. 9, S. 665–667: Briscoe, M. G., Energy loss in surface wave spectra due to data windowing.Google Scholar
  9. Dokl. Akad. Nauk SSSR. 208, 1973.No. 4, S. 958–961: Krylov, Iu. M., Kuznetsov, V. V., Strekalov, S. S., Systems of wind wave field. [In russ. Spr.]Google Scholar
  10. Duntley, S. Q., Edgerton, C. F., The use of meteorological satellite photographs for the measurement of sea state. La Jolla, Calif.: S. Q. Duntley 1966. 136 S.Google Scholar
  11. Dynamic waves in civil engineering. Ed.: D. A. Howells. London. Wiley-Intersci. 1971. S. 43–55: Ewing, J. A., The generation and propagation of sea waves. [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley 19, 1971. No. 794.]—Dynamic waves in civil engineering. Ed.: D. A. Howells. London. Wiley-Intersci. 1971. S. 389–402: Draper, L., Tucker, M. J., The determination of wave conditions for marine engineering. [Auch Coll. Repr. Nat. Inst. Oceanogr., Wormley 19, 1971. No. 792.]Google Scholar
  12. Estuar, coast. mar. Sci. 1, 1973.No. 1, S. 11–18: Gleason, R., Hardcastle, P. J., The significance of wave parameters in the sorting of beach pebbles.Google Scholar
  13. Geophys. Fluid Dynam. 3, 1972.No. 2, S. 91–104: Manton, M. J., On the wave field generated by a variable wind.Google Scholar
  14. Internal Rep. Nat. Inst. Oceanogr., Wormley No. A57, 1972. 12 S: Draper, L., A catalogue of wave data from the North Sea, to 1971.Google Scholar
  15. The 2ndInt. Ocean Dev. Conf., Oct. 5–7,1972, Keidanren Kaikan, Tokyo. (Tokyo 1972).Vol. 1, S. 305–316: Inoue. T., Numerical computation of the waves of typhoon.Google Scholar
  16. Izv. Akad. Nauk SSSR, Fiz. Atmofs. Okeana. 8, 1972.No. 10, S. 1110–1113: Bychkov, V. S., Leibo, A. B., Novikov, V. D., On the problem of the interaction of the sea wind waves and long-period ones.—Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 8, 1972.No. 11, S. 1230–1234: Zaslavsky, M. M., Kitai-gorodsky, S. A., Intermittency effects in the equilibrium range of the developing wind waves. [Jeweils in russ. Spr.]—Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 8, 1972.No. 12, S. 1289–1296: Kononkova, G. E., Popov, G. I. Some results of the investigation of air pressure fluctuations above the water in the conditions of airhydrochannel.—Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 9, 1973.No. 2, S. 172–177: Krasilnikov, V. A., Pavlov, V. I., On the problem of the nonlinear interaction of the waves on the liquid surface. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  17. J. Acoust. Soc. Amer. 52, 1972.P. 2, No. 3, S. 1065–1068: Spindel, R. C., Schultheiss, P. M., Twodimensional probability structure of wind-driven waves.Google Scholar
  18. J. geophys. Res. 77, 1972,No. 21, S. 3902–3906: Grose, P. L., Warsh, K. L., Garstang, M., Dispersion relations and wave shapes.—J. geophys. Res. 77, 1972.No. 30 S. 6027–6029: Stewart, R. H., Comments on paper by R. J. Lai and O. H. Shemdin, ‘Laboratory investigation of air turbulence above simple water waves’—J. geophys. Res. 77, 1972.No. 33. S. 6558–6564: Hunt, J. N., Brampton, A. H.: Effect of friction on wave shoaling.—J. geophys. Res. 77, 1972.No. 33. S. 6599–6603, Kenyon, K. E., Edge waves with current shear.Google Scholar
  19. J. Mar. Met. Soc. Japan. Vol.47, 1972.No. 4, S. 21–31: Torigoe, H., Kusano, H., On the cyclones forming in the vicinity of Formosa. [In japan. Spr. m. engl. Abstr.] [Auch: Oceanogr. & Met., Nagasaki. 19, 1972. No. 268.]Google Scholar
  20. J. mar. Res. 31, 1973,No. 1, S. 40–50: Snyder, R. L., Covariance equations for a linear sea.—J. mar. Res. 31, 1973,No. 1, S. 51–60: Snyder, R. L., Smith, L., On the estimation of surface gravity-wave fields in the vicinity of an array of wave recorders.Google Scholar
  21. J. met. Res., Tokyo. Vol.24, 1972,No. 3, S. 5–18 Akedo, K., Simple methods of wave forecasting for the East China Sea and the tools for wave forecasting obtained by extraporating Wiegel's and Bretschneider's diagrams. [In japan. Spr.] [Auch: Oceanogr. & Met., Nagasaki. 19, 1972. No. 266.]Google Scholar
  22. J. phys. Oceanogr. Vol.1,No. 2,1971, S. 139–144: Monahan, E. C., Oceanic whitecaps. [Auch: Publ. Dep. Met. Oceanogr. Univ. Mich. No. 172, 1970.]—J. phys. Oceanogr. Vol. 2, 1972.No. 4, S. 405–410: Lau, J., Barcilon, A., Harmonic generation of shallow water waves over topography. [Auch: Contr. Geophys. Fluid Dynam. Inst. Fla St. Univ. No. 62.]—J. phys. Oceanogr. Vol. 2, 1972,No. 4, S. 420–431: Huang, N. E., Chen, D. T., Tung, C.-C., Interactions between steady non-uniform currents and gravity waves with applications for current measurements.—J. phys. Oceanogr. Vol. 3, 1973.No. 1, S. 102–119: Davidson, K. L., Frank, A. J., Wave-related fluctuations in the airflow above natural waves.—J. phys. Oceanogr. Vol. 3, 1973,No. 1, S. 120–132: Dorman, C. E., Mollo-Christensen, E., Observation of the structure on moving gust patterns over a water surface (“Cat's Paws”).—J. phys. Oceanogr. Vol. 3, 1973.No. 1, S. 139–155: Holland, J. Z. A statistical method for analyzing wave shapes and phase relationships of fluctuating geophysical variables.—J. phys. Oceanogr. Vol. 3, 1973,No. 2, S. 197–202: Kondo, J., Fujinawa, Y., Naito, G., High-frequency components of ocean waves and their relation to the aerodynamic roughness.—J. phys. Oceanogr. Vol. 3 1973,No. 2 S. 238–239: Olson, F. C. W., An explicit expression for the wavelength of a gravity wave.Google Scholar
  23. Mariner's Weather Log. 17, 1973.No. 2, S. 63–65: James, R. W., Abnormal wave action within harbors.Google Scholar
  24. Mar. clim. Summ. Jap. met. Ag. No. 6, 1972. 5 S. Text, 521 S. Tab.Google Scholar
  25. Mar. Technol. Soc. J. 6, 1972,No. 3, S. 23–28: Warsh, K. L., Grose, P. L., Garstang, M., Measurement of surface waves in the deep ocean.Google Scholar
  26. Met. i Gidrol. 3, 1973. S. 85–87: Kononkova, G. Ye., Poborchaya, L. V., Pokazeyev, K. V., Investigations of the rate field of surface waters. [In russ. Spr.]Google Scholar
  27. Met-Mar. No.77, 1972. S. 13–17: Walden, H., Vent et vagues. 10 ans de recherches.—Met-Mar, No. 77, 1972. S. 17–18: Devillaz, E., A propos de l'analyse spectrale.Google Scholar
  28. Motor Boat Yachting. Vol.114, No. 2373, 1971. S. 49–56: Draper, L., Waves how high? [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley, 19, 1971. No. 787.]Google Scholar
  29. Naut. techn. Tijdschr. 21/22, 1968/69 (1969). S. 454–457: Heyboer, D., Het tekenen van golfkaarten.Google Scholar
  30. Nota interna Ist. Fis. Marconi, Roma. No. 401, 1972. 14 S.: Mottoni, P. de, Salusti, E., On a nonlinear evolution equation describing the unidimensional motion of a viscous fluid.Google Scholar
  31. NRL Rep. No. 7445, 1972. 56 S.: Stilwell, D., Optical analysis for the 1971 ARPA Tower experiment.Google Scholar
  32. Ocean Engng. 2, 1972.No. 3, S. 123–129: Allkofer, O. C., Simon, M., A cosmic ray sea wave and tide recording system.Google Scholar
  33. Okeanologija. 12, 1972.No. 5, S. 771–779: Dobroklonsky, S. V., Kontoboitseva, N. V., Balashova, E. V., Experimental study of the velocity field structure in a monochromatic wave.—Okeanologija. 12, 1972.No. 6, S. 966–974: Tsyplukhin, V. F., Markov, V. V., Determination of the wind-driven wave fields in a bay.—Okeanologija, 12, 1972.No. 6, S. 1099–1107: Bondarenko, I. M., Zagorodnikov, A. A., Loshchilov, V. S., Relation between the wave parameters and the spatial spectrum of the air photographs and radar images of the sea surface.—Okeanologija. 13, 1973.No. 2, S. 203–209: Krylov, Yu. M., Tsyplukhin, V. F., Studies of the probability structure of the wave and wave pressure field at a deep-sea solid wall.—Okeanologija. 13, 1973.No. 2, S. 357–361: Ruskevich, V. G., Leikin, I. A., Rozenberg, A. D., A multielement measuring device for the investigation of time-spatial structure of wind-driven waves within the highfrequency part of the spectrum. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  34. Rap. Met. Geophys. Tokyo.23, 1972.No. 1, S. 21–31 Furuhata, T., Spectral synthesis theorem and its applicability to ocean wave measurements on ships.Google Scholar
  35. Philos. Trans. r. Soc. (A). Vol.270, No. 1210, 1971. S. 603–646: Cartwright, D. E., Tides and waves in the vicinity of Saint Helena.Google Scholar
  36. Proc. 11th Conf. coast. Engng, Japan 1964. S. 49–55: Iwagaki, Y., Kakinuna, T., [Some examples of the transformation of ocean wave spectra in shallow water.]—Proc. 11th Conf. coast. Engng, Japan 1964. S. 62–68: Iwagaki, Y., Sakai, M., Tsuchiya, Y., [Basic studies on the wave damping due to bottom friction (2) — On the measurement of the bottom shearing stress.]—Proc. 11th Conf. coast. Engng, Japan 1964. 12, Conf. coast. Engng, [Washington]. S. 1–11: Draper, L., The CanadianGoogle Scholar
  37. Proc. Int. Conf. Port Oc. Engng arct. Con. 1, Vol.1, 1971. S. 360–380: Bratteland, E., Tørum, A., Stability tests on a rubble mound breakwater head in regular and irregular waves. Sørvear fishing port, Norway.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 1, 1971. S. 405–412: Bychkov, V. S., Leibo, A. B., The investigation of long-wave part of sea wave spectrum.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 1, 1971. S. 423–439: Houmb, O. G., On the duration of storms in the North Sea.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 1, 1971. S. 440–454: Korhonen, H., Spectral composition of microseisms and their relation to sea waves.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 1, 1971. S. 489–513: Eie, J., Solberg, G., Tvinnereim, K., Waves generated by landslides.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 2, 1971. S. 966–978: Draper, L., Driver, J. S., Winter waves in the northern North Sea at 57°30′N 3°00′E, recorded by M. V. “Famita”.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 1, 1971. S. 979–992: Pedersen, B., Predictions of long-term wave conditions with special emphasis on the North Sea.—Proc. Int. Conf. Port Oc Engng arct. Cond. 1, Vol. 2, 1971 S. 993–1015: Nordenstrøm, N., Technique for prediction of wave-induced motions and loads on offshore structures with special reference to North Sea conditions.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 2, 1971. S. 1016–1030: Seidl, L. H., Diagrams for the prediction of the motions of ships moored in arctic waters.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 2, 1971. S. 1031–1034: Kato, J., Uekita, Y., Diffraction by block mound or submerged breakwater.Google Scholar
  38. Proc. R. Soc. Edinb. (B), 72, 1971–1972 (1972).No. 1, S. 311–320: Zobel, R. F., Weather routing of ships on the North Atlantic.—Proc. R., Soc. Edinb. (B). 72, 1971–1972 (1972).No. 1, S. 321–329: Livshits, V. M., Development of methods for optimum ship routing.Google Scholar
  39. Proc. R. Soc. Lond. A. 326, 1971. S. 39–52: Caldwell, D. R., Longuet-Higgins, M. S., The experimental generation of double Kelvin waves. [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley. 19, 1971. No. 779.]Google Scholar
  40. Proc. of the Symposium on long Waves, Univ. of Delaware, Sept. 1970. 32 S.: Galvin, C. J., Finiteamplitude, shallow water-waves of periodically recurring form. [Auch: Repr. US Army coast. Engn Res. Center, 1972. No. 5-72.]Google Scholar
  41. Proc. US Navy Symp. milit. Oceanogr. 6, 1969. Vol.1, S. 377–389: Boston, N. E. J., Ramzy, J. R., Young, E. T., Temperature fluctuations above an air-water interface.—Proc. US Navy Symp. milit. Oceanogr. 6, 1969. Vol. 1, S. 398–413: Chin, H., Pierson, W. J., Mass transport and thermal undulations caused by large and small scale variability in the Stokes' mass transport due to random waves. [Auch: Contr. Geophys. Sci. Lab. New York Univ. No. 79.]—Proc. US Navy Symp. milit. Oceanogr. 7, 1970, Vol. 1, S. 179–185: Sickle, K. L. van, Effective surf determination and application to amphibious warfare: a review.—Proc. US Navy Symp. milit. Oceanogr. 7, 1970. Vol. 1, S. 221–232: Breeding, J. E., The significance of wave refraction according to group velocity.—Proc. US Navy Symp. milit. Ocenogr. 8, 1971. Vol. 1, S. 394–406: Pierson, W. J., Spectral wave forecasts. [Auch: Contr. Geophys. Sci. Lab. New York Univ. No. 108.]Google Scholar
  42. Progr. Rep. Inst. Hydrodynam. hydraul. Engng Techn. Univ. Denmark. No.24, 1971. S. 39–49: Jonsson, I. G., The basic equations for current-depth refraction of surface gravity waves, Irrotational flow.—Progr. Rep. Inst. Hydronam. hydraul. Engng Techn. Univ. Denmark. No. 26, 1972. S. 15–22: Eliasson, J., Engelund, F., Gravity waves in rotational flow.—Progr. Rep. Inst. Hydrodynam. hydraul. Engng Techn. Univ. Denmark. No. 27, 1972 S. 23–29: Svendsen, I. A., Deep water limit to cnoidal waves.—Progr. Rep. Inst. Hydrodynam. hydraul. Engng Techn. Univ. Denmark. No. 27, 1972. S. 31–32: Jonsson, I. G., Hamilton's principle and the mean energy level for Stokes waves.Google Scholar
  43. ubl. Centre nat. Exploit. Océans. Sér. Résult. Campag. Mer No.4, 1972. S. 45–54: Efimov, V. V., Christophorov, C. N., Particularités du champ de vitesse dans la mer en présence de houle.Google Scholar
  44. Publ. Math. Res. Center Univ. Wisconsin No. 28, 1972. 462 S.: Meyer, R. E., Waves on beaches and resulting sediment transport. [Darin:]—Publ. Math. Res. Center Univ. Wisconsin No. 28, 1972. S. 1–51: Harris, D. L., Characteristics of wave records in the coastal zone.—Publ. Math. Res. Center Univ. Wisconsin No. 28, 1972. S. 95–121: Peregrine, D. H., Equations for water waves and the approximation behind them.—Publ. Math. Res. Center Univ. Wisconsin No. 28, 1972. S. 123–161: Shen, M. C., Wave resonance near shores.—Publ. Math. Res. Center Univ. Wisconsin No. 28, 1972. S. 163–180: Pierson, W. J., Wave behavior near caustics in models and in nature.—Publ. Math. Res. Center Univ. Wisconsin No. 28, 1972. S. 181–202: Mei, C. C., Ünlüata, Ü., Harmonic generation in shallow water waves.—Publ. Math. Res. Center Univ. Wisconsin No. 28, 1972. S. 357–411: Meyer, R. E., Taylor, A. D., Run-up on beaches.—Publ. Math. Res. Center Univ. Wisconsin No. 28, 1972. S. 413–456: Galvin, C. J., Wave breaking in shallow water.Google Scholar
  45. Pure appl. Geophys. 102, 1972.No. 9, S. 43–53: Biswas, R. N., Chandra, J., Seismic waves due to storm over the sea: I.—Pure appl. Geophys. 103, 1973.No. 2, S. 259–265: Korhonen, H., Spectral development of microseism storms at the Oulu seismograph station, Finland.—Pure appl. Geophys. 103, 1973.No. 2 S. 266–273: Bradner, H., Microseism propagation via oceanic waveguide.—Pure appl. Geophys. 103, 1973.No. 2, S. 274–281: Bernard, P., Variations des microséismes autor du Golfe de Gascogne. —Pure appl. Geophys. 103, 1973,No. 2, S. 282–289: Vinnik, L. P., Sources of microseismic P waves.—Pure appl. Geophys. 103, 1973.No. 2, S. 290–295: Proskurjakova, T. A., Rykunov, L. N., Savarensky, E. F., Some results of study of the microseisms in the USSR.—Pure appl. Geophys. 103, 1973,No. 2, S. 296–304: Sytinsky, A. D., On hydrometeorological conditions of microseisms generation.—Pure appl. Geophys. 103, 1973.No. 2, S. 305–315: Tabulevich, V. N., Complex of phenomena which arise simultaneously with the generation of microseismic vibrations.—Pure appl. Geophys. 103, 1973.No. 2, S. 316–331: Grinda, L., Illustration d'une théorie des microséismes par quelques cas concrets.—Pure appl. Geophys. 103, 1973.No. 2, S. 332–346: Bossolasco, M., Cicconi, G., Eva, C., On microseisms recorded near a coast.Google Scholar
  46. Quart. J. R. Met. Soc. Vol.99, 1973, No. 419. S. 35–47: Garrat, J. R., Studies of turbulence in the surface layer over water (Lough Neagh). III. Wave and drag properties of the sea-surface in conditions of limited fetch.Google Scholar
  47. Queensland Div. techn. Pap. 13, 1972 No. 5, 16 S.: McGrath, B. L., Patterson, D. C., Wave climate at the Gold Coast, Queensland.Google Scholar
  48. Rapp. P.-V. Commiss. int. Explor. Mer. Médit. 21, 1972.No. 4, S. 185–190: Malanotte-Rizzoli, P., Dazzi, R., Gačić, M., Numerical calculation of wave refraction in the Adriatic Sea.Google Scholar
  49. Rep. mar. Sci. Affairs, WMO No. 6, Vol.1, 1973. S. 60–64: Holland, G. L., The relevance of coastal wave data to the development of offshore resources.—Rep. mar. Sci. Affairs, WMO No. 6, Vol. 1, 1973. S. 68–74: Hardy, J. R., Ocean data requirements for specialist geographical users: remote sensing opportunities. —Rep. mar. Sci. Affairs, WMO No. 7, Vol. 2, 1973. S. 9–46: Pierson, W. J., Moore, R. K., A proof of concept test of a method for determining the wind and pressure fields in the planetary boundary layer and measuring wave height over the ocean by means of a combination radar — passive microwave — alimeter on skylab.—Rep. mar. Sci. Affairs, WMO No. 6, Vol. 1, 1973. S. 116–125: Taira, K., Takeda, A., Ishikawa, K., A shipborne wave-recording system with digital data processing.Google Scholar
  50. Res. Rep. US Army Eng. Waterways Exper. Stat. H-73-I, 1973. 69 S. m. Abb. u. Tab.: Keulegan, G. H., Wave transmission through rock structures. Hydraulic model investigation.Google Scholar
  51. Rev. Met. marit. No. 11, 1973. S. 4–7: La preparacion practica de mapas de olas.Google Scholar
  52. Sbornik Rab. Leningr. petrozavodsk. gidromet, Obs.7, 1970. S. 85–147: Smirnova, A. V., [Anwendung von Berechnungsmethoden bei der Untersuchung von Seegangsverhältnissen bei begrenzten Sturmfluten.] [In russ. Spr. m. dt. Abstr.]—Sbornik Rab. Leningr. petrozavodsk. gidromet, Obs. 7, 1970. S. 148–155: Davidan, I. N., Rožkov, V. A., Smirnova, A. V., [Wechselbeziehungen zwischen visuellen Beurteilungen und instrumentellen Messungen von Wellenhöhen.] [In russ. Spr.]Google Scholar
  53. Schiffstechnik.19, 1972.No. 96, S. 23–27: Walden, H., Untersuchungen und Erkenntnisse auf dem Gebiet der Umgebungsbedingungen für das Schiff während des letzten Jahrzehnts.Google Scholar
  54. Sovetsko-francuzkie issledovanija. Vaimodejstvie okeana i atmosfery. Sevastopol' 1972. S. 92–101: Efimov, V. V., Sisov, A. A. Étude de la structure turbulente de la couche limite de l'océan et de l'atmosphère. [In russ. Spr. m. franz. Abstr.]Google Scholar
  55. Techn. Note Fleet numer. Weather Central, Monterey, No. 59, 1970. Hubert, W. E., Mendenhall, B. R., The FNWC singular sea/swell model.Google Scholar
  56. Techn. Rep. Jap. met. Ag. No. 77, 1971. S 1–174: Distribution of maximum heights of ocean waves in the East China Sea caused by extratropical cyclones near Formosa or by winter monsoon. [In japan. Spr. m. engl. Abstr.] [Auch: Oceanogr. & Met., Nagasaki. 19, 1972. No. 263.]Google Scholar
  57. Tellus. 25, 1973.No. 1, S. 36–42: Manton, M. J., On the growth and decay of a deep water wave component.Google Scholar
  58. Trans. Amer. Soc. civ. Engrs 125, 1960.No. 1, S. 388–416: Bretschneider, C. L., Selection of design wave for offshore structures.Google Scholar
  59. Trudy Gidromet. nauč.-issl. Centr SSSR.60, 1972, S. 41–48: Bogdan, E. A., [Räumliche Interpolation von Wellenhöhen im Nordatlantik.]—Trudy Gidromet. nauč.-issl. Centr SSSR. 97, 1972. 131 S.: Vasil'ev, K. P., [Die günstigen Wege der Schiffahrt in Meeren und Ozeanen in Abhängigkeit von den gegebenen hydrometeorologischen Bedingungen.] (Red.: V. S. Krasjuk). [Jeweils in russ. Spr.]Google Scholar
  60. Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. No. 112, 144 S.: [Dynamik des Meeres.] (Red.: B. L. Lagutin) [Darin:]—Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. No. 112, S. 65–71: Matuševskij, G. V., [Berechnung der mittleren Periode winderregter Wellen bei komplizierten Konturen der Küstenlinie.] —Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. No. 112, S. 72–83: Davidan, I. N., Lopatuchin, L. I., Rožkov, V. A., [Verteilung der Wellenelemente, die nach Materialen von Stereophotoaufnahmen ermittelt worden sind.]—Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. No. 112, S. 84–92: Lopatuchin, L. I., Rožkov, V. A., [Analyse wahrscheinlicher Eigenschaften des Seegangs unter Berücksichtigung seiner Gruppenstruktur.]—Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. No. 112, S. 93–106: Nazaretskij, L. N., Eščenko, L. A., Kozlov, M. V., [Aufzeichnungsversuch von Wellenparametern in der küstennahen Zone eines flachen Meeres und Auswertung von Meßdaten.] [Jeweils in russ. Spr.]Google Scholar

