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Ozeanographie Environmental actions UDC 551.465.7/8

  1. Agricult. Meteorol. 7, 1970.No 6, S. 443–454: Yaalon, D. H., Lomas, J., Factors controlling the supply and the chemical composition of aerosols in a near-shore and coastal environment.Google Scholar
  2. Beitr. Phys. Atmosph. 43, 1970.No. 4, S. 228–243: Dittmann, E., Modellrechnung der Wasserdampfausbreitung in der Umgebung ener verdunstenden Seeoberfläche.Google Scholar
  3. Ber. geophys. Beratungsdienst Bundeswehr. No. 1, T. 1, 1970. Getr. Pag. Das Klima der Ostsee. T. 1.: Wind und Windeinfluß.Google Scholar
  4. Bull. Amer. met. Soc. 51, 1970.No. 6, S. 518–527: Hidy, G. M., Conference summary. IUGG-IAMAP-AMS conference on planetary boundary layers.—Bull. Amer. met Soc. 51, 1970.No. 9, S. 809–820: Holland, J. Z., Preliminary report on the sea-air interaction program.Google Scholar
  5. Bull. Dir. Etud. Rech. Electr. France. (A), 1970. No.2, S. 5–38: Jensen, P., Synthèse des principales recherches sur les dunes et les rides fluviales.Google Scholar
  6. Bull. Inform. Fédér. europ. Protect. Eaux. No.16, 1970. S. 22–25: Volker, A., Catastrophes de hautes marées.Google Scholar
  7. Cah. océanogr. 22, 1970.No. 8, S. 801–813: Allen, G. P., Klingebiel, A., Resseguier, A. de, Evolution et signification dynamique de quelques indices granulométriques des sediments de l'embouchure de la Gironde. —Cah. océanogr. 22, 1970.No. 8, S. 827–831: Pujos, M., Influence des eaux de type méditerranéen sur la répartiton de certains foraminifères benthiques dans le golfe de, Gascogne,—Cah. océanogr. 22, 1970.No. 10, S. 981–1010: Berthois, L., Auffret, G., Contribution à l'étude des conditions de sédimentation dans la rade de Brest.Google Scholar
  8. Can. J. Earth Sci. 4, 1967. S. 475–505: Middleton, G. V., Experiments on density and turbidity currents. 3, Deposition of sediment.—Can. J. Earth Sci. 5, 1968. S. 175–183: Swift, D. J. P., McMullen, R. M., Preliminary studies of intertidal sand bodies in the Minas Basin, Bay of Fundy Nova Scotia. [Auch: Coll. Contr. Bedford Inst. Vol. 1, 1968. Contr. No. 71.]Google Scholar
  9. Civ. Engng Jap. 1961. March, S. 16–19: Sawaragi, T., Fundamental study of dynamics and sand drifts.Google Scholar
  10. Proc. IEEE Conf., Region Six, 1-C-4, 10 S. Pond, S., Microscale phenomena in the ocean and the atmospheric boundary layer. [Auch: Coll. Repr. Oregon State Univ. Dep. Oceanogr. 7, 1968. S. 207–216.]Google Scholar
  11. Commentat. phys.-math. 40, 1970.No. 2, S. 101–105: Lisitzin, E., The seasonal water balance of the ocean.Google Scholar
  12. Dietrich, G. [Hrsg.] Erforschung des Meeres. Frankfurt a. M. 1970. S. 15–24: Brocks, K., Wechselwirkung Ozean — Atmosphäre.—Commentat. phys.-math 40, 1970.No. 2, S. 151–166: Köster, R., Sandbewegung im deutschen Küstenraum.Google Scholar
  13. Géol. Aires océan. 1, 1970. XI, S. 3–24: Pugh, D. T., Mesures géothermiques en mer.Google Scholar
  14. Geol. Mijnb. 45, 1966.No. 2, S. 51: Houbolt, J. J. H., Sedimentatie in de zuidelijke bocht van de Noordzee. [Zusammenfassung eines Vortrags.]Google Scholar
  15. Geophys. Fluid Dynam. 1, 1970.No. 1 u. 2, S. 249–272: Geisler, J. E., Linear theory of the response of a two layer ocean to a moving hurricane. [Auch: Contr. Rosentiel School mar. atmos. Sci. Univ. Miami No. 1143.]Google Scholar
  16. Geophys. J. R. astr. Soc. 20, 1970.No. 5, S. 509–542: Sclater, J. G., Francheteau, J., The implications of terrestrial heat flow observations on current tectonic and geochemical models of the crust and upper mantle of the earth.Google Scholar
  17. Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 6, 1970.No. 10, S. 1043–1058: Efimov, V. V., (On the structure of wind velocity field in the atmospheric near-water layer and the transfer of wind energy to sea waves.) [In russ. Spr. m. engl. Abstr.]Google Scholar
  18. J. Fluid Mech. 42,P. 2,1970, S. 225–244: Engelund, F., Instability of erodible beds.—J. Fluid, Mech. 42,P. 3, S. 491–495: Chang, H. Y., Simons, D. B., The bed configuration of straight sand-bed channels when flow is nearly critical.Google Scholar
  19. J. Geol., Chicago, 77, 1969. S. 353–357: Johnson, M. A., Belderson, R. H., The tidal origin of some vertical sedimentary changes in epicontinental seas. [Auch: Coll. Repr. Nat. Inst. Oceanogr. Wormley. 17, 1969. No. 702.]Google Scholar
  20. J. geophys. Res. 73, 1968.No. 2, S. 507–512: Pond, S., Some effects of buoy motion on measurements of wind speed and stress. [Auch: Coll. Repr. Oregon. State Univ. Dep. Oceanogr. 7, 1968. S. 217–222.]—J. geophys. Res. 75, 1970.No. 21, S. 4151–4159: McCave, I. N., Deposition of fine-grained suspended sediment from tidal currents,—J. geophys. Res. 75, 1970.No. 24, S. 4525–4529: Gathman, S. G., Hoppel, W. A., Surf electrification.—J. geophys. Res. 75, 1970.No. 24, S. 4561–4566: Barger, W. R., Garrett, W. D., Surface active organic material in the marine atmosphere.—J. geophys. Res. 75, 1970. No. 29, S. 5655–5669: Epp, D., Grim, P. J., Langseth, M. G., Heat flow in the Caribbean and Gulf of Mexico. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1569].—J. geophys. Res. 75, 1970,No. 30, S. 5914–5927: Komar P. D., Inman, D. L., Longshore sand transport on beaches.—J. geophys. Res. 75, 1970.No. 30, S. 5928–5940: Smith, J. D., Stability of a sand bed subjected to a shear flow of low Froude, number.Google Scholar
  21. J. Hydraul. Div. Am. Soc. civ. Engrs. 91, 1965. No. HY 3, P. 1, S. 348–360: Jopling, A. V., Discussion on “Geometrical properties of sand waves” by M. S. Yalin. [Aufsatz von M. S., Yalin in: J. Hydraul. Div. Am. Soc. civ. Engrs. 90, 1964. No. HY 5, Sept., S. 105–119.]—J. Hydraul. Div. Am. Soc. civ. Engrs. 91, 1965. No. HY 3, P. 1. S. 367–374: Nordin, C. F., Algert, J. H., Discussion on “Geometrical properties of sand waves” by M. S. Yalin. [Aufsatz von M. S. Yalin in: J. Hydraul. Div. Am. Soc. civ. Engrs. 90, 1964. No. HY 5, Sept., S. 105–119.]Google Scholar
  22. J. Mar. march. Année 52, No. 2636, 1970. S. 1617–1620: Vitureau, M., Interaction mer-atmosphère.Google Scholar
  23. J. Met. Soc. Japan. Ser. 2, 48,1970.No. 4, S. 377–380: Kikuchi, K., Yaura, S., Observations of giant seasalt particles over the ocean from Tokyo to Syowa Station, Antarctica.Google Scholar
  24. J. Oceanogr. Soc. Japan. 26, 1970.No. 2, S. 71–80: Toba, Y., Kunishi, H., Breaking of wind waves and the sea surface wind stress.—J. Oceanogr. Soc. Japan. 26, 1970.No. 2, S. 87–94: Toba, Y., Kawai, S., A method of simultaneous analysis of wind and temperature profile data over the water surface by use of the method of least squares.Google Scholar
  25. J. sediment. Petrol. 39, 1969. Sept., S. 1249–1250: Belderson, R. H., Kenyon, N. H., Direct illustration of one way sand transport by tidal currents. [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley. 17, 1969 No. 677.]Google Scholar
  26. Maritimes.14,1970.No. 3, S. 1–3: Air pollution over the oceans.Google Scholar
  27. Meerestechnik. 1, 1970.Nr. 3, S. 115–116: Dover, C., Erforschung und Kartierung von Treibsanden.Google Scholar
  28. Met. i Gidrol. 1970. No.10, S. 72–75: Mitnik, L. M., Shutko, A. M., (On the effect of the sea surface state on the accuracy of determining the moisture content of the atmosphere and water content of clouds when making radiometric measurements from artificial earth satellites.)—Met. i Gidrol. 1970.No. 10, S. 75–78: Kryndin, A. N., (Temperature distribution in the North Atlantic before the severe winter of 1969.)—Met. i Gidrol. 1970.No. 10, S. 83–87: Antipova, E. G., (Duration of westerlies, over Europe in November.) [Jeweils in russ. Spr.]Google Scholar
  29. Meyniana.20, 1970. S. 83–90: Werner, F., Newton, R. S., Riesenrippeln im Fehmarnbelt (westliche Ostsee).Google Scholar
  30. Mitt. Inst. Meeresk. Univ. Hamburg. Nr. 15, 1970. 57 S., 39 Abb. Huber, K., Anwendung des hydrodynamischnumerischen Verfahrens zur Interpretierung und Reproduktion von Bewegungsvorgängen im flachen Wasser.Google Scholar
  31. Mber. Dt. Akad. Wiss. Berlin. 8, 1966.H. 10, S. 709–712: Ertel, H., Theorie der Verteilung des Salzgehalts an der Meeresoberfläche als Funktion der Verdunstung und des Niederschlags.Google Scholar
  32. Month-Weather Rev., Wash. 98, 1970.No. 10, S. 765–773: Hantel, M., Monthly charts of surface wind stress curl over the Indian Ocean.Google Scholar
  33. Mork, M., The response of a stratified sea to atmospheric forces. Bergen: Universitetet, Geofysisk Institutt 1968. 29 S., 11 Abb.Google Scholar
  34. Neuberger, H., Cahir, J., Principles of climatol ogy. A manual in earth science. Darin S. 47–77: Interaction of air, sea, and land. New York[usw.]: Helt, Rinehart and Winston 1969. XII, 178 S. m. Abb. u. Tab.Google Scholar
  35. Oceanogr. mar. Biol. 7, 1969. S. 11–30: Ramage, C. S., Indian Ocean surface meteorology. [Auch: Contr. Hawaii Inst. Geophys. No. 225.]Google Scholar
  36. Okeanologija.10, 1970.No. 4, S. 588–595: Voskanyan, A. G., Pivovarov, A. A., Khundzhua, G. G., (Experimental studies of temperature and turbulent heat exchange in the surface layer of the sea.)—Okeanologija. 10, 1970.No. 4, S. 722–725: Maksimov, A. N., Shalfman, M. M., (On the possibility of determining the concentration of suspended matter by an optical method.)—Okeanologija. 10, 1970,No. 5, S. 745–749: Timonov, V. V., Smirnova, A. I., Nepop, K. I., (On the centers of air-sea interaction in the North Atlantic.)—Okeanologija. 10, 1970.No. 5, S. 750–756: Valerianova, M. A., Seriyakov, E. I., (On the many-year variations in the oceanatmosphere system.)—Okeanologija. 10, 1970.No. 5, S. 757–769: Tyuryakov, B. I., Kuznetsova, L. N. (On variability of wind-driven and thermohaline currents in the North-Atlantic as related to the changes of the macrosynoptic processes.)—Okeanologija. 10, 1970,No. 5. 878–882: Radikevich, V. M., (On computing heat, moisture and momentum fluxes.) [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  37. Philos. Trans. r. Soc.(A), Vol.265, No. 1159, 1969, S. 45–92: Lighthill, M. J., Dynamic response of the Indian Ocean to onset, of the Southwest Monsoon.Google Scholar
  38. Physics Earth planet. Interiors. 2, 1970.No. 5, S. 332–341: Lee, W. H. K., On the global variations of terrestrial heat-flow.Google Scholar
  39. Proc. 13. Conf. coast. Engng, Tokyo, 1966: Unoki, S., Isozaki, I., Comparison of the effects of atmospheric pressure and wind on storm surges. [In japan. Spr. m. engl. Abstr.] [Auch: Coll. Repr. Coll. mar. Sci. Tokai Univ. 3, 1967–68. Contr. B No. 17, S. 31–38.]Google Scholar
  40. Proc. Symp. Trop. Meteorol. Honolulu, June 2–111970. S. F III-1—F-III 6: Pike, A. C., The inter-tropical convergence zone studied with an interacting atmosphere and ocean model.Google Scholar
  41. Pure appl. Geophys. 81, 1970.No. 4,. S. 202–210: Shonting, D. H., Observations of Reynolds Stresses in wind waves.Google Scholar
  42. Ramzy, J. R., Young, E. T., Investigation of temperature fluctuations near the air-sea interface. (Monterey, Calif.:) United States Naval Postgraduate School 1968. 88 S. m. Abb. Monterey, Calif., Ozeanogr. Diss. v. Dezember 1968.Google Scholar
  43. Rapp. Sci. Ist. Fisica Atmos. NoIFA-SR 29, 1969. 68 S. m. Abb. u. Tab. Colacino, M., Rossi, E., Alcuni esempi di calcolo del bilancio termico per il Mar Tirreno <maggio 1969>. (Some calculations of heat budget for the Tyrrhenian Sea <May 1969>.) [In ital. Spr.]Google Scholar
  44. Rapp. Tecn. spec. Ist Fisica Atmos. NO IFA-STRNo. 11, 1970. 76 S. m. Abb. Palmieri, S. Finizio, C. The prediction of sea tides, at Venice.Google Scholar
  45. Riv. Met. aeronaut. 29, 1969.Suppl. zu No. 4, S. 63–83: Palmieri, S., Finizio, C., Previsione dell'acqua alta a Venezia sulla base degli elementi meteorologici raccolti dalla rete sinottica dell'A. M. In ital. Spr. m. engl. u. franz. Abstr.Google Scholar
  46. Sandwanderungsmessungen mit radioaktiven Isotopen in der Unterelbe im Gebiet des Neufelder Sandes, April/Juni 1967. Hamburg: Bundesanstalt für Wasserbau Außenstelle Küste 1967. 14 S., 9 Abb. auf Taf., 6 S. Briefkopien.Google Scholar
  47. Spec. sci. Rep.-Fish US Fish Wildl. Serv. No. 612, 1970. III, 129 S. m. Fig. u. Tab. Seckel, G. R., The trade wind zone oceanography pilot study, P. 8: Sea level meteorological properties and heat exchange processes July 1963 to June 1965.—Spec. sci. Rep.-Fish US Fish Wildl. Serv. No. 620, 1970. 66 S.m. Fig. u. Tab. Seckel, G. R., The Trade Wind Zone Oceanography Pilot Study. P. 9: The sea-level wind field and wind stress values, July 1963 to June 1965.Google Scholar
  48. Sturm, M., Eine Untersuchung des Wärmehaushaltes der Ostsee im, Bereich der südlichen Beltsee <Fehmarnbelt>. Leipzig 1970. 183 S. m. Abb. [Masch. schr. vervielf.] Leipzig, Diss. v. 19. 1. 1970.Google Scholar
  49. Techn. Rep. Chesapeake Bay Inst. No. 60, 1969. 29 S. m. Fig. Schubel, J. R., Distribution and transportation of suspended sediment in upper Chesapeake Bay.Google Scholar
  50. Tellus. 22, 1970.No. 4 S. 403–409. Saha, K., Zonal anomaly of sea surface temperature in equatorial Indian Ocean and its possible effect upon monsoon circulation. —Tellus. 22, 1970.No. 4, S. 410–430: Adem, J., On the prediction of mean monthly ocean temperatures.—Tellus. 22, 1970.No. 4, S. 431–442: Bolin, B., Bischof, W., Variations of the carbon dioxide content of the atmosphere in the northern hemisphere.Google Scholar
  51. Trudy Centr. Inst. Prognozov. 156, 1966. S. 47–53: Milejko, G. N., [Die konvektive Wärmeabgabe im nördlichen Teil des Atlantischen und des Stillen Ozean.]—Trudy Centr. Inst. Prognozov. 156, 1966. S. 66–75: Milejko, G. N., [Eine Methode zur Berechnung der Wassertemperatur in den nördlichen Gebieten des Atlantischen und des Stillen Ozeans in der kalten Jahreszeit.]—Trudy Centr. Inst. Prognozov. 156, 1966. S. 76–82. Seremetevskaja, O. I., [Die Berechnung der Temperatur der Meeresoberfläche für die warme Jahreszeit.] [Jeweils in russ. Spr.]Google Scholar
  52. Trudy Gidromet. nauč.-issl. Centr SSSR.3, 1967. S. 32–39: Skriptunova, L. I., [Über die Vorhersage der Wassertemperatur im Nordwestteil des Atlantischen Ozeans.]—Trudy Gidromet. nauč.-issl. Centr SSSR. 3, 1967. S. 40–48: Krasjuk, V. S., [Über die Berechnung der Dicke der oberen isothermischen Meeresschicht für die warme Jahreszeit.]—Trudy Gidromet. nauč.-issl. Centr SSSR. 34, 1968. S. 20–25: Šeremetevskaja, O. I., [Berechnung und Prognose des inneren Feuchteaustauschs zwischen dem Kaspischen Meer und der Atmosphäre.]—Trudy Gidromet. nauč.-issl. Centr SSSR. 34, 1968. S. 26–33: Smirnova, K. I., [Die Wandelbarkeit der Wasserhaushaltselemente im Kaspischen Meer.]—Trudy Gidromet. nauč.-issl. Centr SSSR. 34, 1968. S. 34–41: Milejko, G. N., [Die Prognose der Wassertemperatur im Ozean.]—Trudy Gidromet. nauč.-issl. Centr SSSR. 34, 1968. S. 48–52: Skriptunova, L. I., [Über die Verwendung natürlicher Komponenten für die Prognose der Wassertemperatur im Ozean.] [Jeweils in russ. Spr.]Google Scholar

