Advertisement

Deutsche Hydrografische Zeitschrift

, Volume 23, Issue 4, pp 171–192 | Cite as

Neuere Veröffentlichungen

Hydrographische Bibliographie Ausgewählt und geordnet von F. Model und H. Mädler
Article
  • 42 Downloads

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

Ozeanographie Surface waves UDC 551.466.2 551.466.3 551.466.4

  1. Trudy. Gosudarstv. okeanogr. Inst. 93, 1968. 229 S. m. Fig. Vetrovye volny. (Issledovanija, rasčety i nabljudenija). [Windwellen. (Untersuchungen, Berechnungen und Beobachtungen).] Red.: G. V. Ržeplinskij. [Darin:]—Trudy. Gosudarstv. okeanogr. Inst. 93, 1968. S. 5–52: Ržeplinskij, G. V., Krylov, Ju. M., Matuševskij, G. V., [Neue Methode für die Analyse und die Berechnung von Windwellenelementen.]—Trudy. Gosudarstv. okeanogr. Inst. 93, 1968. S. 53–97: Ikonnikova, L. N., [Elemente von anhaltendem Seegang im tiefen Wasser (Beobachtungsergebnisse und Übersicht für Berechnungsmethoden).] —Trudy. Gosudarstv. okeanogr. Inst. 93, 1968. S. 98–111: Gluchovskij, B. Ch., [Regeln für die Ausbreitung von Windwellenelementen und Änderungen der Wellenbewegungen mit der Tiefe.]—Trudy. Gosudarstv. okeanogr. Inst. 93, 1968. S. 112–137: Matuševskij, G. V., [Umwandlung des zweidimensionalen energetischen Spektrums und Änderung der statistischen Kennzeichen des Windseeganges in der Flachwasserzone mit geradlinigen Isobathen.]—Trudy. Gosudarstv. okeanogr. Inst. 93, 1968. S. 138–142: Lopatuchin, L. I., [Berechnungsversuch für die wahrscheinlichen Kennzeichen von stürmischem Seegang in der Umwandlungszone.]—Trudy. Gosudarstv. okeanogr. Inst. 93, 1968. S. 143–155: Rožkov, V. A., [Verwirklichungslänge und Abstumpfungspunkt eines “Korrelogramms” (Aufzeichnungen einer Wechselbezichung) als Parameter einer empirischen Spektralanalyse für Wellenaufzeichnungen.] —Trudy. Gosudarstv. okeanogr. Inst. 96, 1969. S. 174–184: Davidan, I. N., [Vergleichende Charakteristik über die zwischenjährliche Wandelbarkeit des Seeganges im Atlantischen Ozean.]—Trudy. Gosudarstv. okeanogr. Inst. 96, 1969. S. 185–210: Davidan, I. N., [Frequenzspektrum des Windseeganges.] [jeweils in russ. Spr.]Google Scholar
  2. Umschau. 69, 1969.H. 23, S. 769: Walden, H., See-gangsuntersuchungen westlich von Sylt.Google Scholar

Long waves UDC 551.466.6

  1. Bull. Earthq. Res. Inst. 47, 1969.P. 4, S. 673–700: Aida, I., Numerical experiments for the tsunami propagation—the 1964 Niigata tsunami and the 1968 Tokachi-oki tsunami.—Bull. Earthq. Res. Inst. 47, 1969.P. 4, S. 701–719: Momoi, T., A long wave around a breakwater [VII]. Case of normal incidence. [mit japan. Abstr.]Google Scholar
  2. Coast. Engng. Jap. 11, 1968. S. 69–83: Iwasaki, T., Togashi, H., On the overland flow of tsunami and effectiveness of wall as a counter measure.Google Scholar
  3. Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 5, 1969.No. 12, S. 1331–1333: Fedosenko, V. S., (On the influence of viscosity on internal tsunami type waves.) [in russ. Spr.]Google Scholar
  4. Mariner's Weather Log. 13,1969.No. 6, S. 255–258: The tsunami and the mariner.Google Scholar
  5. Morskie gidrofiz. Issl. No. 1 (43),1969. S. 137–147: Voit, S. S., Sebekin, B. I., (Some hydrodynamical models of unsteady wave motions of tsunami type.) [in russ. Spr. m. engl. Abstr.]—Morskie gidrofiz. Issl. No. 1 (43), 1969 S. 148–169: Fedosenko, V. S., Cherkesov, L. V., (Unsteady internal waves caused by initial disturbances in a viscous fluid.)Google Scholar
  6. Nature, Lond. Vol. 224,No. 5217,1969. S. 309: Hawaii hit hard.Google Scholar
  7. Okeanologija. 9, 1969.No. 6, S. 988–995: Grigorash, Z. K., Korneva, L. A., (Tsunami waves caused by the Anapa earthquake of 12 July, 1966.) [jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  8. Science. Vol. 165, No. 3895, 1969. S. 773–776: Carter, L. J., Earthquakes and nuclear tests: playing the odds on Amchitka.Google Scholar

Tides UDC 551.466.7

  1. Cah. océanogr. 21,1969.No. 10, S. 996–999: Marée a Socoa.Google Scholar
  2. Dt. hydrogr. Z. 22, 1969.H. 1, S. 11–25: Heaps, N. S., Some notes on tidal theory and its possible relevance to a program of deep-sea tidal measurement.Google Scholar
  3. Geogr. Ber. 10, H. 35 (2/1965)1965. S. 108–120: Sager, G., Die Entwicklung der Fahrwasserverhältnisse bedeutender Gezeitenströme.Google Scholar
  4. Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 5, 1969.No. 12, S. 1309–1317: Bogdanov, K. T., Magarik, V. A., (A numerical solution of the problem on the tidal wave propagation in the world ocean.) [in russ. Spr. m. engl. Abstr.]Google Scholar
  5. J. appl. Prob. 4, 1967. S. 103–112: Cartwright, D. E., Time-series analysis of tides and similar motions of the sea surface. [Auch: Coll. Repr. Nat. Inst. Oceanogr., Wormley. 15, 1967. No. 605.]Google Scholar
  6. J. Fish. Res. Bd Can. 26, 1969.No. 9, S. 2477–2492: Yuen, K. B., Effect of tidal barriers upon the M2tide in the Bay of Fundy.Google Scholar
  7. J. geophys. Res. 74, 1969.No. 2, S. 605–614: Nowroozi, A. A., Kuo, J., Ewing, M., Solid earth and oceanic tides recorded on the ocean floor off the coast of Northern California. [Auch: Contr. Lamont geol. Obs. No. 1279.]Google Scholar
  8. J. Waterways Harb. Div. Proc. amer. Soc. civ. Engrs. 93, 1967.No. WW 4, S. 97–106: Krecke, J. van de, Water-level fluctuations and flow in tidal inlets.Google Scholar
  9. Kosmos, Stuttgart.65, 1969.H. 11, S. 441–447: Vogt, H.-Il., Der Mond ist schuld. Ursachen von Ebbe und Flut—Auch die Sonne wirkt mit.Google Scholar
  10. Ocean sciences and engineering of the Atlantic shelf. Washington 1968. S. 63–69: Caunon, G. A., The anatomy of an 86-hour current velocity record from a coastal plain estuary.—Ocean sciences and engineering of the Atlantic shelf. Washington 1968. S. 91–107: Klein, G., de Vries, Intertidal zone sedimentation, Minas Basin north shore, Bay of Fundy, Nova Scotia.Google Scholar
  11. Okeanologija. 9, 1969.No. 6, S. 959–965: Vorobyev, V. N., (On the study of nineteen-year tidal variations of the mean sea level in the Earth's high latitudes.) [in russ. Spr. m. engl. Abstr.]Google Scholar
  12. Pap. Met. Geophys., Tokyo. 19, 1968.No. 3, S. 401–426: Isozaki, I., An investigation on the variations of sea level due to meteorological disturbances on the coast of the Japanese Islands (1). On the accuracy of tide predictions.Google Scholar
  13. Próce Geofys. Úst. Čsl. Akad. Věd. No. 196-214, Geofys. Sbornik 1965.No. 198, S. 67–95: Pícha, J., Ergebnisse der neuen Bearbeitung der Erdgezeitenbeobachtungen aus den Jahren 1927–1928 und 1936–1939 in Březové Hory〈Příbram〉 nach der Methode von Percev.—Próce Geofys. Úst. Čsl. Akad. Věd. No. 196-214, Geofys. Sbornik 1965.No. 199, S. 97–165: Skalský, L., Pícha, J., Evaluation of rockbursts observed in 1958–1961 at tidal stations of Březové Hory 〈Příbram.〉 [mit tschech. u. russ. Abstr.]Google Scholar
  14. Proc. 10th Conf. Coast Eng. Jap. 1963. S. 59–63: Isozaki, I., Unoki, S., (A tentative computation of tide and tsunami in the Bay of Tokyo.) [Auch: Coll. Repr. Oceanogr. Lab. Metcorol. Res. Inst. Tokyo, Vol. 8, 1964. No. 147.] [in japan. Spr.]Google Scholar
  15. Trudy. Gosudarstv. okeanogr. Inst. 96, 1969. S. 146–173: Michajlov, Ju. D., Meleško, V. P., Ščeveleva, G. I., [Berechnung der Gezeiten und der Gezeitenströmung im Golf von Mexiko und im Karibischen Meer.] [in russ. Spr.]Google Scholar
  16. Wyrtki, K., Graefe, V., Patzert, W., Current observations in the Hawaiian Archipelago. [Honolulu:] University of Hawaii, Hawaii Institute of Geophysics 1969. VII, 27 S. Text, ungez. S. Abb. u. Daten.Google Scholar

Internal waves UDC 551.466.8

  1. Cah. océanogr. 21, 1969.No. 9, S. 831–843: Cavanie, A. G., Sur la genèse et la propagation d'ondes internes dans un milieu à deux couches.Google Scholar
  2. Deep-Sea Res. 16, 1969.No. 5, S. 405–410: Sandstrom, H., Effect of tonography on propagation of waves in stratified fluids. [Auch: Contr. Bedford Inst. Oceanogr. No. 84.]—Deep-Sea Res. 16, 1969.No. 5, S. 411–419: Larsen, L. H., Internal waves incident upon a knife edge barrier. [Auch: Contr. Dep. Oceanogr. Univ. Wash. No. 482.]—Deep-Sea Res. 16, 1969.No. 5, S. 421–429: Robinson, R. M., The effects of a vertical barrier on internal waves.—Deep-Sea Res. 16, 1969.No. 5, S. 473–478: Weston, D. E., Reay, W. W., Tidal-period internal waves in a tidal stream.—Deep-Sea Res. 16, 1969.No. 5, S. 479–487: Ziegenbein, J., Short internal waves in the Strait of Gibraltar.Google Scholar
  3. Dt. hydrogr. Z. 22, 1969.H. 1, S. 1–10: Tomczak, M., Über durch interne Wellen erzeugte Reibungsgrenzschichten an vertikalen Grenzflächen.Google Scholar
  4. Izv. Akad. Nauk SSSR. Fiz. Atmosf. Okeana.5, 1969.No. 10, S. 1058–1065: Polyanskaya, V. A., (Generation of internal waves by a pressure front moving with constant speed.)Google Scholar
  5. J. Fluid Mech. 32, P. 3, 1968. S. 489–528: Thorpe, S. A., On standing internal gravity waves of finite amplitude. [Auch: Coll. Repr. Nat. Inst. Oceanogr. Vol. 16, N. 667, 1968.]Google Scholar
  6. Mer, Tokyo. 7, 1969.No. 2, S. 119–125: Takano, K., Houle interne de second ordre. [mit japan. u. engl. Abstr.]—Mer, Tokyo. 7, 1969.No. 2, S. 150–160: Takano, K., Iida, N., Generation of internal waves by an abrupt change of depth. [mit japan. Abstr.]Google Scholar
  7. Nature, Lond. Vol.224, No. 5223, 1969. S. 1014–1016: Martin, S., Simmons, W. F., Wunsch, C. I., Resonant internal wave interactions.Google Scholar
  8. Techn. Rep. SACLANT ASW Res. Centre No. 147, 1969. II, 34 S. m. Fig. Ziegenbein, J., Spatial observations of internal waves in the Strait of Gibraltar.Google Scholar

Ice UDC 551.467

  1. Arch. Met. Geophys. Biokl. (A), 18, 1969.No. 3-4, S. 391–394: Schmidt, E., Über die Ursache von Rissen in der Eiskappe des nördlichen Polarmeeres.Google Scholar
  2. Bull. Hakodate Marine Obs. No. 11, 1964. Getr. Pag. Sea ice observation along the Okhotsk coast of Iiokkaido from January to April, 1962.—Bull. Hakodate Marine Obs. No. 11, 1964. Getr. Pag. Akagawa, M., On the drifting of pack-ice in the Pacific Ocean off Hokkaido. [jeweils in japan. Spr. m. engl. Abstr.]Google Scholar
  3. Contr. Inst. antárt. argent. No. 63, 1969. 44 S. m. Fig. Schneider, O., La barrera de hiclo de Filchner en el cincuentenario de su descubrimiento. [in span. Spr. m. dt. u. engl. Abstr.]Google Scholar
  4. Dokl. Akad. Nauk SSSR. 189, 1969.No. 6, S. 1230–1232: Bogorodskii, V. V., Khokhlov, G. P., (Electric characteristics of drifting Arctic ice within 100 cps—I meps frequency range.) [in russ. Spr.]Google Scholar
  5. Eisübers.-Karte Dt. hydrogr. Inst.43, 1969/70.Google Scholar
  6. Fachl. Mitt. Geophys. Beratungsd. Bundeswehr (1),Nr.144, 1969. IV, 100 S. m. Tab. u. Fig. Appollov, B. A., Kalinin, G. P., Komarov, V. D., Hydrologische Prognosen. T. C.Google Scholar
  7. Isforholdene i de Grønlandske Farvande. The Ice Conditions in the Greenlandic Waters. 1960. Charlottenlund, Kopenhagen: Danske Meteorol. Inst. 1964. 33 S. Text, ungez. Taf.Google Scholar
  8. Mar. met. Rep., Hakodate. No. 29, 1969. 30 S. m. Fig. (Report of the sea ice observations in the Okhotsk Sea and adjacent Sea of Hokkaidô (1969).) [in japan. Spr.]Google Scholar
  9. Nature, Lond. Vol.224,No. 5223,1969. S. 937–938: Icebergs for sale.—Nature, Lond. Vol. 224, No. 5226, 1969. S. 1285–1287: Sissala, J., Observations of an Antarctic Ocean Tabular iceberg from the Nimbus II satellite.Google Scholar
  10. Probl. Arkt. Antarkt. 32, 1969. S. 30–36: Busuyev, A. Ja., Shesterikov, N. P., (The hummocking effect on the mean thickness of the fast ice.)—Probl. Arkt. Antarkt. 32, 1969. S. 45–51: Gushchenkov, E. M., (On the prediction technique of the dates when the ice thickness reaches 20–25 cm.) —Probl. Arkt. Antarkt. 32, 1969. S. 132–135: Volkov, N. A., Treshnikov, A. F., (About the new International Sea Ice Nomenclature.) jeweils in russ. Spr.]Google Scholar
  11. Spec. Publ. Int. Commiss. Northw. Atlant. Fish. No. 7,P. 1 u. 2 (P. 2=Atlas),1968. Text: P. 1, S. 29–30. Zugehörige Kt.: P. 2, Chart 15–30, S. 22–37: Valeur, H. H., Ice conditions in Greenland waters during January–July 1963.Google Scholar
  12. Techn. Rep. U.S. nav. oceanogr. Off. No. TR-60, 1965. V, 123 S. m. Fig. Kniskern, F. E., Potocsky, G. J., Frost degree day, related ice thickness curves, and harbor freezcup and breakup dates for selected Arctic stations.Google Scholar
  13. Trudy Gosudarstv. okeanogr. Inst. 96, 1969. S. 3–38: Uralov, N. S., [Merkmal und Ursachen für die Wandelbarkeit des Eisvorkommens an den östlichen Küsten Grönlands.]—Trudy Gosudarstv. okeanogr. Inst. 96, 1969. S. 39–55: Chrol, V. P., [Über die Ursache der langjährigen Änderung der Eismassenverteilung im Nordatlantischen Ozean.] [jeweils in russ. Spr.]Google Scholar
  14. Umschau. 70, 1970.H. 1, S. 13: Kühnel, I., Eisvorbereitungszeiten für die Ostsce.Google Scholar