Long waves UDC 551.466.6

  1. Ann. Geofis. 25, 1972.No. 2, S. 105–123: Caloi, P., Further geophysical experiences about the Lake of Caldonazzo. Morphology and origin of seiches. Microthermological data. Progressive filling up of small lakes with sand.—Ann. Geofis. 25, 1972.No. 3, S. 391–405: Butera, L., Caratteristiche idrodinamiche di alcuni laghi artificiali. (Hydrodynamical features of some artificial lakes.) [Jeweils in ital. Spr. m. engl. Abstr.]Google Scholar
  2. Contr. Geophys. Inst. Kyoto Univ. No.11, 1971. S. 77–90: Imasato, N., Study of seiche in Lake Biwa-ko II —on a numerical experiment by nonlinear two-dimensional model.Google Scholar
  3. Galazij, G. I., [Seiches auf Seen — an der Oberfläche und intern.] Leningrad: Izd. Nauka, Leningradskoe otd. 1970. 66 S. [Darin:]—Galazij, G. I., [Seiches auf Seen — an der Oberfläche und intern.] Leningrad: Izd. Nauka, Leningradskoe otd. 1970. S. 50–52: Verbolov, V. I., (Über Seiches im Baikalsee.)—Galazij, G. I., [Seiches auf Seen — an der Oberfläche und intern.] Leningrad: Izd. Nauka, Leningradskoe otd. 1970. S. 53–55: Mils, D., Radok, R., (Über Seiches und Steigendwasser im Baikalsee.)—Galazij, G. I., [Seiches auf Seen — an der Oberfläche und intern.] Leningrad: Izd. Nauka, Leningradskoe otd. 1970. S. 56–66: Kravec, T. P., Toropec, A. S., (Ausbreitung der Baikalseiches im Angarafluß.) [Jeweils in russ. Spr.]Google Scholar
  4. The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972). Vol. 1. S. 270–281: Moritani, N., Abe, T., A geophysical consideration of the water in the Ushigomebori Moat — on the seiche of the moat.—The 2nd Int. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972). Vol. 1. S. 282–293: Cherkesov, L. V., Knysh, V. V., Studies of non-linear tsunami waves in a basin of variable depth and width.Google Scholar
  5. Izv. Akad. Nauk SSSR, Fiz. Atmos. Okeana. 8, 1972.No. 10, S. 1035–1041: Monin, A. S., On the inertial motions on a rotating sphere.—Izv. Akad. Nauk SSSR, Fiz. Atmos. Okeana. 8, 1972.No. 10, S. 1080–1085: Lukina, I. P., Cherkesov, L. V., On the deformation of tsunami type waves in a basin of continuously varying depth.—Izv. Akad. Nauk SSSR, Fiz. Atmos. Okeana. 8, 1972.No. 11, S. 1188–1201: Kamenkovich, V. M., Odulo, A. B., On the theory of free oscillations in a stratified compressible ocean of constant depth.—Izv. Akad. Nauk SSSR, Fiz. Atmos. Okeana. 9, 1973.No. 3, S. 304–310: Levkov, N. P., Cherkesov, L. V., On boundary layers of surface and internal long waves. [Jeweils in russ. Spr. m. engl. Abstr.]—Izv. Akad. Nauk SSSR, Fiz. Atmos. Okeana. 9, 1973.No. 3, S. 331–334: Fomin, L. M., Savin, M. T., On a vertical coherence of inertial motions in the sea. [In russ. Spr.]Google Scholar
  6. J. mar. Res. 31, 1973.No. 1, S. 1–10: Brown, P. J., Kelvin-wave reflection in a semi-infinite canal.Google Scholar
  7. J. phys. Oceanogr. 3, 1973.No. 1, S. 57–60: Bennett, J. R., A theory of large-amplitude Kelvin waves. [Auch: Contr. Mar. Stud. Center, Univ. Wisconsin No. 14.]—J. phys. Oceanogr. 3, 1973.No. 1, S. 73–82: Cutchin, D. L., Smith, R. L., Continental shelf waves: low-frequency variations in sea level and currents over the Oregon continental shelf.Google Scholar
  8. Limnol. & Oceanogr. 17, 1972.No. 4, S. 639–643: Donn, W. L., Wolf, D. M., Seiche and water level fluctuations in Grindavik Harbor, Iceland. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1876.]Google Scholar
  9. Manuscr. Rep. Ser. Mar. Sci. Direct. Dep. Environm., Ottawa. No. 25. 1972. IV 61 S.: Murty, T. S., Rotating fluid studies with relevance to geophysics.—Manuscr. Rep. Ser. Mar. Sci. Direct. Dep. Environm., Ottawa. No. 28, 1972. IV S. 1–46: Murty, T. S., Henry, R. F., Some tsunami studies for the west coast of Canada.—Manuscr. Rep. Ser. Mar. Sci. Direct. Dep. Environm., Ottawa. No. 28, 1972. IV S. 47–79: Henry, R. F., Murty, T. S., Resonance periods of multi-branched coastal inlets with tsunami amplification.Google Scholar
  10. Met. i Gidrol. 3, 1973. S. 90–92: Lazo, A. V., Menshikov, V. I., Tsunami in Ust-Kamchatsk. [In russ. Spr.]Google Scholar
  11. Physics Earth planet. Interiors, 6, 1972.No. 5, S. 346–359: Kanamori, H., Mechanism of tsunami earthquakes.Google Scholar
  12. Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol.1, 1971. S. 413–422: Bychkov, V. S., Bondarenko, A. L., Novikov, V. D., Range action and possibilities of its forecast and prevention.—Proc. Inst. Conf. Port Oc. Engng arct. Cond. 1, Vol. 1, 1971. S. 455–488: Dorrestein, R., Bruun, P., Juliusson, A., Long-period waves in an Icelandic fjord.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 2, 1971. S. 1257–1261: Reeh, N., Engelund, F., Longperiod waves generated by calving glaciers.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 2, 1971. S. 1312–1324: Sørensen, T., Schrøder, H., Long period wave phenomena in Jakobshavn Harbour Bay, Greenland.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 2, 1971. S. 1445–1457: Viggosson, G., Rye, H., Long period oscillations in Sørvaer Harbour, Finnmark, Norway.Google Scholar
  13. Progr. Rep. Inst. Hydrodynam. hydraul. Engng Techn. Univ. Denmark. No.24, 1971. S. 7–15: Svendsen, I. A., A direct approach to the Ursell parameter in long waves.—Progr. Rep. Inst. Hydrodynam. hydraul. Engng Techn. Univ. Denmark. No. 25, 1972. S. 25–31: Svendsen, I. A., Energy transport in cnoidal waves.Google Scholar
  14. Publ. Centre nat. Exploit. Océans. Sér. Résult. Campag. Mer No.4, 1972. S. 75–81: Litvinenko, V. V., Oscillations d'inertie engendrées par le mistral.Google Scholar
  15. Rapp. P.-V. Commiss. int. Explor. Mer. Médit. 21, 1972,No. 4, S. 175–177: Rouault, C., Saint-Guily, B., Ondes de seconde classe dans le golf du Lion.—Rapp. P.-V. Commiss. int. Explor. Mer. Médit. 21, 1972,No. 4, S. 181–183: Artegiani, A., Tomasin, A., Goldmann, A., Sur la dynamique de la mer Adriatique due aux excitations météorologiques.Google Scholar
  16. Studi in onore di Guiseppina Aliverti. Napoli 1972. S. 15–25: Saint-Guily, B., Oscillations propres dans un bassin tournant de profondeur variable. Modes de seconde classe.Google Scholar
  17. Seewirtschaft 5, 1973.No. 3, S. 224–225: Vilkner, H., Warndienst vor Seebeben.Google Scholar
  18. Sovetsko-francuzkie issledovanija. Vzaimodejstvie okeana i atmosfery. Sevastopol' 1972. S. 43–47: Litvinenko, V. V., Oscillations d'inertie des courants dans la mer dues au mistral.—Sovetsko-francuzkie issledovanija. Vzaimodejstvie okeana i atmosfery. Sevastopol' 1972. S. 118–128: Naoumenko, M. F., Issaeva, L. S., Timofeev, N. A., Mesures hydrométéorologiques et actinométriques effectuées au cours de l'expédition franco-soviétique. [Jeweils in russ. Spr. m. franz. Abstr.]Google Scholar
  19. Tsunami! The story of the Seismic Sea-Wave Warning System. Rockville, Md.: U. S. Dept. of Commerce, Coast and Geodetic Survey 1965. 46 S. m. Abb.Google Scholar

Tides UDC 551.466.7

  1. Bol. Inst. oceanogr., S. Paulo.20, 1971. S. 145–199: Franco, A. dos S., Rock, N. J., The fast fourier transform and its application to tidal oscillaticus. [Auch: Publ. Inst. oceanogr., S. Paulo. No. 295.]Google Scholar
  2. Contr. Oss. geofis. sperim., Trieste. No. 214. 1972. 15 S.: Mosetti, F., Manca, B., Le maree dell'Adriatico: Calcoli di nuove costanti armoniche per alcuni porti.Google Scholar
  3. Deep-Sea Res. 19, 1972.No. 10, S. 673–689: Collar, P. G., Cartwright, D. E., Open sea tidal measurements near the edge of the northwest European continental shelf.Google Scholar
  4. Estuar. coast. mar. Sci. 1, 1973.No. 1, S. 89–99: Huthnance, J. M., Tidal current asymmetries over the Norfolk Sandbanks.Google Scholar
  5. Geogr. J. 138, 1972.P. 2, S. 178–208: Kestner, F. J. T., The effects of water conservation works on the regime of Morecambe Bay.Google Scholar
  6. Geophys. J. R. astr. Soc. 29, 1972.No. 4, S. 389–402: Hendershott, M. C., The effects of solid earth deformation on global ocean tides.—Geophys. J. R. astr. Soc. 29, 1972.No. 4, S. 433–449: Cartwright, D. E., Secular changes in the ocean tides at Brest, 1711–1936.Google Scholar
  7. Godin, G., The analysis of tides. Liverpool: Liverpool Univ. Pr. 1972. XXI, 264 S. m. Abb. u. Tab.Google Scholar
  8. The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972). Vol.1. S. 189–210: Franco, A. S., Rock, N. J., Comparative accuracy of Fourier tidal analysis employing different time spans with reference to a Doodson analysis.Google Scholar
  9. Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana 9, 1973.No. 4, S. 420–429: Kheisin, D. E., Ivchenko, V. O., A numerical model of tidal ice drift with interaction between floes. [In russ. Spr. m. engl. Abstr.]Google Scholar
  10. J. phys. Oceanogr. 3, 1973.No. 1, S. 66–72: Hsueh, Y., Benton, G. S., Putland, G., Tidal oscillations of an enclosed rotating fluid. [Auch: Contr. Geophys. Fluid Dynam. Inst. Fla. St. Univ. No. 72.]Google Scholar
  11. Morskoj Flot. 1972. No.9, S. 28–30: Bogdanov, K., (Tides, observation and utilisation.) [In russ. Spr.]Google Scholar
  12. NOAA.2, 1972.No. 4, S. 30–32: Zerbe, W. B., Alexander and the bore.Google Scholar
  13. DeNoordzeemeting 1971. Rijkswaterstaat. Studiendienst Hoorn, Studiedienst Delfzijl. Hoorn, Delfzijl 1973. 7 S.; 11 Beil. (Nota W 73.1)Google Scholar
  14. Okeanologija 13, 1973.No. 2, S. 210–215: Nekrasov, A. V., On the reflection of tidal waves from the shelf zone.—Okeanologija 13, 1973.No. 2, S. 238–241: Bogdanov, K. T., Kharkov, B. V., Minh, D. C., Tides in the Atlantic Ocean. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  15. Proc. R. Soc. Edinb. (B).72, 1971–1972 (1972).No. 1, S. 331–339: Cartwright, D. E., Some ocean tide measurements of the eighteenth century, and their relevance today.—Proc. R. Soc. Edinb. (B) 73, 1971–1972 (1972). S. 13–23: Rossiter, J. R., The history of tidal predictions in the United Kingdom before the twentieth century.Google Scholar
  16. Proc. US Navy Symp. milit. Oceanogr. 6, 1969 Vol.1, S. 354–364: Burns, D., Clark, D., Martin, P., A technique for graphic presentation of water level forecasts using a topographic contour chart format.Google Scholar
  17. Pubbl. Ist. sperim. talassogr. No. 469. 1971. 18 S. m. Tab.: Ferraro, S., Tabelle di previsione delle maree per Trieste per l'anno 1972.—Pubbl. Ist. sperim. talassogr. No. 470. 1971. 18 S. m. Tab.: Ferraro, S., Tabelle di previsione delle maree per Porte Corsini per l'anno 1972.—Pubbl. Ist. sperim. talassogr. No. 471. 1971. 18 S. m. Tab.: Ferraro, S., Tabelle di previsione delle maree per Ancona per l'anno 1972.—Pubbl. Ist. sperim. talassogr. No. 472. 1971. 18 S., m. Tab.: Ferraro, S., Tabelle di previsione delle maree per Taranto per l'anno 1972.—Pubbl. Ist. sperim. talassogr. No. 473. 1971. 18 S. m. Tab.: Ferraro, S., Tabelle di previsione delle maree per Reggio Calabria per l'anno 1972.—Pubbl. Ist. sperim. talassogr. No. 474, 1971. 18 S. m. Tab.: Ferraro, S., Tabelle di previsione delle maree per Catania per l'anno 1972.Google Scholar
  18. Rapp. P.-v. Cons. Explor. Mer., 162, 1972. S. 285–295: Maximov, I. V., Sarukhanyan, E. I., Smirnov, N. P., (Long period tidal phenomena in the north part of the Atlantic Ocean.Google Scholar
  19. Rep. hydrogr. Res., Tokyo, No.3, 1967. S. 13–23: Akagi, N., Sato, S., Tagaya, Y., A brief method applied for the long-period tides Sa and Ssa, and the results by means of this method.—Rep. hydrogr. Res., Tokyo No. 6, 1971. S. 63–77: Yamada, T., Yano, Y., On occurence of constant and quater-diurnal currents by the topographical effect. [Jeweils in japan. Spr. m. engl. Abstr.]Google Scholar
  20. Seewirtschaft 5, 1973.No. 3, S. 218–224: Sager, G., Klassifikation der Gezeiten in internationaler Wertung.Google Scholar
  21. Studi in onore di Guiseppina Aliverti. Napoli 1972. S. 9–13: Hidaka, K., Problem of tidal current ellipses.—Studi in onore di Guiseppina Aliverti. Napoli 1972. S. 163–177: Mosetti, F., Manca, B., Le maree dell'Adriatico: calcoli di nuove costanti armoniche per alcuni porti. [In ital. Spr. m. engl. Abstr.]Google Scholar
  22. Techn. Bull. comm. tidal Hydraul. US Corps Engrs. No. 16, 1969. XV, 143 S., App. I–III.: Harleman, D. R. F., Lee, C. H., The computation of tides and currents in estuaries and canals.Google Scholar
  23. Techn. Mem. Fleet numer. Weather Central, Monterey, 1970. No. 27, 14 S. u. 14 Abb.: Laevastu, T., Hubert, W. E., Tides and tidal currents in the Strait of Gibraltar computed with the hydrodynamical numerical model of W. Hansen.Google Scholar
  24. Techn. Rep. Hydrogr. Off. Republ. Korea. 1971. S. 23–32: Kang, Y.-C., Tidal currents in the Changjuk Sudo and its adjacent waters.—Techn. Rep. Hydrogr. Off. Republ. Korea. 1971. S. 33–36: Ji, Y.-D., Tides at Koje, Kujora, and Sungpo Hang. [Jeweils in korean. Spr. m. engl. Abstr.]Google Scholar
  25. Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. No.112, S. 5–43: Sgibneva, L. A., [Theorie und Berechnungsmethoden der Gezeitenerscheinungen (Entwicklungsübersicht und gegenwärtiger Stand des Problems)].—Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. No. 112, S. 57–64: Filippov, Ju. G., [Einige Berechnungsergebnisse unbeständiger Bewegungen im Asowschen Meer.]—Trudy. Gosudarstv. okeanogr. Inst. Moskau. 1972. No. 112. S. 130–139: Soveršaeva, G. D., [Über eine Steigerung der Genauigkeit bei der Vorausberechnung des Niveau's in Mündungen von Flüssen mit Gezeiten am Beispiel der Nördlichen Düna.]Google Scholar
  26. Umschau. 73, 1973.No. 7, S. 218–219: Brosche, P., Sündermann, J., Meeresgezeiten bremsen die Erdrotation.Google Scholar
  27. Wasserwirtsch., Stuttg. 62, 1972.No. 11, S. 333–341: Sündermann, J., Vollmers, H., Tidewellen in Ästuarien.Google Scholar
  28. Yacht. 69, 1972.No. 23, S. 38–39: Sack, H., Wann muß man gegenan? Berechnung des Tidenstroms.Google Scholar