Surface waves UDC 551.466.2 551.466.3 551.466.4

  1. Borgman, L. E., Directional spectra models for design use for surface waves. Berkeley, Calif.: Univ. of California, Hydraulic Engineering Lab., College of Engineering 1969. (29 S. m. Tab.)Google Scholar
  2. Cah. océanogr. 22, 1970.No. 9, S. 933–935: Larras, J., Répartition des lignes de rouleaux sur les fonds de matériaux mobiles.Google Scholar
  3. Chace, A. B., Ocean surface waves: attenuation and a field test of DSA II. Monterey, Calif.: Naval Postgraduate School, Thesis 1969. (50 S.)Google Scholar
  4. Clim. Studies Met. Br., Toronto. No. 17, 1970. VII, 53 S. m. Tab. u. Abb. Richards, T. L., Phillips, D. W., Synthesized winds and wave heights for the Great Lakes.Google Scholar
  5. “The Decade ahead, 1970–1980”. (R. C. Steere., papers chairman.) Washington: Mar. Technol. Soc., 1969. S. 281–297: Houmb, O. G., Hindcasting wind sea and swell in the North Sea.Google Scholar
  6. Deep-Sea Res. 17, 1970.No. 1, S. 197–201: Kenyon, K. E., A note on conservative edge wave interactions.—Deep-Sea Res. 17, 1970,No. 5, S. 893–901: Darbyshire, J., Wave measurements with a radar altimeter over the Irish Sea.Google Scholar
  7. Dietrich, G. [Hrsg.], Erforschung des Meeres Frankfurt a. M. 1970. S. 65–78: Walden, H., Der Seegang und seine Vorhersage.Google Scholar
  8. Eos, Wash. 51, 1970.No. 7, S. 544–550: Barnett, T. P., Wind waves and swell in the North Sea.Google Scholar
  9. Hydraul. Res., Lond. 1969 (1970). S. 14–17: Wave forces on cylindrical members of structures.Google Scholar
  10. Int. navig. Congr., Pap. S. II-5 (22. Congr., Paris, 1969). 11 S.: Draper, L., Eddie, A. G. F., Wave data and wave loading-proposals for rationalization. [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley. 17, 1969. No. 695.]Google Scholar
  11. Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana.6, 1970.No. 8, S. 798–803: Kuznetsov, O. A., (Experimental study of the air flow above the ocean.)—Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 6, 1970.No. 8, S. 820–826: Zaslavsky, M. M., (The nonlinear distortion of the mean velocity profile of the logarithmic boundary layer by the surface waves generation regine.)—Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 6, 1970.No. 8, S. 827–831: Bychkov, V. S., Leybo, A. B., Skibko, N. E., (On the connection of long-period waves with wind waves.) —Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 6, 1970.No. 9. S. 934–939: Ostrovsky, L. A., Pelinovsky, E. N., (Transformation of surface waves in fluids of variable depth.)—Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 6, 1970.No. 10, S. 1022–1034: Voit, S. S., Sebekin, B. I., (Reflection of unsteady long waves in a rotating basin.) [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  12. J. Fluid Mech. 38, 1969.P. 3, S. 499–511: Mei, C. C., Black, J. L., Scattering of surface waves by rectangular obstacles in waters of finite depth.—J. Fluid Mech. 39, 1969.P. 2, S. 227–255: Garrison, C. J., On the interaction of an infinite shallow draft cylinder oscillating at the free surface with a train of oblique waves.—J. Fluid Mech. 39, 1969. S. 257–267:Google Scholar
  13. J. geophys. Res. 75, 1970.No. 21. S. 4121–4130: Hwang, L.-S., Wave setup of nonperiodic wave train and its associated shelfs oscillation.—J. geophys. Res. 75, 1970.No. 21. S. 4131–4143: Bunting, D. C., Evaluating forecasts of ocean-wave spectra.—J. geophys. Res. 75, 1970.No. 2, S. 4177–4179: Gordon, A. L., Vertical monentum flux accomplished by Langmuir circulation. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1524.]—J. geophys. Res. 75, 1970.No. 24, S. 4519–4524: Medwin, H., Clay, C. S., Berkson, J.M., Traveling correlation function of the heights of wind-blown water waves.—J. geophys. Res. 75, 1970.No. 27, S. 5276–5278: Price, R. K., Detailed structure of the breaking wave.—J. geophys. Res. 75, 1970.No. 30, S. 5895–5898: Pollard, R. T., Surface waves with rotation: an exact solution. [Auch: Contr. Woods Hole oceanogr. Instn No. 2492.]Google Scholar
  14. J. Mar. march. Année 52, No. 2636, 1970. S. 1602–1608. Mousnier, J., L'océanologie à l'étranger. Darin S. 1603: Walden, H. Recherches internationales des ondes de la mer à l'Ouest de l'île de Sylt.Google Scholar
  15. J. phys. Chem. 72, 1968.No. 2, S. 589–592: MacIntyre, F., Bubbles: a boundary-layer “Microtome” for micronthick samples of a liquid surface. [Auch: Contr. Scripps Instn Oceanogr. 38, P. 1, 1968. No. 2308.]Google Scholar
  16. Limnol & Oceanogr. 15, 1970.No. 2, S. 257–272: Liu, P. C., Some features of wind waves in Lake Michigan.Google Scholar
  17. Mariner's Weather Log. 14, 1970.No. 5, S. 257–259: Shields, G. C., Sea state and surf forecasting in southern California.Google Scholar
  18. Mer. Tokyo. 8, 1970.No. 1, S. 6–12: Shimamura, H., Asada, T., Takano, K., Mesure d'ultra-microséismes au fond océanique. [In japan. Spr. m. franz. Abstr.]Google Scholar
  19. Met. i Gidrol. 1970. No.11, S. 83–86: Martsinkevich, L. M., (Investigation of statistical characteristics of sea surface wave slopes from overlays for sterophotography of waves.) [In russ. Spr.]Google Scholar
  20. Mber. Dt. Akad. Wiss. Berlin. 10, 1968.H. 12, S. 900–904: Sager, G., Die Amplitudenkurven von gedämpften harmonischen Schwingungen.—Mber. Dt. Akad. Wiss. Berlin. 10, 1968 H. 12, S. 904–910: Sager, G., Böhl, D., Rand- und benachbarte Kurven von superponierten harmonischen Schwingungen.Google Scholar
  21. Morning Rev. Lect. Int. oceanogr. Congr. (2), Moscow1966 (1969). S. 55–66: Longuet-Higgins, M. S., Fluctuating ocean currents. [Auch Coll. Repr. Nat. Inst. Oceanogr., Wormley, 17, 1969.] No. 705.Google Scholar
  22. Morskoj Sbornik. 54 (123),1970.No. 11, S. 77–82: Sirotov, K. M., [Entwicklung und Abklingen von Windwellen.] [in russ. Spr.]Google Scholar
  23. MRC Techn. Summ. Rep. No. 987, 1969. Meyer, R. E., Surf.Google Scholar
  24. Nature, Lond. Vol.227, No. 5263, 1970. S. 1128–1129: Krasilnikov, V. A., Thai-Thanh-Long, Zarembo L. K., Some non-linear phenomena of capillary wave propagation.Google Scholar
  25. Philos. Trans. r. Soc. (A), Vol.266, No. 1174. 1970. S. 193–223: Longuet-Higgins, M. S., Pond, G. S., The free oscillations of fluid on a hemisphere bounded by meridians of longitude.Google Scholar
  26. Proc. 11. Conf. coast. Engng. London, Sept. 1968 (1969). S. 1–8: Powers, W. H., Draper, L., Briggs, P. M., Waves at Camp Pendleton, California. [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley. 17, 1969. No. 708.]—Proc. 11. Conf. coast. Engng. London, Sept. 1968 (1969). S. 9–18: Singh, K. Y., Draper, L., Waves off Benghazi Harbour-Libya. [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley. 17, 1969. Mo. 714.]Google Scholar
  27. Proc. R. Soc. (A), Vol.311, No. 1506, 1969. S. 371–389: Longuet-Higgins, M. S., A nonlinear mechanism for the generation of sea waves.Google Scholar
  28. Res. Pap. Horace Lamb Centre oceanogr. Res., Bedford Park. No. 30, 1969. III, 214 S. m. Abb. Summerfield, W. C., On the trapping of wave energy by bottom topography.Google Scholar
  29. Rev. Geophys. Space Phys. 8, 1970.No. 2, S. 303–319: Rhines, P. B., Wave propagation in a periodic medium with application to the ocean.Google Scholar
  30. Runcorn, S. K. [ed.) International dictionary of geophysics. Oxford [u. a.] Pergamon Press 1967. Getr. Pag. Darbyshire, J., Waves, generation of, by the wind. Waves, ocean, long. Liquid wave refraction. Liquid wave dissipation. Wave spectra, liquid. Oceanographic observations — waves. Surface gravity waves. [Auch: Contr. mar. Sci., Menai Bridge. 1967–68]Google Scholar
  31. Surv. Pap. Horace Lamb Centre oceanogr. Res., Bedford Park. No. 8, 1969. 34 S., 7 Abb. Snodgrass, F. E., Study of ocean waves, 10−5 to 1 Hz.Google Scholar
  32. Techn. Rep. Chesapeake Bay Inst. No. 67, 1970. 37 S. m. Fig. Wilson, D. G., A procedure for computig and displaying time varying power spectra illustrated by application to a geophysical process.Google Scholar
  33. Techn. Rep. Dep. Civ. Engng, Stanford Univ. No. 104, 1969 (97 S. m. Abb.) Chan, R. K.-C., Street, R. L., Strelkoff, T., Computer studies of finite-amplitude water waves.Google Scholar
  34. Techn. Rep. Woods Hole oceanogr. Instn. Ref. No. 69-67, 1969. Getr. Pag. Thompson, R., The search for topographic Rossby waves in the Gappy Current Records at Site D.Google Scholar
  35. Trudy Centr. Inst. Prognozov. 156, 1966. S. 3–30: Abuzjarov, Z. K., [Eine Methode zur Berechnung der Wellenfelder im nördlichen Teil des Atlantischen Ozeans.] [In russ. Spr.]Google Scholar
  36. Trudy Gidromet. nauč.-issl. Centr SSSR. 3, 1967. S. 3–9: Sirotov, K. M., [Über die Berechnung der Windwellen im Ozean.]—Trudy Gidromet. nauč.-issl. Centr SSSR. 3, 1967. s. 10–20: Glagoleva, M. G., Gračeva, N. A., Sidel'nikova, T. M., [Die Vorausberechnung der Auflösungskoeffizienten der Druckfelder für die Wellenberechnung.]—Trudy Gidromet.nauč.-issl. Centr SSSR. 34, 1968. S. 14–19. Bogdan, Ë. A.; Krasjuk, V. S.; Sett, L. S. [Die Wandelbarkeit der Ozeanwellen.] [Jeweils in russ. Spr.]Google Scholar
  37. Vij. Pomorske met. Službe. 16, 1970.No. 1, S. 9–12: Simovič, A. I., [Die Meereswellen.] [In juposlaw. Spr.]Google Scholar
  38. Vodohosp. Čas. 18, 1970.No. 5, S. 532–559: Kratochvil, S., (The height of a wind wave run — up in deep water on a slope.) [In tschech. Spr. m. engl. Abstr.]Google Scholar
  39. Wetterlotse. 22, No. 288, 1970. S. 177–189: Rodewald, M., Slicks.Google Scholar
  40. Z. angew. Phys. 28, 1969.H. 2, S. 117–123: Gienapp, H., Flachwasserseegang bei Sturm.Google Scholar

Long waves UDC 551.466.6

  1. Bull. Earthq. Res. Inst. 48, 1970.P. 2, S. 171–188: Hatori, T., Vertical crustal deformation and tsunami energy.Google Scholar
  2. Čerkesov, L. V., Neustanovivšiesja volny. [Unstetige Wellen.] Akademija nauk Ukrainskoj SSR, morskoj gidrofizičeskij institut. [In russ. Spr.] Kiev: Naukova Dumka 1970. 195 S.Google Scholar
  3. Deep-Sea Res. 17, 1970.No. 4, S. 795–812: Pollard, R. T., On the generation by winds of inertial waves in the ocean. [Auch: Contr. Woods Hole oceanogr. Instn No. 2322.]—Deep-Sea Res. 17, 1970.No. 4, S. 813–821: Pollard, R. T.; Millard, R. C., Comparison between observed and simulated windgenerated inertial oscillations. [Auch Contr. Woods Hole oceanogr. Instn No. 2362.]Google Scholar
  4. ESSA. 5, 1970.No. 4, S. 36–39: Hughes, L. A., Seiche: the quiet killer.Google Scholar
  5. ESSA techn. Rep. C & GS 33, 1967. 86 S. m. Fig. Spaeth, M. G., Berkman, S. C., The tsunami of March 28, 1964, as recorded at tide stations.Google Scholar
  6. Geophysica. 11, 1970.No. 1, S. 97–106: Sala, I., An approximate method for the calculation of the periods of seiches.Google Scholar
  7. Jap. J. Geophys. 5, 1970.No. 1, S. 1–15: Hidaka, K., Some numerical computations on the Poincaré waves. —S. 17–34: Hidaka, K., Poincaré waves and Kelvin waves in a rotating straight canal of parabolic section.Google Scholar
  8. Johnson, R. H., A program for routine location of T-phase sources in the Pacific. Honolulu: Hawaii Institute of Geophysics, University of Hawaii. 1965. 17 S. m. Abb., 2 Kt., 2 Taf.Google Scholar
  9. Johnson, R. H., Norris, R. A., T-phase radiators in the Western Aleutians. Honolulu: Hawaii Institute of Geophysics, University of Hawaii. 1966. Getr. Pag.Google Scholar
  10. J. Fluid Mech. 37, 1969.P. 3, S. 417–434: Mysak, L. A., On the generation of double Kelvin waves.—J. Fluid Mech. 41, 1970.P. 3, S. 655–672: Lautenbacher, C. C., Gravity wave refraction by islands.—J. Fluid Mech. 42, 1970.P. 3, S. 447–464: Hwang, L.-S., Tuck, E. O., On the oscillations of harbours of arbitrary shape.—J. Fluid Mech. 42, 1970.P. 4, S. 657–670: Thompson, R. E., On the generation of Kelvin-type waves by atmospheric disturbances.—J. Fluid Mech. 44, 1970.P. 1, S. 195–208: Madsen, O. S., Mei, C. C., Savage, R. P., The evolution of time-periodic long waves of finite amplitude.Google Scholar
  11. J. mar. Res. 28, 1970.No. 3, S. 336–344: Dorn, W. G. van, Tsunami response at Wake Island: a model study. —J. mar. Res. 28, 1970.No. 3 S. 345–356: Vastano, A. C., Reid, R. O., Tsunami response at Wake Island: comparison of the hydraulic and numerical approaches.—J. mar. Res. 28, 1970 No. 3 S. 367–370: Kenyon, K. E., Wave-particle velocities.Google Scholar
  12. J. Oceanogr. Soc. Japan. 26, 1970.No. 2, S. 108–109: Shibaoka, Y., Oto, K., On the free oscillation of water in a cicular lake with paraboloidal base, 3.Google Scholar
  13. Loomis, H. G., Spectral analysis of tsunami records from stations in the Hawaiian Islands. Honolulu: Hawaii Institute of Geophysics, University of Hawaii, 1965. Getr. Pag.Google Scholar
  14. Loomis, H. G., Some numerical hydrodynamics for Hilo Harbor. Honolulu: Hawii Institute of Geophysics, University of Hawaii. 1966. 24 S. m. Abb.Google Scholar
  15. Met. i Gidrol. 1970. No.10, S. 41–55: Martsinkevich, L. M., (Slopes distribution of rough sea surface.) [In russ. Spr. m. engl. Abstr.]Google Scholar
  16. Ore Bin. 30 (9), S. 182–184: Pattullo, J. G., Burt, W. V., Burdwell, G. B., Tsunami on the Oregon coast from an earthquake near Japan. [Auch: Coll. Repr Oregon State Univ. Dep. Oceanogr. 7, 1968. S. 196–198.]Google Scholar
  17. Pararas-Carayannis, G., Sasser, J., Earthquake epicenter determination using δt data. Honolulu: Hawaii Institute of Geophysics, University of Hawaii 1965. Getr. Pag.Google Scholar
  18. Source mechanism study of the Alaska earthquake and tsunami of 27 March 1964. S. 1–30:P. 1: G. Pararas-Carayannis: Water waves. Honolulu: Hawaii Institute of Geophysics, University of Hawaii. 1965.—Source mechanism study of the Alaska earthquake and tsunami of 27 March 1964. S. 31–42:P. 2: A. S. Furumoto: Analysis of Rayleigh wave.Google Scholar
  19. Spec. Publ. US nav. oceanogr. Off. No. SP-132, 1970. S. 9–15: Pierson, W. J., Ocean waves. [Auch: Science and the Sea. Vol. 2, 1970.]Google Scholar
  20. Techn. Rep. Hawaii Inst. Geophys. No. HIG-64-15, 1964. III, 22 S. m. Abb. Cox, D. C., Tsunami forecasting. Technical report.Google Scholar
  21. Techn. Summ. Rep. Hawaii Inst. Geophys. No. 7, 1964 III, 11 S. m. Abb., 4 Tab.: Johnson, R. H., Earthquakes located by T phases during the Vela Uniform Aleutian Islands experiment, 1964.Google Scholar
  22. Vitousek, M. J., An evaluation of the vibrotron pressure transducer as a mid-ocean tsunami gage. Honolulu: Hawaii Institute of Geophysics, University of Hawaii. 1965. 12 S., 7 Kt.Google Scholar
  23. Wetterlotse. Jg. 22, Nr. 284/285, 1970. S. 135–137: Lange, R., Die „tsunami” and der Westküste Südamerikas.Google Scholar