Coastal oceanography UDC 551.468

  1. Die Abdeichung der Pinnau- und Krückaumündungsgebiete. [Bildprospekt.] (Hrsg. von der Philipp Holzmann Aktiengesellschaft, Hamburg, in Zsarb. mit dem Marschenbauamt Itzehoe.) Hamburg [1969]. 8 ungez. S. m. Abb.Google Scholar
  2. Bol. Serv. Hidrogr. nav., B. Aires. 6, 1969.No. 1, S. 5–26: Daien, M., Introducción al estudio de la influencia del Río de la Plata en las inundaciones. [in span. Spr. m. engl. Abstr.]Google Scholar
  3. Bundes-Ges.-Bl., Bonn.T. 1,Nr. 92 v. 6. 9.1969. S. 1573–1575: Gesetz über die Gemeinschaftsaufgabe “Verbesserung der Agrarstruktur und des Küstenschutzes”. Vom 3. Sept. 1969.Google Scholar
  4. Cah. océanogr. 21, 1969.No. 10, S. 965–994: Giresse, P., Carte sédimentologique des fonds sous-marins du delta de l'Ogooué.Google Scholar
  5. California and use of the ocean. 3. print. La Jolla, Calif. 1965. S. 12–1, 12–40: Engineering and technology for the coastal environment.Google Scholar
  6. CSIR Res. Rep., Pretoria. No. 222, 1964. V, 59 S. Some techniques in coastal oceanography being an outline of methods developed mainly in the course of ocean-outfall studies off the Natal coast.—CSIR Res. Rep., Pretoria. No. 222, 1964 V, S. 1–4: Oliff, W. D., Varney, P. a., Simple aerial photography in coastal oceanography.—CSIR Res. Rep., Pretoria. No. 222, 1964. V, S. 25–26: Harris, T. F. W., The use of dye in nearshore circulation studies.—CSIR Res. Rep., Pretoria. No. 222, 1964 V, S. 51–59: McMurray, W. R., Analysis of the longshore current system.Google Scholar
  7. Emery, K. O., A coastal pond. Studied by oceanographie methods. New York: American Elsevier Publ. Co. 1969. 80 S. m. Abb.Google Scholar
  8. Eos, Wash. 50, 1969.No. 10, S. 556: Arnow, T., International Geophysics. Symposium on the Hydrology of Deltas.Google Scholar
  9. Health Phys. 6, 1961. S. 66–85: Parker, F. L., Schmidt, G. D., Cottrell, W. B., Dispersion of radiocontaminants in an estuary.PubMedGoogle Scholar
  10. Hidrotehnica. 14, 1969.No. 4, S. 188–193, 224: Nicolae, T., (Considerations on the hydrological regime of the Romanian seaside lakes of the Black Sea.) [in rumän. Spr.]Google Scholar
  11. Jber. Forsch.-Stelle Norderney. 1967 (1969). S. 9–32: Walther, F., Überblick über die Untersuchungen des Wasserbauamtes Norden von 1920 bis 1933 über die Veränderungen der Ostfriesischen Inseln und ihre Ursachen. —Jber. Forsch.-Stelle Norderney. 1967 (1969). S. 33–120: Homeier, H., Das Wurster Watt—eine historisch-morphologische Untersuchung des Küsten- und Wattgebietes von der Weser- bis zur Elbmündung.Google Scholar
  12. J. Oceanol. Soc. Korea. 4, 1969.No. 1, S. 9–16: Yang, K. R., The determination of the sand drift movement using radioactive tracer at Young Il Bay. [in japan. Spr. m. engl. Abstr.]Google Scholar
  13. J. Waterways Harb. Div. Proc. amer. Soc. civ. Engrs. 93, 1967.No. WW 4, S. 133–152: Lockwood, M. G., Carothers, H. P., Preservation of estuaries by tidal inlets.Google Scholar
  14. Küste, H.18, 1969. S. 6–8: Stoltenberg, G., Öffentliche Aufgaben der Meeresforschung und Küstenforschung.—Küste. H. 18, 1969. S. 15–23: Hensen, W., Ingenieurwissenschaftliche Aufgaben in der Küstenforschung.—Küste. H. 18, 1969. S. 24–30: Schijf, J. B., Über den Stand der Küstenforschung.—Küste. H. 18, 1969. S. 31–39: Lorenzen, J. M., Das Programm des Küstenausschusses zur Erforschung der Naturvorgänge im deutschen Küstenvorfeld.—Küste. H. 18, 1969. S. 40–46: Offene und aktuelle Fragen im Seebau und Küstenschutz und zweckmäßige Wege zu ihrer Lösung. Fachgespräch ... Berichterstatter: J. Sindern.Google Scholar
  15. Manuser. Rep. Ser. Fish. Bd Can. No. 1051, 1969. 49 S. m. Fig. u. Tab. Hardon, M., Biological observations in Fatty Basin, Vancouver Island, British Columbia, 1969. [manuscr. stat.]Google Scholar
  16. Mar. Geol. 7, 1969.No. 6, S. 529–551: Harrison, W., Empirical equations for foreshore changes over a tidal cycle. [Auch: Contr. Virginia Inst. mar. Sci. No. 304.]—Mar. Geol. 7, 1969,No. 6, S. 553–559: Clifton, H. E., Beach lamination: nature and origin.CrossRefGoogle Scholar
  17. Merentutkimuslait. Julk..No. 228, 1969. S. 3–118: Bagge, P., Effects of pollution on estuarine ecosystems.Google Scholar
  18. Misc. Pap. U. S. Army coast. Engng. Res. CenterNo. 2-64, 1964. 25 S. m. Tab. u. Fig. Kadib, A.-L., Calculation procedure for sand transport by wind on natural beaches.—Misc. Pap. U.S. Army coast. Engng. Res. CenterNo. 2-69, 1969. Getr. Pag. Duane, D. B., Judge, C. W., Radioisotopic sand tracer study Point Conception, California. Preliminary report on accomplishments July 1966–June 1968.—Misc. Pap. U. S. Army coast. Engng. Res. CenterNo. 3-69, 1969. Getr. Pag. Urban, H. D., Galvin, C. J., Pipe profile data and wave observations from the CERC Beach Evaluation Program, January–March 1968.Google Scholar
  19. Mitt. Franzius-Inst. H. 32, 1969. S. 150–266: Roy, S. C., Hydraulische Untersuchungen über das Hooghly Ästuar. [engl.: S. 45–149.]—Mitt. Franzius-Inst. H. 32, 1969. S. 266–293: Stückrath, T., Die Bewegung von Großriffeln an der Sohle des Rio Paraná.Google Scholar
  20. Mitt. Geogr. Ges. München. 54, 1969. T. 1, S. 135–152: Schroeder-Lanz, H., Wicneke, F., Morphologische Untersuchungen im Mündungsbereich des Qued Oumer Rbia (Marokko).Google Scholar
  21. Mitt. Inst. Wasserb. Techn. Univ. Berl. Nr.71, 1969. S. 73–81: Hoffmann, H., Riemer, K., Der neue Hamburger Elbtunnel.Google Scholar
  22. Nature, Lond. Vol. 225, No. 5227, 1970. S. 56–58: Dyer, K. R., Linear erosional furrows in Southampton water.Google Scholar
  23. Ocean Industry. 4, 1969.No. 10, S. 38–39: Stevenson, R. E., Space photos detect changing currents along the Texas coast.Google Scholar
  24. Ocean sciences and engineering of the Atlantic shelf. Washington 1968. S. 15–62: Ichiye, T., Hydrography, tides and tidal flushing of Great South Bay-South Oyster Bay, Long Island.Google Scholar
  25. Okeanologija. 9, 1969.No. 6, S. 1007–1017: Belevich, E. F., (On sedimentation at the outer edge of the delta (avant-delta) of the Volga River.) [in russ. Spr. m. engl. Abstr.]Google Scholar
  26. Probl. Arkt. Antarkt. 32, 1969. S. 126–131: Shpaikher, A. O., (The oceanographic characteristics of the Disraeli Fjord (Ellesmere Island.)Google Scholar
  27. Proc. 11th Conf. Great Lakes Res. 1968. S. 161–178: Berg, C. W., Duane, D. B., Effect of particle size and distribution on stability of artificially filled beach, presque Isle Peninsula, Pennsylvania. [Auch: Repr. U.S. Army Coast Engng. Res. Center No. 1-69, 1968.—Proc. 11th Conf. Great Lakes Res. 1968. S. 273–297: Berg, D. W., Systematic collection of beach data. [Auch: Repr. u. s. coast Engng Res. Center No. R. 4–69, 1968.]—Proc. 11th Conf. Great Lakes Res. 1968. S. 671–700: Savage, R. P., Woodhouse, W. W., Creation and stabilization of coastal barrier dunes. [Auch: Dasselbe No. R. 3-69, 1968.]—Proc. 11th Conf. Great Lakes Res. 1968. S. 787–796: Weymouth, O. F., Magoon, O. T., Prototype investigation of stability of quadripod cover layer, Santa Cruz Harbor, California. [Auch: Dasselbe No. R. 2-69, 1968.]Google Scholar
  28. Przegl. geofiz. 14, (22),1969.No. 1, S. 3–42: Majewski, A., Hydrographie development of Vistula delta in historical times. [in poln. Spr. m. engl. Abstr.]Google Scholar
  29. Rapp. annu. Stat. Biol. mar. Grande-Rivière 1968 (1969). S. 19–21: Boudreault, F.-R., Océanographie physique en 1968.Google Scholar
  30. Rep. CSIRO Div. Fish. Oceanogr., CronullaNo. 44/45,No. 44,1969. 28 S. m. Fig. u. Tab. Newell, B. S., Dispersal of pulp mill effluent in Hospital Bay, Tasmania.—Rep. CSIRO Div. Fish. Oceanogr., CronullaNo. 45, 1969. 22 S. m. Fig. u. Tab. Newell, B. S., Total transport and flushing times in the lower Tamar River.Google Scholar
  31. Umschau. 69,1969.H. 25, S. 838: Strandzerstörung an der sowjetischen Schwarzmeerküste.Google Scholar
  32. Wasserwirtsch., Stuttg. 59, 1969.H. 10, S. 292–297: Vollmers, H., Wolf, G., Untersuchungen von Schlenumbildungen im Bereich der Unterelbe.Google Scholar
  33. Wiss. Z. E.-M.-Arndt.-Univ. Greifswald, math.-nat. R. 18, 1969,Nr. 1/2, S. 181–187: Schnese, W., Die Stellung des Greifswalder Boddens im System der angrenzenden Küstengewässer.Google Scholar

Marine geology UDC 551.35

  1. Acta geogr., Helsinki. 19,1969.No. 2, 13 S. Láng, S., Über die Menge und den Kreislauf der Sedimente, betrachtet vom Gesichtspunkt der modernen Geomorphologie.Google Scholar
  2. Amer. J. Sci. 262, 1964. S. 121–132: Upson, J. E., Leopold, E. B., Rubin, M., Postglacial change of sealevel in New Haven Harbor, Connecticut.Google Scholar
  3. Bild d. Wiss. 6, 1969.H. 4, S. 354–358: Hessland, I., Meeresgeologie.Google Scholar
  4. Bull. Geogr. Surv. Inst., Tokyo. 14,P. 1,1969. S. 17–28: Fujita, N., Recent vertical displacement in coast of Japan estimated from the annual mean sea level.Google Scholar
  5. Coast. Engng. Jap. 11, 1968. S. 131–147: Horikawa, K., Sunamura, T., An experimental study on crosion of coastal cliffs due to wave action.Google Scholar
  6. Ekspress-Inform. Morskoj gidrofiz. Inst. No.16, 1969. S. 212–215: Gevork'jan, V. Ch., [Neue Angaben über die Besonderheiten der Ansammlung und Zusammensetzung von Ablagerungen im NW-lichen Teil des Atlantischen Ozeans.] [in russ. Spr.]Google Scholar
  7. Geologie.18, 1969.H. 5, S. 515–525: Daber, R., K. v. Bülow, Zur Vollendung seines 70. Lebensjahres am 20. Juli 1969.—Geologie. 18, 1969.H. 7, S. 775–793: Havemann, H., Die Entwicklung der Undationstheorie R. W. van Bemmelens.Google Scholar
  8. J. Geol., Chicago. 77, 1969. S. 113–120: Needham, H. D., Habib, D., Heezen, B. C., Upper Carboniferous palynomorphs as a tracer of red sediment dispersal patterns in the northwest Atlantic.Google Scholar
  9. J. Geol., Lond. 76, 1968. S. 280–296: Flemming, N. C., Derivation of Pleistocene marine chronology from morphometry of erosion profiles. [Auch: Coll. Repr. Nat. Inst. Oceanogr. Vol. 16, No. 656, 1968.]Google Scholar
  10. J. Geophys. Res. 76, 1965.No. 18, S. 4724–4725: Morgan, J. W., Lovering, J. F., Uranium and thorium abundances in the basalt cored in Mohole Project <Guadalupe site>.Google Scholar
  11. Marsal, D., Statistische Methoden für Erdwissenschaftler. Stuttgart: Schweizerbart 1967. XII, 152 S. m. Abb. u. Tab.Google Scholar
  12. Nature, Lond. Vol. 224, No. 5217, 1969. S. 358–359: Dingwall, R. G., Geology of the central English Channel.Google Scholar
  13. Naturwiss. Rdsch. 22, 1969.H. 12, S. 538: Henningsen, D., Neue Ergebnisse zur geologischen Geschichte des Atlantischen Ozeans.Google Scholar
  14. Norsk geogr. Tidsskr. 23, 1969.H. 4, S. 193–199: Klemsdal, T., A Lista-Stage moraine on Jaeren.Google Scholar
  15. Okeanologija 1965.No.5, S. 910–912: Patrikeev, V. V., Aibulatov, N. A., (A method for the measurement of rock wearing in the coastal zone.) [in russ. Spr.]—Okeanologija 9, 1969.No. 6, S. 996–1006: Bordovsky, O. K., (Organic matter in the recent bottom sediment of the Caspian Sea.) [in russ. Spr. m. engl. Abstr.]Google Scholar
  16. Pacific Sci. 23, 1969.No. 4, S. 473–482: Thomas, C. W., Paleontological analyses of North Pacific oceanbottom cores. [Auch: Contr. Hawaii Inst. Geophys. No. 279.]Google Scholar
  17. Proc. of the Arctic Basin Symp. October 1962. Wash. Arctic Inst. North Amer. 1963. S. 3–8: Hunkins, K., Submarine structure of the Arctic Ocean from earthquake surface waves.Google Scholar
  18. Science. Vol.165, No. 3893, 1969. S. 549–555: Churkin, M., Paleozioc tectonic history of the Arctic basin north of Alaska.Google Scholar
  19. Sci. J. 4, (4),1968, S. 51–55: Flemming, N. C., Mediterranean sea level changes. [Auch: Coll. Repr. Nat. Inst. Oceanogr. Vol. 16, No. 655. 1968.]Google Scholar
  20. Transactions Gulf Coast Association of Geological Societies.Vol.18 1968. S. 26–33: Bouma, A. H., Distribution of minor structures in Gulf of Mexico sediments. [Auch: Contr. Oceanography, Coll. Geosci. Texas A & M Univ. Coll. Stat. Vol. 12, 1968–1969. No. 383.]—Transactions Gulf Coast Association of Geological Societies. Vol. 18, 1968, S. 334–356: Bryant, W. R., Wallin, C. S., Stability and geotechnical characteristics of marine sediments, Gulf of Mexico. [Auch: Dasselbe No. 392.]Google Scholar
  21. Transactions Marine Temperature Measurements Symposium, Marine Technological Society. June 1969. S. 275–288: Chmelik, F. B., Thermal properties of marine sediments. [Auch: Contr. Oceanography, Coll. Geosci. Texas A & M Univ. Coll. Stat. Vol. 12, 1968–1969. No. 380.]Google Scholar

Shelf geology UDC 551.351

  1. Bull. Amer. Assoc. Petrol. Geol. 53, 1969.No. 10 (p. 1 of 2), S. 2067–2078: Scholl, D. W., Hopkins, D. M., Newly discovered Cenozoic basins, Bering sea shelf, Alaska.Google Scholar
  2. Cah. Pacif. 1968, No.12 S. 1–144, 14 S. Kt. u. Fig.: Chevalier, J.-P., Denizot, M., Mougin, J.-L., Étude géomorphologique et bionomique de l'Atoll de Mururoa (Tuamotu).—Cah. Pacif. 1969.No. 13, S. 1–16: Trichet, J., Quelques aspects de la sédimentation calcaire sur les parties émergées de l'atoll de Mururoa.—Cah. Pacif. 1969.,No. 13, S. 17–46: Tereinier, G., Note de synthèse sur les sols du Motu Faucon. (Étude pédologique d'une portion représentative de l'atoll de Mururoa.)—Cah. Pacif. 1969.No. 13, S. 47–58: Deneufbourg G., Les forages de Mururoa.—Cah. Pacif. 1969.No. 13, S. 59–68: Labeyric, J., Lalou, C., Delibrias, G., Étude des transgressions marines sur l'atoll de Mururoa par la datation des différents niveaux de corail.—Cah. Pacif. 1969.No. 13, S. 69–74: Fontes, J. C., Kulbicki, G., Letolle, R., Les sondages de l'atoll de Muroroa: aperçu géochimique et isotopique de la série carbonatée.Google Scholar
  3. Dokl. Akad. SSSR. 189, 1969.No. 5, S. 1111–1113: Shuiskii, Iu. D., (Regeneration of modern sea-beach placer as connected with the dynamics of the underwater sand slope.) [in russ. Spr.]Google Scholar
  4. Nature, Lond. Vol.225, No. 5229, 1970. S. 268–269: Barnes, J., Bellamy, D. J., Jones, D. J., Sublittoral reef phenomena of Aldabra.Google Scholar
  5. Okeanologija 5, 1965.No. 5, S. 870–876: Govberg, L. I., (Faunistic complexes in the nearcoastal deposits of the north-west part of the Black Sea.) [in russ. Spr.]Google Scholar

Deep-sea geology UDC 551.352

  1. Ekspress-Inform. Morskoj gidrofiz. Inst. No.16, 1969. S. 195–198: Beljavskij, G. A. [Kurze Charakteristik der physikalisch-mechanischen Eigenschaften der Bodenablagerungen im Mittelmeer im tiefen Wasser.]—Ekspress-Inform. Morskoj gidrofiz. Inst. No. 16, 1969. S. 199–202: Beljavskij, G. A., [Über die physikalisch-mechanischen Eigenschaften der Bodenablagerungen im NW-lichen Atlantischen Ozean im tiefen Wasser.]—Ekspress-Inform. Morskoj gidrofiz. Inst. No. 16, 1969, S. 203–207: Gevork'jan, V. Ch., [Physikalisch-chemische Bedingungen für die Gestaltung von Ablagerungsschichten im NW-lichen Teil des Atlantischen Ozeans.]—Ekspress-Inform. Morskoj gidrofiz. Inst. No. 16, 1969. S. 208–211: Gevork'jan, V. Ch., [Zur Frage über die Zusammensetzung von Ablagerungen im Mittelmeer im tiefen Wasser.]—Ekspress-Inform. Morskoj gidrofiz. Inst. No. 16, 1969. S. 221–228: Kleščenko, S. A., Mitropol'skij, A. Ju., Ol'štynskij, S. P., [Einige Untersuchungsergebnisse von Bodenablagerungen aus dem östlichen Teil des Schwarzen Meeres.] [jeweils in russ. Spr.]Google Scholar
  2. Hamburger Küstenforschung. 1969, H.11, S. 1–43: Linke, G., Bearbeitungsstand, Probleme sowie neue Arbeitsmöglichkeiten im Faziesbereich des sandigen Küstenholozäns. [Auch: Mitt. Geol. Landesamt Hamburg Nr. 72 u. 73.]—Hamburger Küstenforschung. 1969.H. 11, S. 45–84, 35 Abb.: Linke, G., Die Entstehung der Insel Scharhörn und ihre Bedeutung für die Überlegungen zur Sandbewegung in der Deutschen Bucht. [Auch: Dasselbe Nr. 72 u. 73.]Google Scholar
  3. Nature, Lond. Vol.224, No. 5222, 1969. S. 899–901: Kennett, J. P., Geitzenauer, K. R., Pliocenepleistocene boundary in a South Pacific deep-sea core.Google Scholar
  4. Okeanologija. 9, 1969.No. 5, S. 823–833: Neprochnov, Yu. P., Elnikov, I. N., (Results of the seismic studies of structure of the Black Sea sediments along the Yalta-Sinop section.) [in russ. Spr. m. engl. Abstr.]Google Scholar

Geomagnetism Generalities UDC 550.38

  1. Dt. hydrogr. Z. 22,1969.H. 2, S. 70: In memoriam Prof. Dr. F. Errulat.Google Scholar
  2. Geol. i. Geofiz., Novosibirsk. 1969. No.9, S. 109–115: Larionov, V. A., (The study of absolute electrical method of the earth's magnetic field elements measurement.) [in russ. Spr.]Google Scholar
  3. Geomagn. i Aeronomija. 9, 1969.No. 6, S. 1132–1134: Rusanova, N. V., (About an estimation of error of a tugged component magnetometer.)—Geomagn. i Aeronomija. 9, 1969.No. 6, S. 1134–1136: Bobrov, V. N., (Quartz H-magnetometer.) [jeweils in russ. Spr.]Google Scholar
  4. Geophys. Prospect. 14, 1966.No. 1, S. 48–56: Best, A., Schreiber, P., Über Klimatest bei geomagnetischen Feldwaagen.—Geophys. Prospect. 14, 1966.No. 3, S. 292–300: Gupta Sarma, D., Biswas, S. K., A portable proton precession magnetometer.Google Scholar
  5. Planetary Space Sci. 13, 1965. S. 521–527: Burrows, K., Hall, S. H., The operation of a proton magnetometer in a moving vehicle.CrossRefGoogle Scholar