Earth tides UDC 525.622

  1. Boll. Geofis. teor. appl. Vol. 14, No. 55, 1972. S. 192–202: Bozzi Zadro, M., Earth tides and ocean load effects recorded at Trieste.Google Scholar
  2. Bull. Acad. r. Belg. Cl. Sci. Sér. 5.58, 1972. S. 368–376: Ruymbeke, M. van, Sur l'étalonnage des pendules horizontaux à l'aide de céramiques piezo-électriques.Google Scholar
  3. Contr. Geophys. Inst. Kyoto Univ. No.11, 1971. S. 191–204: Ozawa, I., Expressions of the anisotropy of the crust by means of the observations of the earth tidal strains.Google Scholar
  4. Geod. geophys. Veröff., R. 3,1971.No. 23, 32 S.: Schneider, M. M., Bericht über die Überwinterung an der Station Wostok während der 14. sowjetischen Antarktisexpedition 1968–1970.Google Scholar
  5. Geophys. J. R. astr. Soc. 29, 1972.No. 4, S. 473–485: Bilham, R., Evans, R., King, G., Earth strain tides observed in Yorkshire, England with a simple wire strainmeter.—Geophys. J. R. astr. Soc. 31, 1972.No. 1-3, S. 239–269: Block, B., Dratler, J., A review of tidal, earth normal mode and seismic data obtained with quartz torsion accelerometers.Google Scholar
  6. Gerlands Beitr. Geophys. 81, 1972.No. 1/2, S. 79–82: Schuster, O., Über die Relativität und mangelnde Vergleichbarkeit der Ergebnisse aus verschiedenen Erdgezeiten-Analysenverfahren.Google Scholar
  7. J. Met. Soc. Japan. Ser. 2.50, 1972.No. 4, S. 342–345: Miyahara, S., The earth tide correction for the surface barometric lunar tide.Google Scholar
  8. J. Radio Res. Labs. Vol.19, No. 99, 1972. S. 69–80: Ishimine, T., Effects of the Ampere force on the atmospheric tide.Google Scholar
  9. Mitt. Inst. theor. Geod. Univ. Bonn, 1973. No. 13, 14 S.: Grafarend, E., Nichtlokale Gezeitenanalyse.—Mitt. Inst. theor. Geod. Univ. Bonn, 1973. No. 14, 17S.: Schüller, K., Schulz, B. S., Die Anwendung der Prädiktion auf periodische Prozesse, eine Methode zur Überbrückung von Lücken in der Erdgezeitenregistrierung.Google Scholar
  10. Rotation of the Earth. IAU (Internat. Astronomical Union) Symposium 48. Morioka, Japan. Ed.: P. Melchior, S. Yumi, 1972. S. XI–XXIII: Melchior, P., Past and future of research methods in problems of the earth's rotation. [Auch: Commun. Obs. r. Belg. (B No. 71, Géophys. No. 107.)]Google Scholar
  11. Quart. J. R. astron. Soc. 11, 1970.No. 5, S. 382–395: Chapman, S., The earth.Google Scholar
  12. Tectonophysics. 13, 1972. S. 361–372: Melchior, P., Earth tides and polar motions. [Auch: Commun. Obs. r. Belg. B No. 76, Géophys. No. 111.]Google Scholar
  13. Z. Geophys. 39, 1973.No. 1, S. 1–20: Stukenbröker, B., Ergebnisse von Erdgezeiten-Parallelregistrierungen mit drei ASKANIA-Gravimetern.Google Scholar
  14. (Veröff.) Dt. geod. Kommiss. (C). 1972. No. 184, 121 S.: Schulz, B.-S., Die schrittweise Spektralausgleichung, eine Methode zur Erdgezeitenanalyse.Google Scholar

Internal waves UDC 551.466.8

  1. Deep-Sea Res. 19, 1972.No. 11, S. 793–811: MacWilliams, J., Observations of kinetic energy correspondences in the internal wave field. [Auch: Contr. Woods Hole oceanogr. Instn. No. 1770].—Deep-Sea Res. 20, 1973.No. 2, S. 179–205: Baines, P. g., The generation of internal tides by flatbump topography.Google Scholar
  2. Dt. hydrogr. Z. 25, 1972.No. 6, S. 241–250: Krauss, W., Wind-generated internal waves and inertial-period motions.Google Scholar
  3. Dokl. Akad. Nauk SSSR, 209, 1973.No. 1, S. 86–89: Koniaev, K. V., Sabinin, K. D., New data concerning internal waves in the sea obtained using distributed temperature sensors. [In russ. Spr.]Google Scholar
  4. Eos, Wash., Vol.52, 1971.No. 6, S. 233–235: Wunsch, C., Internal waves.Google Scholar
  5. Geophys. Fluid Dynam. 3, 1972.No. 3, S. 225–264: Garrett, C., Munk, W., Space-time scales of internal waves.Google Scholar
  6. Glazij, G. I. (Hauptred.): Sejši na ozerach—poverchnostnye i vnutrennie. Leningrad 1970. S. 5–34: Schellenberger, G., (Zur Theorie interner Seiches in Seen. Übers. a. d. Deutschen mit Anmerkungen von L. K. Davydov.)—Glazij, G. I. (Hauptred.): Sejši na ozerach—poverchnostnye i vnutrennie. Leningrad 1970. S. 35–38: Verbolov, V. I., Evdokimov, E. A., (Zum Problem über zweiregionale interne Wellen im Baikalsee.) [Jeweils in russ. Spr.]Google Scholar
  7. Houille blanche. 1972. No.8, S. 709–722: Hinwood, J. B., The study of density-stratified flows up to 1945. Part 2. Internal waves and interfacial effects.Google Scholar
  8. The 2ndInt. Ocean Dev. Conf., Oct. 5–7,1972, Keidanren Kaikan, Tokyo. (Tokyo 1972).Vol. 1, S. 296–304: Cherkesov, L. V., Bukatov, A. E., Dotsenko, S. F., Investigation of the internal waves in a continuedly stratified ocean.Google Scholar
  9. Izv. Akad. Nauk SSSR. Fizika Atmosfery i Okeana. 9, 1973.No. 1, S. 66–74: Sabinin, K. D., On some features of short period internal waves in the ocean.—Izv. Akad. Nauk SSSR. Fizika Atmosfery i Okeana. 9, 1973.No. 1, S. 75–83: Fomin, L. M., On inertial oscillations in a horizontally non-homogeneous current velocity field.—Izv. Akad. Nauk SSSR. Fizika Atmosfery i Okeana. 9, 1973.No. 1, S. 411–419: Miropolsky, Yu. Z., On the laws of probability distributions of some internal waves characteristics in the ocean. [Jeweils in russ. Spr. m. engl. Abstr.]—Izv. Akad. Nauk SSSR. Fizika Atmosfery i Okeana. 9, 1973.No. 1, S. 445–447: Lozovatsky, I. D., Shapovalov, S. M., Determination of some characteristics of internal waves for a given profile of Väisäla frequency. [In russ. Spr.]Google Scholar
  10. J. Fluid Mech. 46, 1971.P. 2, S. 299–319: Thorpe, S. A., Experiments on the instability of stratified shear flows: miscible fluids. [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley. 19, 1971. No. 824.]—J. Fluid. Mech. 53, 1972.No. 1, S. 17–44: Martin, S., Simmons, W., Wunsch, C., The excitation of resonant triads by single internal waves. [Auch: Techn. Rep. Woods Hole oceanogr. Instn. No. 72-58, 1972.]—J. Fluid. Mech. 55, 1972.Part 4, S. 589–608: McEwan, A. D., Mander, D. W., Smith, R. K., Foroed resonant second-order interaction between damped internal waves.Google Scholar
  11. J. phys. Oceanogr. 3, 1973.No. 1, S. 83–85: Garrett, C., The effect of internal wave strain on vertical spectra of fine-structure.—J. phys. Oceanogr. 3, 1973.No. 2, S. 239–241: Bell, T. H., On the scattering of internal waves by deep ocean fine-structure.Google Scholar
  12. Manuser. Rep. Ser. Mar. Sci. Direct. Dep. Environm., Ottowa. No. 26, 1972. 16 S.: Yuen, K. B., Some calculations on the free oscillations of non-rotating parabolic basins.Google Scholar
  13. Proc. US Navy Symp. millit. Oceanogr. 6, 1969 Vol.1, S. 390–397: Larsen, L. H., Rattray, M., Barbee, W., Internal waves.—Proc. US Navy Symp. milit. Oceanogr. 8, 1971. Vol. 1, S. 341–348: Neshyba, S., Neal, V. T., Denner, W., Internal waves and thermal-solutal microstructure.Google Scholar
  14. Publ. Centre nat. Exploit. Océans. Sér. Résult. Campag. Mer No.4, 1972. S. 55–65: Bukatov, A. E., Tcherkessov, L. V., Ondes internes dues aux perturbations de pression dans la Méditerranée.Google Scholar
  15. Rapp. P.-v. Cons. Explor. Mer. 162, 1972. S. 45–52: Lacombe, H., Les principaux problèmes relatifs aux ondes internes d'après les exposés annoncés.—Rapp. P.-v. Cons. Explor. Mer. 162, 1972. S. 53–56: Sandstrom, H., Measurement of internal waves on the ocean bottom.—Rapp. P.-v. Cons. Explor. Mer. 162, 1972 S. 57–64: Mooers, C. N. K., The mixed initial-boundary value problem for inertial-internal waves in a wedge.—Rapp. P.-v. Cons. Explor. Mer. 162, 1972. S. 65–79: Larsen, L. H., Rattray, M., Barbee, W., Internal tides. [Auch: Contr. Dept. Oceanogr. Univ. Wash. No. 627.]—Rapp. P.-v. Cons. Explor. Mer. 162, 1972. S. 80–84: Warner, J. L., On the effect of topography on the propagation of internal waves.—Rapp. P.-v. Cons. Explor. Mer. 162, 1972. S. 85–88: Crepon, M., Generation of internal waves of inertial period in a two layer ocean.—Rapp. P.-v. Cons. Explor. Mer. 162, 1972. S. 94–98: Cavanié, A., On the propagation and the evolution of internal fronts in the Straits of Gibraltar.—Rapp. P.-v. Cons. Explor. Mer. 162, 1972. S. 99–102: Boris, L. I., Experience in the calculation of the seasonal variability of the tidal internal waves in the North Atlantic based on the mean many-year density distribution.Google Scholar
  16. Rep. Mass. Inst. Technol., Dep. Met. 1972. 127 S.: Lee, C.-Y., Long nonlinear internal waves and quasi-steady lee waves.—Rep. Mass. Inst. Technol., Dep. Met. 72–3. 1972. 96 S. m. Abb.: Joyce, T. M., Nonlinear interactions among standing surface and internal gravity waves.Google Scholar
  17. Sovetsko-francuzkie issledovanija. Vzaimodejstvie okeana i atmosfery. Sevastopol' 1972. S. 26–33: Boukatov, A. E., Tcherkesov, L. V., Ondes internes dues aux perturbations bariques dans la Méditerranée.—Sovetsko-francuzkie issledovanija. Vzaimodejstvie okeana i atmosfery. Sevastopol' 1972. S. 34–42: Crepon, M., Formation d'ondes internes de longues périodes dans un océan à deux couches. [Jeweils in russ. Spr. m. franz. Abstr.]Google Scholar
  18. Trudy. Gosudarstv. okeanogr. Inst. Leningrad. 1972. No.114. S. 109–115: Sustavov, Ju. V., Klevancov, Ju. P., [Einige Untersuchungsergebnisse interner Wellen im Ozean auf Grund einer Analyse anhaltender zeitlicher Reihen unter Berücksichtigung nichtstationärer Prozesse.] [In russ. Spr.]Google Scholar