Tides UDC 551.466.7

  1. Ann. Géophys. 26, 1970.No. 2, S. 259–271: Nowroozi, A. A., Spectrum and prediction of tides off the coast of California.Google Scholar
  2. Cah. océanogr. 22,1970.No. 8, S. 833–837: Marée au Gaillouneys (abords du bassin d'Arcachon).—Cah. océanogr. 22, 1970 No. 9, S. 937–940: Marée à Diego-Suarez.—Cah. océanogr. 22, 1970 No. 10, S. 1067–1073: Marée à Nouméa.Google Scholar
  3. Geophys. Fluid Dynam. 1, 1970.No. 1 u. 2, S. 161–235: Munk, W., Snodgrass, F., Wimbush, M., Tides offshore: transition from California coastal to deep-sea waters.Google Scholar
  4. Geophys. J. R. astr. Soc. 20, 1970.No. 2, S. 159–175: Johns, B., On the determination of the tidal structure and residual current system in a narrow channel.Google Scholar
  5. Gezeitentafeln für das Jahr1971. Bd. 1: Europäische Gewässer. Hamburg: Deutsches Hydrographisches Institut 1970. 201 S., 2 Kt.—Gezeitentafeln für das Jahr1971, Bd. 2: Atlantischer und Indischer Ozean, Westküste Südamerikas. 1970. 319 S.Google Scholar
  6. GO Mag. 1968,Nov. u. Dec., 1 S.: Zetler, B. D., Tide talk. [Auch: Coll. Repr. Atlant.-Pacif. oceanogr. Lab. 1968 (1969). 6.]Google Scholar
  7. Huggett, W. S., Some anomalies in taking short term current observations on the West coast. [Ottawa:] Canadian Hydrographic Service, Marine Sciences Brauch, Dept. of Energy, Mines and Resources [1966]. 16 Diagr. m. Text.Google Scholar
  8. J. Fluid Mech. 39, 1969.P. 2, S. 321–328: Packham, B. A., Reflexion of Kelvin waves at the open end of a rotating semi-infinite channel.Google Scholar
  9. J. phys. Oceanogr. 1, 1971,No. 1, S. 34–38: Zetler, B. D., Radiational ocean tides along the coasts of the United States.Google Scholar
  10. Limnol. & Oceanogr. 15, 1970.No. 4, S. 615–624: Fliegel, M., Nowroozi, A. A., Tides and bottom currents off the coast of northern California. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1575.]Google Scholar
  11. Mitt. Inst. Meeresk. Univ. Hamburg. No. 16, 1970. 119 S. m. Abb. u. Tab. Röber, K., Analytische und numerische Lösungen für Mitschwingungsgezeiten in einem Rechteckbecken konstanter Tiefe unter Berücksichtigung von Bodenreibung, Corioliskraft und horizontalem Austausch.Google Scholar
  12. Morskoj Flot. 1970. No.11, S. 26–27: Averbach, N., (The features of Admiralty Tide Tables.) [In russ. Spr.]Google Scholar
  13. Ocean Engng. 2, 1970.No. 1, S. 33–36: Pfafflin, J. R., A statistical approach to the prediction of recurrence intervals of abnormally high tides.Google Scholar
  14. Okeanologija. 10, 1970.No. 5, S. 774–777: Nekrasov, A. V., (Kinematic analysis of tides and V. V. Timonov's part in its development.) [In russ. Spr. m. engl. Abstr.]Google Scholar
  15. Philos. Trans. r. Soc. (A), Vol.265, No. 1165, 1969. S. 413–436: Pekeris, C.L., Accad, Y., Solution of Laplace's equations for the M2 tide in the world oceans.Google Scholar
  16. Proc. 15. Conf. coast. Engng, Japan, 1968. S. 220–235: Unoki, S., Investigation of tides in estuaries — 1. [In jap. Spr. m. engl. Abstr.] [Auch: Coll. Repr. Coll. mar. Sci. Tokai Univ. 3, 1967–68. Contr. B No. 20.]Google Scholar
  17. Proc. IBM Scientific Computing Symp. on Environm. Sci., Nov. 14–16, Yorktown Heights, N. Y. S. 143–144: Munk, W. H., Tide prediction. [Auch: Contr. Scripps Instn Oceanogr. 38, P. 2, 1968. No. 2448.]Google Scholar
  18. Rep. Inst. mar. Sci. Univ. Alaska No. R 70-4, 1970. X, 157 S. Mungall, J. C. H., Matthews, J. B., A variable-boundary numerical tidal model.Google Scholar
  19. Sci. J. 5, 1969,No. 1, S. 60–67: Cartwright, D. E., Deep sea tides. [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley. 17, 1969. No. 686.]Google Scholar
  20. Studime hidromet. No.5, 1969. S. 115–123: Pano, N., (Exploitation du mouvement de marée à faibles amplitudes pour la normalisation du régime hydrochimique et hydrologique des lacs du littoral.) In alban. Spr.Google Scholar
  21. Tab. Mareas Puertos ecuat. 1970. 73 S.Google Scholar
  22. Techn. Rep. Hydrogr. Off. Republ. Korea. 1967 [um 1970]. S. 100–117: Kim, T.-S., (On the tide in the vicinity of Yosu Harbor.)—Techn. Rep. Hydrogr. Off. Republ. Korea. 1967 [um 1970] S. 118–126: Kang, Y.-C., (Tidal current at Yosu Harbor.)—Techn. Rep. Hydrogr. Off. Republ. Korea. 1967 [um 1970] S. 165–182. Kim, S. M., (Tidal current at Sam chon-po Hang and in the vicinity.) [Jeweils in korean. u. engl. Spr.]Google Scholar
  23. Das Tideregime der Elbe. Elbemodell mit beweglicher Sohle. 1. Bericht. (Bearb.: Giese, Vollmers.) Hamburg: Bundesanstalt für Wasserbau, Außenstelle Küste 1969. [Mappe] Enthält: 1 Heft mit Text (XX, 120 S. m. Abb.) sowie 136 Anl.Google Scholar

Internal waves UDC 551.466.8

  1. Deep-Sea Res. 17, 1970.No. 1, S. 91–108: Zalkan, R. L., High frequency internal waves in the Pacific Ocean.—Deep-Sea Res. 17, 1970 No. 5, S. 867–875: Ziegenbein, J., Spatial observations of short internal waves in the Strait of Gibraltar.Google Scholar
  2. Dt. hydrogr. Z. 23, 1970.H. 2, S. 61–79: Keunecke, K.-H., Stehende interne Wellen in rechteckigen Becken.Google Scholar
  3. Geophys. Fluid Dynam. 1, 1970,No. 3, S. 371–376: LeBlond, P. H., Internal waves in a fluid of finite Prandtl numberGoogle Scholar
  4. Hall, J. M., Pao, Y.-H., Spectra of internal waves and turbulence in stratified fluids. P. 2. Experiments on the breaking of internal waves in a two-fluid system. Seattle, Wash.: Boeing Scientific Research Laboratories, Flight Sciences Laboratory 1969. [II, 12 S. m. Abb.)Google Scholar
  5. J. Fluid Mech. 38, 1969.P. 2, S. 365–374: Keller, J. B., Mow, C. van, Internal wave propagation in an inhomogeneous fluid of non-uniform depth.—J. Fluid Mech. 39, 1969.P. 1,Google Scholar
  6. J. geophys. Res. 75, 1970.No. 30, S. 5899–5908: Wunsch, C., Dahlen, J., Preliminary results of internal wave measurements in the main thermocline at Bermuda.Google Scholar
  7. J. phys. Oceanogr. 1, 1971.No. 1, S. 12–16: Rooth, C., Düing, W., On the detection of “inertial” waves with pycnocline followers. [Auch: Contr. Rosenstiel School mar. atmos. Sci. Univ. Miami No. 123.]Google Scholar
  8. Okeanologija.10, 1970.No. 5, S. 778–782: Boris, L. I., (On the spatial and time variability of tidal mixing caused by internal waves.) [In russ. Spr. m. engl. Abstr.]Google Scholar
  9. Pao, Y.-H., Spectra of internal waves and turbulence in stratified fluids. P. 1. General discussion and indications from measurements in stably stratified atmosphere and ocean, Seattle Wash.: Boeing Scientific Research Laboratories 1969. (II, 14 S. m. Abb.)Google Scholar

Ice UDC 551.467

  1. Arctic. 23, 1970.No. 2, S. 133–136: Aufderheide, A. C., Pitzl, G., Observations on ice regions of the Arctic Ocean.Google Scholar
  2. Bauingenieur.44, 1969.H. 9, S. 338–343: Ruck, K.-W., Freund, H., (Ergebnisse und Untersuchungen über Festigkeiten von Ostsee- und Süßwasser-Eis.Google Scholar
  3. Ber. Dt. wiss. Kommiss. Meeresforsch. N. F., 21, 1970. S. 420–429: Rheinheimer, G., Mikrobiologische und chemische Untersuchungen in der Flensburger Förde.Google Scholar
  4. Bol. Inst. oceanogr., S. Paola. 15,Fasc. 1,1966. S. 1–12: Kato, K., Chemical investigations on the hydrographical system of Canaéia lagoon.Google Scholar
  5. Bull. Hakodate mar. Obs. No.15,1970. (No. 9). 31 S. Akagawa, M., (Sea ice in the Okhotsk Sea.) [In japan. Spr.]Google Scholar
  6. Eisübers.-Karte Dt. hydrogr. Inst. 44, 1970/71.Google Scholar
  7. Geogr. J. Vol.136,P. 1,1970. S. 85–97: Kestner, F. J. T., Cyclic changes in Morecambe Bay.Google Scholar
  8. Hydrospace.3,1970.No. 5, S. 42–43: Towing icebergs as part of Arctic offshore feasibility study.Google Scholar
  9. Ice observations. Publ. by the U. S. Naval Oceanographic Office under the authority of the Secretary of the Navy. 2. ed. 1956, rev. 1966, 1968. Washington 1968. 42 S. m. Abb.Google Scholar
  10. Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 6, 1970.No. 8, S. 832–839: Legen'kov, A. P., (On the problem of thermal stresses and deformations of ice fields.) [In russ. Spr. m. engl. Abstr.]Google Scholar
  11. J. mar. Res. 28, 1970.No. 3, S. 304–320: Bunt, J. S., Lee, C. C., Seasonal primary production in Antarctic sea ice at McMurdo Sound in 1967.Google Scholar
  12. Mar. Observer. Vol.40,No. 230,1970. S. 186–190: Notes on ice conditions in areas adjacent to the North Atlantic Ocean from April to June 1970.Google Scholar
  13. Mar. Technol. Soc. J. 4, 1970.No. 5, S. 19–43: Breslau, L. R., Johnson, J. D., McIntosh, J. A., Environmental research relevant to the development of arctic sea transportation.Google Scholar
  14. Met. i Gidrol. 1970.No. 11, S. 104–107: Faiko, L. I., (Observations and calculations of heat- and massex-change of ice cover.) [In russ. Spr.]Google Scholar
  15. Misc. Pap. US Army coast. Engng Res. Center. No. 3-70, 1970. IV, 60 S. m. Fig. u. Tab. Turner, P. A., RAPLOT, a computer program for data processing and graphical display for radioisotopic sand tracer study.Google Scholar
  16. Month. Weather Rev., Wash. 98, 1970.No. 10, S. 774–775: Nasta, R., Nawratil, R., Picture of the month—giant icebergs in the Weddell Sea.—Month. Weather Rev., Wash. 98, 1970.No. 11, S. 833–850: Schell, I. I., Arctic ice and sea temperature anomalies in the northeastern North Atlantic and their significance for seasonal foreshadowing locally and to the eastward.Google Scholar
  17. Morskoj Flot. 1970.No. 9, S. 27-28: Glushkov, V., Kontorov, S., Loščilov, V., (New method of obtaining information on ice conditions.) [In russ. Spr.]Google Scholar
  18. Morskoj Sbornik. 53(123),1970.No. 10, S. 84–90: Curikov, V. L., [Eis auf See und Eisfahrt.] [In russ. Spr.]Google Scholar
  19. Naturwiss. Rdsch. 23,1970.H. 11, S. 476: Eisberge für die Wasserversorgung. [Auch: Ground Water. 8, 53, (1970).]Google Scholar
  20. Okeanologija. 10, 1970.No. 5, S. 888–892: Shilin, B. V., Karizhensky, E. Ya., (Infra-red aerophotography used to study the sea ice cover.) [In russ. Spr. m. engl. Abstr.]Google Scholar
  21. Res. Rep. CRREL. No. 75, 1961. 10 S. m. Abb. u. Tab. Bilello, M. A., Surface temperatures and growth of sea ice.—Res. Rep. CRREL. No. 135, 1964. IV, 19 S. m. Abb. u. Tab. Assur, A., Weeks, W. F., Growth, structure and strength of sea ice.—Res. Rep.CRREL. No. 202, 1966. IV, 15 S. Anderson, D. M., Heat of freezing and melting of sea ice.Google Scholar
  22. Seewirtschaft. 2, 1970.H. 10, S. 805–806: Koch, H., Eis-aufbruch in den Seehäfen und den Küstengewässern der DDR. no refs.Google Scholar
  23. Spec. Publ. US nav. oceanogr. Off. No. SP-80(68), 1969. V, 28 S. m. Abb. Potocsky, G. J., Report of the Antarctic ice observing and forecasting program, 1968.—Spec. Publ. US nav. oceanogr. Off. No. SP-100(69), 1969. III, 15 S. m. Abb. Potocsky, G. J., Perchal, R. J., Long-range ice outlook, Antarctic <1969–70>.Google Scholar
  24. Spec. Rep. CRREL. No.80, 1964. S. 67–81: Weeks, W. F., Some structural aspects of sea and lake ice.Google Scholar
  25. Trudy Arkt. antarkt. nauč.-issl. Inst. 295, 1970. 188 S. m. Abb. Fizika l'da. [Physik des Eises.] Red.: V. V. Bogorodskij. [Darin:]—Trudy Arkt. antarkt. nauč.-issl. Inst. 295, 1970. S. 74–82: Chochlov, G. P., [Ergebnisse experimenteller Untersuchungen der elektrischen Kennzeichen vom arktischen Meereis im Frequenzbereich von 100 Hz bis 1 Mghz.]—Trudy Arkt. antarkt. nauč.-issl. Inst. 295, 1970. S. 83–88: Bogorodskij, V. V., Chochlov, G. P., [Analyse der kontaktlosen Meßmethode der dielektrischen Durchlässigkeit und Leitfähigkeit des Meereises.]—Trudy Arkt. antarkt. nauč-issl. Inst. 295, 1970. S. 89–95: Bogorodskij, V. V., Chochlov, G. P., [Einfluß einiger Salzkomponenten auf die elektrischen Eigenschaften des Eises und ihre Zusammensetzung.] —Trudy Arkt. antarkt. nauč.-issl. Inst. 295, 1970. S. 96–102: Mač, Ju, A., [Messung des Moduls vom Koeffizienten der Spiegelreflexion von der realen Oberfläche des Meereises bei spitzen Winkeln des Wellenabfalls.]—Trudy Arkt. antarkt. nauč.-issl. Inst. 295, 1970. S. 103–107: Bogorodskij, V. V., Chochlov, G. P., [Zwischenschichtige Polarisation im Eis, das NaCl-Einschlüsse enthält.]—Trudy Arkt. antarkt. nauč.-issl. Inst. 295, 1970. S. 108–115: Gajcchoki, B. Ja., Morozov, P. T., Sovalkov, D. I., [Untersuchung des Aufbaus und der Zusammensetzung der Meereismassen im Nordpolarbecken.] [Jeweils in russ. Spr.]Google Scholar
  26. Trudy Centr. Inst. Prognozov. 156, 1966. S. 89–98: Karakaš, A. I., Juščak, T. F., [Über langjährige Eisprognosen.] —Trudy Centr. Inst. Prognozov. 156, 1966. S. 99–104: Tjutnev, Ja.A., [Die Berechnung und Prognose der Eisvorkommen in einigen Häfen des Asowschen und Schwarzen Meeres.]—Trudy Centr. Inst. Prognozov. 156, 1966. S. 105–120: Kan, S. I., [Die Voraussage und die Berechnung der Eismerkmale im Ochotskischen Meer.] [Jeweils in russ. Spr.]Google Scholar
  27. Trudy Gidromet. nauč.-issl. Centr SSSR.3, 1967. S. 86–91: Kan, S. I., Tjutnev, Ja. A., Lachtin, I. L., [Über die Verwendungsmöglichkeit der absoluten Topographien 500 mb für die langfristigen Eisprognosen auf nichtarktischen Meeren.]—Trudy Gidromet. nauč.-issl. Centr SSSR. 34, 1968. S. 53–56: Nikiforov, P. P., [Über das Eisvorkommen im Beringmeer]. [Jeweils in russ. Spr.]Google Scholar
  28. Vasil'ev, K. P., Use of meteorological-satellite data as a navigation aid. In: Problems of satallite meteorology. <Voprosy sputnikovoi meteorologii>. I. P. Vetlov and G. I. Morskoi: Ed. Leningrad: Gidrometeorol. ized. 1968. Transl. from Russian by D. Lederman, ed. by P. Greenberg. Jerusalem: Israel Program for Scientific Transl. 1970. S. 46–57. [Auch: Trudy Upravl. gidrometeorol. služby, Ord. Lenina gidrometeorol. naucno-issl. tsentr SSSR. No. 36.]Google Scholar