Geomagnetic technique (methods, equipment, observatories) UDC 550.380

  1. Anweisung für die elektromagnetische Kompaßregulierung mit Interkardinalspulen. Hamburg: Deutsches Hydrographisches Institut [1969] — 17 S. u. 15 Abb.Google Scholar
  2. Bull. Nat. geophys. Res. Inst., Hyderabad. 7, 1969.No. 1, S. 51–65: Sarma, Y. S., Sanker Narayan, P. V., Ramanujachary, K. R., Three-component induction magnetometer for recording geomagnetic micropulsations at the geoelectric observatory at Choutupal.Google Scholar
  3. Ekspress-Inform. Morskoj gidrofiz. Inst. No.16, 1969. S. 133–137: Avdeev, A. I., Dubeneckij V. N., Ŝermazan, V. F., [Gleichzeitige Aufzeichnung des geomagnetischen Feldes und der Bodentopographie auf dem Streifen des selbstregistrierenden Gerätes FTA “Ladoga”.] [in russ. Spr.]Google Scholar
  4. Science. Vol.164, No. 3884, 1969. S. 1164–1167: Ruddiman, W. F., Recent planktonic foraminifera: dominance and diversity in North Atlantic surface sediments.Google Scholar

Continents UDC 551.41

  1. Austral. J. Sci. 25, 1963, S. 369–384: 479–488: Carey, W., The asymmetry of the Earth. [Auch: Publ. Univ. Tasmania, Dept. Geol. No. 138, 1963.]Google Scholar
  2. Developments in Geotectonics. 1, 1965. 335 S. Aubouin, J., Geosynclines. [Engl. übers. aus d. Franz.]Google Scholar
  3. Earth planet. Sci. Letters. 2, 1967. S. 283–289: Kerr, J. W., A submerged continental remnant beneath the Labrador Sea.CrossRefGoogle Scholar
  4. Geologie. 18, 1969.H. 5, S. 626–637: Rühberg, N., Die Geologie der pleistozänen Schichtenfolge am Westkliff von Poel.Google Scholar
  5. Geophysica. 10, 1968. S. 25–34: Penttilä, E., On the influence of the structure of the earth's crust and the ice age on isostatic equilibrium and land uplift in the Baltic Shield.—Geophysica. 10, 1968. S. 55–68: Teisseyre, R., Penttilä, E., Tuominen, H. V., The horizontal spread of cratonic earthquakes and the corresponding block movements.Google Scholar
  6. Geophys. Monogr. No.13, 1969. S. 683–689: Knopoff, L., Continental drift and convection. [Auch: Scient. Rep. Upper Mantle Proj. No. 21; Publ. Nat. Acad. Sci., Wash. No. 1708. Publ. Inst. Geophys. Univ. Calif. No. 736.]—Geophys. Monogr. No. 13, 1969. S. 698–712: Beloussov, V. V., Interrelations between the earth's crust and upper mantle.Google Scholar
  7. Nature, Lond. Vol.224, No. 5221, 1969. S. 791: Gibson, I. L., Gass, I. G., Middle East rift zones.—Nature, Lond. Vol. 225, No. 5227, 1970. S. 11: Movements in the Indian Ocean. no refs.Google Scholar

Coasts UDC 551.417

  1. Zesz. geogr. Gdańsk. 10, 1968. S. 37–85: Szeliga, J., An analysis of the correctness of selected XVII and XVIII-century maps of the Polish coast. [in poln. Spr. m. engl. Abstr.]Google Scholar

Islands UDC 551.42

  1. Das Buch von Föhr. Landschaft, Volkstum, Meeresklima, Meeresheilkunde. Hrsg. von W. Leistner. 4. Aufl. Wyk/Föhr: Föhrbuch-Vertrieb 1969. 169 S., 51 Abb.Google Scholar
  2. Ekspress-Inform. Morskoj gidrofiz. Inst. No.12, 1969. S. 160–165: Lavrov, V. M., Metal'nikov, A. P., [Zu der Tektonik der Kanarischen Inseln.] [in russ. Spr.]Google Scholar

Surface features of the stady field UDC 550.382

  1. Acta geophys. polon. 17, 1969.No. 3, S. 221–231: Teisseyre, R., Note on the approximation method for gravity and magnetic field determined by deformational anomalies. [mit poln. u. russ. Abstr.]Google Scholar
  2. Bull. Nat. geophys. Res. Inst., Hyderabad. 7, 1969.No. 1, S. 1–13: Acharya, N., Interpretation of local magnetic anomalies of an iron ore deposit in Podagada range of hills near Umerkote, Koraput district, Orissa.Google Scholar
  3. Can. J. Earth Sci. 6, 1969.No. 5, S. 1312–1316: Roy, J. L., Robertson, W. A., Keeping, C., Magnetic “field free” spaces for paleomagnetism, rock magnetism, and other studies. [Auch: Contr. Dom. Obs., Ottawa No. 275.]Google Scholar
  4. Geol. i Geofiz., Novosibirsk. 1969. No.7, S. 35–44: Yakubailik, E. K., Vlasov, A. Ya., (The change in time of magnetite magnetic characteristics.)—Geol. i Geofiz., Novosibirsk. 1969.No. 8, S. 3–9: Zudin, A. N., Pospelova, G. A., Saks, V. N., (The neogene and paleogene boundary problem in the light of paleomagnetic data.)—Geol. i Geofiz., Novosibirsk. 1969.No. 9, S. 70–81: Malyshev, Yu. F., (Magnetic field of the Aldanian Archean.) [jeweils in russ. Spr.]Google Scholar
  5. Geophys. J. R. astr. Soc. 18, 1969.No. 2, S. 211–222: Collinson, D. W., Investigations into the stable remanent magnetization of sediments.—Geophys. J. R. astr. Soc. 18, 1969.No. 5, S. 489–497: Pucher, R., On the oxidation and reduction of natural magnetites.Google Scholar
  6. Geophys. Monogr. No.13, 1969. S. 391–398: Nagata, T., Reduction of geomagnetic data and interpretation of anomalies. [Auch: Scient, Rep. Upper Mantle Proj. No. 21: Publ. Nat. Acad. Sci., Wash. No. 1708.]—Geophys. Monogr. No. 13, 1969, S. 399–404: Hahn, A., Zitzmann, A., The relation of magnetic anomalies to topography and geologic features in Europe. [Auch: Dasselbe.]—Geophys. Monogr. No. 13, 1969. S. 415–421: Simonenko, T., Relation of magnetic anomalies to topography and geology in the USSR. [Auch: Dasselbe.] —Geophys. Monogr. No. 13, 1969. S. 422–430: Vacquier, V., Magnetic intensity field in the Pacific. [Auch: Dasselbe.]—Geophys. Monogr. No. 13, 1969. S. 430–436: Heirtzler, J. R., Geomagnetic studies in the Atlantic Ocean. [Auch: Dasselbe; Contr. Lamont-Doherty geol. Obs. No. 1253.]—Geophys. Monogr. No. 13, 1969. S. 436–446: Malahoff, A., Magnetic studies over volcanoes. [Auch: Dasselbe; Contr. Hawaii Inst. Geophys. No. 198.]—Geophys. Monogr. No. 13, 1969. S. 627–633: Verhoogen, J., Magnetic properties of rocks. [Auch: Dasselbe.]Google Scholar
  7. Geophysics. 34, 1969.No. 5, S. 772–774: Fuller, M., Magnetic orientation of borehole cores.CrossRefGoogle Scholar
  8. Izv. Akad. Nauk SSSR, Fiz. Zemli. 1969. No.9, S. 97–104: Bagin, V. I., Brodskaya, S. J., Gon'shakova, V. I., (Some data on magnetic properties of plateaubasalts and alkaline basaltoids of the southern margin of the Russian platform.)—Izv. Akad. Nauk SSSR, Fiz. Zemli. 1969.No. 10, S. 88–90: Tropin, J. D., Yakubailik, E. K., (On the problem of time dependence of magnetic viscosity effective field.)—Izv. Akad. Nauk SSSR, Fiz. Zemli. 1969.No. 11, S. 66–76: Bagin, V. I., Brodskaya, S. Yu., Petrova, G. N., (Study of phase composition of basalt ferromagnetic fraction.)—Izv. Akad. Nauk SSSR, Fiz. Zemli. 1969.No. 12, S. 48–56: Aparin, V. P., Vlasov, A. Y., Fedosseyeva, I. V., (Alternating magnetic anisotropy of red sedimentary rocks.) —Izv. Akad. Nauk SSSR Fiz. Zemli. 1969.No. 12, S. 84–87: Bagin, V. I., Burakov, K. S., (Peculiarities of ferromagnetic crystallization in underwater oceanic basalts.) [jeweils in russ. Spr.]Google Scholar
  9. J. Geomagn. Geoelectr. 21, 1969.No. 3, S. 579–594: Doell, R. R., Smith, P. J., On the use of magnetic cleaning in paleointensity studies.—J. Geomagn. Geoelectr. 21, 1969.No. 3, S. 595–613: Wasilewski, P. J., Thermochemical remanent magnetization (TCRM) in basaltic rocks: Experimental characteristics.—J. Geomagn. Geoelectr. 21, 1969.No. 3, S. 623–645: Nagata, T., Carleton, B. J., Notes on piezo-remanent magnetization of igneous rocks III: Theoretical interpretation of experimental results.—J. Geomagn. Geoelectr. 21, 1969.No. 3, S. 655–667: Wasilewski, P. J., Thermomagnetic analysis: Experimental factors.—J. Geomagn. Geoelectr. 21, 1969.No. 3, S. 669–677: Schwarz, E. J., A discussion of thermal and alternating field demagnetization methods in the estimation of paleomagnetic field intensities.Google Scholar
  10. Nature, Lond. Vol.224, No. 5217, 1969. S. 360–361: Watkins, N. D., Gunn, B. M., Magmatic pulsing and changes in titanium concentration during miocene volcanism in Oregon.—Nature, Lond. Vol. 224, No. 5220, 1969. S. 683–684: Sasajima, S., Geomagnetic polarity change during the Miocene deduced from Paleomagnetic stratigraphy in Japan.—Nature, Lond. Vol. 224, No. 5226, 1969. S. 1289–1290: Johnston, M. J. S., Stacey, F. D., Transient magnetic anomalies accompanying volcanic cruptions in New Zealand.Google Scholar
  11. Physics Earth planet. Interiors. 2, 1969.No. 2, S. 105–114: Storetvedt, K. M., Gidskehaug, A., The magnetization of the Great Whin Sill, northern England.—Physics Earth planet. Interiors. 2, 1969.No. 2, S. 115–122: Mundt, W., Depth determination of magnetization and density contrasts in the earth's crust. [Auch: Rep. Geomagn. Inst. German Acad. Sci., Potsdam No. 325.]—Physics Earth planet. Interiors. 2, 1969.No. 2, S. 138–146: Bhalla, M. S., Verma, R. K., Paleomagnetism of Triassic Parsora sandstones from India. [Auch: Contr. NGRI, Hyderabad No. 69-142.]CrossRefGoogle Scholar
  12. Pure appl. Geophys. 75, 1969.No. 4, S. 140–146: Frölich, F., Ergebnisse komplexer Testversuche an Kiruna-Eisenerzen. [Auch: Mitt. Geod. Inst. Potsdam No. 313.]76, 1969.No. 5, S. 123–129: Bhatal, R. S., Stacey, F. D., Field-induced anisotropy of magnetic susceptibility in rocks.—Pure appl. Geophys. 75, 1969.No. 4, S. 130–136: Bhatal, R. S., Gillingham, D. E. W., Stacey, F. D., Thermal relaxation of magnetic domain misalignment in rocks.CrossRefGoogle Scholar
  13. Science. Vol.164, No. 388, 1969. S. 1516–1517: Luyendyk, B. P., Fisher, D. E., Fission track age of magnetic anomaly 10: a new point on the sea-floor spreading curve.Google Scholar
  14. Studia geophys. geod. 13, 1969.No. 4, S. 457–467: Kropáček, V., Changes of magnetic properties of titanomagnetites in the course of disintegration of solid solutions. [mit dt. Abstr.]Google Scholar
  15. Z. Geophys. 35, 1969.H. 5, S. 475–484: Schmidbauer, E., Magnetic properties of oxidized Fe−Cr spinels.—Z. Geophys. 35, 1969.H. 5, S. 551–552: Gose, W. A., Bemerkungen zum Artikel von E. Schenk: “Über die Magnetisierung der Tuffe und Paläosole im Paläovulkan des Vogelsberges.” [Auch: Contr. Geosci. Div. Southw. Center advanc. Studies, Dallas No. 96.]—Z. Geophys. 35, 1969,H. 5, S. 553–555: Schenk, E., Die Magnetisierung von Tuffen und Paläosolen. Stellungnahme zu den Bemerkungen von W. A. Gose.Google Scholar

Underlying plan UDC 550.383

  1. Ann. Géophys. 25, 1969.No. 3, S. 731–738: Laval, G., Pellat, R., Philippon, J.-P., Calcul des coordonnées B. L. par perturbations.Google Scholar
  2. Geomagn. i Aeronomija 9,1969.No. 5, S. 956–957: (The International Geomagnetic Reference Field 1965, 0.)—Geomagn. i Aeronomija. 9, 1969.No. 6, S. 1058–1059: Kalinin, Yu. D., (Definition of the parameters of an arbitrary oriented magnetic dipole, presenting a geomagnetic field.)—Geomagn. i. Aeronomija. 9, 1969.No. 6, S. 1060–1066: Zidarov, D., (About variations of the magnetic field of the earth.) [jeweils in russ. Spr.]Google Scholar
  3. Geophys. J. R. astr. Soc. 18, 1969.No. 3, S. 251–256: Bott, M. H. P., Computation of the magnetic anomalies caused by two-dimensional bodies.Google Scholar
  4. J Geomagn. Geoelectr. 21, 1969.No. 3, S. 685–695: Fougere, P. F., Spherical harmonic analysis 3. The Earth's magnetic field, 1900–1965.—J Geomagn. Geoelectr. 21, 1969.No. 3, S. 701–704: Nagata, T., Length of geomagnetic polarity intervals.Google Scholar
  5. Pure appl. Geophys. 75, 1969.No. 4, S. 117–132: Malin, S. R. C., Pocock, S. B., Geomagnetic spherical harmonic analysis.CrossRefGoogle Scholar
  6. Z. Geophys. 35, 1969.H. 5, S. 517–527: Wilhelm, H., Das zeitliche Verhalten des erdmagnetischen Quadrupolfeldes von 1835 bis 1965.Google Scholar

Origin and secular change of the field UDC 550.384

  1. Geophys. J. R. astr. Soc. 18, 1969.No. 3, S. 305–327: McElhinny, M. W., Notes on Progress in geophysics paleomagnetic directions and pole positions-X. Pole numbers 10/1 to 10/200.—Geophys. J. R. astr. Soc. 18, 1969.No. 4, S. 371–395: Wellman, P., McElhinny M. W., McDougall, I., On the polarwander path for Australia during the Cenozoic.Google Scholar
  2. Geophys. Monogr. No.13, 1969. S. 447–457: Runcorn, S. K., The paleomagnetic vector field. [Auch: Scient. Rep. Upper Mantle Proj. No. 21; Publ. Nat. Acad. Sci., Wash. No. 1708.]Google Scholar
  3. Indian J. Met. Geophys. 20, 1969.No. 2, S. 141–144: Rao, D. R. K., Bansal, R. K., Secular variation of geomagnetic elements at Alibag.Google Scholar
  4. J. geophys. Res. 74, 1969.No. 2, S. 594–604: Roy, J. L., Park, J. K., Palcomagnetism of the Hopewell group, New Brunswick.—J. geophys. Res. 74, 1969.No. 4, S. 1026–1036: Irving, E., Robertson, W. A., Test for polar wandering and some possible implications.—J. geophys. Res. 74, 1969.No. 4, S. 1037–1044: Sasajima, S., Maenaka, K., Variation of the geomagnetic field intensity since the late Miocene.Google Scholar
  5. Nature, Lond. Vol.224, No. 5220, 1969. S. 681–683: Bucha, V., Changes of the earth's magnetic moment and radiocarbon dating.—Nature, Lond. Vol. 225, No. 5220, 1970. S. 262–264: Valencio, D. A., Vilas, J. F., Palaeomagnetism of some middle Jurassic lavas from southeast Argentina.Google Scholar
  6. Physics Earth planet. Interiors. 2, 1969.No. 2, S. 88–92: Kovetz, A., The influence of a uniform magnetic field on thermal convection in an enclosed fluid core.CrossRefGoogle Scholar
  7. Pure appl. Geophys. 75, 1969.No. 4, S. 147–157: El Mohandis, M. G. S., A geophysical aspect of a disturbed fluid motion in the earth's core.CrossRefGoogle Scholar