Ice UDC 551.467

  1. Acta Univ. oulu. Ser. A3, 1972. Geol. No.1, S. 409–422: Olausson, E., The role of the Arctic Ocean during cool climatic periods.Google Scholar
  2. Annu. offshore Technol. Conf. 3, 2, 1971. Pap. OTC1422, S. 81–86: McIntosh, J. A., Young, C. W., A technique for obtaining sea ice thickness measurements from aircraft.—Annu. offshore Technol. Conf. 3, 2, 1971. Pap. OTC1424, S. 87–94: Maser, K. R., Determination of the strength of an ice sheet from small sample data.—Annu. offshore Technol. Conf. 4, 2. 1972. Pap. OTC1684, S. 603–608: Coon, M. D., Mechanical behavior of compacted arctic ice floes.—Annu. offshore Technol. Conf. 4, 2, 1972. Pap. OTC1686, S. 609–622: Wance, G. P., Egan, D. M., Ice thickness by shear wave propagation.Google Scholar
  3. Annu. Rep. Geophys. Inst. Univ. Alaska. 1971–1972. (1972). 159 S.Google Scholar
  4. Arch. Met. Geophys. Biokl. (A) 22, 1973.No. 1, S. 119–134: Streten, N. A., Satellite observations of the summer decay of the Antarctic sea-ice.Google Scholar
  5. Arctic. 25, 1972.No. 3, S. 182–192: Bryan, M. L., Marcus, M. G., Physical characteristics of near-shore ice ridges.—Arctic. 25, 1972.No. 4, S. 263–271: Aber, P. G., Vowinckel, E., Evaluation of North Water spring ice cover from satellite photographs.Google Scholar
  6. Beitr. Meeresk., H,29, 1972. S. 5–17: Brosin, H. J., Neumeister, H., Untersuchungen über die Eisverhältnisse in der Ostsee im Winter 1968/1969 anhand von Satellitenfotos.Google Scholar
  7. Bull. Hydraul. Lab. R. Inst. Technol. Stockh. No. 79, 1972. 19 S. u. 21 Abb.: Lindgren, S., Thermal ice pressure.Google Scholar
  8. Dokl. Akad. Nauk SSSR. 206, 1972.No. 5, S. 1106–1108: Smirnov, V. N., Ice cover fluctuations due to internal waves of the Arctic ocean. [In russ. Spr.]Google Scholar
  9. Eisber. Dt. Hydrogr. Inst. 46,1972.No. 1, 1 Bl.Google Scholar
  10. Eisübers.-Karte. Dt. hydrogr. Inst. 46. Jg1973,No. 1.Google Scholar
  11. ESSA techn. Mem. NESCTM 12, 1969. 19 S.: McClain, E. P., Baker, D. R., Experimental large-scale snow and ice mapping with composite minimum brightness charts.Google Scholar
  12. Heinsheimer, J. J., Témpanos en el Atlántico Austral. Buenos Aires: Servicio de Hidrografia Naval 1967. 38 S. m. 11 Abb. (H. 647)Google Scholar
  13. Ice Observ.: Can. inland waterways 1967 (1971). 11 S., 104 Abb.Google Scholar
  14. Ice Thickn. Data can. Stat. (1961). 66 S.Google Scholar
  15. J. geophys. Res. 77, 1972.No. 21, S. 3886–3901: Smith, S. D., Wind stress and turbulence over a flat ice floe. [Auch: Contr. Bedford Inst. Oceanogr. No. 305.]—J. geophys. Res. 77, 1972.No. 30, S. 5935–5944: Langleben, M. P., A study of the roughness parameters of sea ice from wind profiles.—J. geophys. Res. 77, 1972.No. 30, S. 5945–5953: Mock, S. J., Hartwell, A. D., Hibler, W. D., Spatial aspects of pressure ridge statistics.—J. geophys. Res. 77, 1972.No. 30, S. 5954–5970: Hibler, W. D., Weeks, W. F., Mock, S. J., Statistical aspects of sea-ice ridge distributions.—J. geophys. Res. 77, 1972.No. 33, S. 6552–6557: Gow, A. J., Epstein, S., On the use of stable isotopes to trace the origins of ice in a floating ice tongue. [Auch: Contr. Div. geol. Sci., Calif. Inst. Technol. 2148.]—J. geophys. Res. 77, 1972.No. 33, S. 6565–6575: Parmerter, R. R., Coon, M. D., Model of pressure ridge formation in sea ice.—J. geophys. Res. 77, 1972.No. 36, S. 7190–7195: Hibler, W. D., Removal of aircraft altitude variation from laser profiles of the arctic ice pack.Google Scholar
  16. J. Glaciol. Vol.11, No. 63, 1972. S. 337–344: Langleben, M. P., The decay of an annual cover of sea ice.—J. Glaciol. Vol. 11, No. 63, 1972. S. 345–356: Hibler, W. D., LeSchack, L. A., Power spectrum analysis of undersea and surface sea-ice profiles.Google Scholar
  17. J. Met. Soc. Japan, 50, 1972.No. 6, S. 542–557: Schell, I. I., Large-scale sea ice, sea surface temperature anomalies in the northwestern North Pacific and their significance for foreshadowing the weather in northern Japan and Far Eastern USSR.Google Scholar
  18. Low Temp. Sci. (A) 30, 1972. S. 163–174: Aota, M., On the discrimination between sea ice and sea clutter in radar scope.—Low Temp. Sci. (A) 30, 1972. S. 175–181: Tabata, T., Oi, M., Data processing system of sea ice radar.—Low Temp. Sci. (A) 30, 1972 S. 221–222: Tabata, T., Kinosita, S., Suzuki, Y., Pressure change within the sea ice by artificial deformation. [Jeweils in japan. Spr.]Google Scholar
  19. Mar. Obs. Vol.42,No. 238,1972. S. 187–191: Ice conditions in areas adjacent to the North Atlantic Ocean from April to June 1972.Google Scholar
  20. Mariner's Weather Log. 17, 1973.No. 1, S. 15–16: Linklater, G. D., The 1971–72 Great Lakes ice season.Google Scholar
  21. Materialy Poljar. nauč.-issl. Inst. morsk. ryb. Choz. Okeanogr. 19, 1972. S. 169–179: Lebedev, A. A., Uralov, N. S., The anomalies of ice conditions and position of the ice edge in the sub-Atlantic Arctic in 1968–1969 in connection with the development of atmospheric and oceanic processes. [In russ. Spr.]Google Scholar
  22. Met. i Gidrol. 1972. No.9, S. 59–62: Murzin, A. I., Economic benefits from aircraft reconnaissance of ice conditions in the Arctic Ocean navigation.—Met. i Gidrol. 1973.No. 1, S. 108–113: Romanenko, Yu. M., Methods for application of a plane electrical capacity sensor to ice jam studies. [Jeweils in russ. Spr.]Google Scholar
  23. Month. Weather Rev. 100, 1972.No. 9, S. 690–691: Parmenter, F. C., Picture of the month: spring ice migration near Newfoundland.Google Scholar
  24. Morskoj Sbornik. Moskva 1973. No.3, S. 85–89: Antonov, K., [Eisberge im Ozean.] [In russ. Spr.]Google Scholar
  25. Nav. Res. Rev., Wash. 25, 1972.No. 8, S. 1–12: Bright, C. V., Diving in the Arctic.—Nav. Res. Rev., Wash. 25, 1972.No. 9, S. 17–26: Martin, S., Ice stalactites and the desalination of sea ice.—Nav. Res. Rev., Wash. 25, 1972.No. 12, S. 23–28: Walker, H. J., Ice breakup in an Arctic delta.Google Scholar
  26. N. Z. J. mar. Freshw. Res. 6, 1972.No. 3, S. 387–389: Gaskin, D. E., Icebergs south-east of New Zealand in 1967. (Note).Google Scholar
  27. Okeanologija.12, 1972.No. 5, S. 792–802: Tsurikov, V. L., Tsurikova, A. P., On brine content of the sea ice 〈state of the problem〉.—Okeanologija. 13, 1973.No. 2, S. 348–356: Belousov, P. S., Bondarenko, I. M., Zagorodnikov, A. A., A two-dimensional statistical analysis of the radar images of the sea ice. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  28. Pilot Chart N. Atlant. Oc.No. 16, 1973. Ice and its drift into the North Atlantic Ocean.Google Scholar
  29. Polarforsch. 42, 1972 No. 2, S. 66–74: Kohnen, H., Seismic and ultrasonic measurements on the sea ice of Eclipse Sound near Pond Inlet, N.W.T., on northern Baffin Island.—Polarforsch. 42, 1972.No. 2, S. 75–81: Finke, S., Untersuchungen zum Verformungsverhalten des Meereises im Eclipse Sound (Baffin Island) und Messungen des Reibungskoeffizienten Stahl-Eis.—Polarforsch. 42, 1972.No. 2, S. 82–89: Zick, W., Thiele, P., Geodätische Arbeiten im Rahmen des Canadian Arctic Channel Project 1972.—Polarforsch. 42, 1972.No. 2, S. 97–101: Walter, R., Blewett, K., Strukturkartierung und Profilaufnahme im Meereis des Eclipse Sound (Baffin Island).Google Scholar
  30. Polar Rec. Vol.16, 1972.No. 102, S. 367–373: Sissala, J. E., Sabatine, R. R., Ackermann, H. J., Nimbus Satellite data for polar ice survey.Google Scholar
  31. Proc. Int. Conf. Port Oc. Engng. arct. Cond. 1, Vol.1, 1971. S. 101–111: DenHartog, S. L., SS Manhattan tests, a review of the ice program.—Proc. Int. Conf. Port Oc. Engng. arct. Cond. 1, Vol. 1, 1971. S. 119–139: Breslau, L. R., James, J. E., Trammell, M. D., The underwater shape of a grounded ice island off Prudhoe Bay, Alaska—Proc. Int. Conf. Port Oc. Engng. arct. Cond. 1, Vol. 1, 1971. S. 140–151: Carstens, T., Prevention of ice formation by forced mixing.—Proc. Int. Conf. Port Oc. Engng. arct. Cond. 1, Vol. 1, 1971. S. 152–183: Weeks, W. F., Kovacs, A., Hibler, W. D., Pressure ridge characteristics in the Arctic coastal environment.—Proc. Int. Conf. Port Oc. Engng. arct. Cond. 1, Vol. 1, 1971. S. 184–191: Palosuo, E., Ice ridges in a coastal area of Finland.—Proc. Int. Conf. Port Oc. Engng. arct. Cond. 1, Vol. 1, 1971. S. 211–220: Sharma, G. D., Kreitner, J. D., Hood, D. W., Sea ice characteristics in Bering Sea. [Auch: Contr. Inst. mar. Sci. Univ. Alaska No. 133.]—Proc. Int. Conf. Port Oc. Engng. arct. Cond. 1, Vol. 1, 1971 S. 632–656: Maser, K. R., The interpretation of small scale strength data for ice.—Proc. Int. Conf. Port Oc. Engng. arct. Cond. 1, Vol. 1, 1971 S. 674–682: Ross, B., Hanagud, S., Sidhu, G. S., Ice floe-offshore platform interaction.—Proc. Int. Conf. Port Oc. Engng. arct. Cond. 1, Vol. 1, 1971. S. 683–712: Bruun, P. M., Johannesson, P., The interaction between ice and coastal structures.—Proc. Int. Conf. Port Oc. Engng. arct. Cond. 1, Vol. 1, 1971 S. 724–777: Steltner, H. A. R., Canadian Arctic sea/air base at Radstock Bay, Devon Island, N.W.T.—Proc. Int. Conf. Port Oc. Engng. arct. Cond. 1, Vol. 2, 1971. S. 948–964: Teeson, D. H., Corrosion protection for steel surfaces exposed to moving sea ice.—Proc. Int. Conf. Port Oc. Engng. arct. Cond. 1, Vol. 2, 1971. S. 1355–1366: Hulgaard, E., Sørensen, T., Ice cover prevention by means of air bubbles, Narssaq, Greenland.Google Scholar
  32. Proc. Mar. Safety Coun. 30,1973.No. 2, S. 34–36: International Ice Patrol 1973.Google Scholar
  33. Proc. US Navy Symp. milit. Oceanogr. 8, 1971. Vol. 1, S. 320–334: Bright, C. V., Welsh, J. P., Turcotte, J. E., Characterization of the underside of ice by divers.Google Scholar
  34. Progr. Rep. Inst. Hydrodynam. hydraul. Engng Techn. Univ. Denmark. No.25, 1972. S. 17–23: Tryde, P., A method of predicting ice pilings.—Progr. Rep. Inst. Hydrodynam. hydraul. Engng Techn. Univ. Denmark. No. 26, 1972. S. 23–28: Reeh, N., Impact of an ice floe against a sloping face.—Progr. rep. Inst. Hydrodynam. hydraul. Engng Techn. Univ. Denmark. No. 26, 1972. S. 29–33: Tryde, P., A method of predicting ice pilings. Impact of floe against inclined plane.Google Scholar
  35. Publ. Internat. Assoc. Sci. Hydrol. No.79, (1968). S. 151–159: Langleben, M. P., The heat budget of a melting cover of sea ice.Google Scholar
  36. Rep. mar. Sci. Affairs, WMO No. 7, Vol.2, 1973. S. 56–66: Campbell, W. J., NASA remote sensing of sea ice in AIDJEX.—Rep. mar. Sci. Affairs, WMO No. 7, Vol. 2, 1973. S. 67–75: Tabata, T., Sea ice reconnaissance with the radar.Google Scholar
  37. Seewart. 33, 1972.No. 6, S. 244–250: Mertins, H. O., Über das Auftreten von Eisbergen im Januar 1972. bei 58°–59° Nord und 33°–34° West.—Seewart. 33, 1972.No. 6, S. 257–259: Rodewald, M., Zum Eisvorkommen vor Nordisland.Google Scholar
  38. Trudy arkt. antarkt. nauč.-issl. Inst. 298, 1972. S. 116–120: Kapitkin, B. T., [Untersuchungen dielektrischer Eigenschaften von Meereseis im Ultrahochfrequenzbereich.] [In russ. Spr.]Google Scholar
  39. Trudy Gidromet. nauč.-issl. Centr SSSR. 51, 1969. S. 101–119: Karakaš, A. I., [Eisvoraussagen auf den nichtarktischen Meeren der UDSSR.]—Trudy Gidromet. nauč.-issl. Centr SSSR. 51, 1969. S. 152–163: Kan, S. I., [Methode für die Voraussage von Eisphasen im Herbst und im Frühjahr, die analytisch in mathematischen Reihen dargestellt werden (am Beispiel der Ochotskischen und Japanischen Meere).—Trudy Gidromet. nauč.-issl. Centre SSSR. 60, 1972. S. 59–61: Ovsienko, S. N., [Über die windbedingte Eisdrift.] [Jeweils in russ. Spr.]Google Scholar
  40. Umschau. 1973.No. 3, S. 66: Eisbergsaison 1972: ein Rekordjahr. Mitt.: K. Strübing.Google Scholar
  41. Vop. Geogr., Mosk. 84, 1970. S. 224–232: Nazarov, V. S.: Ocean ice sheet and climatic processes directivity. —Vop. Geogr., Mosk., 84, 1970. S. 233–242: Lappo, S. D., The natura 1 regions of the Arctic bordering seas according their ice coverage. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  42. Wetterlotse. 25, 1973.No. 313/314, S. 10–14: Strübing, K., Die Eisbergsaison 1972 im Bereich der Grand Banks.—Wetterlotse. 25, 1973. No. 317. S. 65–70. Jahn, W., Eisberg-Vorkommen im November 1972 auf der Route Belle Isle-Pentland.Google Scholar

Coastal oceanography UDC 551.468

  1. Annu. offshore Technol. Couf. 3, 2, 1971. Pap. OTC1470, S. 503–524: Stamatopoulos, A. C., Kotzias, P. C., Embankment construction on yealding sea bottom.—Annu. offshore Technol. Couf. 4, 2, 1972. Pap. OTC1703, S. 777–788: Lee, T. N., Rooth, C., Exchange processes in shallow estuaries.Google Scholar
  2. Arch. Hydrobiol. Suppl. 43, 1972.No. 1, S. 1–32: Nöthlich, I., Beziehungen zwischen Trübungsverteilung und hydrographischen Faktoren im Süß- und Brackwasser des Elbe-Aestuars.Google Scholar
  3. Basic Res. Progr. Rep. Coast. Engng Lab. Techn. Univ. Denmark. 23, 1971. S. 1–10: Pedersen, F. B., An approach to stratified flow in fjords.Google Scholar
  4. Cah. ORSTOM, Océanogr. 10, 1972.No. 1, S. 75–97: Magnier, Y., Piton, B., La circulation en baie d'Ampasindava 〈Madagascar〉 et ses implications biochimiques. [In franz. Spr. m. engl. Abstr.]Google Scholar
  5. Cuadernos Oceanograficos. (Inst. Oceanogr. Cumana, Venezuela).1972. No.3, S. 3–36: Carvajal, R. J., Contribución al conocimiento de la biología de las lagunas y ríos de Campoma y Buena Vista (Venezuela), especialmente del robalo Centropomus parallelus Poey.—Cuadernos Oceanograficos. (Inst. Oceanogr. Cumana, Venezuela).1972.No. 3, S. 37–48: Caraballo, M. L. F., Estudio de los materiales de fondo de los ríos y lagunas de Campoma y Buena Vista. [Jeweils in span. Spr. m. engl. Abstr.]Google Scholar
  6. Dt. gewässerkdl. Mitt. 17, 1973.No. 1, S. 1–13: Lohrberg, W., Rohde, H., Der Einfluß des Oberwassers in Tideflüssen auf das Tidemittelwasser in ihrem Mündungsgebiet.Google Scholar
  7. Estuar. coast. mar. Sci. 1, 1973.No. 1, S. 1–10: Anderson, J. J., Devol, A. H., Deep water renewal in Saanich Inlet, an intermittently anoxic basin.Google Scholar
  8. Geochim. cosmochim. Acta. 36, 1972.No. 11, S. 1185–1203: Brown, F. S., Baedecker, M. J., Nissenbaum, A., Early diagenesis in a reducing fjord, Saanich Inlet, British Columbia. 3. Changes in organic constituents of sediment. [Auch: Contr. Inst. Geophys. planet. Phys. Univ. Calif. No. 909.]—Geochim. cosmochim. Acta. 36, 1972,No. 12, S. 1359–1375: Dewis, F. J., Levinson, A. A., Bayliss, P., Hydrogeochemistry of the surface waters of the Mackenzie River drainage basin, Canada. 4. Boronsalinity-clay mineralogy relationships in modern deltas.Google Scholar
  9. Handb. Hafenb. Umschlagtechn. 17, 1972. S. 108–110: Bruggen, J. P. van, Die Niederlande und das Meer.Google Scholar
  10. Hansa.109, 1972.No. 20, S. 1848–1850: Hovers, G., Unterhaltungsbaggerungen in Tideflüssen.Google Scholar
  11. Houille blanche.1972. No.8, S. 695–702: Bellessort, B., Migniot, C., Étude comparative des mouvements sédimentaires dans quelques estuaires.Google Scholar
  12. The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972). Vol.1, S. 18–31: Endo, M., Shinozaki, M., A study of marine environment investigation for constructions of onshore or off-shore recreation equipments.Google Scholar
  13. Jber. Forsch.-Stelle Norderney 1971, (1972). Bd.23, S. 7–32. 4 Tab. u. 8 Anl.: Walther, F., Zusammenhänge zwischen der Größe der ostfriesischen Seegaten mit ihren Wattgebieten sowie den Gezeiten und Strömungen. —Jber. Forsch.-Stelle Norderney 1971 (1972).Bd. 23, S. 61–98, 13 Tab. u. 23 Anl.: Michaelis, H., Untersuchungen über das Schöpfplankton der Wesermündung. Teil II: Quantitative Ergebnisse.Google Scholar
  14. J. geophys. Res., Vol.77, 1972.No. 33, S. 6629–6633: Sonu, C. J., Comment on paper by A. J. Bowen and D. L. Inman, “Edge wave and creascentic bars”.Google Scholar
  15. J. Mar. Biol. Assoc. India. 13, 1971.No. 1-2 S. 234–248: Rama Sarma, D. V., Ganapati, P. N., Hydrography of the Coringa River of the Gautami-Godavari estuarine system.—J. Mar. Biol. Assoc. India. 13, 1971.No. 1-2, S. 258–261: Venugopalan, V. K., The particulate matter of the Vellar estuary.—J. Mar. Biol. Assoc. India. 13, 1971.No. 1-2, S. 261–264: Ramamoorthi, K., Some aspects of mixing processes of the vellar estuary.Google Scholar
  16. J. Oceanol. Soc. Korea. 7, 1972.No. 1, S. 1–14: Choe, S., Chung, T. W., Nutrients and suspended organic particulates in the estuary of Nak-Dong River. [In korean. Spr. m. engl. Abstr.]Google Scholar
  17. J. phys. Oceanogr. 3, 1973.No. 2, S. 213–219: Gade, H. G., Deep water exchange in a sill fjord: a stochastic process.—J. phys. Oceanogr. 3, 1973.No. 2, S. 220–225: Hsueh, Y., Peng, C.-Y., A numerical study of the ateady circulation in an open bay. [Auch: Contr. Geophys. Fluid Dynam. Inst. Fla St. Univ. No. 78.]Google Scholar
  18. Limnol. & Oceanogr. 17, 1972.No. 3, S. 394–402: Folger, D. W., Meade, R. H., Jones, B. F., Sediments and waters of Somes Sound, a fjordlike estuary in No. 2718.]—Limnol. & Oceanogr. 18, 1973.No. 1, S. 131–142: Warnke, D. A., Richter, J., Oppenheimer, C. H., Characteristics of the nearshore environment off the south-coast of Anvers Island, Antarctic Peninsula.Google Scholar
  19. Look Lab Hawaii.2, 1971.No. 4, S. 4–27: Bathen, K. H., Review of the results of an oceanographic coastal environmental study conducted around Oahu, Hawaii.Google Scholar
  20. Mahasagar. 4, 1971 No. 3-4, S. 111–117: Satyanarayana Rao, T. S., Kameswara Rao, K., Wagh, A. B., Studies on hydrobiological features of the Gulf of Cambay. P. 1. Preliminary account.—Mahasagar. 5, 1972.No. 2, S. 95–99: Bhatt, V. S., Zuari and Mandovi estuaries.Google Scholar
  21. Mar. Geol., Vol.13, 1972.No. 5, S. 335–345: Navak, I. D., Swash-zone competency of gravel-size sediment.—Mar. Geol., Vol. 13, 1972.No. 5, S. 347–354: Masicka, H., Présence d'ambre comme indice d'une ancienne ligne de rivage.Google Scholar
  22. Mar. Pollution Bull. 3, 1972.No. 10, S. 152–154: Howells, G. P., Research in estuaries.Google Scholar
  23. Maritimes, Vol.16, 1972.No. 4, S. 1–2: Hale, S. O., Beach front construction is challenge to Rhode Island's new Coastal Resources Center.—Maritimes, Vol. 16. 1972.No. 4, S. 16–17: Coastal waters cover pre-glacial river valleys.Google Scholar
  24. Mitt. Franzius-Irst. H.37, 1972. S. 317–326: Schwarze, H., Modelluntersuchungen für die deutschen Tideästuarien.Google Scholar
  25. Mitt. Wasser- u. Schiffahrts-Dir. Hamburg 1972. No. 18, 12 S., 13 Anl.: Lucht, F., Gerken, B., Entwicklung der fahrwasserverhältnisse in der Außenelbe.Google Scholar
  26. Nature, phys. Sci. Vol.239, No. 96, 1972. S. 158–159: Bloxam, T. W., Aurora, S. N., Leach, L., Heavy metals in some river and bay sediments near Swansea.Google Scholar
  27. Oceanogr. mar. Biol. 10, 1972. S. 225–309: Kühl, H., Hydrography and biology of the Elbe estuary.Google Scholar
  28. Pacif. mar. Sci. Rep., Can. 72–6. 1972. 69 S. m. Abb.: Tabata, S., The movement of Fraser river-influenced surface water in the Strait of Georgia as deduced from a series of aerial photographs.—Pacif. mar. Sci. Rep., Can. 72–16. 1972. X, 94 S.: Farmer, D. M., The influence of wind on the surface waters of Alberni Inlet.Google Scholar
  29. Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol.1, 1971. S. 24–47: Bjerrum, L., Subaqueous slope failures in Norwegian fjords.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 1, 1971 S. 279–284: Wright, F. F., Fjord circulation and sedimentation, southeast Alaska.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 1, 1971. S. 829–839: Matthews, J. B., Some aspects of the hydrography of Alaskan and Norwegian fjords. [Auch: Contr. Inst. mar. Sci. Univ. Alaska No. 126.]—Proc. Int. Conf. Port Oc. Engng arct. Cond. 2, 1971. S. 1178–1185: Kanavin, E. V., Investigations relating to physical conditions of some enclosed fjords of Norway during the winter.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 2, 1971. S. 1234–1255: Magoon, O. T., Jarman, J. W., Berg, D. W., Use of satellites in coastal engineering.Google Scholar
  30. Proc. Int. Conf. Water Pollution Res. 1964. S. 279–290: Harleman, D. R. F., The significance of longitudinal dispersion in the analysis of pollution in estuaries.Google Scholar
  31. Proc. Symp. Nitrogen Fixation.2, 1970. S. 121–126: Hattori, A., Wada, E., Koike, I., Denitrification in a brackish lake. [Auch: Contr. No. 240. S. 216–221, Coll. Repr. Oc. Res. Inst. Univ. Tokyo. 9, 1970 (1972).]Google Scholar
  32. Proc. US Navy Symp. milit. Oceanogr. 7, 1970. Vol.1, S. 186–197: Pruitt, E. L., Research for coastal environmental prediction.Google Scholar
  33. Publ. Math. Res. Center Univ. Wisconsin No.28, 1972. S. 203–248: Longuet-Higgins, M. S., Recent progress in the study of longshore currents.—Publ. Math. Res. Center Univ. Wisconsin No. 28, 1972 S. 297–356: Hayes, M. O., Forms of sediment accumulation in the beach zone.Google Scholar
  34. Qualit. Unters. Elbewass. Jber. 1971. 18 S., 1 Anl. Jahresbericht der Untersuchungsstelle für die Wassergüte in der Elbe bei der Wasser- und Schiffahrts direktion Hamburg. Qualitative Untersuchungen des Elbewassers. Abflußjahr1971. Aufgest. v. F. Lucht.—Qualit. Unters. Elbewass. Jber. 1972. Jan. ff. 9 S., 3 Anl. [Dasselbe:]1972. Aufgest. v. F. Lucht.Google Scholar
  35. Rapp. P.-V. Commiss. int. Explor. Mer Médit. 21, 1972.No. 3, S. 121–123: Saad, M. A. H., Diatomaceous silica of the sediments in four brackish-water Egyptian lakes.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 21, 1972.No. 3, S. 125–127: Saad, M. A. H., Effect of pollution on the sediments of lake Mariut, Egypt.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 21, 1972.No. 3, S. 129–132: Saad, M. A. H., Ezzat, A., The bottom of lake Edku, Egypt.Google Scholar
  36. Rev. int. Océanogr. méd. 27, 1972. S. 5–15: Pinon, J., Pijck, J., Cauwenberghe, C. van, Microbiological sea water contamination along the Belgian coast. 1. Geopraphical considerations.—Rev. int. Océanogr. méd. 27, 1972. S. 17–40: Pinon, J., Pijck, J., Microbiological sea water contamination along the Belgian coast. 2. Techniques, norms, preliminary results.Google Scholar
  37. Rijkswaterstaat Commun. 1973.No. 14, 73 S.: The realization and function of the northern basin of the Delta Project. By Deltadienst of Rijkswaterstaat.Google Scholar
  38. Sovetsko-francuzkie issledovanija. Vzaimodejstvie okeana i atmosfery. Sevastopol' 1972. S. 82–91: Efimov, V. V., Khristoforov, G. N., Particularités du champ de la vitesse dans la mer en présence de la houle. [In russ. Spr. m. franz. Abstr.]Google Scholar
  39. Techn. Bull. Comm. tidal Hydraul. US Corps Engrs.No. 19, 1972. XI, 62 S., App. A-C: Krone, R. B., A field study of flocculation as a factor in estuarial shoaling processes.—Techn. Bull. Comm. tidal Hydraul. US Corps Engrs.No. 19, 1972. XI, 62 S.,App. D. 1972. 261 S. Tab.: Velocities, salinities, and suspended solids from field measurements and samples.Google Scholar
  40. Techn. Rep. Chesapeake Bay Inst. No. 80, 1973. 28 S.: Rives, S. R., A mathematical model of the tide in the Potomac River.Google Scholar
  41. Trudy. Gosudarsty. okeanogr. Inst. 115, 1972. S. 83–94: Gan, G. N., [Beurteilungsversuch der Größenänderung windbedingter Niveauanhebungen und ihrer Ausbreitungsentfernungen infolge der Abflußregelung eines Flusses (am Beispiel der Donmündung).]—Trudy. Gosudarsty. okeanogr. Inst. 115, 1972, S. 95–115: Sudakova, Ju. P., [Einfluß der hydrologischen Prozesse auf die räumliche Ausbreitung von Bodenablagerungen in den Mündungsgebieten des Kuban.] [Jeweils in russ. Spr.]Google Scholar
  42. Wasser u. boden. 24,1972.No. 11, S. 358–360: Der Delta-Plan in den Niederlanden kommt gut voran.Google Scholar
  43. Wiss. Z. E.-M.-Arndt-Univ. Greifswald, math.-nat. R. 21, 1972.No. 1, S. 95–96: Gomolka, A., Das submarine Relief und die Nutzung natürlicher Ressourcen im Greifswalder Bodden.Google Scholar