Coastal oceanography UDC 551.468

  1. Bahr, M., Die Entwicklung des Küstenvorfeldes zwischen Hever und Elbe seit dem Ende des 16. Jhts. T. 1.: Vom Ende des 16. Jhts. bis zum Jahre 1840. T. 2.: Vom Jahre 1840 bis zur Gegenwart. Helgoland 1961 u. 1963. 125, 4 S., 57 Anl.Google Scholar
  2. Beitr. Kultur- u. Wirtschaftsgesch. ostfries. Küstenland. 2, 1969: Ohling, J. [Hrsg.], Ostfriesland im Schutze des Deiches. S. 1–75 m. Abb. Homeier, H., Der Gestaltwandel der ostfriesischen Küste im Laufe der Jahrhunderte. Ein Jahrtausend ostfriesischer Deichgeschichte.Google Scholar
  3. Bol. Serv. Hidrogr. nav., B. Aires. 6, 1969.No. 3, S. 250–256: Garrido, M., El Río de la Plata y algunos de sus problemas. In span. Spr. m. engl. Abstr.Google Scholar
  4. Bull. Amer. Assoc. Petrol. Geol. 52, 1968.No. 11, S. 2197–2207: Shepard, F. P., Dill, R. F., Heezen, B. C., Diapiric intrusions in foreset slope sediments off Magdalena delta, Columbia. [Auch: Contr. Scripps Instn Oceanogr. 38, P. 2, 1968. No. 2415.]Google Scholar
  5. Bull. coast. Oceanogr., Jap. 6, 1967.No. 1, S. 27–40: Unoki, S., Flow of estuarine waters in three rivers of Kiso. [Auch: Coll. Repr. Coll. mar. Sci. Tokai Univ. 3, 1967–68. Contr. B No. 18.]—Bull. coast. Oceanogr., Jap. 6, 1967,No. 2: Nakano, M., Interchanging flows through straits and canals. [Auch: Coll. Repr. Coll. mar. Sci. Tokai Univ. 3, 1967–68. Contr. B No. 25, S. 111–118.] [Jeweils in japan. Spr. m. engl. Abstr.]Google Scholar
  6. Civ. Engng, Lond. Vol.61, No. 719, 1966. S. 727–733: Wilson, E. M., Tidal barrages and multi-purpose estuary development.Google Scholar
  7. Coast. Res. Rep. Dep. Geogr. Univ. Southampton. No. 1, 1967. 32 S. u. Anl. u. Taf. m. Abb. Clark, M. J., Small, R. J., An investigation into the feasibility of the seabed movement of shingle in Christchurch Bay.Google Scholar
  8. Coop. Res. Rep. Int. Coun. Explor.Sea. (A), No. 20, 1970. 62 S. m. Fig. u. Tab. Andersen, T., Beyer, F., Föyn, E., Hydrography of the Oslofjord. Report on the Study Course in Chemical Oceanography arranged in 1969 by ICES with support of UNESCO.Google Scholar
  9. Dietrich, G. [Hrsg.], Erforschung des Meeres. Frankfurt a.M. 1970. S. 245–254: Laucht, H., Meeresforschung und Seehafenbau.—Dietrich, G. [Hrsg.], Erforschung des Meeres. Frankfurt a.M. 1970. S. 255–266: Hensen, W., Stückrath, T., Möglichkeiten und Grenzen des Küstenschutzes.Google Scholar
  10. ESSA World.3, 1968.No. 2, S. 14–16: Harrison, W., Where the sea meets land. [Auch: Coll. Repr. Atlant.-Pacif. oceanogr. Lab. 1968(1969). 31.]Google Scholar
  11. Fossa magna. Meet. Geol. Soc. Jap. 1968: Misawa, Y., Yoshihara, T., Submarine topography of the Suruga Bay. [In japan. Spr. m. engl. Abstr.] [Auch: Coll. Repr. Coll. mar. Sci. Tokai Univ. 3, 1967–68. Contr. B No. 46, S. 399–405.]Google Scholar
  12. Geogr. Rev. 52, 1962.No. 4, S. 548–558: Jordan, G. F., Redistribution of sediments in Alaskan bays and inlets.Google Scholar
  13. Geol. Jb. 80.1962. S. 49–68: Lang, H. D., Untersuchungen an Nordsee-Küstenschlicken im Hinblick auf ihre balneologische Verwendbarkeit.Google Scholar
  14. Hamburger Küstenforschung. H. 15, 1970. 52 S., 33 Abb. im Anh. Siefert, W., Die Salzgehaltsverhältnisse im Elbmündungsgebiet.Google Scholar
  15. Helgoländ. wiss. Meeresunters. 10, 1964.No. 1-4, S. 377–390: Hartog, C. den, Typologie des Brackwassers.Google Scholar
  16. Hydraul. Res., Lond. 1969(1970). S. 47–53: Mathematical model of silt movement in the Thames estuary.Google Scholar
  17. J. Geol., Chicago. 76, 1968.No. 1, S. 71–87: Boon, J. D., Trend surface analysis of sand tracer distributions on a carbonate beach, Bimini, B. W. I. [Auch: Coll. Repr. Atlant.-Pacif. oceanogr. Lab. 1968(1969). 9.]Google Scholar
  18. J. Mar. biol. Assoc. U. K. 50, 1970.No. 3, S. 577–591: Portmann, J. E., The effect of China clay on the sediments of St Austell and Mevagissey Bays.—J. Mar. biol. Assoc. U. K. 50, 1970.No. 3, S. 673–682: Dyer, K. R., Sediment distribution in Christchurch Bay, S. England.—J. Mar. biol. Assoc. U. K. 50, 1970.No. 3, S. 849–855: Mommaerts, J. P., On the unusual patterns of phosphate vertical distribution in the Tamar estuary.Google Scholar
  19. J. Oceanogr. Soc. Japan. 26, 1970.No. 1, S. 1–5: Hosokawa, I., Ohshima, F., Kondo, N., On the concentration of the dissolved chemical elements in the estuary water of the Chikugogawa River. [In japan. Spr. m. engl. Abstr.]Google Scholar
  20. J. Oceanol. Soc. Korea.5, 1970.No. 1, S. 30–36: Won, C. H., Investigation of water quality in the laver bed at Youngwon Ri, Changwon Gun during the spring and neap tide in March 1970. [In korean. Spr. m. engl. Abstr.]Google Scholar
  21. Küste. H. 19, 1970. S. 29–67: Schubert, K., Ems und Jade.—Küste. H. 19, 1970. S. 68–124: Witte, H.-H., Die Schutzarbeiten auf den Ostfriesischen Inseln.—Küste. H. 19, 1970. S. 125–185: Erchinger, H. F., Küstenschutz durch Vorlandgewinnung, Deichbau und Deicherhaltung in Ostfriesland.Google Scholar
  22. Limnol. & Oceanogr. 15, 1970.No. 2, S. 234–245: Seliger H. H., Carpenter, J. H., Loftus, M., Mechanisms for the accumulation of high concentrations of dinoflagellates in a bioluminescent bay. [Auch: Contr. Mc Collum-Pratt Inst. Johns Hopkins Univ. No. 589; Contr. Chesepeake Bay Inst. No. 144.]—Limnol. & Oceanogr. 15, 1970.No. 3, S. 363–372: Eckstein, Y., Physicochemical limnology and geology of a meromictic pond on the Red Sea shore.Google Scholar
  23. Mar. Geol. 9, 1970.No. 2, S. 101–116: Venkatarathnam, K., Formation of the barrier spit and other sand ridges near Chilka Lake on the east coast of India.—Mar. Geol. 9, 1970.No. 3, S. 173–186: Cook, D. O., The occurrence and geologic work of rip currents off southern California.—Mar. Geol. 9, 1970.No. 3, S. 187–201: Biggs, R. B., Sources and distribution of suspended sediemnt in northern Chesapeake Bay.Google Scholar
  24. Marit. Sediments. 4, 1968.No. 2, S. 57–63: Schafer, C. T., Sen Gupta, B. K., Benthonic foraminiferal ecology in Port Castries Bay, St. Lucia: a preliminary report. [Auch: Coll. Contr. Bedford Inst. Vol. 1, 1968. Contr. No. 139.]Google Scholar
  25. Mitt. Dt. Forsch.-Gem. 1970.No. 1, S. 45–47: Horstmann, U., Abwässer in Küstennähe.Google Scholar
  26. Mitt.-Bl. Bundesanst. Wasserb., Karlsruhe. No.30, 1970. S. 51–77: Harten, H., Abdämmung der Eider; Modellversuche im Tidemodell.—Mitt.-Bl. Bundesanst. Wasserb., Karlsruhe. No. 30, 1970. S. 79–103: Dietz, J. W., Abdämmung der Eider; Modellversuche für das Sielbauwerk.Google Scholar
  27. Mber. Dt. Akad. Wiss. Berlin.8, 1966,H. 6/7, S. 421–423: Brauckhoff, K., Hoeg, S., Über den Einsatz von lumineszenten Sanden vor der Küste von Zingst. (Vorläufige Mitteilung.)Google Scholar
  28. Netherl. J. Sea. Res. 4, 1970.No. 4, S. 494–503: Heerebout, G. R., A classification system for isolated brackish inland waters, based on median chlorinity and chlorinity fluctuation.Google Scholar
  29. N. Z. J. mar. Freshw. Res. 4, 1970.No. 2, S. 141–164: McLean, R. F., Variations in grain-size and sorting on two Kaikoura beaches.—N. Z. J. mar. Freshw. Res. 4, 1970.No. 2, S. 223–226: Heath, R. A., An occurence of low water temperatures of the north Canterbury coast(note).Google Scholar
  30. Nippon Kagaku Zasshi.89,1968.No. 3: Okabe, S., Morinaga, T. Vanadium and molybdenum in the river and estnary water which pour into the Suruga Bay, Japan. [In japan. Spr. m. engl. Abstr.] [Auch: Coll. Repr. Coll. mar. Sci. Tokai Univ. 3, 1967–68. Contr. B No. 38, S. 327–332.]Google Scholar
  31. Okeanologija.10, 1970.No. 4, S. 628–636. Konovalov, G. S., Ivanova, A. A., (River discharge of micro-elements from the territory of the USSR to the sea basins.) [In russ. Spr. m. engl. Abstr.]Google Scholar
  32. Ore Bin. 30, 1968.No. 9, S. 165–180: Kulm, L. D., Scheidegger, K. F., Byrne, J. V., A preliminary investigation of the heavy mineral suites of the coastal rivers and beaches of Oregon and northern California. [Auch: Coll. Repr. Oregon State Univ. Dep. Oceanogr. 7, 1968. S. 460–474.]Google Scholar
  33. Petermanns geogr. Mitt. 114, 1970.H. 2, S. 81–102: Kolp, O., Farbsandversuche mit lumineszenten Sanden in Buhnenfeldern. Ein Beitrag zur Hydrographie der ufernahen Meereszone.Google Scholar
  34. Res. Rep. Kisosansen Surv. Team. No. 4, 1967: Hayami, S., Watanabe, N., Unoki, S., On the distribution and fluctuation of current and chlorinity in the estuary of Kiso-Sansen. [In japan. Spr. m. engl. Abstr.] [Auch: Coll. Repr. Coll. mar. Sci. Tokai Univ. 3, 1967–68. Contr. B No. 27, S. 127–185.]—Res. Rep. Kisosansen Surv. Team. No. 5, 1968: Hayami, S., Watanabe, N., Unoki, S., On the distribution and fluctuation of current and chlorinity in the estuary of Kiso-Sansen. (2) In japan. Spr. m. engl. Abstr. [Auch: Coll. Repr. Coll. mar. Sci. Tokai Univ. 3, 1967–68. Contr. B No. 28. S. 187–216.]Google Scholar
  35. Schr. Geogr. Inst. Univ. Kiel. 30, 1969. S. 174–184: Schwenke H., Ulrich, J., Die Kieler Bucht. (Schiffs-exkursion B 2).—Schr. Geogr. Inst. Univ. Kiel. 30, 1969. S. 311–325: Graeber, W., Landgewinnung und Küstenschutz in den See- und Elbmarschen. (Exkursion E 1).—Schr. Geogr. Inst. Univ. Kiel. 30, 1969. S. 326–330: Muuss, U., Gröde und Habel — zwei Halligen im nordfriesischen Wattenmeer.Google Scholar
  36. Spec. sci. Rep.-Fish. US Fish Wildl. Serv. No. 610, 1970. III, 14 S. m. Fig. u. Tab. Clark, S. M., Snyder, G. R., Limnological study of lower Columbia River, 1967–68.Google Scholar
  37. Studi trent. Sci. natur. (A), 46, 1969.No. 1, S. 11–29: Brambati, A., Caratteristiche sedimentologiche dei depositi sabbiosi dei corsi d'acqua tributari dell' Adriatico settentrionale tra Venezia e Trieste e loro relazioni con la linea delle risorgive. [In ital. Spr. m. engl. Abstr.]Google Scholar
  38. Téthys. 1, 1969.No. 4, S. 1147–1166: Blanc, J. J., Recherches de géodynamique littorale appliquée à la plage du Prado (Marseille).Google Scholar
  39. Voprosy biookeanografii. Kiev. 1967. S. 8–13: Bol'šakova, V. S., [Ausbreitung von Flußwassermassen in einem gezeitenlosen Meer.]—Voprosy biookeanografii. Kiev. 1967. S. 22–30: Zac, V. I., [Ozeanographische Aspekte zum Problem der Zuleitung von Abwässern in die Küstenzone des Schwarzen Meeres.] [Jeweils in russ. Spr.]Google Scholar
  40. Wasserwirtsch., Stuttg.1970. No.3, S. 85–92: Sindern, J., Rohde, H., Zur Vorgeschichte der Abdämmung der Eider in der Linie Hundeknöll — Vollerwiek. [Auch: Mitt.-Bl. Bundesanst. Wasserb., Karlsruhe. No. 30, 1970. S. 41–50.]Google Scholar
  41. Z. Geomorph. Suppl. Bd7, 1968: Küstengeomorphologie. S. 56–84: Dionne, J.-C., Morphologie et sédimentologie glacielles, littoral sud du Saint-Laurent. [Mit dt. u. engl. Abstr.]Google Scholar