Variations, fluctuations, magnetic storms UDC 550.385

  1. Ann. Géophys., 25, 1969.No. 3, S. 739–745: Riddihough, R. P., A geographical pattern of daily magnetic variation over North-West Europe.Google Scholar
  2. Bull. Nat. geophys. Res. Inst., Hyderabad. 7, 1969.No. 1, S. 15–19: Sastry, T. S., Srivastava, B. J., Geomagnetic lunar semidiurnal oscillation in Z at Kodaikanal and Trivandrum during 1958–59.Google Scholar
  3. Can. J. Phys. 42, 1964. S. 200–207: Jacobs, J. A., Watanabe, T., A model of geomagnetic micropulstations with long periods.Google Scholar
  4. Geomagn. i Aeronomija. 9, 1969.No. 5, S. 798–802: Samokhin, M. V., (About plasma movement within the magnetosphere near the axis of symmetry.)—Geomagn. i Aeronomija. 9, 1969. S. 899–902: Afanasieva, V. I., (The geomagnetic storm families for 1957–1964. 3. A connection of geomagnetic activity with different forms of the sun activity display.)—Geomagn. i Aeronomija. 9, 1969.No. 5, S. 914–917: Vanyan, L. L., Abramov, L. A., (Influence of geomagnetic force lines inclination on propagnation of directed hydromagnetic waves in the low ionosphere.)—Geomagn. i Aeronomija. 9, 1969.No. 5, S. 917–920: Vanyan, L. L., Yudovitch, V. A., (A conus of dispersion of hydromagnetic waves, directed by the magnetic field.)—Geomagn. i Aeronomija. 9, 1969.No. 5, S. 944–945: Afonina, R. G., Feldshtein, Ya. I., (A latitudinal distribution of the field of polar magnetic disturbances at night and evening hours.)—Geomagn. i Aeronomija. 9, 1969.No. 5, S. 946–947: Osipov, N. K., Pivovarova, N. B., Pivovarov, V. G., (About connection of magnetic disturbances with corpuscular intrusions on the night and the day side of polar zone.)—Geomagn. i Aeronomija. 9, 1969.No. 5, S. 947–948: Afanasieva, V. I., (The geomagnetic storm families for 1957–1964. 4. The geomagnetic storm families with sudden commencements.)—Geomagn. i Aeronomija. 9, 1969.No. 6, S. 1002–1008: Fatkullin, M. N., Legenka, A. D., (To the dependence of the coefficient of losses in the F-2 region of the ionosphere and the thermosphere temperature on a degree of geomagnetic disturbance.) —Geomagn. i Aeronomija. 9, 1969.No. 6, S. 1116–1117: Afanasieva, V. I., (The geomagnetic storm families for 1957–1964. 5: The character of development of activity within storm families.)—Geomagn. i Aeronomija. 9, 1969.No. 6, S. 1120–1123: Kuznetzova, V. G., (Comparison of geomagnetic variations, registered in a number of places of the Carpathian region.)—Geomagn. i Aeronomija. 9, 1969.No. 6, S. 1123–1124: Golovkov, V. P., (Anomalous variations of the geomagnetic field in a seismoactive region.)—Geomagn. i Aeronomija. 9, 1969.No. 6, S. 1124–1126: Kisclev, B. V., Kovtun, A. A., Kopitenko, Yu. A., (Spatial distribution of geomagnetic pulsations.)—Geomagn. i Aeronomija. 9, 1969.No. 6, S. 1127–1128: Vanyan, L. L., Kiziriya, L. V., Levitan, A. E., (About polarization of geomagnetic pulsations of Pi 2 type.)—Geomagn. i Aeronomija. 9, 1969.No. 6, S. 1128–1129: Baransky, L. N., Bolshakova, O. V., Geller, L. A., (About a latitudinal dependence of the period and amplitude of stable oscillations of Pc 3–4 type.)—Geomagn. i Aeronomija. 9, 1969.No. 6, S. 1130–1132: Rokityanskaya, D. A., (About micropulsations with 4–12 sec. periods.) [jeweils in russ. Spr.]Google Scholar
  5. Gerlands Beitr. Geophys. 78, 1969.H. 4, S. 301–308: Mishin, V. M., Effects of the earth's daily rotation on electric currents in the magnetosphere.Google Scholar
  6. Indian J. Met. Geophys. 20, 1969.No. 2, S. 129–134: Sastri, N. S., Jayakar, R. W., Distribution of SSC sizes at Alibag for the period 1921–1960).—Indian J. Met. Geophys. 20, 1969.No. 2, S. 135–140: Yacob, A., Rangarajan, G. K., Time variations of Alibag K-indices (1946–1965).Google Scholar
  7. Izv. Akad. Nauk SSSR, Fiz. Zemli. 1969.No. 9, S. 113–115: Troitskaya, V. A., Matveeva, E. T., Gul'el'mi, A. V., (Amplification and attenuation of pearls in isolated series.) [in russ. Spr.]Google Scholar
  8. J. atmos. terr. Phys. 31, 1969.No. 11, S. 1301–1309: Jha, H. N., Rosser, W. G. V., Spatial distribution of Pi 2 micropulsations.—J. atmos. terr. Phys. 31, 1969.No. 11, S. 1359–1364: Mendillo, M., Papagiannis, M. D., A seasonal effect in the midlatitude slab thickness variations during magnetic disturbances.CrossRefGoogle Scholar
  9. J. Geomagn. Geoelectr. 21, 1969.No. 3, S. 697–700: Nishimuta, I., Ose, M., Sinno, K., Abnormal enhancements of HF noise intensity at Syowa station, Antaretica.Google Scholar
  10. J. Geophys. Res. 70, 1965.No. 21, S. 5361–5368: Dayharsh, T. I., Farley, W. W., Electron-density variations at 1000 kilometers.—J. Geophys. Res. 74, 1969.No. 1, S. 293–313: Akasofu, S.-I., Meng, C.-I., A study of polar magnetic substorms.—J. Geophys. Res. 74, 1969.No. 3, S. 794–801: Rao, C. S. R., Some observations of energetic electrons in the outer radiation zone during magnetic bays.—J. Geophys. Res. 74, 1969,No. 3, S. 844–852: Kannangara, M. L. T., Fernando, P. C. B., Nighttime equatorial Pi 2 micropulsations.—J. Geophys. Res. 74, 1969.No. 4, S. 1045–1051: Anderssen, R. S., On the solution of certain overdetermined systems of linear equations that arise in geophysics.—J. Geophys. Res. 74, 1969.No. 5, S. 1144–1157: Cauffman, D. P., Gurnett, D. A., VLF emissions during magnetic storms and their association with 40-kev electrons.—J. Geophys. Res. 74, 1969.No. 5, S. 1305–1307: Moe, K., Nebergall, D., Variation of geomagnetic disturbance with latitude.Google Scholar
  11. Nature, Lond. Vol.224, No. 5222, 1969. S. 895–897: Heacock, R. R., Hessler, V. P., Polarization characteristics of individual elements in a Pc 1 micropulsation event.Google Scholar
  12. Planetary Space Sci. 13, 1965. S. 761–772: Dowden, R. L., “Micropulsation mode” propagation in the magnetosphere.—Planetary Space Sci. 14, 1966. S. 163–172: Winch, D. E., The Sq overhead current system approximation.—Planetary Space Sci. 15, 1967. S. 385–862: Swift, D. W., Possible consequences of the asymmetric development of the ring current belt.—Planetary Space Sci. 15, 1967. S. 937–938: Akasofu, S.-I., Chapman, S., A systematic shift of the DS axis.—Planetary Space Sci. 15, 1967. S. 997–1033: Cahill, L. J., Patel, V. L., The boundary of the geomagnetic field, August to November, 1961.—Planetary Space Sci. 15, 1967. S. 1239–1259: Gendrin, R., Lacourly, S., Troitskaya, V. A., Caractéristiques des pulsations irrégulières de période décroissante (I.P.D.P.) et leurs relations avec les variations du flux des particules piègécs dans la magnétosphère.CrossRefGoogle Scholar
  13. Radio Sci. 4, 1969.No. 9, S. 859–868: Campbell, W. H., Concurrent equatorial and high-latitude geomagnetic pulsations.—Radio Sci. 4, 1969.No. 9, S. 869–872: Orr, D., The variation of Pi 2 micropulsation waveform with time.—Radio Sci. 4, 1969.No. 9, S. 873–875: Barsczus, H. G., On diurnal variation of geomagnetic pulsations Pc at M'Bour (West Africa).Google Scholar
  14. Rep. Ionosph. Space Res. Japan. 23, 1969.No. 1/2, S. 21–34: Fukunishi, H., Occurrence of sweepers in the evening sector following the onset of magnetospheric substorms.—Rep. Ionosph. Space Res. Japan. 23, 1969.No. 1/2. S. 81–134: Catalogue of disturbances in ionosphere, geomagnetic field, field intensity of radio wave, cosmic ray, solar phenomena and other related phenomena. No. 53 (May 21–31, 1967).Google Scholar
  15. Rev. Geophys. 7, 1969.No. 4, S. 799–849: Schardt, A. W., Opp, A. G., Particles and fields: Significant achievements, 2.Google Scholar
  16. Spec. Contr. Geophys. Inst. Kyoto Univ. No.8, 1968. S. 1–8: Yasuhara, M., On the year-to-year change of geomagnetic daily variation field.—Spec. Contr. Geophys. Inst. Kyoto Univ. No. 8, 1968. S. 9–14: Murata, H., Seasonal variation in the D-component of Sq near the dip-equator.Google Scholar
  17. Studia geophys. geod. 13, 1969.No. 4, S. 444–456: Prikner, K., Rapid changes in the Fourier spectra of Pil pulsations during magnetically disturbed periods. P. 2: Amplitude analysis. [mit dt. Abstr.]Google Scholar

Geomagnetic activity UDC 550.386

  1. Arch. Met. Geophys. Biokl. (A), 18, 1969.No. 1-2, S. 147–156: Cehak, K., Pichler, H., Die Persistenz der solaren und geomagnetischen Aktivität. (1. Mitteilung).—Arch. Met. Geophys. Biokl. (A), 18, 1969.No. 3-4, S. 365–376: Cehak, K., Pichler, H., Die Persistenz der solaren und geomagnetischen Aktivität. (2. Mitteilung).Google Scholar
  2. Geomagn. i Aeronomija. 9, 1969.No. 6, S. 1053–1057: Lugovenko, V. N., Pushkov, A. N., (To the question of division of the observed magnetic field into a variable and constant in time parts.) S. 1117–1120: Afonina, R. G., Dzigalov, L. N., (Magnetic activity in Antarctica during the IQSY.) [jeweils in russ. Spr.]Google Scholar
  3. Probl. Arkt. Antarkt. 32, 1969. S. 118–121: Zhigalov, L. N., Zhigalova, N. N., (On the oval distribution of magnetic disturbances in the Aretic during IQSY.) [in russ. Spr.]Google Scholar
  4. Radio Sci. 4, 1969.No. 9, S. 876–878: Chernosky, E. J., Long and short period changes in magnetic activity at Huancayo during the solar cycle.Google Scholar

Telluric electricity UDC 550.387

  1. Bull. Nat. geophys. Res. Inst., Hyderabad.Suppl. No. 4, to Bull. December1968. S. 27–53: Rapid variations of earth's electromagnetic field. July–December 1968Google Scholar
  2. Can. J. Earth Sci. 6, 1969.No. 5, S. 1245–1261: Caner, B., Camfield, P. A., Anderson, F., A large-scale magnetotelluric survey in Western Canada. [Auch: Contr. Dom. Obs., Ottawa No. 278; Can. Contr. Int. Upper Mantle Proj. No. 194.]Google Scholar
  3. Geophys. Monogr. No.13, 1969. S. 469–479: Madden, T. R., Swift, C. M., Magnetotelluric studies of the electrical conductivity structure of the crust and upper mantle. [Auch: Scient. Rep. Upper Mantle Proj. No. 21; Publ. Nat. Acad. Sci., Wash. No. 1708.]Google Scholar
  4. Izv. Akad. Nauk SSSR, Fiz. Zemli. 1969. No.11, S. 51–56: Berdichevsky, M. N., Vanjan, L. L., (Perspectives of deep magneto-telluric soundings on water areas.) [in russ. Spr.]Google Scholar

Magnetic surveys, charts, observatory results UDC 550-389

  1. Bol. Serv. Hidrogr. nav., B.Aires. 6, 1969.No. 1, S. 42–71: Vila, F., Medición del campo magnético en el mar. [in span. Spr. m. engl. Abstr.]Google Scholar
  2. Bull. Nat. geophys. Res. Inst., Hyderabad.Suppl. No. 4 to Bull. December1968. S. 1–25: Geomagnetic data. (Hourly values, magnetic storms, K and C indices, etc.), October–December 1968.Google Scholar
  3. Dokl. Akad. Nauk SSSR. 189, 1969.No. 6, S. 1233–1235: Korneva, A. N., (Regional specificities of the WNW Russian platform according to averaged geomagnetic field gradients data.) [in russ. Spr.]Google Scholar
  4. Ekspress-Inform. Morskoj gidrofiz. Inst. No.16, 1969. S. 138–142: Karnaušenko, N. N., [Dreikomponenten magnetische Aufnahme während der 21. Reise des F/S „Michail Lomonssow”.] [in russ. Spr.]Google Scholar
  5. Geophys. J. R. astr. Soc. 18, 1969.No. 5, S. 477–488: Whitmarsh, R. B., Jones, M. T., Daily variation and secular variation of the geomagnetic field from shipboard observations in the Gulf of Aden.Google Scholar
  6. Geophys. Monogr. No.13, 1969. S. 404–415: Zietz, I., Aeromagnetic investigations of the earth's crust in the United States. [Auch: Scient. Rep. Upper Mantle Proj. No. 21: Publ. Nat. Acad. Sci., Wash. No. 1708.]—Geophys. Monogr. No. 13, 1969. S. 457–463: Ostenso, N. A., Magnetic anomalies and crustal structure. [Auch: Dasselbe.]—Geophys. Monogr. No. 13, 1969. S. 463–469: Rikitake, T., Conductivity anomaly of the upper mantle. [Auch: Dasselbe.]Google Scholar
  7. J. Geomagn. Geoelectr. 21, 1969.No. 3, S. 573–578: Kovacheva, M., Inclination of the earth's magnetic field during the last 2000 years in Bulgaria.Google Scholar
  8. Magyar Állami Eötvös geofiz. Int. Kiadv. 1963–64 (1969). 161 S. A tihanyi födmágneses obszervatórium megfigyelései 1963–64. Magyarorzág. — Results of recordings taken in the years 1963–64 in the Magnetic Observatory Tihany. Hungary. [mit engl. Abstr.]Google Scholar
  9. Narure, Lond. Vol. 224, No. 5224, 1969. S. 1100–1102: Taylor, P. T., Brennan, J. A., Airborne magnetic data across the Tasman Sea.Google Scholar
  10. Publ. Dom. Obs., Ottawa,17c, 1967.No. 1, 57 S. Cook, H. E., Cook, A. B., Madill, R. G., Record of observations at Meanook Magnetic Observatory 1946.Google Scholar
  11. Publ. Zentralanst. Met. Geodyn. Wien Nr. 172, 1969. VI, 66 S. Erdmagnetische Berichte. Ergebnisse der Erdmagnetischen Beobachtungen in Wien-Kobenzl im Jahre 1968.Google Scholar
  12. Pure appl. Geophys. 75, 1969.No. 4, S. 133–139: Narain, H., Sanker Narayan, P. V., Mishra, D. C., Results of airborne magnetometer profile from offshore Mangalore to offshore Madras (India) along the 13th degree parallel.CrossRefGoogle Scholar
  13. Quart. J. R. astron. Soc. 10, 1969.No. 4, S. 309–316: Malin, S. R. C., British world magnetic charts.Google Scholar
  14. Results geomagn. Earth Current Measurem. Průhonice & Budkov.1965 (1969), 276 S. Konečný, M., Bodlák, K., Šubrt, J., Results of geomagnetic and earth current measurements made at the observatories of Pruhonice and Budkov in 1965.Google Scholar
  15. Valores horarios geomagnéticos y magnetogramas, Observatorio («John A. Fleming») de Huancayo, Peru. Vol. X-D: 1948–1961. [Por] A. A. Giesecke, M. Casaverde, P. G. Ledig. 7 Bde, je, XXIX, 256 S.Google Scholar
  16. Yearb. Geomagn.: Paramaribo, Surinam. 1963 (1969). Getr. Pag.Google Scholar

Bibliographien und ausführliche Schriftenverzeichnisse

  1. Carpine-Lancre, J., Choix de documents pour les sciences de la mer. Monaco: Musée océanographique 1968. 27 S. [Masch.schr. vervielf.]Google Scholar
  2. Dt. hydrogr. Z., Hamburg,Jg. 21, 1968. getr. Pag. Hydrographische Bibliographic.Google Scholar
  3. Inform. Rep. US nav. oceanogr. Off. No. 67-66, 1967. 14 S. Heiner, W. R., A partial bibliography. Inshore Survey Program along Atlantic and Gulf coasts.Google Scholar
  4. Mahasagar. 1,1968.No. 4, S. 19–26: Selected bibliography on the Indian Ocean, 1967–68 u. addendum to: A selected bibliography of the Indian Ocean, 1962–1965.Google Scholar
  5. Marine Sedimentology. Summary of work around the United Kingdom 1963 to 1968. [London:] The Natur. Environm. Res. Coun. [um 1969]. 10 S., 1 Kt.Google Scholar

Ozeanographie Conpectus UDC 551.46

  1. Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. S. 37–41: Dietrich, G., Perspectives of oceanography in Germany.Google Scholar
  2. Geyer, R. A., Oceanography of the Gulf of Mexico. Progress report. Coll. Station, Texas: Texas A & M Univ. 1968. III, 74 S. Photokopie.Google Scholar
  3. Materialy Poljar. nauc.-issl. Inst. mork. ryb. Choz. Okeanogr. 12, 1968. S. 139–143: Dmitrieva, A. A., (On the use of linear extrapolation method for the prognosis of oceanological elements.)—Materialy Poljar. nauc.-issl. Inst. mork. ryb. Choz. Okeanogr. 12, 1968. S. 173–176: Larin, B. V., Sobchenko, E. A., (On the combined use of methods of harmonious and spectral analysis in the sea currents investigation.) [jeweils in russ. Spr.]Google Scholar
  4. Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 1-3-1-16: Vine, A. C., Physical oceanography.Google Scholar

Dietionaries UDC 551.46.03

  1. Navigation dictionary. 2. ed. Publ. by the U.S. Naval Oceanogr. Office. Wash.: U.S. Governm. Print. Off. 1969. IV, 292 S.Google Scholar

Informations UDC 551.46 (047)