Marine geology UDC 551.35

  1. Acta geophys. polon. 20, 1972.No. 2, S. 191–196: Kostecki, A., Apparent resistivity curves of marine frequency soundings in the wave zone for finite substratum resistivities.—Acta geophys. polon. 20, 1972.No. 2, S. 197–201: Kostecki, A., Methodical and interpretational premises of marine frequency soundings. [Jeweils in poln. Spr. m. engl. Abstr.]Google Scholar
  2. Ahrens, L. H., [u.a.]: Physics and chemistry of the earth. Vol. 8. Oxford [usw.]: Pergamon Press (1971). S. 123–251: Ewing, M., Lonardi, A. G., Sediment transport and distribution in the Argentine Basin. 5. Sedimentary structure of the Argentine margin, Basin, and related provinces. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1429.]Google Scholar
  3. Annu. offshore Technol. Conf. 3, 1, 1971 Pap. OTC1328, S. 33–42: Delflache, A. P., Bryant, W. R., Cernock, P. J., Determination of compressibility of marine sediments from compressional-wave velocity measurements.—Annu. offshore Technol. Conf. 3, 1. 1971 Pap. OTC1362, S. 357–370: Mero, J. L., Ocean mining is alive and well and living at sea.—Annu. offshore Technol. Conf. 3, 1, 1971. Pap OTC1412, S. 859–874: Lecourt, E. J., Williams, D. W., Deep ocean mining — new application for oil field and marine equipment.—Annu. offshore Technol. Conf. 3, 2, 1971. Pap.OTC 1468. S. 493–502: Bryant, W. R., Delflache, A. P., Geotechnical charts of the deep water portion of the Gulf of Mexico.—Annu. offshore Technol. Conf. 3, 2, 1971. Pap. OTC1471, S. 525–532: Finn, W. D. L., Byrne, P. M., Analysis of ocean bottom sediments.—Annu. offshore Technol. Conf. 4, 1, 1972. Pap. OTC1543, S. 333–340: Perlow, M., Richards, A. F., In-place geotechnical measurements from submersible “ALVIN” in Gulf of Maine soils.—Annu. offshore Technol. Conf. 4, 1, 1972. Pap.OTC 1546, S. 341–352: Silver, M. L., Moore, C. A., Shipboard measurement of acoustic velocities in sediment cores.—Annu. offshore Technol. Conf. 4, 2, 1972. Pap. OTC1654, S. 363–368: Bryant, W. R., Trabant, P. K., Statistical relationships between geotechnical properties of Gulf of Mexico sediments.—Annu. offshore Technol. Conf. 4, 2, 1972. Pap. OTC1712, S. 827–834: Bray, R. A., Rees, F. B., Technical capabilities of offshore exploration operations to maximize safety and environmental protection.Google Scholar
  4. Bull. Amer. Assoc. Petrol. Geol. 56, 1972.No. 12, S. 2440–2450: Passega, R., Sediment sorting related to basin mobility and environment.—Bull. Amer. Assoc. Petrol. Geol. 56, 1972.No. 12, S. 2451–2455: Mantura, A. J., New global tectonics and “the New Geometry.”Google Scholar
  5. Bull. N. Z. Dep. scient. ind. Res. No. 208, 1972. 56 S.: Pantin, H. M., Internal structure in marine shelf, slope, and abyssal sediments east of New Zealand. [Auch: Mem. N. Z. oceanogr. Inst. No. 60.]Google Scholar
  6. Bull. R. Soc. N. Z. 8, 1971. S. 121–124: Eade, J. V., Oceanographic observations undertaken on board HMNZS “Endeavour”, 28 August to 8 October 1969. [Auch: Coll. Repr. N. Z. oceanogr. Inst. 1972. No. 327.]Google Scholar
  7. Can. J. Earth Sci. 8, 1971. S. 1265–1281: Srivastava, S. P., Barrett, D. L., Keen, C. E., Preliminary analysis of geophysical measurements north of Juan de Fuca Ridge. [Auch: Coll. Contr. Bedford Inst. No. 254.]Google Scholar
  8. Chem. Geol. 7, 1971. S. 37–43: Rashid, M. A., King, L. H., Chemical characteristics of fractionated humic acids associated with marine sediments. [Auch: Coll. Contr. Bedford Inst. No. 195.]—Chem. Geol. 7, 1971. S. 273–284: BuckGoogle Scholar
  9. Coop. Invest. Caribb. adjact. Regions. Vol. 3, 1972. 238 S.: Bibliography on marine geology and geophysics. Prep. by the Franklin Inst. Research Lab. under Contr. to the Nat. Oceanogr. Data Center.Google Scholar
  10. Dokl. Akad. Nauk SSSR. 206, 1972.No. 6, S. 1413–1416: Kaplin, P. A., Leontiev, O. K., Parunin, O. B., On the time of Khvalynsk transgressions of the Caspian Sea <according to radiocarbon analysis of mollusk shells>.—Dokl. Akad. Nauk SSSR. 207, 1972.No. 1, S. 183–185: Balashov, Iu. A., Dmitriev, L. V., Sharaskin, A. J., Separation of rare-earth elements in the differentiation of the upper mantle of oceans.—Dokl. Akad. Nauk SSSR. 209, 1973.No. 1, S. 205–208: Pakhomov, S. I., Kissin, I. G., On the hydrochemistry of magnesium in deep-waterbearing horizons. [Jeweils in russ. Spr.]Google Scholar
  11. Dyrssen, D. [u. a.]: The changing chemistry of the oceans. Stockholm 1972. (Nobel Symposium 20.) S. 291–305: Chester, R., Geological, geochemical and environmental implications of the marine dust veil.—Dryssen, D. [u.a.]: The changing chemistry of the oceans. Stockholm 1972. (Nobel Symposium 20.) S. 307–327: Krishnaswamy, S., Lal, D., Manganese nodules and budget of trace solubles in oceans.Google Scholar
  12. Earth planet. Sci. Letters 17, 1972.No. 1, S. 129–134: Havemann, H., Displacement of dipping slabs of lithosphere plates.—Earth planet. Sci. Letters 17, 1972.No. 1, S. 169–174: Karig, D. K., Jensky, W., The proto-Gulf of California.Google Scholar
  13. Eos, Wash., Vol.52, 1971.No. 6, S. 244–249: Drake, C. L., Marine geophysics.—Eos, Wash., Vol. 52, 1971.No. 6, S. 249–256: Berggren, W. A., Oceanographic micropaleontology.—Eos, Wash., Vol. 52, 1971.No. 6, S. 256–258: Peterson, M. N. A., Ocean sediment coring program.Google Scholar
  14. Geochim. cosmochim. Acta. 37, 1973.No. 1, S. 35–51: Mo, T., Suttle, A. D., Sackett, W. M., Uranium concentration in marine sediments.—Geochim. cosmochim. Acta. 37, 1973.No. 3, S. 559–567: Aizenshtat, Z., Perylene and its geochemical significance. [Auch: Publ. Inst. Geophys. planet. Phys. Univ. Calif. No. 1038.]—Geochim. cosmochim. Acta. 37, 1973.No. 3, S. 623–633: Powell, T. G., McKirdy, D. M., The effect of source material, rock type and diagenesis on the n-alkane content of sediments.Google Scholar
  15. Geologie. 21, 1972.No. 4-5, S. 389–404: Bankwitz, P., Bankwitz, E., Zur tektonischen Entwicklung des Nordostpazifik.Google Scholar
  16. Geol. Mijnb. 48, 1969.No. 3, S. 343–347: Hoffmann, D., The marine holocene of Sylt — discussion of the age and facies.Google Scholar
  17. Geophysica. 12, 1972.No. 1, S. 1–26: Kaitera, P., Mechanism behind sea-floor spreading.Google Scholar
  18. Hansa.110,1972.No. 7, S. 547–548: Rohstoffgewinnung aus dem Meer.Google Scholar
  19. Helgoländ. wiss. Meeresunters. 24, 1973.No. 1-4, S. 102–111: Jones, D. J., A unifying principle in the study of life on the sea floor.Google Scholar
  20. (Inform. Bull.) Assoc. europ. océan. MI No. 3, EF No. 11.1972. 4 S.: Possible economic implications of mineral production from the international sea-bed area, additional notes.Google Scholar
  21. The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972).Vol. 1, S. 335–346; Umetani, Y., Matsuishi, H., Nakai, S., Prospecting of facies of bottom sediments and its automatic processing system for facies recognition. —The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972).Vol. 2, S. 1398–1409: Hokao, Z., Development of a thermodrill for piercing holes on the sea-bed.—The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972).Vol. 2, S. 2021–2027: Matsuishi, H., Exploration and exploitation of marine iron sands in Ariake Bay, Japan.Google Scholar
  22. International Map of Natural Gas Fields in Europe. 1∶2500 000. United Nations Economic Commission for Europe, Committee on Gas. Genève u. Hannover: ECE, Committee on Gas, Bundesanst. f. Bodenforschg. 1972. Bl. 1–9.Google Scholar
  23. Internationale Quartärkarte von Europa 1∶2500 000. Bearb. von d. Bundesanst. f. Bodenforschg., in Zsarb. m. d. IN QUA-Kommission f. d. Intern. Quartärkarte von Europa. [Wiss. Red.:] K. Duphorn, H.-O. Grahle, H. Schneider. Hannover: Bundesanst. f. Bodenforschg. u. d. Unesco. 1967–1971 (1971). Bl.1, 2, 3, 5, 6, 16.Google Scholar
  24. J. geophys. Res. 77, 1972.No. 30, S. 5930–5934: Hicks, S. D., Vertical crustal movements from sea level measurements along the East coast of the United States.—J. geophys. Res. 77, 1972.No. 32, S. 6407–6412: Forristall, G. Z., Comments on active plate tectonic hypothese.—J. geophys. Res. 77, 1972.No. 32, S. 6422–6426: Bradner, H., Latham, G. V., Prograde Rayleigh-waves and microseism sources. [Auch: Contr. Lamont geol. Obs. 1821.]—J. geophys. Res. 77, 1972.No. 32, S. 6427–6434: Aggarwal, Y. P., Barazangi, M., Isacks, B., P and S traveltimes in the Tonga-Fiji region: a zone of low velocity in the uppermost mantle behind the Tonga Island arc. [Auch: Contr. Lamont geol. Obs. 1877.]—J. geophys. Res. 77, 1972.No. 36, S. 7163–7174: Carpenter, R., Johnson, H. P., Twiss, E. S., Thermomagnetic behaviour of manganese nodules. [Auch: Contr. Dep. Oceanogr. Univ. Wash. No. 671.]Google Scholar
  25. Komplexnye issledovanija prirody okeana. Moskva: Izd. Moskovskogo Universiteta 1972. Bd.3, S. 109–114: Potapova, L. I., Gurskij, Ju. N., [Lumineszente Mikroskopie von Ablagerungen des Schwarzen Meeres.] [In russ. Spr.]Google Scholar
  26. Limnol. & Oceanogr. 17, 1972.No. 6, S. 938–943: Gerchakov, S. M., Hatcher, P. G., Improved technique for analysis of carbohydrates in sediments. [Auch: Contr. Roosenstiel School mar. atmos. Sci. No. 1544.]Google Scholar
  27. Mahasagar. 5, 1972.No. 2, S. 85–87: Varadachari, V. V. R., Beach erosion and sedimentation.Google Scholar
  28. Mar. Chem. 1, 1972.No. 1, S. 27–41: Garrels, R. M., Mackenzie, F. T., A quantitative model for the sedimentary rock cycle.Google Scholar
  29. Mar. Geol. 13, 1972.No. 4, S. 239–249: Silver, E. A., Pleistocene tectonic accretion of the continental slope off Washington.—Mar. Geol. 13, 1972.No. 4, S. 251–266: Akal, T., The relationship between the physical properties of underwater sediments that affect bottom reflection.—Mar. Geol. 13, 1972.No. 4, S. 267–286: Gabin, R., Résultats d'une étude de sismique reflexion dans le canal de Corse, et de sondeur de vase dans le bassin Toscan. [In franz. Spr. m. engl. Abstr.]Google Scholar
  30. Mar. geophys. Res. 1, 1972.No. 4, S. 445–450: Rutten, K., Valeton, M., Van Grunsven, T., Measurement of the signal to noise ratio in seismic profiling.Google Scholar
  31. Mar. Technol. Soc. J. 6, 1972.no. 4, S. 47–53: Erchul, R. A., Nacci, V. A., Electrical resistivity measuring system for porosity determination of marine sediments. —Mar. Technol. Soc. J. 7, 1973.No. 1, S. 14–15: Heirtzler, J. R., Project FAMOUS planning Mid-Atlantic Ridge investigation. —Mar. Technol. Soc. J. 7, 1973.No. 1, S. 21–24: Hirst, T. J., Vertical variability of sediment shear strength.—Mar. Technol. Soc. J. 7, 1973.No. 1, S. 49–52: Hess, H. D., Environmental impact study of offshore sand and gravel mining.Google Scholar
  32. Maritimes, Vol.16, 1972.No. 4, S. 3–5: Hicks, S. D., changes in sea level on Rhode Island's coast.Google Scholar
  33. Meerestechnik. 4,1973.No. 2, S. 51–52: Entwicklung und Erprobung mariner Explorationsverfahren.—Meerestechnik. 4, 1973.No. 2, S. 53–56: axjonow, A., Marine Rohstoffsuche und-gewinnung der UdSSR.Google Scholar
  34. „Meteor”-Forsch.-Ergebn. (C) No.11, 1972. S. 1–104: Marchig, V., Zur Geochemie rezenter Sedimente des Indischen Ozeans.—„Meteor”-Forsch.-Ergebn. (C) No. 12, 1973, S. 1–8: Cepek, P., Die Art Pontosphaera indooceanica n. sp. und ihre Bedeutung für die Stratigraphie der jüngsten Sedimente des Indischen Ozeans.—„Meteor”-Forsch.-Ergebn. (C) No. 13, 1973. S. 1–63: Kudrass, H.-R., Sedimentation am Kontinentalhang vor Portugal und Marokko im Spätpleistozän und Holozän.Google Scholar
  35. Meyniana. 22, 1972. S. 1–4: Averdieck, F.-R., Palynologische Untersuchungen an Bohrkernen aus der Flensburger Außenförde <Ostsee>.Google Scholar
  36. Nature, phys. Sci. Vol.240, No. 101, 1972. S. 109–111: Sugisaki, R., Tectonic aspects of Andesite Line.—Nature, phys. Sci. Vol. 240, No. 103, 1972. S. 164–166: Thorpe, R. S., Ocean floor basalt affinity of Precambrian glaucophane schist from Anglesey.—Nature, phys. Sci. Vol. 240, No. 104, 1972. S. 176–178: Uyeda, S., Ben-Avraham, Z., Origin and development of the Philippine Sea.Google Scholar
  37. N. Z. J. Geol. Geophys. 15, 1972.No. 4, S. 558–571: McDougall, J. C., Carbonate variations in slope sediments, Kaipara, New Zealand.Google Scholar
  38. Okeanologija. 12, 1972.No. 5, S. 855–859: Speransky, N. S., Some kinematic features of the surf stream as exemplified by the western Kamchatka beaches.—Okeanologija. 12, 1972.No. 5, S. 924–926: Kutilin, V. S., Diatoms in the surface sediment layer of the Tagangrog Bay.—Okeanologija. 12, 1972.No. 6, S. 1113–1117: Devdariani, A. S., Saidova, Kh. M., Algorithmic reconstructions of the latest tectonic movements of the ocean floor (based on benthonic foraminifera). —Okeanologija. 13, 1973.No. 2, S. 280–283: Bezrukov, P. L., Geological polygons and their significance for the studies of the geological structure of the ocean bottom. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  39. Pomorski Zborni, Zadar, 8, 1970. S. 421–460: Milić, M., Peaceful uses of deep submarine areas. [in jugosl. Spr. m. engl. Abstr.]Google Scholar
  40. Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 2,1971. S. 1285–1311: Keller, G. H., Engineering properties of Greenland and Norwegian basin sediments.Google Scholar
  41. Proc. R. Soc. Edinb. (B), 72, 1971–1972 (1972), S. 193-206: Moore, J. R., Exploitation of ocean minerals resources — perspectives and predictions.—Proc. R. Soc. Edinb. (B), 72, 1971–1972 (1972), S. 219–222: Dangeard, L., Les étapes du développement de la Géologie sous-marine. Appareils et méthodes, cartes.—Proc. R. Soc. Edinb. (B), 73, 1971–1972 (1972). No. 2, S. 159–169: Rowe, G. T., The exploration of submarine canyons and their benthic faunal assemblages. [Auch: Contr. Woods Hole oceanogr. Instn No. 2864.]Google Scholar
  42. Przegl. geolog. 19, 1971.No. 5, S. 233–235: Pieczka, F., Geology and cartography of the Baltic Sea bottom. [In poln. Spr. m. engl. Abstr.]Google Scholar
  43. Quart. J. R. astron. Soc. 11, 1970.No. 4, S. 312–340: Wesson, P. S., The position against continental drift.Google Scholar
  44. Quaternary Res. 2, 1972.No. 1, S. 1–14: Walcott, R. I., Past sea levels, eustasy and deformation of the earth. [Auch: Contr. Earth Phys. Br. Dep. Energy, Ottawa. No. 389.]Google Scholar
  45. Rapp. P.-V. Commiss. int. Explor. Mer Médit. 21, 1972.No. 5, S. 267–268: Leenhardt, O., Utilisation des sondeurs de sédiments à bord des sous-marins d'exploration. [Auch: Contr. CAGG, No. 91.]Google Scholar
  46. Rep. hydrogr. Res., Tokyo No. 5, 1970. 46 S. u. 11 Kt.: Kawakami, K., Geomorphological and geophysical studies on the bottom of the eastern part of the Sea of Japan.—Rep. hydrogr. Res., Tokyo No. 8, 1973. S. 1–49 u. 3 Kt.: Sato, T., Sakurai, M., Taguchi, H., Submarine geology of the continental borderland west of Hokkaido. [Jeweils in japan. Spr. m. engl. Abstr.]Google Scholar
  47. Researches in hydrography and oceanography. Ed.: D. Shoji. Tokyo: Hydrographic Department 1972. S. 37–56: Sato, T., Submarine geology of the continental borderland west of Hokkaido.Google Scholar
  48. Rev. Geophys. Space Phys. 10, 1972.No. 4, S. 849–884: Walcott, R. I., Late quaternary vertical movements in eastern North America: quantitative evidence of glacio-isostatic rebound. [Auch: Contr. Earth Phys. Br. Dep. Energy, Ottawa, No. 406.]Google Scholar
  49. SACLANTCEN Conf. Proc. 1972.No. 7, S. 177–192. 16 Abb.: Akal, T., The general geophysics and geology of the Strait of Sicily.Google Scholar
  50. Sedimentology. 16, 1971. S. 97–110: Lewis, K. B., Slumping on a continental slope inclined at 1°–4°. [Auch: Coll. Repr. N. Z. oceanogr. Inst. 1972. No. 325.]Google Scholar
  51. Soil Sci., USA. 111, 1971.No. 5, S. 298–306: Rashid, M. A., Role of humic acids of marine origin and their different molecular weight fractions in complexing de- and tri-valent metals [Auch: Coll. Contr. Bedford Inst. No. 227.]Google Scholar
  52. Spec. Publ. Soc. econ. Paleont. Miner., No. 17, 1972. 218 S.: Lisitzin, A. P., Sedimentation in the world ocean.Google Scholar
  53. Sperry Technol. 1, 1972.No. 1, S. 18–22: Jenkins, F. R., Mathews, D. S., Computerized oil prospecting.Google Scholar
  54. Tectonophysics. 11, 1971. S. 261–285: Ranalli, G., The expansion-undation hypothesis for geotectonic evolution. [Auch: Coll. Contr. Bedford Inst. No. 233.]Google Scholar
  55. Tellus. 24, 1972.No. 6, S. 586–592: Mörner, N.-A., Isostasy, eustasy and crustal sensitivity.Google Scholar
  56. Téthys. 4, 1972.No. 1, S. 243–250: Bellaiche, G., Chamley, H., Rotschy, F., Quelques particularités de la sédimentation marine quaternaire au sud de l'île du Levant <Var>. [In franz. Spr. m. engl. Abstr.]Google Scholar
  57. Thiemig-Taschenb., 45, 1973. S. 16–75: Hering, N., Aufsuchen und Erkunden von Erzvorkommen im Meer.Google Scholar
  58. Umschau. 72, 1972.No. 21, S. 677–680: Petrascheck, W. E., Kontinentalverschiebung: Zerteilung und Neuschaffung von Erzprovinzen.—Umschau. 73, 1973.No. 8, S. 245–246: Burek, P. J., Die Nahtzone zwischen Arabien und Afrika.Google Scholar
  59. Wiss. Z. E.-M.-Arndt-Univ. Greifswald, math.-nat. R. 21, 1972.No. 2, S. 159–169: Ludwig, A. O., Der präquartäre Untergrund der Ostsee. Nachtrag und Ergänzungen zu Teil 1: Nördliche und Mittlere Ostsee.Google Scholar