Marine geology UDC 551.35

  1. Abh. 1. Geogr. Inst. Fr. Univ. Berlin. N. F., 13, 1968. S. 55–68: Aario, L., Landhebung und Eisisostasie in Finnland.Google Scholar
  2. Boll. Geofis. teor. appl. Vol. 13, No. 47, 1970. S. 187–207: Caputo, M., Pieri, L., Unguendoli, M., Geomagnetic investigation of the subsidence in the Po Delta.Google Scholar
  3. Bol. Serv. Hidrogr. nav., B. Aires. 6, 1969.No. 3, S. 257–263: Codignotto, J. O., Nota acerca de algunos aspectos geológicos de la costa patagónica comprendida entre Punta Loyola y Cabo Virgenes. [in span. Spr. m. engl. Abstr.]Google Scholar
  4. Bull. Amer. Assoc. Petrol. Geol. 54, 1970.No. 9, S. 1746–1747: Andrews, J., Hsü, K. J., Stratigraphic Commission. Note 38 — A recommendation to the American Commission on Stratigraphic Nomenclature concerning nomenclatural problems of submarine formations. [Auch: Contr. Hawaii Inst. Geophys. No. 332.]Google Scholar
  5. Bull. Geogr. Surv. Inst., Tokyo. 15,P. 1,1969. S. 1–67: Hayashi, T., A study on the vertical movements of the earth's crust by means of the precise leveling.Google Scholar
  6. Coll. Repr. Oregon State Univ. Dep. Oceanogr. 7, 1968. S. 519–521: bostrom, R. C., Couch, R. W., Rasmussen, N. H., An observation program on level changes and the incidence of seismicity in the Puget Sound area. [Auch: Trend Engng. 20(2), S. 18–20; Contr. Earthq. Engng Group, Univ, Wash. No. 1.]Google Scholar
  7. Deep-Sea Res. 17, 1970.No. 5, S. 917–922: Corey, J. C., Hayes, D. W., Determination of density and water content of marine sediment in an unextruded core using fast neutron and gamma ray attenuation.Google Scholar
  8. Dokl. Akad. Nauk. SSSR. 194, 1970.No. 1, S. 187–190: Shuiskii, Iu. D., Boldyrev, V. L., Kochetkov, B. V., (On conditions and peculiarities of the coastalmarine placer formation in the eastern part of the Baltic Sea.)—Dokl. Akad. Nauk. SSSR. 195, 1970.No. 2, S. 429–430: Milashin, A. P., (The relationship between the depth of consolidated crust roof and the depth of Mokhorovichich discontinuity in the seas and oceans.) [Jeweils in russ. Spr.]Google Scholar
  9. Earth planet. Sci. Letters. 4, 1968. S. 17–21: Goldberg, E. D., Ionium thorium geochronologies. [Auch: Contr. Scripps Instn Oceanogr. 38, P. 2, 1968. No. 2408.]—Earth planet. Sci. Letters. 8, 1970. S. 143–148: Bender, M. L., Ku, T.-L., Broecker, W. S., Accumulation rates of manganese in pelagic sediments and nodules. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1451.]Google Scholar
  10. Geogr. Z. Beih.: Erdkdl. Wiss. H. 22, 1969. 69 S. m. Abb., 1 Kt. Hurtig, T., Zum letztglazialen Abschmelzmechanismus im Raume des Baltischen Meeres.Google Scholar
  11. Geophys. R. R. astr. Soc. 20, 1970.No. 2, S. 233–237: Al-Shaikh, Z. D., The geological structure of part of the Central Irish Sea.Google Scholar
  12. J. geol. Soc. Jap. 74, 1968.No. 7, S. 363–370: Hoshino, M., On sedimentation of marine pliocene series. [In japan. Spr. m. engl. Abstr.] [Auch: Coll. Repr. Coll. mar. Sci. Tokai Univ. 3, 1967–68. Contr. B No. 44.]Google Scholar
  13. J. Geol., Chicago. 75, 1967.No. 4, S. 488–496: Fischer, A. G., Garrison, R. E., Carbonate lithification on the sea floor.Google Scholar
  14. J. geophys. Res. 75, 1970.No. 23, S. 4423–4446: Hamilton, E. L., Sound velocity and related properties of marine sediments, North Pacific.Google Scholar
  15. J. sediment. Petrol. 1968.No. 3, S. 229–231: Seed, D. P., The analysis of the clay content of some glauconitic oceanic sediments. [Auch: Coll. Repr. N. Z. oceanogr. Inst. 1969. Contr. No. 245.]—J. sediment. Petrol. 1968.No. 4, S. 1065–1078: Marlowe, J. I., Unconsolidated marine sediments in Baffin Bay. [Auch: Coll. Contr. Bedford Inst. Vol. 1, 1968. Contr. No. 106.]Google Scholar
  16. Mar. Geol. 9, 1970.No. 2, S. M1-M5: Bartolini, C., Gehin, C. E., Evidence of sedimentation by gravityassisted bottom currents in the Mediterranean Sea.—Mar. Geol. 9, 1970.No. 3, S. 215–223: Keller, G. H., Bennett, R. H., Variations in the mass physical properties of selected submarine sediments.Google Scholar
  17. Marit. Sediments. 4, 1968.No. 3, S. 108–112: Ramsay, A. T. S., A preliminary study of some Barbados Ridge cores. [Auch: Publ. School environm. Sci. Univ. East Anglia No. 23.]Google Scholar
  18. Nature, Lond. Vol.227, No. 5262, 1970. S. 1013–1017: Vine, F. J., The Geophysical Year.—Nature, Lond. Vol. 227, No. 5262, 1970. S. 1041: Boström, K., Geochemical evidence for ocean floorspreading in South Atlantic Ocean.—Nature, Lond. Vol. 228, No. 5267. 1970. S. 150–151: Jongsma, D., Eustatic sea level changes in the Arafura Sea.—Nature, Lond. Vol. 228, No. 5272, 1970. S. 657–659: Valentine, J. W., Moores, E. M., Plate-tectonic regulation of faunal diversity and sea level: a model.Google Scholar
  19. N. Z. J. Geol. Geophys. 13, 1970.No. 2, S. 364–369: Woodward, D. J., Interpretation of gravity and magnetic anomalies at Hokianga, Northland.Google Scholar
  20. Oceanus. 15, 1970.No. 4, S. 11–15: Degens, E. T., Watson, S. W., Remsen, C. C., From meter to centimeter to micron and finally to Ångstrom units.—Oceanus. 15, 1970.No. 4, S. 16–19: Ross, D. A., Uchupi, E., Bowin, C. O., Geophysical studies in the Black Sea. no refs.—Oceanus. 15, 1970.No. 4, S. 26–29: Ross, D. A., Degens, E. T., MacIlvane, J., Recent sediments of the Black Sea. no refs.Google Scholar
  21. Okeanologija. 10, 1970.No. 5, S. 837–846: Govberg, L. I., (Distribution of molluscs in Holocene sediments from the White Sea.) [In russ. Spr. m. engl. Abstr.]Google Scholar
  22. Ore Bin. 30, 1968.No. 2, S. 21–31: Emilia, D. A., Berg, J. W., Bales, W. E., Oceanic extension of coastal volcanics: northwestern Oregon. [Auch: Coll. Repr. Regon State Univ. Dep. Oceanogr. 7, 1968. S. 562–571.]Google Scholar
  23. Palaeography, Palaeoclimatol., Palaeoecol. 3, 1967. S. 289–298: Cullen, D. J., Submarine evidence from New Zealand of a rapid rise in sea level about 11,000 years B. P. [Auch: Coll. Repr. N. Z. oceanogr. Inst. 1968 (1969). Contr. No. 211.]Google Scholar
  24. Rep. Fish. Bd Sweden, Hydrogr. No.82, 1965. S. 365–384: Brand, G., Hageman, B. P., Jelgersma, S., Die lithostratigraphische Unterteilung des marinen Holozäns an der Nordseeküste.Google Scholar
  25. Rev. Trav. Inst. Pêches marit. 34, 1970.Fasc. 2, S. 233–256: Longère, P., Dorel, C., Etude des sédiments meubles de la vasière de la Gironde et des régions avoisinantes.Google Scholar
  26. Téthys. 2, 1970.No. 1, S. 267–296: Poizat, C., Hydrodynamisme et sédimentation dans le golfe de Gabès (Tunisie). [In franz. Spr. m. dt. u. engl. Abstr.]Google Scholar

Shelf geology UDC 551.351

  1. Coll. Repr. Oregon State Univ. Dep. Oceanogr. 7, 1968. S 432–436: Byrne, J. V., Panshin, D. A., Continenta shelf sediments off Oregon. [Auch: Sea Grant Publ Coop. Extension Serv., Oregon State Univ. Oct. 1968.Google Scholar
  2. Marit. Sediments. 4, 1968.No. 1, S. 22–31: Bartlett G. A., Mid-Tertiary stratigraphy of the continenta slope off Nova scotia. [Auch: Coll. Contr. Bedford Inst Vol. 1, 1968. Contr. No. 124.]Google Scholar
  3. Spec. Pap. Geol. Soc. Amer. No.106, 1968. S. 75–108: McCave, I. N., Shallow and marginal marine sediments associated with the Catskill complex in the Middle Devonian of New York. [Auch: Publ. School environm. Sci. Univ. East Anglia No. 25.]Google Scholar
  4. Z. Geomorph. Suppl. Bd.7, 1968: Küstengeomorphologie. S. 24–55: Hails, J. R., Hoyt, J. H., Barrier development on submerged coasts: problems of sea-level changes from a study of the Atlantic coastal plain of Georgia, U. S. A. and parts of the East Australian coast. —Z. geomorph. Suppl. Bd. 7, 1968: Küstengeomorphologie. S. 95–113: Cooray, P. G., The geomorphology of part of the north-western coastal plain of Ceylon.Google Scholar

Deep-sea geology UDC 551.352

  1. Deep-Sea Res. 15, 1968. S. 397–400: Clarke, R. H., Burrow frequency in abyssal sediments. [Auch: Contr. Lamont geol. Obs. 1015; Contr. mar. Sci., Menai Bridge. 1968–69.]—Deep-Sea Res. 17, 1970.No. 1, S. 125–140: Kennett, J. P., Pleistocene paleoclimates and foraminiferal biostratigraphy in subantarctic deep-sea cores.Google Scholar
  2. Geol. Mijnb. 48, 1969.No. 3, S. 349–361: Olausson, E., On the Würm-Flandrian boundary in deep-sea cores.Google Scholar
  3. Mar. Geol. 9, 1970.No. 4, S. 287–294: Hekinian, R., Gabbro and pyroxenite from a deep-sea core in the Indian Ocean.Google Scholar
  4. Okeanologija. 10, 1970.No. 4, S. 681–685: Belyaeva, N. V., (Distribution of planktonic foraminiferal tests in sediments from the rift zone of the Indian Ocean.) [In russ. Spr. m. engl. Abstr.]Google Scholar
  5. Palaeogeogr. Palaeoclim. Palaeoecology. 6, 1969. S. 87–103: Olausson, E., Olsson, I. U., Varve stratigraphy in a core from the Gulf of Aden.Google Scholar
  6. Proc. Conf. civ. Engng Oceans. San Francisco, Calif., Sept. 6–8, 1967 (1968). S. 391–417: Keller, G. H., Shear strength and other physical properties of sediments from some ocean basins. [Auch: Coll. Repr. Atlant.-Pacif. oceanogr. Lab. 1968 (1969). 23.]Google Scholar
  7. Proc. Int. geol. Congr. 23, Vol. 8, 1968. S. 33–50: Keller, G. H., Bennett, R. H., Mass physical properties of submarine sediments in the Atlantic and Pacific basins. [Auch: Coll. Repr. Atlant.-Pacif. oceanogr. Lab. 1968 (1969). 24.]Google Scholar
  8. Radiation dosimetry, correlation and dating of calcareous deep-sea cores. Principal investigator: M. H. Johnson. Hanover, New Hampshire: Dartmouth College, Earth Sciences Dept. 1969. 103 S. [Darin:] Bothner, M. H., Johnson, N. M., Natural thermoluminescent dosimetry in late Pleistocene pelagic sediments. Hanover, N. H., 1969. 30. — Bothner, M. H.: The radiation dosimetry for the natural thermoluminescence of carbonate deep-sea cores. Hanover, N. H., Dartmouth College, Diss. 1968. 60 S.Google Scholar
  9. Rezul't. Issl. Meždun. geofiz. Proekt., okeanol. Sb., Mosk. No.20, 1970. S. 22–41: Melnik, V. I., (Geological researches in the Gulf of Mexico and the Caribbean Sea.) [In russ. Spr. m. engl. Abstr.]Google Scholar
  10. Téthys. 2, 1970.No. 1, S. 227–266: Pastouret, L., Etude sédimentologique et paléoclimatique de carottes prélevées en Méditerranée orientale. Région de Karpathos-Rhodes.Google Scholar

Gravimetry UDC 551.35:550.31

  1. Bull. Geol. Soc. Amer. 81, 1970. S. 1107–1122: Woodside, J., Bowin, C., Gravity anomalies and inferred crustal structure in the eastern Mediterranean Sea.Google Scholar
  2. Cartes mond. Anomalies Bouguer: Laghouat, Rabat, 1969–1970 (1970), 8 S. Text, 2 Kt.Google Scholar
  3. Earth planet. Sci. Letters. 8, 1970. S. 205–213: Day, G. A., Williams, C. A., Gravity compilation in the N. E. Atlantic and interpretation of gravity in the Celtic Sea.Google Scholar
  4. Géol. Aires Océan, 1, 1970. XI. S. 61–114: Morelli, C., Mesures gravimétriques en mer.Google Scholar
  5. Geophysics.35, 1970.No. 5, S. 849–861: Wold, R. J., Woodzick, T. L., Ostenso, N. A., Structure of the Beaufort Sea continental margin.Google Scholar
  6. Mer, Tokyo. 8, 1970.No. 1, S. 35–40: Tomoda, Y., Pesanteur à l'océan Pacifique. [In japan. Spr. m. franz. Abstr.]Google Scholar
  7. Nature, Lond. Vol. 228,No. 5268,1970. S. 213–214: Gravity and global tectonics.Google Scholar
  8. N. Z. J. Geol. Geophys. 13, 1970.No. 1, S. 184–198: Robertson, E. I., Additional gravity surveys in the Cook Islands.Google Scholar
  9. Norges geol. Unders. Nr.266, 1970. S. 37–48: Lind, G., Saxov, S., Some geophysical proiiles in Østfold.Google Scholar
  10. Publ. Dom. Obs., Ottawa. 39, 1970.No. 7, S. 179–209, 4 Kt.: Berkhout, A. W. J., The gravity anomaly field of Prince of Wales, Someset, and northern Baffin Islands, District of Franklin, Northwest Territories.Google Scholar
  11. Publ. Geod. Netherl. geod. Commiss. N. S.,3,1969.No. 3, 77 S. m. Abb. u. Tab., 4 Taf. Gravity surveys in Surinam and the Netherlands Leeward Islands area 1958–1965. Veldkamp, J., [Ed.] P. 1: Boeckel, J. van, Regional gravity survey of northern Surinam. P. 2: Lagaay, R. A., Gravity anomalies in the Netherlands Leeward Islands area.Google Scholar
  12. Umschau. 70,1970.H. 25, S. 827–828: Isostasie: Die Erdoberfläche hebt und senkt sich.Google Scholar

Seismology UDC 551.35:550.34

  1. Bull. Geol. Soc. Amer. 81, 1970. March, S. 649–666: Grim, M. S., Drake, C. L., Heirtzler, J. R., Sub-bottom study of Long Island Sound. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1449.]Google Scholar
  2. Bull. Inst. océanogr. Monaco. Vol.67,No. 1386, 1969. 52 S., 1 Kt.: Fahlquist, D. A., Hersey, J. B., Seismic refraction measurements in the western Mediterranean Sea. [Auch: Contr. Woods Hole oceanogr. Instn No. 1955.]Google Scholar
  3. Can. J. Earth Sci. 7, 1970.No. 2, S. 199–214: Mayhew, M. A., Drake, C. L., Nafe, J. E., Marine geophysical measurements on the continental margins of the Labrador Sea. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1442.]Google Scholar
  4. Deep-Sea Res. 17, 1970.No. 5, S. 913–915: Morris, G. B., Picking first energy on marine seismic refraction records.Google Scholar
  5. Dokl. Akad. Nauk SSSR. 195, 1970.No. 1, S. 85–88: Magnitskii, V. A., Neprochnov, Iu. P., Rykunov, L. N., (Velocity gradients of elastic waves and temperature gradients beneath the Mochorovichich boundary <Black Sea, Indian Ocean>.)—Dokl. Akad. Nauk SSSR. 195, 1970.No. 2, s. 337–340: Snegovskii, S. S., (Investigations in the region of the South Kuril Islands carried out by the reflected wave method in 1968.) [Jeweils in russ. Spr.]Google Scholar
  6. Earth planet. Sci. Letters. 7, 1969.No. 2, S. 169–177: Dash, B. P., Bosshard, E., Seismic and gravity investigations around the western Canary Islands. [FS “Meteor”, 1967.]Google Scholar
  7. Environm. Res. Pap. Air Force Cambr. Res. Lab. No. 325, 1970. Getr. Pag. Crowley, F. A., Ossing, H. A., Hogan, J. G., An analysis of the vibration environment at Northrop's Norwood, Mass. Test facility with application to gyro testing.Google Scholar
  8. Géol. Aires océan. 1, 1970. S. 115–190: Muraour, P., Prospection sismique en mer. In franz. Spr.Google Scholar
  9. J. Geomagn. Geoelectr. 22, 1970.No. 1-2, S. 53–70: Kanamori, H., Seismological evidence for heterogeneity of the mantle.Google Scholar
  10. J. geophys. Res. 74, 1969.No. 22, S. 5301–5310: Hatherton, T., Dickinson, W. R., The relationship between andesitic volcanism and seismicity in Indonesia, the Lesser Antilles, and other island arcs.—J. geophys. Res. 75, 1970.No. 26, S. 5093–5111: Houtz, R., Ewing, J., Buhl, P., Seismic data from sonobuoy stations in the northern and equatorial Pacific. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1551.]Google Scholar
  11. Oceanol. international. 5, 1970.No. 8, S. 22–24: Edgerton, H. E., Seismic profiling with sonar.Google Scholar
  12. Okeanologija. 10, 1970.No. 5, S. 828–836: El'nikov, I. N., Lunarsky, G. N., (Seismic studies in the Romanche Trench and Guinean Gulf areas on the first cruise of the R/V “Akademik Kurchatov”.) [In russ. Spr. m. engl. Abstr.]Google Scholar
  13. Pap. Geol. Surv. Can. No. 68-53, 1968. S. 137–143: Grant, A. C., Some aspects of the bedrock geology of Hudson Bay as interpreted from continuous seismic reflection profiles. [Auch: Coll. Contr. Bedford Inst. Vol. 1, 1968. Contr. No. 119.]Google Scholar
  14. Physics Earth planet. Interiors. 2, 1970.No. 3, S. 350–362: Oliver, J., Structure and evolution of the mobile seismic belts. [Auch: Contr. Lamont-Doherty geol. Obs., No. 1375.]Google Scholar
  15. Rev. Geophys. Space Phys. 8, 1970.No. 3, S. 501–516: Harkrider, D. G., Flinn, E. A., Effect of crustal structure on Rayleigh waves generated by atmospheric explosions.Google Scholar
  16. Techn. Rep. Woods Hole oceanogr. Instn Ref. No. 67-64, 1967. 13 S. m. Fig. Prada, K. E., The 200 element streamer an array for seismic profiling.Google Scholar
  17. Trudy Inst. Okeanol. 87, 1970. S. 5–28: Nepročnov, Ju. P., [Über seismische Untersuchungsmethoden auf ozeanographischen Expeditionen.]—Trudy Inst. Okeanol. 87, 1970. S. 29–41: Moskalenko, V. N., [Über die Energie kurzer Wellen in geschichteten Medien.]—Trudy Inst. Okeanol. 87, 1970. S. 69–75: Orlenok, V. V., [Über die Bestimmung des effektiven Dämpfungskoeffizienten von seismischen Wellen in ozeanischen Ablagerungen.]—Trudy Inst. Okeanol. 87, 1970. S. 86–98: Lunarskij, G. N., [Ein mikroprofilierendes seismisches System.] [Jeweils in russ. Spr.]Google Scholar
  18. Z. angew. Geol. 14, 1968.H. 12, S. 617–630: Militzer, H., Porstendorfer, G., Stand und entwicklungstendenzen geophysikalischer Untersuchungen für die Tiefenerkundung. [Auch: Veröff. Sektion Geowiss. Bergakad. Freiberg, Lehrstuhl Erkundungsgeophys. u. Ingenieur- u. Montangeophys. No. 1.]Google Scholar
  19. Z. Geophys. 36, 1970.H. 5, S. 549–567: Kind, R., Auswertung seeseismischer Messungen mit einer digitalen Methode unter anwendung der Theorie der Schallwellenausbreitung im Flachwasser.Google Scholar

Volcanology UDC 551.35:551.21

  1. Surtsey Res. Progr. Rep. 5: 1968 field season. 1970. S. 83–89. Alexandersson, T., The sedimentary xenoliths from Surtsey: marine sediments lithified on the seafloor. A preliminary report.—Surtsey Res. Progr. Rep. 5: 1968 field season. 1970. S. 95–112: Norrman, J. O., Trends in postvolcanic development of Surtsey Island. Progress report on geomorphological activities in 1968.Google Scholar