  1. Annu. Rep. Int. hydrogr. Bur. 1969 (1970). 57 S.Google Scholar
  2. Annu. Rep. Nav. Res. Lab. Wash. 1968 (1969). 138 S.Google Scholar
  3. Ârb. Norsk Polarinst. 1968 (1970), S. 107–121, (engl. Extr. S. 122–127:) Gjelsvik, T., Norsk Polarinstitutts virksomhet i 1968.Google Scholar
  4. Arctic. 22, 1969.No. 3, S. 214–224: Coachman, L. K., Physical oceanography in the Arctic Ocean: 1968.Google Scholar
  5. Brosin, H.-J., Bruns, E., Das Meer. Leipzig, Jena, Berlin (1969). 255 S.Google Scholar
  6. Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. XX, 343 S. Perspectives in fishries oceanography. Papers in dedication to Prof. M. U da. [Darin:]-S.II: Yoshida, K., Apprcciation [M. U da].—Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. XX, S. 1–5: do., Physical Oceanography. — An aspect of its recent advance. ——Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. XX, S. 31–35: Ishiguro, S., Organization of marine science research in the United Kingdom. [in japan. Spr. m. engl. Abstr.]—Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. XX, S. 87–90: Montgomery, R. B., A meridional shuttle for studying the intertropical central Pacific Ocean. [Auch: Contr. Chesap. Bay Inst. No. 141.]—Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. XX S. 139–147: Laevastu, T., Numerical oceanographic forecasting for fisheries.—Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. XX, S. 173–177: Parsons, T. R., Seki, H., A short review of some automated techniques for the detection and characterization of particles in sea water.Google Scholar
  7. Dt. hydrogr. Z. 22, 1969.No. 4, S. 145–157: Engelmann, G., Christian Gottfried Ehrenberg. Ein Wegbereiter der deutschen Tiefseeforschung.Google Scholar
  8. Hansa. 107, 1970.Nr. 2, S. 78–80: Roll, H. U., Das Deutsche Hydrographische Institut im Jahre 1969.—Hansa. 107, 1970.Nr. 4, S. 331: E. A. Römer, Hamburg,Δ.—Hansa. 107, 1970.Nr. 8, S. 723–724: Prügel, H., Jahresbericht des Deutschen Hydrographischen Institutes.Google Scholar
  9. Hydrospace.3, 1970.No. 1, S. 17: Haines, R. G., NERC and its “interfaces”.Google Scholar
  10. Inform. Rep. US nav. oceanogr. Off. No. 68-36, 1968. 10 S., 5 Tab., 1 Fig. Bates, C. C., Sherman, J. W., Spacecraft oceanography, 1964–1967.Google Scholar
  11. Medical Opinion and Rev. 1, 1966.No. 7, S. 46–52: Dietz, R. S., Oceanography Soviet style. [Auch: Coll. Repr. ESSA Inst. Oceanogr. 1966. Contr. No. 39.]Google Scholar
  12. Met. i Gidrol. 1970. No.4, S. 102–111: Muromtsev, A. M., (Development of oceanographic investigations in the USSR.) [in russ. Spr. m. engl. Abstr.]Google Scholar
  13. Morskoj Flot. 1970. No.3, S. 26: Durasov, N., (An outstanding Russian scientist in oceanography, geography and cartography.) [Ju. M. Sokal'skij]. [in russ. Spr.]Google Scholar
  14. Morskoj Sbornik. Moskva. 53 (123),1970.No. 3, S. 78–83: Plachotnik, A. F., [Niedrige Breiten des Weltmeeres.] [in russ. Spr.]Google Scholar
  15. Myers, J. J., Holm, C. H., McAllister, R. F. (ed.), Handbook of ocean and underwater engineering. New York [usw.]: McGraw-Hill 1969. Getr. Pag.Google Scholar
  16. Nature, Lond. Vol.226,No. 5241,1970. S. 104–105: Pattern not yet in sight.Google Scholar
  17. Nautical Mag. 203, 1970.No. 4, S. 214: Lorant, M., North Sea wave project.Google Scholar
  18. Oceanology international 69. Proceed., Major Sess., ohne Pag. Conference held by Mr. Coulmy at the International Oceanology Conference Brighton —February 16–21, 1969. [Darin:]—ohne Pag. Charnley, W. J., Oceanology international U.K. National Programmes. — ohne Pag. Colpitts, M. J., Canada, national programmes in oceanology. — ohne Pag. Devilliers France, M., The research programme of the Committee of Marine Studies. Summary. — ohne Pag. Harano, H., Outline of marine development in Japan conducted by Government agencies as principal bodies. — ohne Pag. Scheidemann, K. F., Prospects of activities in marine science and technology in the Federal Republic of Germany. — ohne Pag. Stratton, J. A., Objectives of the President's Commission on Marine Science, Engineering and Resources.Google Scholar
  19. Techn. Sess.,day 1, ohne Pag. MacCutcheon, E. M., Measuring innerspace.Google Scholar
  20. Oceans, S.Diego,2, 1969. No. 3/4, S. 47: Profile: T. K. Treadwell. —3, 1970. No. 1, S. 70–73: Reese, E. S., Hawaii report.Google Scholar
  21. Okeanologija. 10, 1970.No. 1, S. 184–187: Kolman, O. V., (On the history of the foreign marine studies in the vicinity of Iceland.) [in russ. Spr. m. engl. Abstr.]Google Scholar
  22. P. V. Cons. Explor. Mer. 1969. 139 S. Procès-Verbal de la Réunion 1969.Google Scholar
  23. Rapp. Activ. Centre Etud. Rech. Biol. Océanogr. méd. 1969 [1970]. S. 3–36: Analyse des travaux de recherches.Google Scholar
  24. Rep. Direct. Fish. Res. Scot. 1968 (1969). 155 S. Part I: Marine laboratory, Aberdeen. Part II: Freshwater fisheries laboratory.Google Scholar
  25. Rep. Hydrogr. Navy, Lond. 1969 (1970). IV, 34 S. m. Fig. Ritchie, G. S., Report by the Hydrographer of the Navy 1969.Google Scholar
  26. Sea Frontiers 12, (1966?)No. 1, S. 22–30: Dietz, R. S., Oceanography in the USSR. [Auch: Coll. Repr. ESSA Inst. Oceanogr. 1966 [um 1968]. Contr. No. 38.]Google Scholar
  27. Tätigk.-Ber. Inst. Meeresforsch. Bremerhaven, 1969 (1970). 17 S.Google Scholar
  28. Techn. Rep. U.S. Naval Oceanogr. Off. TR-217, Aug. 1969. 64 S. Oceanographic survey results Kara Sea-summer and fall 1965. (Milligan, D. B.)Google Scholar
  29. Undersea Technol. 11, 1970.No. 1, S. 32–34: Niblock, R. W., Major decisions imminent on Federal Ocean Program. — S. 37: Waters, O. D., Funding Squeeze impacts on Military Ocean Program.Google Scholar
  30. University Curricula in the marine sciences and related fields. Academic Years1969–70 and1970–71. 273 S.Google Scholar
  31. Wasserwirtschaft-Wassertechnik. 1964.H. 4, 2 S. Griesseier, H., Reinecke, H., K. von Bülow zur Vollendung des 65. Lebensjahres am 20. Juli 1964.Google Scholar
  32. Weather Bureau Marine Services Chart: Alaskan waters. (May 1969) U.S. Department of Commerce, Environmental Science Services Administration, Weather Bureau. Washington: U.S. Governm. Print. Office 1969. 1 Kt.Google Scholar

General theory UDC 551.46.01

  1. Trudy Morsk. gidrofiz. Inst. 42, 1969. S. 41–48: Suchovej, V. F., Suvorova, M. I., [Über die statistische Struktur von hydrologischen Elementen in Feldern großen Maßstabes.] [in russ. Spr.]Google Scholar

Data UDC 551.46.06

  1. Ann. biol., Copenh. 25, 1968 (1969). S. 22–24: Smed, J., Monthly anomalies of the sea surface temperature in areas of the northern North Atlantic in 1966.—Ann. biol., Copenh. 25, 1968 (1969) S. 31: do., Monthly anomalies of the sea surface temperature in an area off the eastern coast of Scotland in 1966.—Ann. biol., Copenh. 25, 1968 (1969). S. 34–46: Ellett, D. J., Jones, S. R., Read, G., Surface temperature and salinity observations at English sampling stations during 1968.—Ann. biol., Copenh. 25, 1968 (1969) S. 46–48: Doddington, T. C., Jones, S. R., Temperature observations at English and Welsh coastal stations during 1968. —Ann. biol., Copenh. 25, 1968 (1969). S. 48–49: Visser, M. P., Wiggers, E., Temperature and salinity observations from Netherlands lightvessels in the North Sea during 1968.Ann. biol., Copenh. 25, 1968 (1969). S. 49–51: Otto, L., Wiggers, E., Variations of the hydrographical situation in the Southern Bight of the North Sea, September 1968.—Ann. biol., Cepenh. 25, 1968 (1969). S. 51–59: Tijssen, S. B., Hydrographical and chemical observations in the Southern Bight, February, May, August and November, 1968.—Ann. biol., Copenh. 25, 1968 (1969). S. 59–60: Thomsen, H., Hydrography of the south-eastern North Sea 1968, Danish observations.—Ann. biol. Copenh. 25, 1968 (1969). S. 60: Svansson, A., Hydrography of the Kattegat and the Skagerak area, Swedish observations, 1968.—Ann. biol., Copenh. 25, 1968 (1969). S. 61: Thomsen, H., Hydrography of the Kattegat area, 1968. Danish observations.—Ann. biol., Copenh. 25, 1968 (1969). S. 61: do., Hydrography of the Great Belt and the Baltic, 1968. Danish observations.—Ann. biol. Copenh. 25, 1968 (1969). S. 62–65: Glowinska, A., Polish hydrographical observations in the southern Baltic in 1968.—Ann. biol., Copenh. 25, 1968 (1969). S. 65–69: Kaleis, M. V., Yula, E. A., Some peculiarities of the hydrographical regime of the Baltic in 1967.—Ann. biol., Copenh. 25, 1968 (1969). S. 69–73: do., Some peculiarities of the hydrographical regime of the Baltic in 1968.—Ann. biol., Copenh. 25, 1968 (1969). S. 73–77: Fonselius, S. H., Observations at Swedish lightships and in the Central Baltic in 1968.Google Scholar
  2. Boll. Geofis. teor. appl. Vol.11,No. 43 [1969.] S. 191–218: Mosetti, F., Lavenia, A., Appendice alla nota “Ricerche oceanografiche nel marc Adriatico nel periodo 1966–68”. [Auch: Contr. Oss. geofis. sperim., Trieste No. 189.]Google Scholar
  3. Cah. océanogr. 22, 1970.No. 1, S. 73–88: Minas, M., Résultats d'observations hydrologiques sur l'étang de Berre (années 1965–1966–1967).Google Scholar
  4. Data Rec. Ser. Can. oceanogr. Data Centre. No. 10, 1969. CODC References: 02-68-003, 02-68-004, 149 S. Ocean weather station “P” North Pacific Ocean. February 23 to May 23, 1968.—Data Rec. Ser. Can. oceanogr. Data Centre. No. 10, 1969. 163 S, Ocean Weather Station “P” North Pacific Ocean. May 17 to August 15, 1968.Google Scholar
  5. Data Rep. hydrogr. Observ., Oceanogr., Tokyo.No. 5, Oct.,1967. (Pub. No. 792) 115 S. Results of oceanographic observations in 1965.—Data Rep. hydrogr. Observ., Oceanogr., Tokyo.No. 6, Feb.,1968. (Pub. No. 792) 190 S. The results of oceanographic observations in the north-western Pacific Ocean. No. 12. 1944.—Data Rep. hydrogr. Observ., Oceanogr., Tokyo.No. 7, Oct.,1968. (Pub. No. 792) 107 S. Results of oceanographic observations in 1966.—Data Rep. hydrogr. Observ., Oceanogr., Tokyo.No. 8, Feb.,1970. (Pub. No. 792) 91 S. Results of oceanographic observations for 1967.Google Scholar
  6. Data Rep. hydrogr. Observ., Tide, Tokyo,No. 3, Dec.,1967. (Pub. No. 793) 26 S. Results of tidal observations in 1965.—Data Rep. hydrogr. Observ., Tide, Tokyo,No. 5, Nov.,1969. (Pub. No. 793) 57 S. Results of tidal observations for 1967. With tables of tidal harmonic constants.Google Scholar
  7. Data Rep. Oreg. St. Univ. Dep. Oceanogr. No. 30, 1968. 98 S. Mooers, C. N. K., Bogert, L. M., Smith, R. L., A compilation of observations from moored current meters and thermographs (and of complementary oceanographic and atmospheric data). Vol. II: Oregon continental shelf, August–September 1966.Google Scholar
  8. Degens, E. G., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: Springer 1969. S. 15–17: Miller, A. R., Atlantis II account.Google Scholar
  9. Doc. sci. Centre Pointe-Noire. ORSTOM1969,No. 1, 49 S. u. Anl. Bathythermogrammes 1968. —No. 2. 20 S. Gallardo, Y., Guillern, J. M., Observations océanographiques dans la région de Pointe-Noire (République du Congo) Année 1968.Google Scholar
  10. Ekspress-Inform. Morskoj gidrofiz. Inst. No.14, T. 1,1969. S. 55–61: Kott, Ju. P., Lapkin, Ju. P., [Komplex einer Schiffsanlage für die automatische Sondierung und Auswertung von Meßergebnissen der Temperatur im Ozean.]—Ekspress-Inform. Morskoj gidrofiz. Inst. No. 14, T. 1,1969. S. 291–300: Beljaev, V. I., Žilina, A. I., Timofeeva, L. V., [Eine objektive Analyse von Beobachtungsdaten, die für die Berechnung der Temperatur des Meeres angewandt werden.]—Ekspress-Inform. Morskoj gidrofiz. Inst. No. 14, T. 1,1969. S. 314–321: Dorovskich, R. S., Suchoruk, V. I., [Über die Anwendung der EVM (Elektron. Rech. Masch.) „RAZDAN-2” bei der Auswertung von ozeanographischem Massenbeobachtungsmaterial.] [jeweils in russ. Spr.]Google Scholar
  11. ICES Oceanographic Data Lists. Joint Skagerrak Expedition1966. Vol. 1. Oceanographic stations. Temperature-Salinity-Oxygen content. Copenhagen 1969. 250 S.—ICES Oceanographic Data Lists. Joint Skagerrak Expedition1966. Vol. 2. Oceanographic stations. Chemical observations. Copenhagen 1969. 209 S.—ICES Oceanographic Data Lists. Joint Skagerrak Expedition1966. Vol. 3. STD Stations, BT Stations, Surface Stations. Copenhagen 1969. 213 S.—ICES Oceanographic Data Lists. Joint Skagerrak Expedition1966. Vol. 4. Current measurements-Turbidity records. Copenhagen 1969. 151 S.Google Scholar
  12. Inform. Rep. US nav. oceanogr. Off. No. 67-26, 1967. V, 47 S. m. Fig. u. Tab. Russell, J. J., P. 1. Program proposal for an automatic Synoptic Oceanographic Data Assimilation System (SODAS). P. 2. Synoptic Oceanographic Data Assimilation System (SODAS) Progress Report No. 1.—Inform. Rep. US nav. oceanogr. Off. No. 68-23, 1968. 20 S. m. Fig. u. Tab. Codispoti, L. A., Kravitz, J. H., Oceanographic cruise summary, Baffin Bay — Davis Strait-Labrador Sea, summer 1967.Google Scholar
  13. Inst. Environment. Res. TM-POL-3, 51 S. Reed, R. K., Laird, N. P., An occanographic section off the California coast. February 1966. [Auch: Coll. Repr. ESSA Inst. Oceanogr. 1966. Contr. No. 34.]Google Scholar
  14. Internal Rep., Nat. Inst. Oceanogr., Wormley.No. A 42, 1969. 72 S. Gould, W. J., Moored current meter records. “Discovery” cruise 20. Oct.–Dec. 1967. N.I.O. moorings 012, 013, 014, 015, 016.Google Scholar
  15. Inventory of BT data. World wide: All oceans and seasons. «2. print.» (by U.S. Naval Oceanogr. Off., Wash.) [Washington:] National Oceanogr. Data Center 1964. V, 27 S. (Publ. C-2, Catalog Ser. National Oceanogr. Data Center.)Google Scholar
  16. Medd. Havsfiskelab., Lysekil, hydrogr. Avd.Nr. 77, 1970. 259 S. Hydrographical observations from the flords of Bohuslän during the years 1893–1966. (S. G. Engström).Google Scholar
  17. Oceanogr. Cruise Rep. Div. Fish. Oceanogr. CSIRO, Aust.No. 33. 1969. 74 S. Oceanographical observations in the Indian Ocean in 1964. II. M. A. S. “Diamantina”. Cruise Dm 1/64.—Oceanogr. Cruise Rep. Div. Fish. Oceanogr. CSIRO, Aust.No. 38. 1969. 65 S. Oceanographical observations in the Indian Ocean in 1964. H. M. A. S. “Diamantina”. Cruise Dm 4/64.—Oceanogr. Cruise Rep. Div. Fish. Oceanogr. CSIRO, Aust.No. 44. 1969. 24 S. Oceanographical observations in the Pacific Ocean in 1965. H. M. A. S. “Gascoyne”. Cruise G 3/65.—Oceanogr. Cruise Rep. Div. Fish. Oceanogr. CSIRO, Aust.No. 49. 1969. 57 S. Oceanographical observations in the Indian Ocean in 1965. H. M. A. S. “Diamantina”. Cruise Dm 2/65.—Oceanogr. Cruise Rep. Div. Fish. Oceanogr. CSIRO, Aust.54. 1969. 64 S. Oceanographical observations in the Indian Ocean in 1966. II. M. A. S. “Diamantina”. Cruise Dm 2/66.Google Scholar
  18. Oceanogr. Rep. US Coast Guard No.5,1965. V, 98 S. m. Fig. Franceschetti, A. P., McGill, D. A., Corwin, N., Oceanographic observations Kennedy Channel, Kane Basin, Smith Sound and Baffin Bay. Summer 1963.—Oceanogr. Rep. US Coast Guard No. 16, 1968. VIII, 204 S. m. Fig. u. Tab. Palfrey, K. M., Day, G. G., Oceanography of Baffin Bay and Nares Strait in the summer of 1966 and current measurements in Smith Sound, summer 1963.—Oceanogr. Rep. US Coast Guard No. 24, 1969. VII, 75 S. m. Fig. u. Tab. Husby, D. M., Report of oceanographic cruise USCGC “Northwind”, northern Bering Sea — Bering Strait — Chuckchi Sea. July 1967.—Oceanogr. Rep. US Coast Guard. No. 26, 1969. CG 373-26. 214 S. Husby, D. M., Oceanographic observations, North Pacific Ocean stations, November 30°00′ N., 140°00′ W. March 1967 — March 1968.—Oceanogr. Rep. US Coast Guard No. 27, 1969. S. 1–6: Shuhy, J. L., Oceanographic observations, North Pacific Ocean Station Victor, October 1966–October 1967.—Oceanogr. Rep. US Coast Guard No. 31, 1970. III, 32 S. m. Fig. u. Tab. IIufford, G. L., Seabrooke, J. M., Oceanography of the Weddell Sea in 1969 (IWSOE).Google Scholar
  19. Oceanology international 69. Proceed., Techn. Sess.,day 2, ohne Pag. Roberts, D. G., Evans, I. S., The production of bathymetric and other oceanographic charts by automatic methods.Google Scholar
  20. POL Manuscript Series Rept. No. 1, 38 S. Reed, R. K. Branch Pacific Oceanograph. Lab. Seattle, Wash. 1966. Temperature sections with surface salinity and sigmat values for the northeast Pacific Ocean, 1961 through 1965. [Auch: Coll. Repr. ESSA Inst. Oceanogr. 1966. Contr. No. 33.]Google Scholar
  21. Radioactivité ambiante Pays Comm. europ. Energie atom. No. 3/69. 1970. S. 33–36: Eaux de surface et de mer.Google Scholar
  22. Rapp. Croisière, ORSTOM Nouméa Océanogr.No. 28. 1968? 23 S. Sommaire des résultats physico-chimiques des stations équatoriales au point fixe effectuées au cours des campagnes “Cyclone” à 0°–170° E et 0°–169° E (1967). (l ère Partie: Cyclone 2–4.)—Rapp. Croisière, ORSTOM Nouméa Océanogr.No. 29. 18 S. Sommaire des résultats physico-chimiques des stations équatoriales au point fixe effectuées au cours des campagnes «Cyclone» à 0°–170° E et 0°–169° (1967). (2 ème Partie: Cyclone 5–6.)—Rapp. Croisière, ORSTOM Nouméa Océanogr.No. 31. 1969. 7 Text-S. u. Tab. Magnier, Y., Merle, J., Colin, C., Résultats des observations physico-chimiques et courantométriques de la croisière «Cyclone 7» du N. O. Coriolis.—Rapp. Croisière, ORSTOM Nouméa Océanogr.No. 32 1969. 52 S. Résultats des observations courantométriques des croisières «Cyclone» 2 à 6 du N. O. Coriolis.—Rapp. Croisière, ORSTOM Nouméa Océanogr.No. 33. 1969. 47 S. Résultats des observations courantométriques des croisières «Cyclones 2 à 6» du N. O. Coriolis.—Rapp. Croisière, ORSTOM Nouméa Océanogr.No. 34. 1969. 16 S. Rotschi, H., Jarrige, F., Merle, J., Résultats des observations physico chimiques de la croisière «Diadème» du N. O. Coriolis.Google Scholar
  23. Rep. Geofysisk Inst., Div. A. Phys. Oceanogr. Univ. Bergen.17, (1969). 53 S. Mosby, H., Norwegian Atlantic current, March and Dec. 1965. Tables.Google Scholar
  24. Results of Marine Meteorological and Oceanographical Observations. (Japan Meteorol. Agency.)No. 38: July–December, 1965. Tokyo. (1968). 404 S.Google Scholar
  25. Results of Marine Meteorological and Oceanographical Observations. (Japan Meteorol. Agency.)No. 39: Jan.–June 1966. Tokyo (1969). 349 S.Google Scholar
  26. Spec. Publ. Int. Commiss. Northw. Atlant. Fish. No. 7, 1968. Vol. NORWESTLANT 1. 1968. 410 S. Vol. 2. NORWESTLANT 2. 1968. 464 S. Vol. 3. NORWESTLANT 3. 1968. 364 S. Environmental surveys—NORWESTLANT 1–3, 1963. P. 3. Oceanographic data record. [Vol. 1–3]Google Scholar
  27. Techn. Notes. World met. Org. No.103, 1969. S. 19–35: Imai, I., Collection and dissemination of sea-surface temperature data for the north-west Pacific, and their utilization for fisheries.—Techn. Notes. World met. Org. No. 103, 1969. S. 37–76: Flittner, G. A., Sea-temperature structure and its relation to the United States tuna fisheries in the eastern Pacific Ocean.Google Scholar
  28. Techn. Rep. Fish. Res. Bd. Can. No. 143, 1969. 49 S. Gantzer, K. A., Joergensen, O. H., Healy, D. A., Oceanographic observations at Ocean Station P (50° N, 145° W), 27. October 1968 to 26. February 1969.—Techn. Rep. Fish. Res. Bd. Can. No. 145, 1969. 116 S. Healy, D. A., Tripe, R. L. K., Oceanographic observations at Ocean Station P (50° N, 145° W), 21. February to 9. April 1969.—Techn. Rep. Fish. Res. Bd. Can. No. 153, 1969. 50 S. Wong, J., Healy, D. A., Oceanographic observations at Ocean Station P (50° N, 145° W), 4 April to 22 May 1969.Google Scholar
  29. Techn. Rep. Hydrogr. Off. Republ. Korea. 1968. S. 21–70: (Data for the cooperative study of Kuroshio.) [in korean. Spr. m. engl. Angaben]Google Scholar
  30. Techn. Rep. SACLANT ASW Res. Centre. 7,No. 137,1969. 22 S. Dahme, A., Sea surface temperature and bathythermograph sections from the southern region.—Techn. Rep. SACLANT ASW Res. Centre. 8, No. 151, 1969. do., Individual BT plots, calculated three-line segments, and derived characteristic parameters—Southern Region. La Spezia 1969. 51 S.Google Scholar
  31. Techn. Rep. Woods Hole oceanogr. Instn, Ref. No. 69-72. Sept.1969. 15 S. m. Tab.-Anhang. Metcalf, W. G., Stalcup, M. C., Current meter and hydrographic station data from Crawford Cruise 165, in the Tropical Atlantic Ocean, February–April 1968.Google Scholar
  32. Unesco techn. Pap. mar. Sci. No.9, 1966?, S. 19–22: Nehring, D., The results of the oxygen intercalibration measurements. Leningrad, May 1966.—Unesco techn. Pap. mar. Sci. No. 9, 1966?, S. 24–32: Gieskes, J., The pH measurements at the intercalibration meeting. Leningrad, May 1966.—Unesco techn. Pap. mar. Sci. No. 9, 1966?, S. 34–36 (39): Fonselius, S. H., The results of the phosphate intercalibration measurements. Leningrad, 24 May 1966.—Unesco techn. Pap. mar. Sci. No. 9, 1966?, S. 53–59 (62): do., The intercalibration of the Winkler Method for dissolved oxygen. Copenhagen, September 1966.—Unesco techn. Pap. mar. Sci. No. 9, 1966?, S. 63–68 (79): Jones, P. G. W., Folkard, A. R., Report on the analysis of phosphate at the ICES intercalibration trials of chemical methods held in Copenhagen, 1966.—Unesco techn. Pap. mar. Sci. No. 9, 1966?, S. 80–84 (87): Palmork, K. H., The intercalibration of the methods for silicate determination. Copenhagen, 1966.—Unesco techn. Pap. mar. Sci. No. 9, 1966?, S. 90–97 (98): Gieskes, J., The pH measurements during the intercalibration meeting in Copenhagen, September 1966.Google Scholar
  33. Veröff. Inst. Küst.-u. Binnenfisch. Nr. 44, 1968 (1969). 22 S. Kühl, H., Wassertemperatur und Salzgehalt an der „Alten Liebe” — Cuxhaven und bei der Insel Neuwerk im Jahre 1968.—Veröff. Inst. Küst.-u. Binnenfisch. Nr. 45, 1970. 23 S. Kühl, H., Wassertemperatur, Salzgehalt und andere chemische Faktoren an der „Alten Liebe” in Cuxhaven und bei der Insel Neuwerk im Jahre 1969.Google Scholar
  34. Water Levels. Can. hydrogr. Serv. 1968 (1969). 259 S.Google Scholar