Shelf geology UDC 551.351

  1. Ann. Inst. océanogr., Paris. 48, 1971–1972 (1972).No. 2, S. 157–172: Auffret, G. A., Berthois, L., Cabioch, L., Aperçu sur les structures sédimentologiques á grande et petite échelle et les processus sédimentaires actuels au Sud de la Manche Occidentale.Google Scholar
  2. Annu. offshore Technol. Conf. 3, 1, 1971. Pap. OTC1357, S. 309–318: Small, S. W., Tamburello, R. D., Piaseckyj, P. J., Submarine pipeline support by marine sediments.—Annu. offshore Technol. Conf. 4, 1, 1972. Pap.OTC 1514, S. 21–34: Bouma, A. H., Sweet, W. E., Dunlap, W. A., Comparison of geological and engineering parameters of marine sediments.—Annu. offshore Technol. Conf. 4, 2, 1972. Pap. OTC1631, S. 169–174: McFarlane, J. R., Trice, A. B., Core sampling in the Hudson Bay.—Anhu. offshore Technol. Conf., 4, 2, 1972. Pap,OTC 1648, S. 307–322: Moore, J. R., Meyer, R. P., Wold, R. J., Underwater copper exploration in Lake Superior — prospects mapped in 1971.—Annu. offshore Technol. Conf. 4, 2, 1972. Pap. OTC1650, S. 333–342: Gershowitz, R., Liao, J., Harris, F. R., Engineering properties of marine sediments — Gulf of Paria, Trinidad, W. I.—Annu. offshore Technol. Conf. 4, 2, 1972. Pap.OTC 1655, S. 369–376: Singh, H., Fischer, J. A., The shear strength of soft marine sediments.—Annu. offshore Technol. Conf. 4, 2, 1972. Pap.OTC 1658, S. 393–398: Manderson, M. C., Little, A. D., Commercial development of offshore marine phosphates.—Annu. offshore Technol. Conf. 4, 2, 1972. Pap.OTC 1659, S. 399–404: Bowen, R. L., Continental shelf phosphates — one answer to future needs.Google Scholar
  3. Antarct. Rec. No.43, 1972. S. 20–24: Omoto, K., A preliminary report on modern carbon datings at Syowa Station and its neighbourhood, East Antarctica.Google Scholar
  4. Bull. Amer. Assoc. Petrol. Geol. 56, 1972.No. 8, S. 1402–1418: Palacas, J. G., Love, A. H., Gerrild, P. M., Hydrocarbons in estuarine sediments of Choctawhatchee Bay, Florida, and their implications for genesis of petroleum.—Bull. Amer. Assoc. Petrol. Geol. 56, 1972.No. 10, S. 2000–2212: Sharma, G. D., Naidu, A. S., Hood, D. W., Bristol Bay: model contemporary graded shelf. [Auch: Contr. Inst. mar. Sci. Univ. Alaska. No. 131.]—Bull. Amer. Assoc. Petrol. Geol. 56, 1972.No. 12, S. 2392–2414: Macquown, W. C., Bloxam, T. W., Depositional history of Carboniferous (middle Viséan) Limestones from Bristol and parts of South Wales.Google Scholar
  5. Bull. Geol. Soc. Amer. 83, 1972. S. 87–94: Upchurch, S. B., Discriminant analysis of Bermuda carbonate strand-line sediment. [Auch: Contr. Bermuda biol. Stat. No. 499.]Google Scholar
  6. Bull. Inst. Géol. Bassin Aquitaine 1972. No.12, S. 123–140: Berthois, L., Latouche, C., Parra, M., Contribution à la connaissance des caractéristiques minéralogiques et géochimiques des sédiments du Kangerdlugssuaq (côte Ouest du Groenland). [Auch: Publ. Inst. Géol. Bassin Aquitaine No. 374.]Google Scholar
  7. Bull. R. Soc. N. Z. 9, 1971. S. 225–231: Lewis, K. B., Growth rate of folds using tilted wave-planed surfaces: coast and continental shelf, Hawke's Bay, New Zealand. [Auch: Coll. Repr. N. Z. oceanogr. Inst. 1972. No. 335.]Google Scholar
  8. Clinica term. 1970. S. 1–9: Polli, S., Caratteri fisici della sabbia dei litorali di Iesolo, Lignano e Grado. [Auch: Pubbl. Ist. sperim. talassogr. No. 467.]Google Scholar
  9. C. R. Acad. Sci., Paris. Sér. D 274, 1972. S. 2273–2275: Caillère, S., Martin, L., Minéralogie. Étude minéralogique d'ovoïdes minéralisés des sédiments du plateau continental de Côte-d'Ivoire.Google Scholar
  10. Dokl. Akad. Nauk SSSR. 208, 1973.No. 4, S. 948–950: Kalinenko, V. V., Some features of the distribution of chemical elements in sediments of the White Sea. —Dokl. Akad. Nauk SSSR. 209, 1973.No. 2, S. 462–465: Goldberg, I. S., Hard bitumens in oil deposits of the Baltic Sea region as an index of oil migration stages.—Dokl. Akad. Nauk SSSR. 209, 1973.No. 3, S. 659–661: Krasnov, E. V., Savitskii, V. O., Upper-Jurassic coral reefs of Sakhalin and the hypothesis of drift of the Japan Islands.—Dokl. Akad. Nauk SSSR. 209, 1973.No. 3, S. 691–694: Kaplan, M. E., Iudovnyi, E. G., Zakharov, V. A., Conditions of the accumulation of sea deposits of the intermediate (Jurassic-Cretaceous) type (the Pakhsa Peninsula, Anabar Bay).—Dokl. Akad. Nauk SSSR. 209, 1973.No. 3, S. 695–698: Cherniakhovskii, A. G., Dynamics of the formation process of crust of weathering of Holocene sediments in sea-side Adjaria. [Jeweils in russ. Spr.]Google Scholar
  11. Earth planet. Sci. Letters. 16, 1972.No. 2, S. 171–177: Hallam, A., Relation of Palaeogene ridge and basin structures and vulcanicity in the Hebrides and Irish Sea regions of the British Isles to the opening of the North Atlantic.Google Scholar
  12. Geochim. cosmochim. Acta. 37, 1973.No. 1, S. 77–85: Spears, D. A., Relationship between exchangeable cations and paleosalinity.—Geochim. cosmochim. Acta. 37, 1973.No. 2, S. 259–268: Farrington, J. W., Quinn, J. G., Biogeochemistry of fatty acids in Recent sediments from Narragansett Bay, Rhode Island.—Geochim. cosmochim. Acta. 37, 1973.No. 5, S. 1171–1187: Koide, M., Bruland, K. W., Goldberg, E. D., Th-228/Th-232 and Pb-210 geochronologies in marine and lake sediments.—Geochim. cosmochim. Acta. 37, 1973.No. 5, S. 1229–1247: Bender, M. L., Heliumuranium dating of corals. [Auch: Contr. Lamount-Doherty geolog. Obs. No. 1910.]Google Scholar
  13. Geol. Karte Niedersachsen 1∶25 000, 1969. No. 2117, 1 Kte [nebst 1 H.] Erläuterungen, 63 S., Abb. u. Tab.: Altenwalde. Geol. Aufnahme: K.H.-Sindowski, H. H. Schmitz, V. Stein.—Geol. Karte Niedersachsen 1∶25 000, 1969. No. 2118, 1 Kte [nebst 1 H.] Erläuterungen, 52 S., Abb. u. Tab.: Cuxhaven. Geol. Aufnahme: K.-H. Sindowski, R. Jordan, D. Stoppel.—Geol. Karte Niedersachsen 1∶25 000, 1970, No. 2210, 1 Kte [nebst 1 H.] Erläuterungen, 44 S., Abb. u. Tab.: Baltrum. Geol. Aufnahme: J. Barckhausen.—Geol. Karte Niedersachsen 1∶25 000, 1970, No. 2211, 1 Kte,Google Scholar
  14. Geophys. J. R. astr. Soc. 30, 1972.No. 1 S. 101–105: Bamford, S. A. D., Evidence for a low-velocity zone in the crust beneath the western British Isles.Google Scholar
  15. Helgoländ. wiss. Meeresunters. 24, 1973.No. 1-4, S. 91–101: Clifton, H. E., Role of reef fauna in sediment transport and distribution.Google Scholar
  16. Hoffmann, D., Bericht über die Bohrungen vor der Westküste der Insel Sylt im Sommer 1969. Kiel 1970. 11 S. Manuscript.Google Scholar
  17. The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972).Vol. 1, S. 363–369: Buachidze, J. M., Role of geological structure in formation of engineering geological conditions of the Black Sea shelf zone.—The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972).Vol. 1, S. 372–394: Vigneaux, M., Caralp, M., Klingebiel, A., Sur l'origine des sediments fins superficiels du plateau continental atlantique au large de la Gironde (France).—The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972).Vol. 2, S. 1850–1877: Pallister, A. E., International cooperative offshore exploration by government, university and industry: Baffin Bay-Canada, Greenland.—The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kailkan, Tokyo. (Tokyo 1972).Vol. 2, S. 1904–1912: Lemaignan, M., Petroleum exploration in the North Sea.Google Scholar
  18. J. Geol., Chicago 79, 1971.No. 6, S. 669–682: Bosselini, A., Ginsburg, R. N., Form and internal structure of recent algal nodules (rhodolites) from Bermuda. [Auch: Contr. Bermuda biol. Stat. No. 517.]Google Scholar
  19. J. Mar. Assoc. India. 13, 1971.No. 1-2, S. 14–26: Gopinathan, C. K., Qasim, S. Z., Silting in navigational channels of the Cochin Harbour area.Google Scholar
  20. J. sediment. Petrol. 41, 1971.No. 3, S. 809–827: Marlowe, J. I., Dolomite, phosphorite, and carbonate diagnesis on a Carribean seamount. [Auch: Coll. Contr. Bedford Inst. No. 248.]Google Scholar
  21. Komplexnye issledovanija prirody okeana. Moskva: Izd. Moskovskogo Universiteta 1972.Bd. 3, S. 48–64: Kuprin, P. N., Ščerbakov, F. A., Šatov, A. S.,Vorgänge der Ablagerungsansammlung auf der kontinentalen Terrasse des Schwarzen und des Kaspischen Meeres.—Komplexnye issledovanija prirody okeana. Moskva: Izd. Moskovskogo Universiteta 1972.Bd. 3, S. 65–84: Ščerbakov, F. A., Nevesskij, E. N., Glagoleva, Z. A., Lithologie der küstennahen Meeressände im südwestlichen und südlichen Küstengebiet der Kolahalbinsel.—Komplexnye issledovanija prirody okeana. Moskva: Izd. Moskovskogo Universiteta 1972.Bd. 3, S. 104–108: Kalinin, V. V., Koval'sklaja, I. Ja., Kuprin, P. N., Neue Daten über die übermaikopischen Ablagerungen im Hebungsgebiet von Golicyno (nordwestlicher Teil des Schwarzen Meeres).—Komplexnye issledovanija prirody okeana. Moskva: Izd Moskovskogo Universiteta 1972.Bd. 3, S. 115–128: Ščerbakov, F. A., Ševčenko, A. Ja., Besonderheiten der Zusammensetzung des tonigen Teils der gegenwärtigen küstennahen Meeres-Ablagerungen.—Komplexnye issledovanija prirody okeana. Moskva: Izd. Moskovskogo Universiteta 1971.Bd. 3, S. 129–144: Kuprin, P. N., Potapova, L. I., Ščerbakov, F. A., Veränderung des organischen Stoffes in den Ablagerungen änderung des organischen Stoffes in den Ablagerungen der kontinentalen Terrasse des Schwarzen Meeres.—Komplexnye issledovanija prirody okeana. Moskva: Izd. Moskovskogo Universiteta 1972.Bd. 3, S. 145–150: Maev, E. G., Porotov, A. V., Über einige Besonderheiten der Ablagerungsansammlung auf dem äußeren Schelfrand.—Komplexnye issledovanija prirody okeana. Moskva: Izd. Moskovskogo Universiteta 1972.Bd. 3, S. 156–171: Ivanova, N. V., Erhaltungszustand und Muschelansammlung von zweiflügeligen Mollusken im Flachwasser gegenwärtiger Wasserbecken. [Jeweils in russ. Spr.]Google Scholar
  22. Küste. 1972. No.23, S. 150–188: Samu, G., Morphologischen und granulometrische Untersuchungen im Seegebiet von Borkum.Google Scholar
  23. Lagena. 1970. No.25, 26 S. 13–15: Ratti H. G., Técnica para Limpieza y Montaje de Diatomeas [In span. Spr.]—Lagena. 1970. No. 25, 26, S. 23–25: Caraballo-Muziotti, L. F., Los materials sedimentarios. Generalidades. Su estudio.Google Scholar
  24. Limnol. & Oceanogr. 17, 1972,No. 6, S. 855–867: Kemp, A. L. W., Mudrochova, A., Distribution and forms of nitrogen in a Lake Ontario sediment core.Google Scholar
  25. Mahasagar.4, 1971.No. 2, S. 65–70: Nair, R. R., Favourable environments for mineral exploration on the western continental shelf of India.Google Scholar
  26. Mar. Geol. 13, 1972.No. 3, S. M37-M41: Baturin, G. N., Merkulova, K. I., Chalov, P. I., Radiometric evidence for recent formation of, phosphatic nodules in marine shelf sediments.—Mar. Geol. 13, 1972,No. 3, S. 145–157: Kemp, E. M., Reworked palynomorphs from the West Ice Shelf area, East Antarctica, and their possible geological and palaeoclimatological significance.—Mar. Geol. 13, 1972.No. 5, S. M61–M66: Adegoke, O. S., Stanley, D. J., Mica and shell as indicators of energy level and depositional regime on the Nigerian Shelf.—Mar. Geol. 13, 1972.No. 5, S. M67–M73: Lees, A., Buller, A. T., Modern temperate-water and warm-water shelf carbonate sediments contrasted.Google Scholar
  27. Mar. Sci. Pap. Mar. Sci. Br. Dep. Environm., Ottawa, No. 2, 1972. 6 S., 1 Kt.: Drapeau, G., King, L. H., Surficial geology of the Yarmouth-Browns Bank maparea. [Auch: Pap. Geol. Surv. Can. No. 72-24. 1972.]Google Scholar
  28. Mar. Technol. Soc. J. 7, 1973.No. 1, S. 25–28: Mikolaj, P. G., Ampaya, J. P., Tidal effects on the activity of natural submarine oil seeps.Google Scholar
  29. Marit. Sediments 6, (1970).No. 1, S. 21–25: Gees, R. A., Medioli, F., A continous seismic survey of the Bermuda platform, part I: Castle Harbour. [Auch: Contr. Bermuda biol. Stat. No. 507.]Google Scholar
  30. Mem. Mus. civico Stor. natur. Verona. 18, 1970. S. 203–234: Stolfa, D., Bregant, D., Ricerche geochimiche sui sedimenti dell' Adriatico. [Auch: Pubbl. Ist. sperim. talassogr. No. 468.]Google Scholar
  31. „Meteor” Forsch.-Ergebn. (C). No.10, 1972. S. 39–62: Einsele, G., Werner, F., Sedimentary processes at the entrance Gulf of Aden/Red Sea.Google Scholar
  32. Morskoj Sbornik. 1972 No.10, S. 92–97: Ionin, A., Medvedev, V., Pavlidis, Ju., [Koralleninseln und Riffe.] [In russ. Spr.]Google Scholar
  33. Nature, Lond. Vol.240, No. 5377, 1972. S. 145–146: Thomson, J., Walton, A., Redetermination of chronology of Aldabra Atoll by280Th/234U dating.Google Scholar
  34. Nature, phys. Sci. Vol.240, No. 99, 1972. S. 59–61: Kruit, C., Brouwer, J., Ealey, P., A deep-water sand fan in the Eocene Bay of Biscay.—Nature, phys. Sci. Vol. 240, No. 99, 1972. S. 61–62: Kazi, A., Clay mineralogy of the North Sea drift.Google Scholar
  35. Neues Jb. Geol. Paläont. Mh. 1972. No.1, S. 16–33: Schroeder, J. H., Calcified filaments of an endolithic alga in Recent Bermuda reefs [Auch: Contr. Bermuda biol. Stat. No. 526.]Google Scholar
  36. N. Z. J. Geol. Geophys., 15, 1972.No. 4, S. 572–589: Norris, R. M., Shell and gravel layers, western continental shelf, New Zealand.—N. Z. J. Geol. Geophys. 15, 1972.No. 4, S. 649–659: Browne, the east coast, North Island. New Zeanland.Google Scholar
  37. Oceans, S. Diego. 5, 1972.No. 5, S. 49–57: DiSalvo, L. H., Coralline city.Google Scholar
  38. Offshore Technol. 4, 1972.No. 4, S. 14–16: Pennell, M. M., North Sea oil — the global contect. 2.Google Scholar
  39. Okeanologija. 12, 1972.No. 5, S. 842–854: Pavlidis, Yu. A., Ionin, A. S., Ignatov, E. I., The conditions of colite sedimentation in the shallow water of a tropical sea <Cuba Island, Batabano Bay>.—Okeanologija. 13, 1973.No. 2, S. 297–302: Novikova, Z. T., the distinguishing features and dynamics of formation of the terrigenous-mineralogical provinces of the northwestern Black Sea.—Okeanologija. 13, 1973. S. 366–370: Lantsman, D. M., Avsyuk, A. I., Grinev, G. I., A new complex of methods and technical means for marine geological engineering. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  40. Pap. Geol. Surv. Can. No.66-2, 1965–1966. (1966). S. 20–24: Overton, A., Seismic refraction surveys, western Queen Elizabeth Islands and Polar Continental margin.Google Scholar
  41. Prepr. Annu. Conf. Mar. Technol. Soc. 8, 1972. S. 227–236: Williams, S. J., Duane, D. B., Regional shelf studies, a guide to engineering design. [Auch: Repr. US Army coast. Engn. Res. Conter, 1972 No. 3-72]Google Scholar
  42. Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Voo.1, 1971. S. 246–254: Nelson, C. H., Northern Bering Sea, a model for depositional history arctic shelf placers; ecological impact of placer development.—Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol. 1, 1971. S. 271–278: Sharma, G. D., Arctic sedimentation induced by storm. [Auch: Contr. Inst. mar. Sci. Univ. Alaska No. 132.]—Proc., Int. Conf. Prort Oc. Engng arct. Cond. 1, Vol. 2, 1971. S. 1160–1177: Herron, R. F., Vold, R. C., Raae, K., The application of acoustic subbottom profiling to engineering problems.Google Scholar
  43. Proc. R. Soc. Edinb. (B), 72, 1971–1972 (1972), S. 155–162: Chesterman, W. D., Sea-floor sediment mapping by sonar methods.Google Scholar
  44. Quart. J. R. astron. Soc. 8, 1967.No. 1, S. 57–65: Gaskell, T. F., North Sea gas.Google Scholar
  45. Rapp. P.-V. Commiss. Int. Explor. Mer Médit. 20, 1972.No. 4, S. 601–603: Chassefierè, B., Sur les résultats de quelques granulométries de sables de la région du cap d'Agde <Hérault>.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 605–608: Stefanon, A., Beach rock and paleogeography in the North Adriatic Sea.—Rapp. P.-V. Commiss. int. Explor. Mer. Médit. 20, 1972,No. 4, S. 713–715: Nir, Y., Thommeret, Y., Esasis de détermination des vitesses de sédimentation en Méditerranée orientale au moyen des mesures de Carbone 14.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 739–741: Serbanescu, O., Iorgulescu, A., La radio-activité γ des sédiments de la plateforme continentale de la mer Noire <littoral roumain>.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 21, 1972.No. 5, S. 269–272: Pazienza, F., Prospettive per la conquista del fondo sottomarino fino al limite della piattaforma continentale.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 21, 1972.No. 5 S. 273–275: Stefanon, A., Notes on submarine springs.—Rapp. P.-V Commiss. int. Explor. Mer Médit. 21, 1972.No. 6, S. 281–285: Got. H., La radioactivité des sédiments au large de l'embouchure du Grand RhôneGoogle Scholar
  46. Riv. ital. Geofis. 21, 1972.No. 3-4, S. 139–163: Bossolasco, M. Dagnino, I., Palau, C., Variazioni delle spiagge e sedimentazione di materiali ferromagnetici: 3. [Auch: Pubbl. Ist. geofis. geod. Univ. Genova. No. 258.]Google Scholar
  47. Skr. Norsk Polarinst. No. 157, 1972. 77 S.: Friend, P. F., Moody-Stuart, M., Sedimentation of the Wood Bay Formation (Devonian) of Spitsbergen: regional analysis of a late orogenic basin.Google Scholar
  48. Techn. Mem. US Army coast. Engn Res. Center, No. 38, 1972. 61 S.: Meisburger, E. P., Geomorphology and sediments of the Chesapeake Bay Entrance.Google Scholar
  49. Téthys 4, 1972.No. 3, S. 559–582: Colocoloff, C., Recherche sur la production primaire d'un fond sableux. 1—Écologie qualitative des diatomées.Google Scholar
  50. Tidal Power. Proc. of an Internat. Conf. on the Utilization of Tidal Power. [Ed. by] T. J. Gray, O. K. Gashus. Halifax: Nova Scotia, 1970. S. 153–187: Pelletier, B. R., McMullen, R. M., Sedimentation patterns in the Bay of Fundy, and Minas Basin. [Auch: Coll. Contr. Bedford Inst. No. 220.]Google Scholar
  51. Vie et Milieu, Paris (B).21, 1970 No. 3-B, S. 517–526: Duboul-Razavet, C., Got, H., Monaco, A., Carte sédimentologique sous-marine de Perpignan au 1/100.000.—Vie et Milieu, Paris (B). 22, 1971.No. 1, S. 39–60: Cahet, G., Relations carbone-soufre dans les sédiments marins de la région de Banyuls-sur-Mer (Pyrénées-Orientales).—Vie et Milieu Paris (B). 22, 1971.No. 2, S. 239–246: Pauc, H., Sur les courants de sortie des eaux du Rhône. Conséquences sédimentologiques.—Vie et Milieu, Paris (B). 22, 1971. S. 351–424: Soyer, J., Bionomie benthique du plateau continental de la côte Catalane Française. V.-Densités et biomasses du méiobenthos.Google Scholar