Continents UDC 551.41

  1. Acta hydrophys. 15, 1970.H. 2, S. 93–103: Brauckhoff, K., Der morphologische Schorreaufbau der Flachuferküste Ostrügens und seine Gesetzmäßigkeiten.Google Scholar
  2. Geophys. Fluid Dynam. 1, 1970.No. 1 u. 2, S. 123–142: Howard, L. N., Malkus, W. V. R., Whitehead, J. A., Self-convection of floating heat sources: a model for continental drift.Google Scholar
  3. J. geophys. Res. 75, 1970.No. 23, S. 4475–4477: Gough, D. I., Did an ice cap break Gondwanaland?—J. geophys. Res. 75, 1970.No. 26,Google Scholar
  4. Nature, Lond. Vol.228,No. 5269,1970. S. 320: Dating the fit.—Nature, Lond. Vol. 228, No. 5274, 1970. S. 810–811: Did ice split Gondwanaland? —Nature, Lond. Vol. 228, No. 5274, 1970. S. 811–812: Grand reconstruction.Google Scholar
  5. Z. Geomorph. Suppl. Bd 7, 1968. VII, 199 S. m. Abb. u. Tab., 1 Taf. Küstengeomorphologie. Schriftl.: K. Kaiser. [Darin:]—Z. Geomorph. Suppl. Bd 7, 1968. VII, S. 114–132: Swan, S. B. St. C., Coastal classification with reference to the east coast of Malaya. —Z. Geomorph. Suppl. Bd 7, 1968. VII, S. 133–154: Alexander, C. S., The marine terraces of the northeast coast of Tanganyika.—Z. Geomorph. Suppl. Bd 7, 1968. VII, S. 155–199: Maud, R. R., Quaternary geomorphology and soil formation in coastal Natal.Google Scholar

Islands UDC 551.42

  1. Boll. Soc. geogr. ital. Ser. 9, 11,Fasc. No 1-3,1970. S. 131–135: Melelli, A., L'isola di Piteairn. [In ital. Spr.]Google Scholar
  2. Humanismus u. Technik. 12, 1968.H. 3 5 ungez S. Krüger, K., Richter, H., Großprojekt Helgoland in europäischer Sicht.Google Scholar
  3. Mar. Geol. 9, 1970.No. 4, S. 225–240: Konishi, K., Schlanger, S. O., Omura, A., Neotectonic rates in the central Ryukyu Islands derived from 230Th coral ages.Google Scholar
  4. Mber. Dt. Akad. Wiss. Berlin. 12, 1970.H. 2–3, S. 161–168: Sager, G., Adam, U., Meeresfernen und Formzahlen von Inseln der Ostsee und Nordsee.Google Scholar
  5. Nature, Lond. Vol. 228, No. 5269, 1970. S. 352: Gjelsvik, T., Volcano on Jan Mayen alive again.Google Scholar
  6. Raumforsch. u. Raumordnung. 26, 1968.H. 6, S. 241–261: Krüger, K., Richter, H., Großprojekt Helgoland: Plan und Möglichkeit.Google Scholar
  7. Schr. Geogr. Inst. Univ. Kiel. 30, 1969. S. 331–339: Wenk, H.-G., Die Insel Sylt. [Exkursion E 3).—Schr. Geogr. Inst. Univ. Kiel. 30, 1969. S. 340–344: Guenther, E. W., Die Insel Helgoland: Bau und Formen. (Exkursion E 4).Google Scholar
  8. Surtsey Res. Progr. Rep. 5: 1968 field season 1970. S. 90–94: Friedman, J. D., Williams, R. S., Comparison of 1968 and 1966 infrared imagery of Surtsey.Google Scholar
  9. Vorbericht zum Großprojekt Helgoland. Gemeins. Idee u. Projektbearb.: K. Krüger u. H. Richter. Arbeitsgemeinschat Großprojekt Helgoland. (Berlin: Krüger u. Richter 1966.) 27 S. m. Abb.Google Scholar

Geomagnetism Geomagnetic technique (methods, equipment, observatories) UDC 550.380

  1. Boll. Geofis. teor. appl. Vol. 12, No. 45-46, 1970. S. 123–136: Naudy, H., Automatic contouring of the total field and the vertical gradient.—Boll. Geofis. teor. appl. Vol. 12, No. 45-46, 1970. S. 137–147: Otala, M., A new experimental gradiometer for aeromagnetic surveying.Google Scholar
  2. Budown. Okretowe. 15, 1970.No. 7-8, S. 257–259: Rymszewicz, S., (Standardization of magnetic compasses.) [In poln. Spr. m. engl. Abstr.]Google Scholar
  3. Bull. Nat. geophys. Res. Inst., Hyderabad. 7, 1969.No. 4, S. 133–139: Gupta Sarma, D., Varadarajan, G., Prasad, T. R. M., A proton precession magnetometer and recorder for off-shore use. [Auch: Contr. NGRI, Hyderabad No. 70-162.]—Bull. Nat. geophys. Res. Inst., Hyderabad. 7, 1969.No. 4, S. 141–144: Gupta Sarma, D., Chakravarthy, M. S., Varadarajan, G., A fluxgate magnetometer for measuring weak fields in the laboratory. [Auch: Contr. NGRI, Hyderabad No. 70-163.]Google Scholar
  4. Can. J. Physics. 35, 1957. S. 1387–1394: Serson, P. H., An electrical recording magnetometer. [Auch: Contr. Dom. Obs., Ottawa. Vol. 3, No. 14.]Google Scholar
  5. Environm. Res. Pap. Air Force Cambr. Res. Lab. No. 327, 1970. Getr. Pag. Whalen, J. A., Auroral oval plotter and nomograph for determining corrected geomagnetic local time, latitude, and longitude for high latitudes in the northern hemisphere.Google Scholar
  6. Geofys. Medd. Danske met. Inst. No. R-12, 1970. 66 S. m. Fig. Primdahl, F., A ferrite core fluxgate magnetometer. —Geofys. Medd. Danske met. Inst. No. R-17, 1970. 21 S. m. Fig. Primdahl, F., Temperature compensation of fluxgate magnetometers.Google Scholar
  7. Geomagn. i Aeronomija. 10, 1970.No. 5, S. 945–946: Bobrov, V. N., (A quartz magnetometer for measuring declination and a horizontal component.)—Geomagn. i Aeronomija. 10, 1970.No. 5, S. 946–948: Bobrov, V. N., (A field magnetic variation station for registering T and Z variations.) [Jeweils in russ. Spr.]Google Scholar
  8. Gerlands Beitr. Geophys. 79, 1970.H. 4, S. 265–278: Walzer, U., Ein magnetisch astasiertes Vertikalseismometer.Google Scholar
  9. J. scient. Instrum. 41, 1964.No. 9, S. 544–547: Usher, M. J., Stuart, W. F., Hall, S. H., A self-oscillating rubidium vapour magnetometer for geomagnetic measurements.Google Scholar
  10. Oil Gas J. 1963. Aug. 19, S. 136–138, S. 140–144: Biggest magnetometer survey spans 144,000 sq. miles. no refs.Google Scholar
  11. Rezul't. Issl. Meždun. geofiz. Proekt., geomagn. Issl. No.12, 1970. S. 34–42: Mjuchkjurja, V. I. (A compensator for magnetic noise produced by electric trains.) [In russ. Spr. m. engl. Abstr.]Google Scholar
  12. Techn. Bull. US Coast geod. Survey. No. 31, 1966. 35 S. m. Fig. Alldredge, L. R., Saldukas, I., The Automatic Standard Magnetic Observatory.Google Scholar

Surface features of the steady field UDC 550.382

  1. Acta geophys. polon. 18, 1970,No. 2, S. 171–183: Jeleńska, M., Effect of uniaxial compression on magnetization of rocks.Google Scholar
  2. Boll. Geofis. teor. appl. Vol. 12, No. 45-46.1970. S. 3–20: Al-Chalabi, M., Interpretation of two-dimensional magnetic profiles by non-linear optimisation.—Boll. Geofis. teor. appl. Vol. 12, No. 45-46. 1970. S. 45–59: Bosum, W., Examples of basement mapping by airborne magnetic surveys.—Boll. Geofis. teor. appl. Vol. 12, No. 45-46. 1970. S. 60–73: Hahn, A., Weber, C., Magnetic basement mapping on the West African Shield in Dahomey.—Boll. Geofis. teor. appl. Vol. 12, No. 45-46. 1970. S. 74–96: Lantto, V., Paarma, H., Tauriainen, A., The determination and use of the vertical gradient in magnetic mapping.—Boll. Geofis. teor. appl. Vol. 12, No. 45-46. 1970. S. 97–117: Lehmann, H. J., Examples for the separation of fields of magnetic sources in different depths by the harmonic analysis method.—Boll. Geofis. teor. appl. Vol. 12, No. 45-46. 1970. S. 148–157: Parasnis, D. S., Magnetic basement mapping in conjunction with geoelectric mapping.—Boll. Geofis. teor. appl. Vol. 12, No. 45-46. 1970. S. 158–182: Wilson, C. D. V., The use of the Poisson relationship for separating the anomalies due to neighbouring bodies, and for recognizing inhomogeneities and structural deformation.Google Scholar
  3. Can. J. Earth Sci. 7, 1970.No. 4, S. 1086–1092: Park, J. K., Acid leaching of red beds, and its application to the relative stability of the red and black magnetic components. [Auch: Contr. Dom. Obs., Ottawa No. 296.]Google Scholar
  4. Earth planet. Sci. Letters. 7, 1969. S. 194–200: Emilia, D. A., Bodvarsson, G., Numerical methods in the direct interpretation of marine magnetic anomalies.Google Scholar
  5. Geophs. J. R. astr. Soc. 20, 1970.No. 2, S. 149–157: Bott, M. H. P., Hutton, M. A., A matrix method for interpreting oceanic magnetic anomalies.Google Scholar
  6. Geophysics. 35, 1970.No. 3, S. 504–513: Rao, B. S. R., Prakasa Rao, T. K. S., Kutumba Sastri, M. V. S., Magnetic interpretation of semi-infinite sheet-like bodies.—Geophysics. 35, 1970.No. 5, S. 802–830: Koulomzine, T., Lamontagne, Y., Nadeau, A., New methods for the direct interpretation of magnetic anomalies caused by inclined dikes of infinite length.—Geophysics. 35, 1970.No. 5, S. 831–848: McGrath, P. H., Hood, P. J., The dipping dike case: a computer curve-matching method of magnetic interpretation.Google Scholar
  7. Izv. Akad. Nauk SSSR, Fiz. Zemli. 1970.No.8, S. 72–79: Sholpo, L. E., (Some correlations between the curves of normally magnetized rocks under different initial conditions.)—Izv. Akad. Nauk SSSR, Fiz. Zemli. 1970.No. 9, S. 102–106: Shashkanov, V. A., Metallova, V. V., (On a variety of rocks magnetization.] —Izv. Akad. Nauk SSSR, Fiz. Zemli. 1970.No. 10, S. 59–70: Zhiljaeva, V. A., Kolesnikov, L. V., Petrova, G. N., (On the partial selfcirculation of thermoresidual magnetization of the natural ferromagnetic of the series FeFe2O4−Mg2TiO4.) [Jeweils in russ. Spr.]Google Scholar
  8. J. Geomagn. Geoelectr. 22, 1970.No. 1-2, S. 131–149: Untiedt, J., Conductivity anomalies in central and southern Europe.Google Scholar
  9. J. geophys. Res. 75, 1970.No. 20, S. 3955–3968: Vogt, P. R., Anderson, C. N., Bracey, D. R., North Atlantic magnetic smooth zones.—J. geophys. Res. 75, 1970.No. 20, S. 4000–4006: Athavale, R. N., Paleomagnetism and tectonics of a Deccan trap lava seqence at Amarkantak India. [Auch: Contr. Nat. geophys. Res. Inst. Hyderabad. No. 70-177.]Google Scholar
  10. Nature, Lond. Vol.228,No. 5266,1970. S. 20: Can sediments be used?Google Scholar
  11. Physics Earth planet. Interiors. 2, 1970.No. 5, S. 373–377: Ivanov, M. M., Karasik, A. M., Simonenko, T. N., Anomalous magnetic fields over the world's oceans.Google Scholar
  12. Scient. Amer. 203, 1961.Okt. S. 146–156: Raff, A. D., The magnetism of the ocean floor.Google Scholar
  13. Z. Geophys. 36, 1970.H. 3, S. 267–286: Schult, A., Natural magnetization of deep core samples of basaltic rocks from Brazil.—Z. Geophys. 36, 1970.H. 5, S. 569–588: Storetvedt, K. M., Petersen, N., On chemical magnetization in some Permian lava flows of southern Norway.Google Scholar

Underlying plan UDC 550.383

  1. Ann. Géophys. 26, 1970.No. 2, S. 397–399: Mansurov, S. M., Mansurova, L. G., The relationship between the magnetic fields in space and the earth's surface.Google Scholar
  2. Boll. Geofis. teor. appl. Vol.12, No. 45-46, 1970. S. 97–117: Lehmann, H. J., Examples for the separation of fields of magnetic sources in different depths by the harmonic analysis method.—Boll. Geofis. teor. appl. Vol. 12, No. 45-46, 1970. S. 118–122: Lehmann, H. J., The determination of the non-potential field part of a magnetic map by means of the harmonic analysis method.Google Scholar
  3. Gamma. 14, 1970. 111 S. m. Abb. Krüger, B., Ermittlung des erdmagnetischen Referenzfeldes für Raketenmessungen in Kiruna.Google Scholar
  4. Geomagn. i Aeronomija. 10, 1970.No. 5, S. 941–942: Sochelnikov, V. V., Koval, T. P., (The extimation of the influence of the final sizes of the current ring on the results of the depth sounding with the usage of magnetic storms.)—Geomagn. i Aeronomija. 10, 1970.No. 6, S. 982–985: Kotik, D. S., (Refraction and reflection of an Alfven wave on the flat boundary with the account of its transformation into a magnetosound one.)—Geomagn. i Aeronomija. 10, 1970.No. 6, S. 1132–1133: Abdullabekov, K. N., Golovkov, V. P., (To the possibility of the detecting of the seismomagnetic effect in the Near-Tashkent region.) [Jeweils in russ. Spr.]Google Scholar
  5. Geophysics. 35, 1970.No. 5, S. 916–919: Henderson, R. G., On the validity of the use of the upward continuation integral for total magnetic intensity data.—Geophysics. 35, 1970.No. 5, S. 920–926: Robinson, E. S., Upward continuation of total intensity magnetic fields.Google Scholar
  6. Gerlands Beitr. Geophys. 79, 1970.H. 5, S. 327–340: Mundt, W., Zur Frage eines optimalen physikalisch begründeten geomagnetischen Normalfeldes für das Gebiet der DDR und ganz Mitteleuropas. [Auch: Mitt. Zentralinst. Phys. Erde. Nr. 59.]Google Scholar
  7. J. geophys. Res. 75, 1970.No. 28, S. 5634–5636: Montbriand, L. E., A simple method for calculating the local time of corrected geomagnetic midnight.Google Scholar
  8. Nature, Lond. Vol.228, No. 5273, 1970. S. 758–759: Acharya, H. K., Correlations between Earth's gravitational and magnetic field.Google Scholar