Expeditions UDC 551.46.07

  1. Bull. Inform. Centre nat. Exploit. Océans, 1969.No. 12, S. 3: Travaux de l'Office de la Recherche Scientifique et Technique outre-mer Orstom dans le Pacifique. —S. 8: Premiers résultats de la campagne 1969 du bathyscaphe Archimède.—Bull. Inform. Centre nat. Exploit. Océans 1970.No. 13 u.14, S. 4, 7, 8: Campagne NESTLANTE I.Google Scholar
  2. Carpine-Lanere, J., Les croisières océanographiques françaises antérieures à 1914. Monaco: Musée océanographique 1968. 19 S. [Masch. schr. vervielf.]Google Scholar
  3. Catalogue of Oceanographic Data (ship Programs), received during the period 1 January–30 June 1969. — Katalog Dannych po Keanografii (Sudovaja Programma)... WDC B 1. 1969. P. 1. VIII, 109 S. [in engl. Spr.]Google Scholar
  4. Data Rep. Atlant. oceanogr. Lab., Dartmouth. Cruise Rep.No. 168. (1967?) 6 S., App. Corkum, P. L., C. S. S. Baffin. April 5th to May 8th, 1967.Google Scholar
  5. Hansa. 107,1970.Nr. 8, S. 726: Neue Roßbreiten-Expedition der „Meteor”.Google Scholar
  6. Hydrospace. 3,1970.No. 1, S. 46: On-board computer aids 27.000-mile cruise.Google Scholar
  7. Kommandobrücke. 47,1970.No. 5, S. 103–105: „Meteor” beendete „Roßbreiten-Expedition 1970”Google Scholar
  8. Oceanogr. Mag. 21, 1969.No. 1, S. 83–96: Akamatsu, H., Sawara, T., The preliminary report of the third cruise for CSK, January to March 1969.Google Scholar
  9. Oceans. Marseille. 1970. No.2, S. 75–77: Pélage, J., Trente ans apres Charcot... le “Jean Charcot”.Google Scholar
  10. Roßbreiten-Expedition 1970. (Canaries Basin Expedition 1970.) F.S. „Meteor”, Reise 19. (Programm.) Bad Godesberg: Deutsche Forschungsgemeinschaft 1969. 28 S. [in dt. u. engl. Spr.]Google Scholar
  11. Spec. Publ. US nav. oceanogr. Off. No. SP-125, 1969. IV, 54 S. m. Abb. Oceanographic surveys, fiscal year 68. Wilson, L. W. (Comp. and ed.)Google Scholar
  12. Trudy Morsk. gidrofiz. Inst. 42, 1969. S. 12–40: Suchovej, V. F., [Probleme der objektiven Analyse von Beobachtungen im Ozean auf Expeditionen.] [in russ. Spr.]—Trudy Morsk. gidrofiz. Inst. 44, 1969.No. 2, S. 222–233: Boguslavsky, S. G., Babinets, A. E., Metalnikov, A. P., (Investigations of the Equatorial Atlantic during the first cruise of the research vessel „Akademik Vernadsky”.)—Trudy Morsk. gidrofiz. Inst. 45, 1969.No. 3, S. 209–225: Panteleev, N. A., Syrsky, V. N., Timofeev, N. A., (Hydrophysical investigations during the 22nd cruise of the research vessel „Mikhail Lomonosov”.) [in russ. Spr. m. engl. Abstr.]Google Scholar

Ships UDC 551.46.071 551.46.073 551.46.077 551.46.079

  1. Acts on the joint financing of the North Atlantic ocean stations 1954 and 1968. Publ. by decision of the Secretary General. (Montreal:) International Civil Aviation Organization 1970. I, 53 S. [Angeh.:] Suppl. No. 10 to the 1954 NAOS Agreement.Google Scholar
  2. Arch. Hydrotechn., Warsz. T.15, 1968 No. 3, S. 483–503: Małasiewicz, A., (Methodik der Beobachtung von Unterwasserobjekten mittels einer Fernschanlage.) [in poln. Spr. m. russ. Abstr.]Google Scholar
  3. Aubert, E. J., Northorp, G. M., A summery of 1968 development planning support studies for the United States Coast Guard National Data Buoy Development Project. Hartford, Conn.: Travelers Res. Corp. 1969. (III, 37 S.)Google Scholar
  4. Aufgaben und Tätigkeit der Fischereischutzboote (Fischereihilfsschiffe) und d. Fischereiforschungsschiffe der Bundesrepublik Deutschland von 1948 bis 1968. Hrsg. vom Bundesministerium für Ernährung, Landwirtschaft u. Forsten, Abt. Fischwirtschaft o. J. Hamburg [1969]. S. 9–40: Dehde, K., Die Fischereischutzboote (Fischereihilfsschiffe) und Fischereiforschungsschiffe der Bundesrepublik Deutschland.—Aufgaben und Tätigkeit der Fischereischutzboote (Fischereihilfsschiffe) und d. Fischereiforschungsschiffe der Bundesrepublik Deutschland von 1948 bis 1968. Hrsg. vom Bundesministerium für Ernährung, Landwirtschaft u. Forsten, Abt. Fischwirtschaft o. J. Hamburg [1969]. S. 41–45: Schmidt, U., Aufgaben der Fischereiforschungschiffe „Anton Dohrn” und „Walther Herwig”.Google Scholar
  5. Bass, G. F., Rosencrantz, D. M., A diversified program for the study of shallow water searching and mapping techniques. Philadelphia: The Univ. Museum, Univ. Pennsylvania 1968. (Getr. Pag. insges. 130 S.)Google Scholar
  6. Bull. Inform. Centre nat. Exploit. Océans. No. 13 u. 14, 1970. S. 9: Achèvement du navire océanographique «Cyros».Google Scholar
  7. Dock Harb. Author. Vol.50,No. 589,1969. S. 305: World's deepest diving system for British company.Google Scholar
  8. Ekspress-Inform. Morskoj gidrofiz. Inst. No.14, T. 1, 1969. S. 49–54: Govalov, K. L., Docenko, S. V., Katoličenko, V. I., [Funkanweisung an automatische Bojenstationen.] [in russ. Spr.]Google Scholar
  9. Geophys. Sci. Lab. Rep. Dep. Met. Oceanogr. New York Univ. 1966. No. TR-66-2. V, 58 S. Adler, C., A shallow water isobaric buoy.Google Scholar
  10. Hansa. 107,1970.Nr. 5, S. 396: Neues Forschungsschiff für Bremerhaven.—Hansa. 107, 1970.Nr. 5, S. 727–728: Ebeling, G., Fischereischutzboote und Fischereiforschungsschiffe der Bundesrepublik im Jahre 1969.Google Scholar
  11. Hydrospace,2,1969.No. 4, S. 8–9: “Pegasus” underwater surveys.—Hydrospace, 2, 1969.No. 4, S. 10–11: Germany: “Permanent” habitat trials.—Hydrospace, 2, 1969.No. 4, S. 11–13: USSR: Chermor-2 and Sprut.—Hydrospace, 2, 1969.No. 4, S. 14–15: Guernsey: Seven-knot submersible.Google Scholar
  12. Inform. Rep. US nav. oceanogr. Off. No. 68-35, 1967. 38 S. m. Fig. u. Abb. Rooney, R. F., A Taut Wire Buoy Array for environmental monitoring in AUTEC.Google Scholar
  13. Internal Rep., Nat. Inst. Oceanogr., Wormley. No. A. 40, 1969. 26 S. u. Abb. Clayson, C. H., The design of a servo-controlled winch, for R. R. S. Discovery, with compensation for ship motion. (Interim report.)Google Scholar
  14. Jber., dt. Fischwirtsch. 1968/69. S. 83–91: Ebeling, G., Der Einsatz der Fischereischutzboote (Fischereihilfsschiffe) und der Fischereiforschungsschiffe im Jahre 1968.Google Scholar
  15. J. Mar. Res., 28, 1970.No. 1, S. 99–112: Warsh, K. L., Garstang, M., Grose, P. L., A sea-air interaction deep-ocean buoy.Google Scholar
  16. Mar. Technol. Soc. J., 3, 1969.No. 6, S. 41–48: Wolfe, R. J.,Titanium fabrication for pressure hulls of deep diving submersibles.—Mar. Technol. Soc. J., 3, 1969.No. 6, S. 49–56: Fuller, R. D., Modular approach to DSSV (Deep Submergence Search Vehicle) design.—Mar. Technol. Soc. J., 3, 1969.No. 6. S. 57–64: Huggett, W. S., Technique for mooring underwater instruments on the continental shelf.—Mar. Technol. Soc. J., 4, 1970.No. 1, S. 47–52: Watson, A. S., Brief review of Canadian technology in deep-sea automatically-moored buoy systems.—Mar. Technol. Soc. J., 4, 1970.No. 1, S. 67–70: Weltman, G., Golden, H., Computer handling of the Sealab III operations scenario.Google Scholar
  17. Mariner's Weather Log. 14, 1970.No. 2, S. 67–69: Morrill, P. A., Zettel, R. A., The National Data Buoy Development Project.Google Scholar
  18. Miamian. Sept.1967. S. 27: Stewart, H. B., Sea science ships. [Auch: Coll. Repr. ESSA Inst. Oceanogr. 1967. Contr. No. 42.]Google Scholar
  19. Mitt. Inst. Meeresk. Univ. Hamburg No. 13, 1970. 15 S., 12 Abb. Hansen, W., Über den Entwurf ozeanographischer Stationssysteme.Google Scholar
  20. Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 4-1–4-125: Fey, W. F., Meals, W. D., Haas, F. J., Tools, rigging, and machinery.—Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 5-1–5-51: Peirce, W. T., Romanelli, R. P., Underwater cables.—Myers, J. J., Holm, C. H., McAllister, R. F. [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 9-1–9-120: DeHart, R. C., Miller, R. T., Rechnitzer, A. B., Vessels and floating platforms.—Meyers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 9-63–9-80: Rechnitzer, A. B., Gormen F. T., Submersibles.—Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 9-81–9-120: Snyder, R. M., Fofonoff, N. P, Buoys and buoy systems.—Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 10-1–10-44: MacInnis, J. B., Behnke, A. R., Foran, M. J., Diving.—Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1960. S. 11-1–11-119: Smith, B., Holm, C. H., Lonsdale, A. L., Ocean operations.Google Scholar
  21. Nature, Lond. Vol.226,No. 5242,1970. S. 209: Living with Davy Jones.Google Scholar
  22. Nav. Res. Rev., Wash. 1970. Febr. S. 27–29: Research notes. Flip updated.Google Scholar
  23. Oceanology international 69. Proceed., Techn. Sess.,day 1, ohne Pag. Burr, P., An instrumented underwater towed vehicle.—Oceanology international 69. Proceed., Techn. Sess.,day 2, ohne Pag. Bullen, L. G., Castelliz, H., Automatically deployed oceanographic buoys.—Oceanology international 69. Proceed., Techn. Sess.,day 2, ohne Pag. Northrop, G. M., Aubert, E. J., Clem, L. H., Unmanned buoys: backbone of national and international marine data collection system.—Oceanology international 69. Proceed., Techn. Sess. day 2 ohne Pag. O'Connell, J. M. Petre, J. W., Operational experience with the prototype large navigation buoy.—Oceanology international 69. Proceed., Techn. Sess.,day 3, ohne Pag. Burrows, D. W., Cableless underwater television link design and test results.—Oceanology international 69. Proceed., Techn. Sess.,day 3, ohne Pag. Carpenter, M. S., Sealab III objectives.—Oceanology international 69. Proceed., Techn. Sess.,day 3, ohne Pag. Devereux, R. F., Isaacs, J. D., Jennings, F. D., Long-distance telemetry of environmental data for the North Pacific Study.—Oceanology international 69. Proceed., Techn. Sess.,day 3, ohne Pag. Ray, B., Communication between divers.—Oceanology international 69. Proceed., Techn. Sess.,day 3, ohne Pag. Talkington, H. R., Useful undersea work by remote controlled systems.—Oceanology international 69. Proceed., Techn. Sess.,day 4, ohne Pag. Achurch, I. C., Garnett, M. A., A comparative study of the economics of four diving systems.—Oceanology international 69. Proceed., Techn. Sess.,day 4, ohne Pag. Daniell, A. F., A novel underwater vehicle.—Oceanology international 69. Proceed., Techn. Sess.,day 4, ohne Pag. Feldman, S., The U. S. Navy deep submergence vehicles.—Oceanology international 69. Proceed., Techn. Sess.,day. 4, ohne Pag. Gray, F., Owen, T. R. E., A recording sono-radio buoy for seismic refraction work.—Oceanology international 69. Proceed., Techn. Sess.,day 4, ohne Pag. Hirano, Y., New Japanese under-sea research vehicle “SHINKAI”.—Oceanology international 69. Proceed., Techn. Sess.,day 4, ohne Pag. Immarco, A., Kerpchar, M., Theoretical performance and test data of an underwater, range-gated television system.—Oceanology international 69. Proceed., Techn. Sess.,day 4, ohne Pag. Morrison, J. H., Radioisotone power sources for buoy-type applications. —Oceanology international 69. Proceed., Techn. Sess.,day 4, ohne Pag. Nashimoto, I., A method of adjusting decompression pressure and time for caisson and diving work.—Oceanology international 69. Proceed., Techn. Sess.,day 4, ohne Pag. Rebikoff, D., Underwater mapping by vehicle scanning.—Oceanology international 69. Proceed., Techn. Sess.,day 4, ohne Pag. Todd, M. R., Submarine escape.—Oceanology international 69. Proceed., Techn. Sess.,day 4, ohne Pag. Wenzel, J. G., “Deep Quest”, a research submarine system.Google Scholar
  24. Oceanol. international.1970.Febr., S. 24–27: Stachiw, J. D., Acrylic plastics in hydrospace.—Oceanol. international. 1970.March, S. 24–26: Bernstein, H., The role of materials in deep ocean vehicle development.—Oceanol. international. 1970.March, S. 30–32: Rosenberg, M. A., Buoyancy materials for deep submergence applications. —Oceanol. international. 1970.No. 3, S. 30–32: Raillard, J., Le group Elf et la plongée sous marine.—Oceanol. international. 1970.No. 4, S. 16–19 u. S. 22–25: Loup, G., L'armada des sous marins de recherche.Google Scholar
  25. Oceans, S. Diego, 2, 1969.No. 3/4, S. 24–32: Hoctor, F., Odyssey of the “Argo”.—Oceans, S. Diego, 2, 1969.No. 5-6, S. 56–59: MacInnis, J. B., Underwater man: Origins of a new creativity.Google Scholar
  26. Offshore Technol. 2, 1970.No. 2, S. 18–21: Marechal, N., Graham, E. U., Cost effectiveness study of international cooperative logistics support for buoy data collection arrays.—Offshore Technol. 2, 1970.No. 2, S. 25: Multi-purpose diving system (2)Google Scholar
  27. Pilot Chart N.Atlant. Oc. US nav. oceanogr. Off. May 1970. 1 Kt. [Revcrse side] Spezialized submersibles. no refs.Google Scholar
  28. Schiff u. Hafen, 22, 1970.H. 3, S. 216–219: Haux, G., 300 m und tiefer!—Schiff u. Hafen, 22, 1970,H. 3, S. 220: ‘Lanby’ navigation buoy.—Schiff u. Hafen, 22, 1970.H. 3, S. 282–285: Harms, H., Japanisches Atom-Forschungsschiff “Mutsu”.—Schiff u. Hafen, 22, 1970.H. 4, S. 284–286: Boës, C., Bade, P., Meßwerterfassungssystem für die Meeresforschung in Küstengewässern.Google Scholar
  29. Scripps Instn of Oceanogr. SIO Ref. 69-6. 1969. VIII, 98 S. Evans, M. W., Schwartzlose, R. A., Tubbs, A. M., Data from deep moored instrument stations. Vol. 2.Google Scholar
  30. Seewart. 31,1970,H. 2, S. 82–84: Unbemanntes Segelboot für ozeanographische, meteorologische und elektronische Erkundungsaufgaben. RCA-News.Google Scholar
  31. System automatisch arbeitender Meß-Stationen im Meer mit Datenfernübertragung. Zsfass. Ber. Entwicklungsvorschlag für die Errichtung eines Netzes automatisch arbeitender Meßstationen. (Friedrichshafen:) Dornier-System GmbH. 89 S., 29 Abb. u. Tab.Google Scholar
  32. Telecommun. J. 37, 1970.No. 4, S. 173–185: Devereux, R. F., Long-distance interrogation of ocean data stations moored in the North Pacific Ocean.Google Scholar
  33. Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 164–180: Paramonov, A. N., Kušnir, V. M., Chochlov, A. V., [Steuerungskomplex für eine hydrophysikalische Schleppapparatur.]—Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 200–211: Žukov, S. F., Kaigorodov, M. N., Neujmin, G. G., [Photoelektronische Meßanlage für die Unterwasserbelichtung.]Google Scholar
  34. Umschau. 70,1970.H. 10, S. 304–307: Unterwasserforschung mit dem UWL-H. Interview mit Prof. Dr. O. Kinne.Google Scholar
  35. Undersea Technol. 11,1970.2, S. 28: Unmanned vehicle for under-ice seismic exploration.—Undersea Technol. 11, 1970.No. 3, S. 28–30: Niblock, B., DSRV-1: sub with a humane mission.Google Scholar
  36. Underwater Sci. Technol. J., 1, 1969.No. 1, S. 3–5: Ridler, K. E. W., Underwater industry in the UK. —Underwater Sci. Technol. J., 1, 1969.No. 1, S. 13–17: Common, R. P., Diving technology — part I.—Underwater Sci. Technol. J., 2, 1970.No. 1, S. 4–10: Elliott, D. H., Man underwater. 3: His return to the surface.—Underwater Sci. Technol. J., 2, 1970.No. 1, S. 23–27: Watson, A. G., A spar-buoy for the North Atlantic.Google Scholar
  37. Unesco-Dienst. 17, 1970.No. 2, S. 8–10: Brown, R., Erforschung der Ozeane führt zu genauerer Wettervorhersage.Google Scholar
  38. Veröff. Arb. Gemein. Forsch. NRhein-Westf., 1969. H. 191, 62 S. m. Abb. Ebner, H., Konstruktive Probleme der ozeanographischen Forschung.Google Scholar
  39. Vermessungs- und Forschungsschiff „Komet” des Deutschen Hydrographischen Instituts Hamburg. Indienststellung am 26. 8. 1969 in Wilhelmshaven. Sammelbd. m. versch. Unterlagen. Enthält u. a.: Prospekt der Jadewerft Wilhelmshaven. Rede des Staatssekretärs K. Wittrock: Beitrag zu einer zukunftsorientierten deutschen Meeresforschung. Rede kunftsorientierten deutschen Meeresforschung. Rede des Präsidenten Prof. Dr. H. U. Roll. Presse-Informationen.Google Scholar
  40. Wetter u. Leben,22,1970.Nr. 1/2, S. 24–26: RCA (Radio Corporation of America) entwickelt einmaliges unbemanntes Segelboot für ozeanographische, meteorologische und elektronische Erkundungsaufgaben.Google Scholar
  41. Wetterlotse, 22, 1970.No. 277, S. 8–13: Pflugbeil, C., Bojen zur Datenerfassung auf See. no refs.Google Scholar