Deep-sea geology UDC 551.352

  1. Ahrens, H. L. u.a.: Physics and Chemistry of the Earth. Vol. 8. Oxford [usw.]: Pergamon Press (1971). S. 49–77: Ewing, M., Eittreim, S. L., Ewing, J. I., Sediment transport and distribution in the Argentine Basin. 3. Nepheloid layer and processes of sedimentation. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1427.]—Ahrens, H. L. u.a.: Physics and Chemistry of the Earth. Vol. 8. Oxford [usw.]: Pergamon Press (1971). S. 253–263: Lonardi, A. G., Ewing, M., Sediment transport and distribution in the Argentine Basin. 6. Exploration and study of the Argentine Basin. [Auch: Contr. Lamont. Doherty geol. Obs. No. 1430.]Google Scholar
  2. Ambio spec. Rep. 1972.No. 2, S. 13–17: Olausson, E., Norwegian Sea in an ice age model.Google Scholar
  3. Annu.-offshore Technol. Conf. 3, 1, 1971. Pap.OTC 1350 S. 243–252: Gealy, E. L., A new look at marine sediments in the light of deep ocean drilling.—Annu-offshore Technol. Conf. 3, 1, 1971. OTC1364, S. 389–396: Schatz, C. E., Observations of sampling and occurence of manganese nodules.—Annu.-offshore Technol., Conf. 3, 1, 1971.OTC 1410, S. 837–858: Masuda, Y., Cruickshank, M. J., Mero, J. L., Continuous bucket-line dredging at 12,000 feet.—Annu.-offshore Technol. Conf. 3, 1, 1971.OTC 1541, S. 309–332: Kaufman, R., Siapno, W. D., Future needs of deep ocean mineral exploration, and surveying.Google Scholar
  4. Bull. Amer. Assoc. Petrol. Geol. 56, 1972.No. 8, S. 1552–1556: Mantura, A. J., Geophysical illusions of continental drift.—Bull. Amer. Assoc. Petrol. Geol. 56, 1972.No. 11, S. 2212–2239: Davies, D. K., Deep sea sediments and their sedimentation, Gulf of Mexico.—Bull. Amer. Assoc. Petrol. Geol. 56, 1972.No. 11 S. 2260–2267: Mascle, G., Mascle, J., Aspects of some evaporitic structures in western Mediterranean Sea.Google Scholar
  5. Can. J. Earth Sci. 8, 1971. S. 1056–1064: Keen, C. E., Barrett, D. L., A measurement of seismic anisotropy in the northeast Pacific. [Auch: Coll. Contr. Bedford Inst. No. 252.]Google Scholar
  6. Contr. Sedimentol. Res. Lab. Fla St. Univ. No. 35. 1972. XI, 222 S. m. Abb. u. Tab.: Anderson, J. B., The marine geology of the Weddell Sea. [Diss., Fla State Univ., Aug. 1972.]Google Scholar
  7. Data Ser. Bedford Inst. Oceanogr. BI-D-72-16, 1972. 9 S. Text, 225 S. Tab.: Shih, K. G., Geological interpretation of underwater photographs obtained on the Mid-Atlantic Ridge. C. S. S. “Hudson” 66–019. Unpublished manuscript.—Data Ser. Bedford Inst. Oceanogr. BI-D-73-1, 1973. 179 S.: Shih, K. G., Manchester, K. S., Geological interpretation of underwater photographs obtained on the Mid.-Atlantic Ridge. C. S. S. “Hudson” 68–022. Unpublished manuscript.Google Scholar
  8. Dokl. Akad. Nauk SSSR. 207, 1972.No. 2, S. 415–417: Krasilov, V. A., Migration of structural zones of the Pacific Ocean belt in Cretaceous time.—Dokl. Akad. Nauk SSSR. 207, 1972.No. 2, S. 430–432: Gorbunova, Z. N., Palygorskites in sediments from core samples of deep-water drilling in the Pacific Ocean.—Dokl. Akad. Nauk SSSR. 207, 1972,No. 4, S. 954–957: Baturin, G. N., Bliskovskii, V. Z., Mineev, D. A., Rare earth elements in phosphorites from the ocean bottom.—Dokl. Akad. Nauk SSSR. 208, 1973.No. 5, S. 1205–1208: Murdmaa, I. O., Rudnik, G. B., Skorniakova, N. S., New morphological type of the deepsea basaltic lava eruptions.—Dokl. Akad. Nauk SSSR. 208, 1973,No. 6, S. 1338–1341: Sorokhtin, O. G., The dependence of midocean ridges on the rate of lithosphere plate divergence.—Dokl. Akad. Nauk SSSR. 209, 1973.No. 3, S. 699–702: Emelianov, E. M., Shurko, I. I., Ferrum in deposits of the Atlantic Ocean. [Jeweils in russ. Spr.]Google Scholar
  9. Earth planet. Sci. Letters. 16, 1972.No. 2, S. 200–208: Kobayashi, K., Nomura, M., Iron sulfides in the sediment cores from the Sea of Japan and their geophysical implications.—Earth planet. Sci. Letters. 16, 1972.No. 3, S. 331–345: Ninkovich, D., Hays, J. D., Mediterranean island arcs and origin of high potash volcanoes. [Auch: Contr. Lamont-Doherty geol. Obs. 1808.]—Earth planet. Sci. Letters. 17, 1973.No. 2, S. 397–407: Scheidegger, K. F., Volcanic ash layers in deep-sea sediments and their petrological significance.—Earth planet. Sci. Letters. 17, 1973.No. 2, S. 426–432 Truchan, M., Larson, R. L., Tectonic lineaments on the Cocos plate. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1863.]Google Scholar
  10. Geochim. cosmochim. Acta. 37, 1973.No. 2, S. 225–238: Newman, J. W., Parker, P. L., Bchrens, E. W., Organic carbon isotope ratios in Quaternary cores from the Gulf of Mexico.Google Scholar
  11. Gerlands Beitr. Geophys. 81, 1972.No. 1/2, S. 83–86: Hédervári, P., Ocean-floor spreading and the andesite line.Google Scholar
  12. Historie structurale du golfe de Gascogne; Symposium 1970. Proceedings. Paris: Technip 1971. Vol. 2, S. VI. 6–1—Historie structurale du golfe de Gascogne; Symposium 1970. Proceedings. Paris: Technip 1971. Vol. 2, S. VI. 6–12: Muraour, P., Frappa, M., Malzac, J., Quelques données structurales sur la zone ouest du golfe de Gascogne. [Auch: Publ. Inst. franç. Pétrole Collec. Colloq. Sémin. No. 22, S. VI. 6–1—Histoire, structurale du golfe de Gascogne; Symposium 1970. Proceedings. Paris: Technip 1971. Vol. 2, S. VI. 6–12.]Google Scholar
  13. The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo (Tokyo. 1972). Vol.1, S. 395–410: Kim, B. K., Han, J. H., Foraminifera in the bottom sediments off the southeastern coast of Korea.Google Scholar
  14. J. geophys. Res. 77, 1972.No. 21, S. 3907–3915: Clayton, R. N., Rex, R. W., Syers, J. K., Oxygen isotope abundance in quartz from Pacific pelagic sediments.—J. geophys. Res. 77, 1972.No. 35, S. 7073–7088: Spindel, R. C., Heirtzler, J. R., Long-Range echo ranging. [Auch: Contr. Woods Hole oceanogr. Instn. 2841.]Google Scholar
  15. J. Mar. Biol. Assoc. India. 13, 1971.No. 1-2, S. 86–105: Bandy, O. L., Lindenberg, H. G., Vincent, E. History of research, Indian Ocean foraminifera.Google Scholar
  16. J. Oceanogr. Soc. Japan. 28, 1972.No. 2, S. 39–47: Okada, A., Minakuchi, T., Shima, M., Study on the manganese nodule V. Thermal studies of the ironmanganese phase. [In japan. Spr. m. engl. Abstr.]Google Scholar
  17. Mar. Chem. 1, 1973.No. 2, S. 105–125: Glasby, G. P., Mechanisms of enrichment of the raper elements in marine manganese nodules.Google Scholar
  18. Mar. Geol. 13, 1972.No. 3, S. 159–224: Bartolini, C., Gehin, C., Stanley, D. J., Morphology and recent sediments of the western Alboran Basin in the Mediterranean Sea.—Mar. Geol. 13, 1972.No. 5, S. 297–310: Beltagy, A. I., Chester, R., Padgham, R. C., The particle-size distribution of quartz in some North Atlantic deep-sea sediments.Google Scholar
  19. Mar. geophys. Res. 1, 1972.No. 4, S. 362–380: McCann, D. M., Dewes, F. C. D., Acoustic reflectors in the surface layers of deep sea sediments.—Mar. geophys. Res. 1, 1972.No. 4, S. 412–417: Kaneoka, I., Evidence of subsidence of seamounts in the north-western Pacific.—Mar. geophys. Res. 1, 1972.No. 4 S. 419–427: Goslin, J., Beuzart, P., Francheteau, J., Thickening of the oceanic layer in the Pacific Ocean. [Auch: Contr. Centre océanol. Bretagne No. 93.]Google Scholar
  20. Mar. Technol. Soc. J. 6, 1972.No. 4, S. 25–33: Huang, T.-C., Stanley, D. J., Stuckenrath, R., Sedimentological evidence for current reversal at the Strait of Gibraltar.—Mar. Technol. Soc. J. 6, 1972.No. 4, S. 34–39: Finkelman, R. B., Relationship between manganese nodules and cosmic spherules. —Mar. Technol. Soc. J. 6, 1972.No. 4. S. 40–45: Amos, A. F., Garside, C., Haines, K. C., Effects of surface-discharged deep sea mining effluent.Google Scholar
  21. Marit. Sediments. 6, 1970.No. 3, S. 121–134: Schafer, C. T., Studies of benthonic foraminifera in the Restigouche Estuary: 1. Faunal distribution patterns near pollution sources. [Auch: Coll. Contr. Bedford Inst. No. 239.]Google Scholar
  22. Maritimes. 17, 1973.No. 1, S. 14–15: Fanning, K. A., Studying the chemicals trapped between deepsea mud particles.Google Scholar
  23. Meerestechnik. 4, 1972.No. 1, S. 1–10: Hering, N., Erkenntnisse bei der Prospektion und Exploration von Erzknollenvorkommnissen.Google Scholar
  24. „Meteor” Forsch.-Ergebn. (C.) No.10, 1972. S. 75–95: Müller, C., Kalkiges Nannoplankton aus Tiefseekernen des Ionischen Meers.—„Meteor” Forsch.-Ergebn. (C.) No. 12, 1973. S. 9–73: Zobel, B., Biostratigraphische Untersuchungen anGoogle Scholar
  25. Nat. geogr. Mag. 143, 1973.No. 1, S. 1–37: Matthews S. W., This changing earth.Google Scholar
  26. Natur u. Mus. 103, 1973.No. 2, S. 47–52: Schott, W., Über Tiefseesedimente der Ozeane und ihre organischen Bestandteile.Google Scholar
  27. Nature, Lond. Vol.239, No. 5374, 1972. S. 514–515: Sliter, W. V., Cretaceous foraminifers-depth habitats and their origin.—Nature Lond. Vol. 240, No. 5382, 1972. S. 438–439: Seafloor spreading in the Philippine Sea.—Nature, Lond. Vol. 240, No. 5382, 1972. S. 453–455: Ben-Avraham, Z., Bowin, C., Segawa, J., An extinct spreading centre in the Philippine Sea.—Nature, Lond. Vol. 5383, 1972. S. 520–521: Oceanic microearthquakes.—Nature, Lond. Vol. 240, No. 5383, 1972. S. 547–549: Francis, T. J. G., Porter, I. T., Microearthquake survey of the Mid-Atlantic ridge.Google Scholar
  28. Nature, phys. Sci. Vol.240, No. 101, 1972. S. 114–116: Bennett, R. H., Palaeotemperature and cohesion in Globigerina ooze sediment cores from the Caribbean Sea.—Nature, phys. Sci. Vol. 240, No. 103, 1972. S. 153–158: Backer, H., Schoell, M., New deeps with brines and metalliferous sediments in the Red Sea.—Nature phys. Sci. Vol. 240, No. 104, 1972. S. 189–192: Anderson, J. B., Nearshore glacial-marine deposition from modern sediments of the Weddell Sea.Google Scholar
  29. N. Z. J. Geol. Geophys. 15, 1972.No. 3, S. 451–464: Glassby, G. P., Influence of manganiferous fragments on the trace element geochemistry of pelagic sediments, Nort-West Indian Ocean.Google Scholar
  30. Ocean Industry. 7,1972.No. 12, S. 52–53: Scientists gather clues to Indian Ocean origin.Google Scholar
  31. Okeanologija. 12,1972.No. 5, Jousé, A. P., Diatoms in the surface sediment layer of the Chilian-Peruvian region of the Pacific Ocean.—Okeanologija. 12, 1972.No. 6, S. 1020–1027: Baturin, G. N., Phosphorus in the interstitial water of sediments of the South-East Atlantic.—Okeanologija. 13, 1973.No. 2, S. 264–267: Rutkovsky, V. M., Ca2+and Mg0+exchange constants on red clay of the Pacific Ocean in Na-and K-forms.—Okeanologija. 13, 1973.No. 2, S. 268–279: Lisitzin, A. P., Sediment thicknesses and sedimentation rates in the mesozoic and cenozoic oceans based on the deepsea drilling data.—Okeanologija. 13, 1973.No. 2, S. 284–291: Lavrov, V. M., Nikolaeva, V. K., Barash, M. S., Titanium in quaternary sediments of the Atlantic Ocean.—Okeanologija. 13, 1973.No. 2, S. 303–306: Belyaeva, N. V., Peculiarities of the chemical composition of planctonic foraminiferal tests. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  32. Op. bot., Lund No.30, 1971. S. 29–39: Olausson, E., Tephrochronology and the late pleistocene of the Aegean Sea.Google Scholar
  33. Palaeoecology of Africa, the surrounding islands and Antarctica. [Ed.] E. M. van Zinderen Bakker. Cype Town 1972. Olausson, E., Evidence in Indian Ocean cores of late pleistocene climatic changes.Google Scholar
  34. Proc. Int. Conf. Port. Oc. Engng arct. Cond. 1, Vol.1, 1971. S. 255–270: Noorany, I., Engineering properties of submarine clays from the Pacific.Google Scholar
  35. Proc. R. Soc. Edinb. (B), 72, 1971–1972 (1972), S. 163–165: Imbrie, J., Sea-floor fossils: keys to historical oceanography.—Proc. R. Soc. Edinb, (B), 72, 1971–1972 (1972), S. 207–218: Peterson, M. N. A., Field, A. J., Deep-sea drilling with D/V “Glomar Challenger”.Google Scholar
  36. Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972.No. 4, S. 539–540: Mateu, G., Les foraminifères du Tyrrhénien de la baie de Palma de Majorque et les conditions bioécologiques de l'ancienne mer de Baléares.—Rapp. P.-V. Commiss. int. Explor. Mer Médit. 20, 1972. S. 611–614: Froget, C., Pastouret, L., Les Ptéropodes, moyen d'étude de la climatologie quaternaire. Comparaison de deux carottes prélevées en Méditerranée occidentale et orientale.Google Scholar
  37. Rev. Mus. argent. Cienc. natur. 2, 1970.No. 9, S. 279–379: Boltovskoy, E., Theyer, F., Foraminiferos recientes de Chile Central. [in span. Spr. m. engl. Abstr.]Google Scholar
  38. SACLANTCEN Conf. Proc. No.7.1972. (=Oceanography of the Strait of Sicily) S. 208–223: Finetti, I., Morelli, C., Regional reflection seismic exploration of the Strait of Sicily. [Auch: Contr. Oss. geofis. sperim., Trieste. No. 212.]Google Scholar
  39. Umschau. 72,1972.No. 24, S. 779: Manganknollen im Pazifik. Interview mit H.-H. Schultze-Westrum.—Umschau. 72, 1973.No. 3, S. 92: “Glomar Challenger”: Tiefbohrungen älter als erwartet.—Umschau. 72, 1973.No. 5, S. 146–149: Vetter, U., Plattentektonik im Mittelmeer?Google Scholar