Origin and secular change of the field UDC 550.384

  1. Acta techn. Acad. Scient. hung. Ser. geod. geophys. T. 37, Fasc.1–2,1961. S. 212–227: Barta, G., The connection between the eccentricity of the geomagnetic field and the triaxiality of the earth.Google Scholar
  2. Atti del XVIII Convegno annu., Assoc. geofis. ital. 1–2-3–4 ottobre1969 (1970).P. 1, S. 253–260: Carrara, E., Palumbo, A., Valori della declinazione magnetica da lave vesuviane. In ital. Spr. m. engl. Abstr.Google Scholar
  3. Bull. Geol. Soc. Amer. 79, 1968. S. 387–390: Galehouse, J. S., Anisotropy of magnetic susceptibility as a paleocurrent indicator. A test of the method. [Auch: Contr. Scripps Instn Oceanogr. 38, P. 2, 1968. No. 2388.]Google Scholar
  4. Earth planet. Sci. Letters. 1, 1966. S. 341–347: Smith, P. J., Tertiary geomagnetic field reversal in Scotland.—Earth planet. Sci. Letters. 2, 1967. S. 163–173: Dalrymple, G. B., Cox, A., Doell, R. R., Pliocene geomagnetic polarity epochs.—Earth planet. Sci. Letters. 4, 1968. S. 341–349: Watkins, N. D., Short period geomagnetic polarity events in deep-sea sedimentary cores.Google Scholar
  5. ESSA. 5, 1970.No. 4, S. 26–28: Stoner, R. B., The rock's magnetic message.Google Scholar
  6. Geol. Mijnb. 43, 1964.Sept., S. 403–413: Wensink, H., Secular variation of earth magnetism in Plio-Pleistocene baaslts of eastern Iceland.Google Scholar
  7. Geomagn. i Aeronomija. 10, 1970.No. 5, S. 873–877: Pushkov, A. N., [The use of magnetic results for determination of secular variation.)—Geomagn. i Aeronomija. 10, 1970.No. 5, S. 878–882: Burlatzkaya, S. P., Netchaeva, T. B., Petrova, G. N., (Intensity of geomagnetic field for the last 2000 years by the world data.)—Geomagn. i Aeronomija. 10, 1970.No. 5, S. 883–887: Rotshtein, A. Ya., Dzhury, I. G., (The measurement of geomagnetic components from moving platforms.)—Geomagn. i Aeronomija. 10, 1970.No. 5, S. 943–945: Karasik, A. M., Trubyatchinsky, N. N., (Secular variation T in the Drake channel (the southern ocean) for the period of 1962–1968.)—Geomagn. i Aeronomija. 10, 1970.No. 6, S. 1062–1067: Treiman, R., (The three dimensional analysis of the problem of electromagnetic induction of magnetovariational and magnetotelluric sounding.)—Geomagn. i Aeronomija. 10, 1970.No. 6, S. 1068–1074: Adam, N. V., Baranova, T. N., Benkova, N. P., (Variation of the geomagnetic field according to the data on magnetic declination for 1550–1960.) [Jeweils in russ. Spr.]Google Scholar
  8. Geophys. J. R. astr. Soc. 20, 1970.No. 2, S. 127–148: Creer, K. M., Ispir, Y., Palaeomagnetic and rock magnetic studies on Cenozoic basalts from Kyushu, Japan.—Geophys. J. R. astr. Soc. 20, 1970.No. 2, S. 191–205: McElhinny, M. W., Luck, G. R., The Palaeomagnetism of the Antrim Plateau volcanics of northern Australia.—Geophys. J. R. astr. Soc. 20, 1970.No. 3, S. 241–252: Gose, W. A., Palaeomagnetic studies of Miocene ignimbrites from Nevada.—Geophys. J. R. astr. Soc. 20, 1970.No. 3, S. 253–269: Cox, A., Latitude dependence of the angular dispersion of the geomagnetic field.—Geophys. J. R. astr. Soc. 20, 1970.No. 5, S. 417–429: McElhinny, M. W., Notes in progress in geophysics. Palaeomagnetic directions and pole positions-11. Pole numbers 11/1 to 11/90.Google Scholar
  9. J. Geomagn. Geoelectr. 22, 1970.No. 1-2, S. 165–167: Hanuš, V., Krs, M., Proposal for palaeomagnetic research of endogenous processes in eastern and southeastern Africa-in the broader adjacent region of the Rift Valley of eastern Africa.—J. Geomagn. Geoelectr. 22, 1970.No. 1-2, S. 197–211: Heirtlzler, J. R., The paleomagnetic field as inferred from marine magnetic studies. [Auch: Contr. Woods Hole oceanogr. Instn No. 2425.]Google Scholar
  10. J. geophys. Res. 75, 1970.No. 26, S. 4985–4996: Beck, M. E., Paleomagnetism of Keweenawan intrusive rocks, Minnesota.Google Scholar
  11. Nature, Lond. Vol. 227, No. 5261, 1970. S. 930–934: Kennett, J. P., Watkins, N. D., Geomagnetic polarity change, volcanic maxima and faunal extinction in the South Pacific.—Nature, Lond. Vol. 227, No. 5262, 1970. S. 1002: No correlations in the Canaries.—Nature, Lond. Vol. 227, No. 5264, 1970 S. 1190: Permanent non-dipole fields.—Nature, Lond. Vol. 227, No. 5264, 1970. S. 1236–1237: Robinson, E., Lamb, J. L., Preliminary palaeomagnetic data from the Plio-Pleistocene of Jamaica.—Nature, Lond. Vol. 228, No. 5266, 1970. S. 39–41: Crain, I. K., Crain, P. L., New stochastic model for geomagnetic reversals.—Nature, Lond. Vol. 228, No. 5275, 1970. S. 977–979: McElhinny, M. W., Formation of the Indian Ocean.Google Scholar
  12. Physics Earth planet. Interiors. 2, 1970.No. 5, S. 311–317: Nagata, T., Palaeomagnetic data in connection with the evolution of the earth's core.—Physics Earth planet. Interiors. 2, 1970.No. 5, S. 367–372: Khramov, A. N., Horizontal movements in the earth's crust and palaeomagnetism.—Physics Earth planet. Interiors. 2, 1970.No. 5, S. 382–385: Lowes, F. J., Possible evidence on core evolution from geomagnetic dynamo theories.Google Scholar
  13. Pure appl. Geophys. 81, 1970.No. 4, S. 151–162: Márton, P., Szalay-Márton, E., Secular changes, polarity epochs and tectonic movements as indicated by palaeomagnetic studies of Hungarian rock samples.—Pure appl. Geophys. 81, 1970.No. 4, S. 163–176: Márton, P., Secular variation of the geomagnetic virtual dipole field during the last 2000 years as inferred from the spherical harmonic analysis of the available archeomagnetic data.—Pure appl. Geophys. 81, 1970.No. 4, S. 177–191: Mital, G. S., Verma, R. K., Pullaiah, G., Paleomagnetic study of Satyavedu sandstones of cretaceous age from Andhra Pradesh, India. [Auch: Contr. NGRI, Hyderabad No. 70-169.]Google Scholar
  14. Studia geophys. geod. 14, 1970.No. 4, S. 395–401: Siráň, G., Magnetic torque acting on the mantle in a nonstationary geomagnetic field.Google Scholar
  15. Z. Geophys. 36, 1970.H. 3, S. 359–385: Schenk, E., Zur Problematik der Deutung paläomagnetischer Meßergebnisse auf Grund von Untersuchungen an den Basalten des Paläovulkans Vogelsberg in Hessen.Google Scholar

Variations, fluctuations, magnetic storms UDC 550.385

  1. Acta geophys. polon. 18, 1970.No. 1, S. 65–71: Kozłowski, M., Kraiński, W., (The geomagnetic events of January 13–14, 1967, and its spatial scale.) [In poln. Spr. m. engl. Abstr.]Google Scholar
  2. Ann. Géophys. 26, 1970.No.2, S. 299–312: Glangeaud, F., Étude de la propagation de Pc-1 et d'IPDP á partir de mesures au sol.—Ann. Géophys. 26, 1970.No.2, S. 337–340: Sharma, R. P., Rastogi, R. G., Lunar tidal effects in horizontal magnetic field at San Juan.—Ann. Géophys. 26, 1970.No.2, S. 371–381: Kenney, J. F., Knaflich, H. B., Micropulsations: a diagnostic tool.—Ann. Géophys. 26, 1970.No.2, S. 383–388: Feyguin, F. Z., Gokhberg, M. B., Troitskaya, V. A., The determination of some magnetosphere parameters based on data from ground observations of Pc-1 type micropulsations.—Ann. Géophys. 26, 1970.No.2, S. 389–396: Pudovkin, M. I., Raspopov, O. M., Dmitrieva, L. A.,Google Scholar
  3. Atti del XVIII Convegno annu., Assoc. geofis. ital. 1–2-3–4 ottobre1969(1970).P. 1, S. 231–239: palumbo, A., Vittozzi, P., Campi geomagnetici L ed S all'Osservatorio dell'Aquila. In ital. Spr. m. engl. Abstr.Google Scholar
  4. Bull. Earthq. Res. Inst. 48,P. 2,1970. S. 189–203: Rikitake, T., A theory of frequency-dependent effect of an island on geomagnetic variations.Google Scholar
  5. Bull. Scripps Instn Oceanogr. 13, 1970. XI, 165 S. m. Fig. Schmucker, U., Anomalies of geomagnetic variations in the southwestern United States.Google Scholar
  6. Dokl. Akad. Nauk SSSR. 194, 1970.No. 5, S. 1069–1071: Gringauz, K. I., Troitskaia, V. A., Solomatina, E. K., (Relationship between solar wind parameters and steady micropulsation periods of earth's electromagnetic field.) [In russ. Spr.]Google Scholar
  7. Geomagn. i Aeronomija. 10, 1970,No. 5, S. 738–777: Alekseev, I. I., Kropotkin, A. P., (Interaction of energetic particles with the neutral layer of the magnetosphere tail.)—Geomagn. i Aeronomija. 10, 1970.No. 5, S. 784–790: Romatshenko, Yu. A., (Charged particle acceleration in the earth magnetosphere by the inductive electric field.)—Geomagn. i Aeronomija. 10, 1970.No. 5, S. 791–798: Gurevitch, A. V., Tsherbakov, V. P., Drift of “resonance” protomes in the assymetrical rotating magnetosphere.)—Geomagn. i Aeronomija. 10, 1970.No. 5. S. 804–809: Rudneva, N. M., Feldshtein, Ya. I., (Distance to the undersolar point of the magnetosphere boundary depending on magnetic activity.)—Geomagn. i Aeronomija. 10, 1970.No. 5. S. 842–846: Benkova, N. P., Bukin, G. V., Kalisher, A. L., (Connection of disturbances in the low ionosphere with geomagnetic oscillations of Pil type by the observations in the Arkhangelsk region in the March of 1968).—Geomagn. i Aeronomija. 10, 1970. No. 5. S. 854–859: Kleimenova, N. G., Raspopov, O. M., Vigneron, J., (A longitudinal drift of chrouses and their connection with magnetic disturbances on the night side of the earth.)—Geomagn. i. Aeronomija. 10, 1970. No. 5. S. 868–872: Golovkov, V. P., Kolomiitzeva, G. I., (Separation of geomagnetic field scular variations under a time principle)—Geomagn. i Aeronomija. 10, 1970.No. 5, S. 895–897: Kovalevsky, I. V., (About a possible influence of magnetohydrodynamical breaks on the earth magnetosphere.)—Geomagn. i Aeronomija. 10, 1970.No. 5. S. 936–938: Baransky, L. N., Vinogradov, P. A., Raspopov, O. M., (Polarization of geomagnetic pulsations of Pi1 type.)—Geomagn. i Aeronomija. 10, 1970.No. 5. S. 939–941: Maltzeva, N. F., Gulyelmi, A. V., Vinogradova, V. N., (The west drift effect of the frequency in the intervals of oscillations of the decreasing period.)—Geomagn. i Aeronomija. 10, 1970.No. 6, S. 958–962: Ivanov, K. G., Shevnin, A. D., (Debye radius critical field and electroconductivity of the magnetosphere.)—Geomagn. i Aeronomija. 10, 1970.No. 5 S. 1053–1056: Osipov, N. K., Pivovarov, V. G., Pivovarova, N. B., ((The connection of polar magnetic disturbances with the parameters of intruding corpuscular streams.)—Geomagn. i Aeronomija. 10, 1970.No. 5, S. 1075–1076: Ivanov, K. G., Mikerina, N. V., (Fast shock wave in the solar wind and the corresponding terrestrial geomagnetic disturbance of October 7, 1962.)—Geomagn. i Aeronomija. 10, 1970.No. 5, S. 1077–1079: Kovalevsky, I. V., (Energetic aspects of magnetic storms.)—Geomagn. i Aeronomija. 10, 1970.No. 5, S. 1114–1115: Troshitshev, O. A., Feldshtein, Ya. I., Ring current in magnetosphere and the magnetic substorms.)—Geomagn. i. Aeronomija. 10, 1970.No. 5. S. 1117–1119: Osipov, N. K., Pivovarov, V. G., (About a certain peculiarity of polar magnetic disturbances.)—Geomagn. i Aeronomija. 10, 1970.No. 5, S. 1119–1121: Troitzkaya, V. A., Plyasova-Bakunina, T. A., (The connection of the period of Pc2-4 oscillation with the position of the magnetosphere boundary.)—Geomagn. i Aeronomija. 10, 1970.No. 5. S. 1122–1123: Marderfeld, B. E., Rodionov, A. V., Fonarev, A. G., (The definition of the depth up to the conducting layer of the mantle with the help of observation of horizontal components of geomagnetic field variations on the surface and on the bottom of the ocean.)—Geomagn. i Aeronomija. 10, 1970.No. 5. S. 1123–1126: Morozov, V. N., (Some peculiarities of the Earth elcetromagnetic field in the transition zone <continentocean>) [Jeweils in russ. Spr.]Google Scholar
  8. Geophys. J. R. astr. Soc. 20, 1970.No. 2, S. 177–189: Lamden, R. J., A Fourier covariance analysis of the long period magnetic field variations in the British Isles during 1958.—Geophys. J. R. astr. Soc. 20, 1970.No. 3, S. 317–334: Jones, F. W., Price, A. T., The perturbations of alternating geomagnetic fields by conductivity anomalies.Google Scholar
  9. J. atmos. terr. Phys. 32, 1970.No. 9, S. 1545–1553: Ullaland, S. L., Wilhelm, K., Kangas, J., Electron precipitation assciated with a sudden commencement of a geomagnetic storm.—J. atmos. terr. Phys. 32, 1970.No. 10, S. 1629–1640: Evans, J. V., The June 1965 magnetic storm: Millstone Hill observations.—J. atmos. terr. Phys. 32, 1970.No. 11, S. 1765–1772: Huang, Y.-N., Yeh, C.-Y., On the occurrence of spread — “F” and the geomagnetic activity over Taipei, Taiwan.—J. atmos. terr. Phys. 32, 1970.No. 11, S. 1819–1830: Schieldge, J. P., Siscoe, G. L., A correlation of the occurrence of simultaneous sudden magnetospheric compressions and geomagnetic bay onsets with selected geophysical indices.Google Scholar
  10. J. Geomagn. Geoelectr. 22, 1970.No. 1-2, S. 9–33: Schmucker, U., An introduction to induction anomalies.—J. Geomagn. Geoelectr. 22, 1970.No. 1-2, S. 99–111: Niblett, E. R., Whitham, K., Multi-disciplinary studies of geomagnetic variation anomalies in the Canadian Artic. [Auch: Contr. Dom. Obs., Ottawa No. 289; Can. Contr. Upper Mantle Proj. No. 197].Google Scholar
  11. J. geophys. Res. 75, 1970.No. 22, S. 4216–4223: Cole, K. D., Relationship of geomagnetic fluctuations to other magnetospheric phenomena.—J. geophys. Res. 75, 1970,No. 22, S. 4335–4338: Lakshmi, D. R., Reddy, B. M., Nighttime response of the topside ionosphere to magnetic storms.—J. geophys. Res. 75, 1970.No. 25, S. 4735–4745: Fraser-Smith, A. C., Some statistics om Pcl geomagnetic micropulsation occurence at middle latitudes: inverse relation with sunspot cycle and semi-annual period.—J. geophys. Res. 75, 1970.No. 22, S. 4803–4813: Evans, J. V., Midlatitude ionospheric temperatures during three magnetic storms in 1965.—J. geophys. Res. 75, 1970.No. 22, S. 4815–4823: Evans, J. V., “F”-region heating observed during the main phase of magnetic storms.—J. geophys. Res. 75, 1970.No. 28, S. 5444–5458: Rankin, D., Kurtz, R., Statistical study of micropulsation polarization.—J. geophys. Res. 75, 1970.No. 22, S. 5553–5558: Wolfson, C. J., Nobles, R. A., Threshold rigidity change during the magnetic storm of March 23–24, 1969.—J. geophys. Res. 75, 1970.No. 22. S. 5631–5633: McDonld, K. L., Monthly means of the geomagnetic field.Google Scholar
  12. Magnetic variation. Epoch 1970. O. Mercator Projection, scale 1: 39.000.000 at equator. 6. ed. Washington: U.S. Naval Oceanographic Office 1970. 1 Kt.Google Scholar
  13. Nasa techn. Report R-177, 1963. 17 S. m. Abb. Spreiter, J. R., Alksne, A. Y., The effect of a ring current on the boundary of the geomagnetic field in a steady solar wind.Google Scholar
  14. Nature, Lond. Vol.217, 1968. S. 347–349: Lamden, R. J., Trend in the harmonic energies of the diurnal variation at two British observatories.—Nature, Lond. Vol. 227, No. 5265, 1970. S. 1336–1337: Lilley, F. F. M., Geomagnetic reversals and the position of the North magnetic pole.Google Scholar
  15. Phys. Chem. Space. 1, 1970. VIII, 179 S. m. Abb. Jacobs J. A., Geomagnetic micropulsations.Google Scholar
  16. Planetary Space Sci. 16, 1968. S. 111–124: Fraser, B. J., Temporal variations in Pc1 geomagnetic micropulsations.Google Scholar
  17. Radio Sci. 5, 1970.No. 6, S. 959–966: Aarons, J., The high-latitude “F”-region irregularity structure during the October 30–November 4, 1968, magnetic storm.Google Scholar
  18. Rep. Ionosph. Space Res. Japan. 24, 1970.No. 2, S. 135–146: Murayama, T., Correlated occurrence of energetic electron bursts in the magnetotail and geomagnetic impulsive micropulsation.—Rep. Ionosph. Space Res. Japan. 24, 1970.No. 2, S. 163-182: Summary of daily observational results of solar phenomena, cosmic ray, geomagnetic variation, ionosphere, radio wave propagation and airglow.Google Scholar
  19. Rezul't. Issl. Mezdun. geofiz. Proekt., geomagn. Issl. No.11, 1969. S. 15–21: Gogatishvily, Ya. M., (On the distribution of short-period pulsations inside magnetic storm.)—Rezul't. Issl. Me-dum. geofiz. Proekt., geomagn. Issl. No. 11, 1969. S. 22–27: Matveyeva, E. T., (Characteristic features of Pc-1 pulsations during the maxima and minima of solar activity.)—Rezul't. Issl. Mezdun. geofiz. Proekt., geomagn. Issl. No. 11, 1969. S. 28–32: Vinogradova, V. N., (On the frequency dependence of the Pc-1 pulsations time distribution.)—Rezult. Iss. Mezdun. geofiz. Proekt., geomagn. Iss. No. 11, 1969. S. 37–44: Zverev, V. L., Loginov, G. A., Pudovkin, M. I., (On the behaviour of the geomagnetic pulsations preceding polar substorms.)—Rezul't. Issl. Mezdun. geofiz. Proekt., geomagn. Issl. No. 11, 1969. S. 45–48: Dubrovsky, V. G., (About the energy spectrum of the geomagnetic field.)—Rezul't. Issl. Mezdun. geofiz. Proekt., geomagn. Issl. No. 11, 1969. S. 49–54: Davydov, V. M., (On the theory of geomagnetic pulsations propagation through the horizontally inhomogeneous ionosphere.)—Rezul't. Issl. Mezdun. geofiz. Proekt., geomagn. Issl. No. 11, 1969. S. 55–60: Brjunelli, B. E., Ljatskiy, V. B., (On the interpretation of the pearltype pulsations.)—Rezul't. Issl. Mezdun. geofiz. Proekt., geomagn. Issl. No. 11, 1969. S. 61–69: Gulielmi, A. V., (Problems of the interpretation of short-period Pc-1 pulsations.)—Rezul't. Issl. Mezdun. geofiz. Proekt., geomagn. Issl. No. 12, 1970. S. 5–25: Fatkullin, M. N., (Dynamo theory of the quiet solar-diurnal variations of the earth's magnetic field.)—Rezul't. Issl. Mezdun. geofiz. Proekt., geomagn. Issl. No. 11, 1969. S. 26–33: Pudovkin, M. I., (Lower magnetosphere, auroras and geomagnetic disturbances.)—Rezul't. Issl. Mezdun. geofiz. Proekt., geomagn. Issl. No. 11, 1969. S. 43–54: Nikiforova, N. N., Kravtsova, M. K., (Peculiarities of the Sq-variations of the magnetic field and earth currents deduced from the observations at the geophysical station of the USSR Academy of Sciences “Plestchenitsy”.)—Rezul't. Issl. Mezdun. geofiz. Proekt., geomagn. Issl. No. 11, 1969. S. 59–60: Litinskiy, V. M., (Some regularities of the bay-type geomagnetic disturbances.)—Rezul't. Issl.Mezdun. geofiz. Proekt., geomagn. Issl. No. 11, 1969. S. 61–62: Brjunelli, B. E., Ljatskiy, V. B., Selivanov, V. P., (On the possibility to use fluxmetric rings for recording the PP-type oscillations.) [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  20. Sci. Rep. Tôhoku Univ. (5), 19, 1970.No. 3, S. 107–116: Kato, Y., Tamura, K., Propagation of geomagnetic Pc 1 pulsations in the F region of the ionosphere.Google Scholar
  21. Scient. Rep. Geophys. Inst. Univ. Alaska. No. UAG R-214, 1970. VIII, 82 S. m. Fig. Heacock, R. R., An atlas of micropulsation spectra.Google Scholar
  22. Space Sci. Rev. 5, 1966.No. 6, S. 699–770: Cole, K. D., Magnetic storms and assciated phenomena.Google Scholar