Models UDC 551.46.072

  1. J. Hydraul. Div. Am. Soc. civ. Engrs, 95, 1969.No. HY 1, S. 125–146: Simmons, H. B., Use of models in resolving tidal problems.Google Scholar

Instruments UDC 551.46.078 551.46.08

  1. Appl. Optics. 7, 1968.No. 9, S. 1705–1710: Lorenz, D., Temperature measurements of natural surfaces using infrared radiometers.Google Scholar
  2. Cah. océanogr. 22, 1970,No. 2, S. 155–160: Lecomte, P., Deschamps, P.-Y., Mesure de la température superficielle de l'océan au moyen d'un radiomètre infrarouge. 1. Partie: Résultats de deux séries de mesures.—Cah. océanogr. 22, 1970,No. 2, S. 161–177: Lecomte, P., Deschamps, P.-Y., Mesure de la température superficielle de l'océan au moyen d'un radiomètre infrarouge. 2. Partie: Influence du rayonnement du ciel.—Cah. océanogr. 22, 1970,No. 3, S. 219–223: Girard, G., L'echelle internationale pratique de température de 1968 et l'océanographie.—Cah. océanogr. 22, 1970,No. 3, S. 225–226: Menache, M., Quelques aspects pratiques du nouveau changement d'echelle de température.Google Scholar
  3. Data Mag. 1966. No.11, S. 31–37: Stewart, H. B., ESSA assumes greater share of instrumentation workload. [Auch: Coll. Repr. ESSA Inst. Oceanogr. 1966. Contr. No. 44.]Google Scholar
  4. Deep-Sea Res. 17, 1970.No. 2, S. 379–384: Lockwood, D. R., A temperature-salinity-depth recorder with an acoustic link.Google Scholar
  5. Dt. gewässerkdl. Mitt. 14, 1970.H. 2, S. 35–41: Rogler, A., Der Tauchstab im Test-Grundlagen, Meßergebnisse, Hinweise für die praktische Arbeit.Google Scholar
  6. Ekspress-Inform. Morskoj gidrofiz. Inst. No.14, T. 1, 1969. S. 5–10: Kolesnikov, A. G., Beljaev, V. I., [Einige Endergebnisse der Automatisation von hydrophysikalischen Untersuchungen.]—Ekspress-Inform. Morskoj gidrofiz. Inst. No. 14, T. 1, 1969. S. 11–19: Ermolenko, V. D., Stajkov, I. Ch., Ščetinin, Ju. T. [Einige Endergebnisse bei der Anwendung des automatisierten Sammelsystems und der hydro-physikalischen Nachrichtenauswertung auf dem WFS „MichaiLomonossow”.] —Ekspress-Inform. Morskoj gidrofiz. Inst. No. 14, T. 1, 1969. S. 20–26: Paka, V. T., Krivelevič, L. M., Gusčin, O. A., [Erfahrungen bei der Automatisation von ozeanographischen Untersuchungen während der 3. Reise des WFS „Akademik Kurčatov”.]—Ekspress-Inform. Morskoj gidrofiz. Inst. No. 14, T. 1, 1969. S. 74–86: Chramov, A. V., Nečvalenko, I. B., Berkutova, L. V., [Apparatur für die automatische Konzentrationsmessung von molekularem Sauerstoff, der im Seewasser gelöst ist.]—Ekspress-Inform. Morskoj gidrofiz. Inst. No. 14, T. 1, 1969. S. 87–89: Volovskij, V. V., Selin, E. A., [Selbsttätiger integraler Photothermograph.] —Ekspress-Inform. Morskoj gidrofiz. Inst. No. 14, T. 1, 1969 S. 90–105: Docenko, S. V., [Messung von hydrophysikalischen Feldern mit beweglichen Geräten.]—Ekspress-Inform. Morskoj gidrofiz. Inst. No. 14, T. 1, 1969. S. 106–112: Zaburdaev, V. I., Antonova, L. M., Anblagova, N. I., [Meßanlage für hydrologische Komplexe mittels Bojen, Schleppen und Sondieren.] —Ekspress-Inform. Morskoj gidrofiz. Inst. No. 14, T. 1, 1969. S. 119–132: Žochov, A. D., [Die Anwendung von thermisch-elektrischen Gebern bei hydrophysikalischen Untersuchungen.] [jeweils in russ. Spr.]Google Scholar
  7. Enregistreur autonome de houle. Licence LNH. Notice descriptive et d'entretion. Le constructeur: Ets. St. Chamond Granat. Courbevoie (Seine): St. Chamond-Granat 1962. III, 40 S. u. Abb.Google Scholar
  8. Geyer, R. A., Oceanography of the Gulf of Mexico. Progress report. Coll. Station, Texas: Texas A & M Univ. 1968. S. 17–18: Capurro, L. R. A., Remote sensing of the Ocean.Google Scholar
  9. Hamburger Küstenforschung. H.13, 1970. S. 1–29, 12 Abb.: Siefert, W., Zur Meßgenauigkeit der Pegelaufzeichnungen in der Außenelbe.—Hamburger Küstenforschung. H. 13, 1970, S. 31–53, 13 Abb.: Göhren, H., Entwicklung eines integrienden Wellenmeßgerätes.Google Scholar
  10. IEEE Intern. Conv. Rec. 15, 1967.H. 8, S. 84–93: Kirk, R. L., Ocean surface environment definition utilizing laser techniques.Google Scholar
  11. IEEE Trans. Geosci. Electronics. Vol. GE-6, 1968.No. 4, S. 197–204: Vlasak, W., Further development in the Doppler method of water-velocity measurement.Google Scholar
  12. Inform. Rep. US nav. oceanogr. Off. No. 67-74, 1967. II, 14 S. m. Fig. Oser, R. K., Fagot, M. G., Design and use of a bottom environmental sensing system.—Inform. Rep. US nav. oceanogr. Off. No. 68-12, 1968. 7 S. m. Fig. Hawes, J. D., An analysis of Japanese current meter arrays.—Inform. Rep. US nav. oceanogr. Off. No. 68-18, 1968. 12 S., 25 Fig. Olson, B. E., Remote sensing in oceanography.Google Scholar
  13. Inform. Techn. Meth. for Sea-Water Annal., Charlottenlund.No. 2,1968. S. 5–6: Folkard, A. R., An apparatus for the filtration of sea water.Google Scholar
  14. Int. hydrogr. Rev. 47, 1970.No. 1, S. 35–39: Glenn, M. F., Introducing an operational Multi-Beam Array Sonar.Google Scholar
  15. Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 6, 1970.No. 1, S. 104–110: Konyaev, K. V., Nazarov, A. A., (The measurements of spatial-time structure of high frequency components of sea waves.) [in russ. Spr. m. engl. Abstr.]Google Scholar
  16. J. Fish. Res. Bd. Can. 27, 1970.No. 1, S. 185–191: Platt, T., Larsen, E., Vine, R., Integrating radiometer: a self-contained device for measurement of submarine light energy in absolute units. [Auch: Contr. Bedford Inst. Oceanogr. No. 171; Can. Contr. Int. Biol. Program No. CCIBP-47.]Google Scholar
  17. J. geophys. Res. 74, 1969.No. 10, S. 2471–2476: Grossman, R. L., Bean, B. R., Marlatt, W. E., Airborne infrared radiometer investigation of water surface temperature with and without an evaporation-retarding monomolecular layer.—J. geophys. Res. 74, 1969 No. 23, S. 5425–5431: Graefe, V., Gallagher, B., Oceanographic profiling with improved vertical resolution. [Auch: Contr. Hawaii Inst. of Geophys. No. 283.]Google Scholar
  18. J. Hydraul. Div. Am. Soc. civ. Engrs, 95, 1969.No. HY 1, S. 175–189: Taylor, J. I., Stingelin, R. W., Infrared imaging for water resources studies.—J. Hydraul. Div. Am. Soc. civ. Engrs, 95, 1969.No. HY 1, S. 249–253: Frazier, A. H., Dr. Santorio's water current meter, circa 1610.—J. Hydraul. Div. Am. Soc. civ. Engrs, 95, 1969 No. HY 1, S. 439–443: Frazier, A. H., Robert Hooke's water current meter, circa 1663.Google Scholar
  19. J. Sediment. Petrol. 34, 1964. S. 699: Heezen, B., Discussion of “A note on some possible misinformation from cores obtained by piston-coring devices”. [Auch: Contr. Lamont Geol. Obs. No. 737.]—J. Sediment. Petrol. 34, 1964. S. 876–880: Edgerton, H. E., Payson, II., Sediment penetration with a shortpulse sonar.Google Scholar
  20. Kieler Meersforsch. 25, 1969.Nr. 1, S. 133–142: Grasshoff, K., Untersuchungen über die Sauerstoffbestimmung im Meerwasser. IV. Teil: Über eine Sonde zur digitalen und analogen Registrierung von Sauerstoff-partialdruck, Temperatur und Druck im Meerwasser.—Kieler Meersforsch. 25, 1969.Nr. 1, S. 143–165: Krause, G., Struck, B., Physikalische Prinzipien zur Messung von Strömungsgeschwindigkeiten in flachen Meeresgebieten.Google Scholar
  21. Manuscr. Rep. Ser. Fish. Res. Bd. Can. No. 1071, 1969. 128 S. [manuser.stat.] Collins, C. A., Tripe, R. L. K., Wong, S. K., Programs for processing hydrographic data on an IBM 1130 computer.Google Scholar
  22. Met.-Mar. Bull. No. 65, 1969. S. 18–21: Le bathythermographe “conventionnel”.Google Scholar
  23. Mber. Dt. Akad. Wiss. Berlin. 11, 1969.H. 2, S. 108–115: Matthäus, W., Sager, G., Die Abbildung superponierter sinusförmiger Wasserstandsstörungen in Pegeln mit poröser Durchflußöffnung.—Mber. Dt. Akad. Wiss. Berlin. 11, 1969 H. 4, S. 315–321: Matthäus, W., Die Messung von Durchflußkoeffizienten an Rohrpegelmodellen.—Mber. Dt. Akad. Wiss. Berlin. 11, 1969. H. 7, S. 495–501: Sager, G., Ausgleich von Pegelwasserständen bei variablem Durchflußkoeffizienten.Google Scholar
  24. Monthly Weather Rev. 95, 1967.No. 12, S. 936–941: McFadden, J. D., Wilkerson, J. W., Compatibility of aircraft and shipborne instruments used in Air-Sea Interaction Research. [Auch: Coll. Repr. ESSA Inst. Oceanogr. 1967. Contr. No. 6.]Google Scholar
  25. Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 3-57–3-112: VanHaagen, R. H., Oceanographic instrumentation.Google Scholar
  26. NASA Spec. Publ. SP-195, 1969. S. 8–11: Hovis, W. A., Remote sensing of the surface composition of the earth.—NASA Spec. Publ. SP-195, 1969. S. 12–15: Allison, L. J., Results of the HRIR [high resolution infrared radiometer] experiment with Nimbus II.Google Scholar
  27. NTM, Leipzig. 5,Fasc. 12,1968, Matthaus, W., Contribution à l'histoire du marégraphe de haute mer. [Auch: Cah. océanogr. 22, 1970. No. 4, S. 327–341.]Google Scholar
  28. Oceanology international 69. Proceed., Techn. Sess.,day 1, ohne Pag. Hutchins, R. W., Broadband electro acoustic sources for high resolution sub bottom profiling. — ohne Pag. Lines, R. W., Automatic high speed particle size analysis in oceanography. — ohne Pag. Piezo-electric wide-band transducer for oceanographic use. Exposé by M. Bocquillon. — ohne Pag. Raymond, S. O., Glass instrument housings for deep ocean use. — ohne Pag. Sasaki, T., On-the-near-sea-floor current meter. — ohne Pag. Smith, P. F., The significance of direct current measurements. An evaluation.—Oceanology international 69. Proceed., Techn. Sess.,day 2, ohne Pag. Lee, A., On the use of moored current meter networks in the shelf seas around Britain. — ohne Pag. Ross, D. I., Experience with a shipboard PDP-8 computer. — ohne Pag. Whyte, J. G., A transponding radio telemetry system for hydrographic studies.—Oceanology international 69. Proceed., Techn. Sess.,day 3, ohne Pag. Ellis, C. A., An acoustic telemeter for wireless transmission of environmental data to the surface from great depths.Google Scholar
  29. Oceans, S. Diego. 2, 1969.No. 5-6, S. 33–45: Plunkett, R. D., [Okeanologija.]Google Scholar
  30. Offshore Technol. 2,1970,No. 2, S. 14: Oil and oceanography.Google Scholar
  31. Proc. of the Symposium on tides. Organized by the International Hydrographic Bureau. Monaco, 28.–29. April 1967. (Paris:) Unesco (1969). S. 29–43: Lennon, G. W., A critical examination on the conventional tide gauge.Google Scholar
  32. Rep. BI, Atlant. oceanogr. Lab., Dartmouth.1969-11, 1969. Getr. Pag. Jollymore, P. G., A portable digital sounding system for Arctic use.Google Scholar
  33. Techn. Mem. SACLANT ASW Res. Centre. No. 148, 1969. 24 S. Pazzini, M., Linear-phase filters for a digital data-acquisition system used in underwater sound propagation experiments.Google Scholar
  34. Techn. Mem. US Army coast. Engng Res. Center. No.30,1969, VII, 117 S. m. Fig. Williams, L. C., CERC wave gages.Google Scholar
  35. Techn. Notes. World met. Org. No.103, 1969. S. 117–129: Crawford, A. B., Sea-surface temperatures some instruments, methods and comparisons.—Techn. Notes. World met. Org. No. 103, 1969. S. 141–151: Tauber, G. M., The comparative measurements of sea-surface temperature in the USSR.Google Scholar
  36. Techn. Rep. Chesapeake Bay Inst., 1969. No. 59.Ref. 69-12. 74 S. Wiseman, W. J., On the structure of high-frequency turbulence in a tidal estuary.Google Scholar
  37. Techn. Rep. Fish. Res. Bd. Can. No. 152, 1969. 26 S. [manuscr.stat.] Huyer, A., Collins, C. A., On-line digitizing of salinity-temperature-pressure data with a shipboard computer.Google Scholar
  38. Techn. Rep. Woods Hole oceanogr. Instn., 1967. Ref. No. 67-33. 36 S. Fofonoff, N. P., Ercan, Y., Response characteristics of a Savonius rotor current meter. Unpubl. Ms.—Techn. Rep. Woods Hole oceanogr. Instn. 1968. Ref. No. 68-30. 12 S. Text, ungez. S. Abb., Tab. Fofonoff, N. P., Current measurements from moored buoys, 1959–1965.Google Scholar
  39. Texas A & M Univ., Dep. Oceanogr. Proj. 286-13.Ref. No. 69-2F.1969. Oceanography using remote sensors. Final report. (L. R. A. Capurro)Google Scholar
  40. Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 3–17: Kolesnikov, A. G., Paramonov, A. N., Gajskij, V. A., [Vervollkommung der technischen Mittel für hydrophysikalische Untersuchungen.]—Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 55–81: Chramov, A. V., Pavlenko, Ju. V., Neěvalenko, I. B., [Einige Bearbeitungsergebnisse und Untersuchungen von Diffusionsgebern und einer Anlage für das automatische Messen von im Meerwasser gelöstem Sauerstoff.] —Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 81–89: Chramov, A. V., Pavlenko, Ju. V., Neěvalenko, I. B., [Fragen über die Schaffung eines Geräts für die automatische Messung der Konzentration von gelöstem Sauerstoff. “in situ”.]—Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 89–93: Voskanjan, A. G., Zaburdaev, V. I., [Die Anwendung von industriellen Gebern “IS-264A” in See-Elektrothermometern.] —Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 93–97: Efimov, V. V., Christoforov, G. N., [Umstenerbarer Geber für Stromgeschwindigkeiten.]—Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 97–101: Efimov, V. V., Sizov, A. A., Christoforov, G. N., [Wellenzeichner mit einem koaxialen Kapazitätsgeber.]—Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 101–107: Efimov, V. V., Christoforov, G. N., [Mehrkanalige Messung von turbulenten Temperaturfluktuationen.]—Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 107–111: Efremov, O. I., Ležen, A. S., Urikov, A. P., [Infraniederfrequenter Spektralanalysator für selbsttätige Messungen.]—Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 112–122: Aretinskij, G. Ju., Dykman, V. Z., Efremov, O. I., [Selbständige Meßvorrichtung für die Pulsation der Stromgeschwindigkeit im Meer.]—Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 136–142: Arbuzov, P. A., Kalašnikov, P. A., Mišarev, V. I., [Expeditions-Strahlungsmesser.] —Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 180–189: Li, M. E., [Logarithmisches Photometer-Durchsichtigkeitsmeßgerät für den sichtbaren und näheren ultravioletten Spektralbereich.] —Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 189–200: Neujmin, G. G., Paramov, A. N., Charěenko, A. S., [Über die Aufbauprinzipien eines Gerätes für die Fluktuationsmessungen der Durchsichtigkeit im Meer.]—Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 216–226: Kalašnikov, P. A., [System von Schaltelementen für eine Strahlungsmeßanlage.]—Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 226–236: Sytnikov, V. F., Bašarin, V. A., Petrov, V. A., [Magnetische Speicher für die primäre Information von hydrophysikalischen Daten.]—Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 236–243: Šěctinin, Ju. T., Puchovoj, A. P., Sytnikov, V. F., [Einführung der hydrophysikalischen Information vom selbständigen Speicher in die ECVM [Elektron. Dig. Rech. Masch.].] —Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 292–299: Beljaev, L. I., Trifonov, I. K., [Inaktive großräumige Schöpfgeräte.] [jeweils in russ. Spr.]—Trudy Morsk. gidrofiz. Inst. T. 44, 1969.No. 2, S. 154–159: Terekhin, Yu. V., Polyakov, V. V., Kolezhuk, I. V., (Some problems of measurement technique of magnetic field full vector moduls.)—Trudy Morsk. gidrofiz. Inst. T. 44, 1969.No. 2, S. 175–182: Lyashenko, E. F., Poplavskaya, M. G., (Means for automatic computation of sea water salinity.) [jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  41. Undersea Technol. 11,1970.2, S. 29: Comex developes automated ocean instrument package.Google Scholar
  42. Underwater Sci. Technol. J. 1, 1969.No. 1, S. 6–12: Woods, J. D., On designing a probe to measure ocean microstructure.—Underwater Sci. Technol. J., 1, 1969.No. 1. S. 45–48: Instrument fact sheets. (IFS-69002: Wave recorder and analyzer system.) (Nat. Oceanogr. Instrumentation Center).—Underwater Sci. Technol. J., 2, 1970.No. 1, S. 11–16: Haigh, K. R., Oceanographic instrumentation for Ben Franklin.Google Scholar