Geophysics UDC 550.3

  1. Annu. can. hydrogr. Conf. 10, 1971. S. 69–73: Macnab, R. F., Geophysical operations aboard C.S.S. “Baffin” in the western Arctic.Google Scholar
  2. Annu. offshore Technol. Conf. 4, 2, 1972. Pap. OTC1717, S. 859–864: Herbert, C. B., Corbin, D. G., Hughes, R. W., Geophysical field computer system.Google Scholar
  3. Carnegie Instn Yearb. 71 (1972). S. 215–341: Annual report of the Director. Department of Terrestrial Magnetism. Carnegie Institution. 1971–1972. [Auch: Annu. Rep. Dep. terr. Magn. Carnegie Instn 1971–1972.]Google Scholar
  4. Geophys. J. R. astr. Soc. 30, 1972.No. 3, S. 305–314: Wirth, M. H., Projection routines for displaying geophysical data.Google Scholar
  5. Geophysics. 37, 1972.No. 5, S. 825–838: Smith, R. B., Warnock, J. E., Stanley, W. D., Computer graphics in geophysics.Google Scholar
  6. The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972). Vol.1, S. 347–362: Cohen, P. M., Mapping the geophysics of the oceans.Google Scholar

Gravimetry UDC 550.31

  1. Apparatura i metody izmerenija ... [Apparatur und Methoden für die Messung der Schwerkraft auf See.] [Red.:] Ju. D. Bulanže. Moskau 1970. S. 58–62: Stroev, P. A., Markov. G. S., [Genauigkeitsbeurteilung der Schwerkraftmessungen im Schwarzen Meer von 1930–1935 von L. V. Sorokin.] [In russ. Spr.]Google Scholar
  2. Boll. Geofis. teor. appl. Vol.14, No. 55, 1972. S. 203–236: Demnati, A., Krustenstruktur im Rif-Bereich von Nord-Marokko aus gravimetrischen und aeromagnetischen Regionalmessungen. [Auch: Diss. Univ. Hamburg.]Google Scholar
  3. Data Rep. hydrogr. Observ., Ser. Astron. & Geod., Tokyo No.7, 1972. S. 23–80: Takemura, T., Yanagi, T., Tomioka, Y., Gravity measurements at Japan Sea in 1970.Google Scholar
  4. Earth planet. Sci. Letters 17, 1972.No. 1, S. 175–180: Dillon, W. P., Vedder, J. G., Graf, R. J., Structural profile of the northwestern Caribbean.Google Scholar
  5. Geophys. J. R. astr. Soc. 30, 1972 No. 1, S. 37–53: Lambeck, K., Gravity anomalies over ocean ridges.—Geophys. J. R. astr. Soc. 30, 1972.No. 1, S. 55–67: Bott, M. H. P., Ingles, A., Matrix methods for joint interpretation of two-dimensional gravity and magnetic anomalies with application to the Iceland-Faeroe-Ridge.—Geophys J. R. astr. Soc. 30, 1972. S. 69–83: Obenson, G., Evaluation of gravity anomalies directly from satellite observations.Google Scholar
  6. J. geophys. Res. Vol.77, 1972.No. 32, S. 6316–6326: Uspensky, D. G., Geological, interpretation of the gravity data for a profile across the Pacific Ocean.—J. geophys. Res. Vol. 77, 1972.No. 32, S. 6327–6347: Rabinowitz, P. D., Gravity anomalies on the continental margin of Angola, Africa. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1881.]—J. geophys. Res. Vol. 77, 1972.No. 32, S. 6470–6481: Andrews, D. J., Numerical simulation of sea-floor spreading.Google Scholar
  7. J. Phys. Earth, Tokyo. 18, 1970.No. 1, S. 19–49: Segawa, J., Gravity measurements at sea by use of the T.S.S.G. P. 1. Data processing method of the T.S.S.G. [Auch: Contr. No. 235. S. 66–96, Coll. Repr. Oc. Res. Inst. Univ. Tokyo. 9, 1970 (1972).]—J. Phys. Earth, Tokyo. 18, 1970.No. 3-4, S. 203–284: Segawa, J. Gravity measurements at sea by use of the T.S.S.G. P. 2. Results of the measurements. [Auch: Contr. No. 236. S. 97–178, Coll. Repr. Oc. Res. Inst. Univ. Tokyo. 9, 1970 (1972).—J. Phys. Earth, Tokyo. 20, 1972.No. 1, S. 23–34: Yoshi, T., Features of the upper mantle around Japan as inferred from gravity anomalies.Google Scholar
  8. Mar. geophys. Res. 1, 1972.No. 4, S. 428–435: Davey, F. J., Gravity measurements over Burdwook Bank.Google Scholar
  9. Nature. phys. Sci. Vol.240, No. 103, 1972. S. 149–153: Ramberg, I. B., Crustal structure across the Permian Oslo Graben from gravity measurements.Google Scholar
  10. N. Z. J. Geol. Geophys. 15, 1972.No. 3, S. 501–502: Bradshaw, J. D., Gravity anomalies and the structure of Fiordland. Comment. With reply by D. J. Wood-ward.Google Scholar
  11. Prakla-Seismos-Rdsch. 12, 1969.No. 36, S. 4–6: Ries, H., Seegravimetrie.—Prakla-Seismos-Rdsch. 12, 1972.No. 3, S. 14–16: Seegravimetrie.Google Scholar
  12. Proc. Jap. Acad. 46, 1970. S. 1006–1010: Tomoda, Y., Segawa, J., Tokuhiro, A., Free air gravity anomalies at sea around Japan measured by the Tokyo Surface Ship Gravity Meter <1961–1969>. [Auch: Coll. Repr. Oc. Res. Inst. Univ. Tokyo. 9, 1970 (1972). Contr. No. 233. S. 52–56.]Google Scholar
  13. Researches in hydrography and oceanography. Ed.: D. Shoji. Tokyo: Hydrographic Department 1972. S. 57–73: Tokuhiro, A., Gravity measurements at sea in the Hydrographic Department of Japan.Google Scholar
  14. Techn. Rep. Woods Hole oceanogr. Instn No. 72-56. 1972. O. Pag.: Dean, J. P., McCullough, C. B., Gravity observations 09.00E. to 37.90W. along the equator. (Unpubl. Ms.)Google Scholar
  15. Z. Geophys. 39, 1973.No. 1, S. 167–187: Kahle, H.-G., Talwani, M., Gravimetric Indian Ocean geoid. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1959.]Google Scholar
  16. Z. Vermess.-Wes., Stuttg. 98, 1973.No. 1, S. 8–12: Koch, K. R., Kontinentalverschiebung und Erdschwerefeld.Google Scholar

Seismology UDC 550.34

  1. Advanc. Sci., Lond. 1971, März. S. 239–249: Ramsay, A. T. S., A history of the formation of the Atlantic Ocean. [Auch: Publ. School environm. Sci. Univ. East Anglia No. 71.]Google Scholar
  2. Ann. Geofis. 25, 1972.No. 3, S. 433–450: Le Tourneau, N. J., Piermattei, R., Walker, D. A., Mantle phases recorded at Guam for distances between 1o and 52o. [Auch: Contr. Hawaii Inst. Geophys. No. 495.]Google Scholar
  3. Annu. offshore Technol. Conf. 3, 1, 1971. Pap. OTC1340, S. 143–158: Lowell, F. C., Dalton, W. L., Development and test of a state-of-the-art sub-bottom profiler for offshore use.Google Scholar
  4. Boll. Geofis. teor. appl. 14, 1972.No. 56, S. 291–342: Finetti, I., Morelli, C., Wide scale digital seismic exploration of the Mediterranean Sea. [Auch: Contr. Oss. geofis. sperim., Trieste, No. 227.]Google Scholar
  5. Bull. Seismol. Soc. Amer. 61, 1971.No. 5 S. 1351–1368: Whitmarsh, R. B., Seismic anisotropy of the uppermost mantle absent beneath the east flank of the Reykjanes Ridge. [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley. 19, 1971. No. 828.]Google Scholar
  6. Earth planet. Sci. Letters 17, 1972.No. 1, S. 189–193: Forsyth, D. W., Mechanisms of earthquakes and plate motions in the east Pacific.Google Scholar
  7. Geophys. J. R. astr. Soc. 30, 1972.No. 1, S. 85–99: Payo, G., Crust-mantle velocities in the Iberian Peninsula and tectonic implications of the seismicity in this area.—Geophys. J. R. astr. Soc. 30, 1972.No. 2, S. 109–185: McKenzie, D., Active tectonics of the Mediterranean region.—Geophys. J. R. astr. Soc. 30, 1972.No. 3, S. 253–271: Keen, C. E., Barrett, D. L., Seismic refraction studies in Baffin Bay: An example of a developing ocean basin. [Auch: Contr. Bedford Inst. Oceanogr. No. 315.]Google Scholar
  8. Geophysics. 37, 1972.No. 5, S. 788–796: Pflueger, J., Spectra of water reverberations for primary and multiple reflections.Google Scholar
  9. The 2ndInt. Ocean Dev. Conf., Oct. 5–7, 1972, Keidanren Kaikan, Tokyo. (Tokyo 1972).Vol. 2, S. 1956–1981: Kamata, S., Hosono, T., Nishimura, T., A new sonic prospecting apparatus for the measurement of subbottom velocity by refracted wave detection.Google Scholar
  10. Izv. Akad. Nauk SSSR, Fiz. Zemli 1973.No.2, S. 3–16: Kuzin, I. P., Velocities of P and S waves in the upper mantle of Kamchatka. [In russ. Spr.]Google Scholar
  11. J. geophys. Res. Vol.77, No. 32, 1972. S. 6413–6421: Eittreim, S. L., Ewing, J., Mid-plate tectonics in the Indian Ocean. [Auch: Contr. Lamont-Doherty Geol. Obs. 1879.]—J. geophys. Res. Vol. 77, No. 35, 1972, S. 7010–7021: Donn, W. L., Ewing, M., Resonant coupling ocean Rayleigh waves to atmospheric shock waves from Apollo rockets. [Auch: Contr. Lamont-Doherty geol. Obs. 1897; Contr. Univ. Inst. Oceanogr. City College N.Y. No. 9.]Google Scholar
  12. “Meteor” Forsch.-Ergebn. (C). No.10, 1972. S. 1–16: Hinz, K., Der Krustenaufbau des Norwegischen Kontinentalrandes (Voring Plateau) und der Norwegischen Tiefsee zwischen 660 und 680N nach seismischen Untersuchungen.Google Scholar
  13. N. Z. J. Geol. Geophys. 15, 1972.No. 4, S. 674–677: Adams, R. D., An earthquake to the north-west of New Zealand (note).Google Scholar
  14. Okeanologija. 12, 1972.No. 6, S. 1037–1043: Litvin, V. M., Sagalevich, A. M., Sviridov, N. I., Some results of the continuous seismic profiling in the Baltic Sea. [In russ. Spr. m. engl. Abstr.]Google Scholar
  15. Physics Earth planet. Interiors, 6, 1972.No. 4, S. 256–262: Artemjew, M. E., Bune, V. I., Dubrovsky, V. A., Seismiticy and isostasy.—Physics Earth planet. Interiors, 6, 1972.No. 4, S. 263–278: Molnar, P., Wyss, M., Moments, source dimensions and stress drops of shallow-focus earthquakes in the Tonga-Kermadec arc. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1892.]—Physics Earth planet. Interiors, 6, 1972.No. 4, S. 279–292: Wyss, M., Molnar, P., Source parameters of intermediate and deep focus earthquakes in the Tonga arc. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1880.]—Physics Earth planet. Interiors, 6, 1972.No. 4, S. 293–299: Mikumo, T., Focal process of deep and intermediate earthquakes around Japan as inferred from long-period P and S waveforms.Google Scholar
  16. Prakla-Seismos-Rdsch. 12, 1969.No. 35, S. 7–11: Rühmkorf, H. A., Flachwasserseismik.Google Scholar

Continents UDC 551.41

  1. Geol. i. Geofiz., Novosibirsk, No.12, 1972. S. 6–22: Fotiadi, E. E., Tuezov, I. K., Deep-seated structure of the north-western sector tectonics of circum Pacific.—Geol. i. Geofiz., Novosibirsk, No. 12, 1972. S. 23–36: Bogolepov, K. V., Chikov, B. M., Structural provinces of the oceanic floor and principles of their separation. [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  2. Maritimes. Vol.16, 1972.No. 4, S. 13–15: Pinet, P. R., Tracing the geologic history of the northwestern Caribbean.Google Scholar
  3. Nature, phys. Sci. Vol.240, No. 102, 1972. S. 139–140: Stauffer, P. H., Gobbett, D. J., Southeast Asia a part of Gondwanaland?—Nature, phys. Sci. Vol. 240, No. 102, 1972. S. 140–141: Ridd, M. F., Southeast Asia a part of Gondwanaland?: Reply.Google Scholar

Coasts UDC 551.417

  1. Annu. can. hydro. Conf. 11, 1972. 1972. Vol. 2, S. 492–520: Haras, W. S., Shore property studies and inventory of the Great Lakes and St. Lawrence River.Google Scholar
  2. Deep-Sea Res. 20, 1973.No. 3, S. 239–259: Blumer, M., Ehrhardt, M., Jones, J. H., The environmental fate of stranded crude oil. [Auch: Contr. Woods Hole Oceanogr. Inst. No. 2315]Google Scholar
  3. Fennia 117, 1972. 31 S.: Aartolahti, T., On the beach ridges in the area of the Virttaankangas-Säkylänharju esker, SW-Finland.Google Scholar
  4. Hansa. 109, 1972.No. 23, S. 2178–2181: Ramacher, H., Küstenforschung und Küsteningenieurwesen in der Bundesrepublik Deutschland.Google Scholar
  5. Mahasagar. 5, 1972.No. 1, S. 33–35: Srivastava, N. K., Grain size distribution of some beach sediments from Goa, Kutch and Bhavanagar.Google Scholar
  6. Muus, U., Petersen, M., Die Küsten Schleswig-Holsteins. Neumünster: Wachholtz 1971. 132 S. m. zahlr. Farbfotos.Google Scholar
  7. Oceans, S. Diego. 5,1972.No. 5, S. 68–71: Gentle encounter. Photographs by R. Perron.Google Scholar
  8. Proc. Int. Conf. Port Oc. Engng arct. Cond. 1, Vol.1, 1971. S. 1–16: Bretschneider, C. L., Sargent, C., Doyle, J. P., Facilities development, construction and operation problems and related environmental conflicts and problems of the ice stressed coastal areas of Alaska.Google Scholar

Copyright information

© Deutsches Hydrographisches Institut 1974

Authors and Affiliations

  • H. Mädler
  • G. Heise

There are no affiliations available

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