Geomagnetic activity UDC 550.386

  1. Ann. Géophys. 26, 1970.No. 2, S. 313–336: Mayaud, P. N. Sur quelques propriétés de l'acitivité magnétique, déduites de l'analyse d'une série de neuf années des indices Kn, Ks, et Km.—Ann. Géophys. 26, 1970.No. 2, S. 459–473: Ballario, M. C., Solar and geomagnetic events of the year 1968.Google Scholar
  2. Geomagn. i Aeronomija. 10, 1970.No. 5, S. 929–931: Zaalishvili, I. M., (Dependence of the form of magnetic activity daily distribution on the latitude and longitude.)—Geomagn. i Aeronomija. 10, 1970.No. 5. S. 931–934: Ivanov, N. A., Borisova, Z. I., Vishnev, V. S., (The influence of the total solar eclipse of September 22, 1968 on themagnetic field.)—Geomagn. i Aeronomija. 10, 1970.No. 5, S. 934–936: Sochelnikov, V. V., (Asymptotic properties of space harmonics of variable electromagnetic field of the earth.) [Jeweils in russ. Spr.]Google Scholar
  3. IAGA Bull. No. 12 w 1, 1970. VIII, 102 S. Sabben, D. van, Siebert, M., Geomagnetic data 1968, indices K and Ci.Google Scholar
  4. Rev. Geofis., Madrid. 29, 1970.No. 1, No. 3, S. 117–134: Mori, Y., Sudden commencements of 27-day recurrent geomagnetic disturances.—Sci. Rep. Tôhoku Univ. (5), 19, 1970.No. 3, S. 135–145: Mori, Y., Shock wave hypothesis on sudden commencements of 27-day recurrent geomagnetic disturbances.Google Scholar

Telluric electricity UDC 550.387

  1. Acta geophys. polon. 18, 1970.No. 2, S. 185–197: Jankowski, J., Pawliszyn, J., Grzelak, K., An example of calculation of magnetotelluric impedance tensor and geomagnetic vector for the broad range of frequency.Google Scholar
  2. Bull. Nat. geophys. Res. Inst., Hyderabad. Supp.No. 6 to Bull.1969, June, S. 23–45: Rapid variations of earth's electromagnetic field, April–June 1969. Geoelectric Observatory Choutapal(Nalgonda Dt), A. P.—Bull. Nat. geophys. Res. Inst., Supl.No. 7 to Bull. of Sept.1969. S. 23–45: Rapid variations of Earth's electromagnetic field, July–September 1969. Geoelectric Observatory, Choutapal (Nalgonda Dt.) A. P.Google Scholar
  3. Electronics Letters, 1, 1965.No. 10, S. 274–276: Brock-Nannestad, L., Determination of the electric conductivity of the seabed in shallow waters with varying conductivity profile.Google Scholar
  4. Freiberger Forsch.-H. (Geophys.) No. C233, 1968. S. 7–27: Fircks, C. v., Erforschung des oberen Erdmantels mit magneto-tellurischen Methoden (Internationaler Stand und Ergebnisse aus der DDR). [Auch: Mitt. Inst. angew. Geophys. Freiberg No. 192].Google Scholar
  5. Geophysics. 35, 1970.No. 3, S. 476–489: Coggon, J. H., Morrison, H. F., Electromagnetic investigation of the sea floor.—Geophysics. 35, 1970.No. 5, S. 901–915: Hohmann, G. W., Kintzinger, P. R., Voorhis, G. D. van, Evaluation of the measurement of induced electrical polarization with an inductive system.Google Scholar
  6. Izv. Akad. Nauk SSSR, Fiz. Zemli. 1970. No.8, S. 100–104: Berdichevsky, N. N., Chernyavsky, G. A., (Experimental studies on deep seismic sounding in the islands of the Indian Ocean.)—Izv. Akad. Nauk SSSR, Fiz. Zemli, 1970.No. 8, S. 105–110: Frolov, B. K., (Some correlation functions of magneto telluric process properties and tests on impedance determination.) [Jeweils in russ. Spr.]Google Scholar
  7. J. Geomagn. Geoelectr. 22, 1970.No. 1-2, S. 113–129: Caner, B., Electrical conductivity structure in western Canada and petrological interpretation. [Auch: Contr. Dom. Obs., Ottawa No. 286; Can. Contr. Upper Mantle Proj. No. 198.]—J. Geomagn. Geoelectr. 22, 1970.No. 1-2. S. 223–233: Adám, A., Some results of the magnetotelluric survey in the Carpathian Basin and its complex interpretation.—J. Geomagn. Geoelectr. 22, 1970.No. 1-2. S. 235–240: Pěčová, J., Petr, V., Praus, O., Depth distribution of the electric conductivity on the Czechoslovak territory.Google Scholar
  8. Rezul't. Issl. Meždun. geofiz. Proekt., geomagn. Issl. No.11, 1969. S. 5–14: Kebuladze, V. V., Lashkhy, A. S., Tatishvily, G. V., (About some regularities of electrotelluric field activity.)—Rezul't. Issl. Meždum. geofiz. Proekt., geomagn. Issl. No. 12, 1970. S. 55–58: Ivanov, K. G., Mikerina, N. V., (The system of the electric currents in the earth according to Sq-variations godograph data.) [Jeweils in russ. Spr. m. engl. Abstr.]Google Scholar

Magnetic surveys, charts, observatory results UDC 550.389

  1. Ann. Géophys. 26, 1970.No. 2, S. 229–258: Le Mouel, J.-L., Le levé aéromagnétique de la France. Calcul des composantes du champ à partir des mesures de l'intensité.Google Scholar
  2. Annu. Inst. mét. Belg. 1969(1970). 65 S. Vuyst, A. de, Résultats des observations du champ magnétique terrestre en 1969. Centre de Physique du Globe, Dourbes. [In franz. u. fläm. Spr.]Google Scholar
  3. Anu. geomagn., Angola. 1967(1969). 59 S. m. Tab.Google Scholar
  4. Anu. geomagn., Angola. 1968(1969). 59 S. m. Tab.Google Scholar
  5. Boll. Geofis. teor. appl. Vol.12, No. 45-46, 1970. S. 21–44: Bhattacharyya, B. K., Some important considerations in the acquisition and treatment of high-resolution aeromagnetic data.—Boll. Geofis. teor. appl. Vol. 12, No. 45-46, 1970. S. 60–73: Hahn, A., Weber, C., Magnetic basement mapping on the West African shield in Dahomey.Google Scholar
  6. Bull. Geogr. Surv. Inst., Tokyo, 15,P. 2,1970. S. 1–3: Summary of results of the first order magnetic survey by the Geographical Survey Institute.—Bull. Geogr. Surv. Inst., Tokyo. 15,P. 2,1970. S. 61–129: Geomagnetic observations at Kanozan Geodetic Observatory. By the Geographical Survey Institute.Google Scholar
  7. Bull. Nat. geophys. Res. Inst., Hyderabad. Suppl.No. 6 to Bull.1969, June, S. 1–22: Geomagnetic data (hourly values, magnetic storms, K and C indices, etc), April–June 1969. Magnetic Observatory Hyderabad.—Bull. Nat. geophys. Res. Inst., Hyderabad. Suppl. No. 7 to Bull. of Sept. 1969. S. 1–22: Geomagnetic data (Hourly values, magnetic storms, K and C indices, etc.), July–September 1969. Magnetic Observatory, Hyderabad.Google Scholar
  8. CSIR Report MAG. No. A 17, 1969. XI, 50 S. Magnetic observations at Hermanus, 1968.Google Scholar
  9. ESSA techn. Rep. C & GS No. 38, 1969. 55 S. m. Tab. Fabiano, E. B., Peddie, N. W., Grid values of total magnetic intensity IGRF — 1965.Google Scholar
  10. Expéd. antarct. belgo-néerland.: Géomagn.1965(1969). 104 S. m. Tab. u. Fig. Expédition Antarctique Belgo-Néerlandaise 1965. Géomagnétisme. Base Roi Baudouin janvier 1965 à décembre 1965. Hrsg. von M. Foccroulle.Google Scholar
  11. Géol. Aires Océan. 1, 1970. XI, S. 25–59: Matthews, D. H., Prospection magnétique en mer.Google Scholar
  12. Geomagn. i Aeronomija. 10, 1970.No. 6, S. 1112–1114: Nasirov, G. A., (The influence of geomagnetic activity on emissions of atomar oxygen.)—Geomagn. i Aeronomija. 10, 1970.No. 6, S. 1126–1128: Goloob, D. P., (To the method of typical points of Peters.)—Geomagn. i Aeronomija. 10, 1970.No. 6. S. 1133–1135: Blednov, V. A., Rotshtein, A. Ya., (About the creation of useful systems for obtaining the homogeneous field with the compensation of dispersion fields.) [Jeweils in russ. Spr.]Google Scholar
  13. IAGA Bull. No. 12v2, 1970. VIII, 81 S. Romaña, A., Sabben, D. van, Geomagnetic data 1967, rapid variations.Google Scholar
  14. J. geophys. Res. 25, 1970.No. 20, S. 4007–4015: Zietz, I., Andreasen, G. E., Cain, J. C., Magnetic anomalies from satellite magnetometer.Google Scholar
  15. NASA techn. Note D-1418, 1962. 25 S. m. Tab. Cain, J. C., Shapiro, I. R., Stolarik, J. D., Measurements of the geomagnetic field by the Vanguard III Satellite.Google Scholar
  16. Publ. Dom. Obs., Ottawa. 37, 1970.No. 9, S. 339–409: Loomer, E. I., Record of observations at Great Whale Magnetic Observatory 1967.—Publ. Dom. Obs., Ottawa.37, 1970.No. 10, S. 415–466: Darker, W. R., McKeown, D. L., Record of observations at Agincourt Magnetic Observatory 1967.—Publ. Dom. Obs., Ottawa. 39, 1970.No. 8, S. 215–286: Beek, G. J. van, Record of observations at Fort Churchill magnetic variometer station 1967.Google Scholar
  17. Publ. Geofys. Inst. Bergen. (C), Nr. 9, 1969. 23 S. Gjellestad, G., Dalseide, H., The magnetic station at Dombås, observations 1967.Google Scholar
  18. Rep. Kakioka magn. Obs. Geomagn. 1967(1970). V, 59 S.Google Scholar
  19. Rep. Kakioka magn. Obs.-Geomagn. 1968(1970). VI, 112 S.Google Scholar
  20. Risult. Osserv. magnet., Oss. geomagn. l'Aquila. 1968 (1970). 44 S. m. Tab.Google Scholar
  21. Scient. Rep. Geophys. Inst. Univ. Alaska. UAG R-212, 1970. XV, 169 S. m. Fig. u. Tab. Hessler, V. P., Telluric, geomagnetic, and auroral activity on Arctic drifting stations and at Pt. Barrow. Final report.Google Scholar

Bibliographien und ausfürhliche Schriftenverzeichnisse

  1. Contr. Coast. Stud. Inst. Louisiana State Univ. 60-2. 1960. VI, 148 S. Bibliography 1955–1958. International Geographical Union. Commission on Coastal Sedimentation. —Contr. Coast. Stud. Inst. Louisiana State Univ. 64-6, 1964. VI, 59 S.: Dolan, R., McCloy, J., Selected bibliography on beach features and related nearshore processes. [Auch: Techn. Rep. Beach Process Stud. Coast. Stud. Inst. Louisiana State Univ. No. 23, P. A.]Google Scholar
  2. Report on scientific activity in geodesy and gravimetry (in the Soviet Union) in 1963–1966. Pres. to the Internat. Association of Geodesy for the 14 General Assembly of the Internat. Union of Geodesy and Geophysics. Akademija nauk SSSR, Sovetskij geofizičeskij komitet. Moskva 1967. 130 S. [In russ. Spr.]Google Scholar
  3. Spec. Publ. Int. hydrogr. Bur No. 32. 1970, 183 S. Hydrographic dictionary. English Text. 3rd ed.Google Scholar
  4. Techn. Bull. Comm. Coord. joint Prospect. miner. Resources asian offshore Areas. 1, 1968. S. 155–158: Publications relating to offshore geology and mineral resources of the republic of Viet-Nam.Google Scholar

Ozeanographie Conspectus UDC 551.46

  1. Geofis. e Met. 19, 1970,No. 1-2, S. 34–38: Villat, P., L'activité océanographique française et son dévelopment depuis 1961.Google Scholar
  2. Kompleksnye issledovanija prirody okeana. V. 1. Moskva 1970. S. 23–29: Šumilov, A. V., [Über die Genauigkeit von Messungen und Berechnungen der Größen in der Ozeanographie.] In russ. Spr.Google Scholar
  3. Meerestechnik. 2, 1971.Nr. 1, S. 1–8: Tonnemacher, J., Die Programme für Meerestechnik und Meeresforschung der europäischen Industrieländer. [In dt. u. engl. Spr.]—Meerestechnik. 2, 1971.Nr. 1, S. 40–44: Marriott, J., Marine research in Britain. [In engl. Spr. m. dt. Abstr.]Google Scholar
  4. Oceanographic handbook. Washington: US Coast Guard, Dept. of Transportation 1968. Getr. Pag.Google Scholar
  5. Océans, Marseille, No.11, 1971. S. 30–34: Prud'homme de Sant-Maur, G., L'Océanologie aux USA.Google Scholar
  6. Proc. US nav. Inst. 95, 1969.No. 10/800, S. 68–77: Stewart, H. B., Oceanography and the U. S. Merchant Marine. [Auch: Coll. Repr. Atlantic-oceanogr. & met. Lab. & Pacific oceanogr. Lab. 1, 1969. (1970) No. 5.]Google Scholar
  7. P. V. Cons. Explor. Mer 1970. 128 S.: Procès-Verbal de la Réunion 1970.Google Scholar
  8. Trudy Azovo-Černomorsk. Inst. morsk. Ryb. Choz. Okeanogr. 27, 1968. 133 S.: [Ozeanographische Untersuchungen im Schwarzen Meer.] [In russ. Spr.]Google Scholar
  9. Trudy Gosudastv. okeanogr. Inst, 99, 1970. S. 5–24: Rybnikov, A. A., Markevič, E. B., Mercalova, N. B., [Berechnungsmethoden der Diskontinuität von Beobachtungen im Ozean.]—Trudy Gosudarstv. okeanogr. Inst. 99, 1970. S. 49–58: Beljaev, I. P., Mercalova, N. B., [Informierende Beurteilung zweier Gruppierungsmethoden hydrologischer Daten.] [Jeweils in russ. Spr.]Google Scholar

Informations UDC 551.46(047)

  1. Annu. Rep. Inst. mar. Resources Univ. Calif. IMR Ref. 70-11. 1970 38 S.Google Scholar
  2. Isotop. & Radiat. Technol. Vol.6, 1969.No. 4, S. 376–381: Keller, G. H., Radioisotopes and Oceanography. [Auch: Coll. Repr. Atlantic-oceanogr. & met. Lab. & Pacific oceanogr. Lab. 1, 1969(1970). No. 23, 6 S.]Google Scholar
  3. Jber. dt. Fischwirtsch. 1969(1970). S. 199–202: Thurow, F., Die Arbeiten der Deutschen Wissenschaftlichen Kommission für Meeresforschung.Google Scholar
  4. Oceanogr. Res. at M. I. T., Progr. Rep. No. 5. 1966 (1967) 27 S.Google Scholar
  5. Rep. Mass. Inst. Technol. Dep. Met. 70-3. 1970. V, 63 S. m. Abb. Oceanographic research at M. I. T., in the Department of Earth and Planetary Sciences and the Department of Meteorology. 1 Jan. 1969 — 31 Dec. 1969.Google Scholar
  6. Techn. Bull. Comm. Coord. joint Prospect. miner. Resources asian offshore Areas. 3, 1970. S. 137–146.: Wong, H. K., Ku, T. L., Oceanography and limnology in Mainland China. [Auch: Contr. Woods Hole oceanogr. Instn No. 2408].Google Scholar

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© Deutsches Hydrographisches Institut 1971

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