Applied oceanography: Exploitation UDC 551.46.09:004.17

  1. Analyt. Chem. 42, 1970.No. 2, S. 234–238: Mattson, J. S., Mark, H. B., Kolpack, R. L., A rapid, non-destructive technique for infrared identification of crude oils by internal reflection spectrometry. Qualitative differentiation of crude oils originating from natural seepages and platform “A” in the Santa Barbara Channel.CrossRefGoogle Scholar
  2. BP Kurier, 22, 1970.Nr. 1, S. 15–17: Gerwin, R., Schätze im Wasser der Meere.Google Scholar
  3. Bull. Amer. Assoc. Petrol. Geol. 54, 1970.No. 1, S. 168–181: Kent, P. E., Walmsley, P. J., North Sea progress.Google Scholar
  4. Bull. Inform. Centre nat. Exploit. Océans, 1969.No. 12, S. 9–10: Bulletin International: L'effort sovietique de prospection des ressources minières océaniques.Google Scholar
  5. Dean, J. R., L'exploitation des gisements pétroliers du bassin de la mer du Nord. Monaco 1968: Société Nouvelle de l'Impr. Nationale. 91 S. m. Abb. Paris, Diss. v. 13. 3. 1967.Google Scholar
  6. Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: Springer 1969. S. 535–541: Bischoff, J. L., Manheim, F. T., Economic potential of the Red Sea heavy metal deposits. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2202.]—Degens, E. T. Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: Springer 1969. S. 542–549: Walthier, T. N., Schatz, C. E., Economic significance of minerals deposited in the Red Sea deeps.—Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: Springer 1969. S. 550–556: Griffin, W. L., International legal rights to minerals in the Red Sea deeps.Google Scholar
  7. Hansa,107,1970.No. 4, S. 320: Meeresgeologische Messungen im Arabischen Meer.Google Scholar
  8. Mer, Tokyo, 7, 1969.No. 3, S. 45–46: Hoshino, M., Ichikawa, K., Niino, H., Some geological problems on the Western Pacific region: Some problems of the mineral resources exploration on the continental shelves in the West Pacific.Google Scholar
  9. Moreira da Silva, P. de Castro, Projeto «Cabo Frio». Rio de Janeiro: Inst. de Pesquisas da Marinha, Minist. da Marinha 1969. 14 S. u. 14 Abb. m. deutscher Übersetzung (10 S.)Google Scholar
  10. Oceanology international 69. Proceed., Major Sess., ohne Pag. A International Decade of Ocean Exploration. A report by the National Council on Marine Resources and Engineering Development Executive Office of the President, United States of America. [Darin:] — ohne Pag. Hill, J. C. C., Offshore alluvial mining. — ohne Pag. West, F. G., Oceans, oil and gas. —Day 1, ohne Pag. Barten, K. S., Shaw, J. L., A Monte Carlo simulator for predicting the feasibility of deep ocean mining operations. — ohne Pag. Bullerwell, W., Surveys on the continental shelf around Britain. — ohne Pag. Chamberlain, T., Present and future aspects of ocean mining. — ohne Pag. Emery, K. O., Noakes, L. C., Economic deposits of heavy-mineral placers on the world's continental shelves. —ohne Pag. Saunders, D. W., Bech, M. I., Automation in offshore prospecting and mining. — ohne Pag. Smith, F. A., Deepwater exploitation of oil and gas in the decade ahead. — ohne Pag. Ul'st, V. G., Savel'yev, V. I., “Methods and technique of searching for granular deposits of useful minerals on the inshore part of the shelf”.Google Scholar
  11. Oceans. Marseille.1970. No.2, S. 24–29 u. 96: Lamazou, J., Le pétrole et la mer.Google Scholar
  12. Offshore Technol.2, 1970.No. 1, S. 15–22: Brundrett, F., The sea of opportunity.Google Scholar
  13. Publ. 8th Commonwealth Mining & Metallurgy Congress (Australia and New Zealand). 5, 1966. S. 65–75: Leicester, P., North Sea geology and geophysics.Google Scholar
  14. Schiff u. Hafen. 22, 1970.H. 3, S. 221–223: Boës, C., Bade, P., Erzförderung aus großen Meerestiefen.Google Scholar
  15. Umschau.70, 1970.H. 9, S. 282: Tooms, J. S., Phosphatlagerstätten im Atlantik nordwestlich Afrikas.Google Scholar
  16. Zee.91, 1970.No. 3, S. 115–123: Buddingh, H. A., Meteorologische en oceanografische voorlichting aan booreilanden.Google Scholar

Applied oceanography: Navigation UDC 551.46.09:527

  1. Hansa.107, 1970.Nr. 5, S. 390–392: Amersdorffer, R., Der Einfluß der Schiffsform auf die Änderung der Formstabilität in längslaufenden Seen.—Hansa. 107. 1970.Nr. 6, S. 471–475: do., Der Einfluß der Schiffsform auf die Änderung der Formstabilität in längslaufenden Seen. [Forts.]Google Scholar
  2. Int. hydrogr. Rev. 47, 1970.No. 1, S. 133–142: Forsström, R., Wahl, G., Draught margins.Google Scholar
  3. Schiff u. Hafen 22, 1970.H. 1, S. 50: Boese, P., Steuern eines Schiffes im schweren achterlichen Seegang.—Schiff u. Hafen 22, 1970.H. 2, S. 109–118: do., Über die Erhöhung der Sicherheit eines im achterlichen Seegang fahrenden Schiffes im Hinblick auf die Steuerfähigkeit.—Schiff u. Hafen 22, 1970 H. 3, S. 244–250: do., Untersuchung des Seegangsverhaltens von Katamaran-Schiffen unter Benutzung moderner Methoden der Seegangstheorie.Google Scholar

Applied oceanography: Hydrology UDC 551.46.09:551.48

  1. Besondere Mitt. zum Gewässerkdl. Jb., Berlin.1969.No. 9, 36 S. Richter, D., Die Verdunstungsverluste der oberen Seen Mecklenburgs.Google Scholar
  2. Bull. Misaki Mar. Biologie. Inst. Kyoto Univ. No. 12, Febr.1968: Koyama, T., Tomino, T., Mineralization process of organic matter in lake water. [Auch: Coll. Pap. Sci. Atmosph. Hydrosph. 6, 1968 (1969). Contr. No. 3, S. 111–124.]Google Scholar
  3. Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: Springer 1969. S. 363–367: Ross, D. A., Degens, E. T., Shipboard collection and preservation of sediment samples collected during Chain 61 from the Red Sea. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2197.]Google Scholar
  4. Deutsche Forschungsgemeinschaft Internationale Hydrologische Dekade. Deutscher Beitrag in den Jahren 1965–1969. Bearb. u. zsgest. ... von U. de Haar, K. Hofius, M. Petersen. (Bad Godesberg:) Deutsche Forschungsgemeinschaft 1969. 133 S.Google Scholar
  5. Gerlands Beitr. Geophys. 78, 1969.H. 6, S. 499–510: Dornbusch, W., Zur Messung der Zirkulation im Stechlinsee.Google Scholar
  6. Inform. Rep. US nav. oceanogr. Off. No. 67-55, 1967. VI, 33 S. m. Fig. Stiles, N. T., Carpenter, J. R., Pedrick, R. A., Radiological safety instructions for the Lane-Wells Nuclear Sediment Density Meter.Google Scholar
  7. J. sediment. Petrol.33, 1963. S. 950–952: Burns, R. E., A note on some possible misinformation from cores obtained by piston-type coring devices.Google Scholar
  8. Limnol. & Oceanogr. 14, 1969.No. 6, S. 817–829: Brunskill, G. J., Ludlam, S. D., Fayetteville Green Lake, New York. 1. Physical and chemical limnology.—Limnol. & Oceanogr. 14, 1969.No. 6, S. 830–847: Brunskill, G. J., Fayetteville Green Lake, New York. 2. Precipitation and sedimentation of calcite in a meromictic lake with laminated sediments. —Limnol. & Oceanogr. 14, 1969.No. 6. S. 848–857: Ludlam, S. D., Fayetteville Green Lake, New York. 3. The laminated sediments.—Limnol. & Oceanogr. 14, 1969.No. 6, S. 858–861: Brunskill, G. J., Harriss, R. C., Fayetteville Green Lake, New York. 4. Interstitial water chemistry of the sediments.—Limnol. & Oceanogr. 14, 1969.No. 6, S. 862–873: Culver, D. A., Brunskill, G. J., Fayetteville Green Lake, New York. 5. Studies of primary production and zooplankton in a meromictic marl lake.Google Scholar
  9. Lorenz, D., Flugzeugmessungen der Wasseroberflächen-temperatur von Binnenseen. Deutscher Wetterdienst, Zentralamt. Offenbach a. M. 1968. 25 S. m. Abb. u. Tab.Google Scholar
  10. Manuser. Rep. Ser. Mar. Sci. Br. Dep. Mines, Ottawa,No. 13, 1970. 55 S. Sweers, H. E., Three statistical programs to process limnological data.Google Scholar
  11. Mar. Technol. Soc. J., 3, 1969.No. 6, S. 27–40: Patton, K. T., Griffin, G. T., An analysis of marine corer dynamics.Google Scholar
  12. Met. i Gidrol. 1970. No.3, S. 3–11: Korzun, V. I., (Five years of the International Hydrological Decade (IHD).) [in russ. Spr. m. engl. Abstr.]Google Scholar
  13. Mitt. Internat. Verein. Limnol. 14, 1968. S. 243–255: Toyoda, Y., Horie, S., Studies on the sedimentation in lake Biwa from the viewpoint of lake Metabolism. [Auch: Contr. Res. Group. Biolog. Resources of Lake Biwa. No. 50; Contr. Otsu Hydrobiolog. Station Univ. Kyoto. Foreign Language Ser. No. 177; Coll. Pap. Sci. Atmosph. Hydrosph. 6, 1968 (1969), Contr. No. 10, S. 243–255.]Google Scholar
  14. Nature, Lond. Vol.226,No. 5241,1970. S. 101–102: More talk on Great Lakes.Google Scholar
  15. N.Z.J. mar. Freshw. Res. 3, 1969.No. 4, S. 571–584: Fish, G. R., Chapman, M. A., Synoptic surveys of lakes Rotorua and Rotoiti.Google Scholar
  16. Ocean Engng. 1, 1970.No. 6, S. 597–599: Woodruff, J. L., A self-deactivating piston for a piston corer. [Auch: Contr. Hawaii Inst. Geophys. No. 282.]CrossRefGoogle Scholar
  17. Science. Vol.166, No. 3905, 1969. S. 604–606: Harriss, R. C., Troup, A. G., Freshwater ferromanganese concretions: chemistry and internal structure.Google Scholar
  18. Svensk geogr. Årsb. 45, 1969. S. 163–164: Bergsten, K. E., Sjön antens bottentopografi.Google Scholar
  19. Z. Meteorol. Bd.21, 1970.H. 5–7, S. 158–160: Heitmann, M.-L., Ein Beitrag zur Turbulenz des Tiefenwassers im Stechlinsee.Google Scholar

Applied oceanography: Engineering UDC 551.46.09:62

  1. Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 2-1–2-32: King, D. A., Basic hydrodynamics.—Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 6-1–6-34: Cohn, P. D., Wetch, J. R., Underwater power sources.—Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 7-1–7-92: Brown, B. F., Galler, S. R., DeHart, R. C., Materials and testing.—Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 8-1–8-134: Dean, R. G., Fletcher, G. A., Gerwick, B. C., Fixed structures.Google Scholar
  2. Oceanology international 69. Proceed., Techn. Sess.,day 2, ohne Pag. Brown, R. J., Garrett, L. D., Survey, study, and design for marine structures.Google Scholar
  3. Oceans, S. Diego. 3, 1970.No. 1, S. 6–15: Carter, W., The North Sea defeated: Holland's Delta Project.Google Scholar
  4. Schiff u. Hafen. 22, 1970.H. 3, S. 213–215: Schuster, S., Wie stehen wir zur Meerestechnik?Google Scholar

Applied oceanography: Pollution UDC 551.46.09:628.5

  1. Bundes-Ges.-Bl., Bonn. Teil II. Nr. 77 vom 30. 10.1969. S. 2066–2075: Bekanntmachung über das Inkrafttreten des Übereinkommens zur Zusammenarbeit bei der Bekämpfung von Ölverschmutzungen der Nordsec.Google Scholar
  2. Cah. océanogr. 22, 1970.No. 3, S. 213–217: Gougenheim, A., Une élimination rationelle de déchets industriels.Google Scholar
  3. Dock Harb. Author. 50, No. 591. Jan.1970. S. 382: Toles, G. E., New York conference on oil pollution.Google Scholar
  4. ESSO Studie 4, 1969. 19 S. Öl und die Reinhaltung von Wasser und Luft. IIrsg.: ESSO AG, Koordinations- u. Planungsabteilung.Google Scholar
  5. Final Act of the International Legal Conference on Marine Pollution Damage, (Brussels, 10–29 Nov.) 1969. (Assembly of the Inter-Governmental Maritime Consultative Organization.) Brussels 1969. Getr. Pag. [Darin:] —Getr. Pag. International Convention relating to Intervention on the High Seas in Cases of Oil Pollution Casualties. Attachment1. — Getr. Pag. International Convention on Civil Liability for Oil Pollution Damage. Attachment 2.Google Scholar
  6. Hydrospace. 3,1970.No. 1, S. 48: France plans “depollution” ship.Google Scholar
  7. Materialy Poljar. nauc.-issl. Inst. mork. ryb. Choz. Okeanogr. 12, 1968. S. 154–157: Lebedev, A. A., (Zone of possible vessels' icing in the Barents and Greenland Seas and in the Northern Atlantic.) [in russ. Spr.]Google Scholar
  8. Nature, Lond. 225,No. 5238,1970. S. 1096: Oil pollution. Another accident at sea.Google Scholar
  9. Naut. Mag. 203, 1970.No. 5, S. 262–264: Dean, J. R., Sea pollution.Google Scholar
  10. Ocean Engng. 1, 1970.No. 6, S. 611–616: Geld, I., Davang, S. H., Stress corrosion of a coated titanium alloy plate in seawater.CrossRefGoogle Scholar
  11. Oceanology international 69. Proceed., Techn. Sess.,day 4, ohne Pag. Dunster, H. J., Oceanology international '69. Radioactive waste in the sea. — ohne Pag. Cole, H. A., Marine pollution. — ohne Pag. Jagger, H., The work of the oil industry in preventing sea pollution.Google Scholar
  12. Science. Vol.166, No. 3902, 1969. S. 204–206: Holcomb, R. W., Oil in the ecosystem.Google Scholar
  13. Stud. Fish. Res. Bd. Can. No. 1263-1318, 1969 (Part 1). S. 403–406, No. 1304; Chem. (Can.) 20, 1968. S. 1–4: Waldichuk, M., Biological effects of water pollution.Google Scholar
  14. Trudy Morsk. gidrofiz. Inst. 42, 1969. S. 3–11: Beljaev, V. I., Kolesnikov, A. G., Nelepo, B. A., [Untersuchung der Besonderheiten bei der Verlagerung der radioaktiven Verschmutzung in den Ozeanen.] [in russ. Spr.]Google Scholar
  15. Undersea Technol. 11, 1970.No. 3, S. 31 u. 38–39: Niblock, R. W., Coastal zone programs keyed to state action.Google Scholar

Applied oceanography: Fisheries UDC 551.46.09:639.2

  1. Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. S. 11–15: Miyake, Y., Radioactive contamination of the ocean.Google Scholar
  2. Fishery Bull. U.S. Fish & Wildlife Serv. Bur. Commercial Fish. Washington. Vol.66, 1968.No. 3, S. 503–526: Owen, R. W., Oceanographic conditions in the northeast Pacific Ocean and their relation to the Albacore fishery.Google Scholar

Sea level UDC 551.461.2

  1. J. geophys. Res., 74, 1969.No. 28, S. 7058–7062: Askew, R., Miyata, M., Groves, G. W., On the observed low coherence between sea-level records on the opposite sides of Oahu Island. [Auch: Contr. Hawaii Inst. Geophys. No. 294.]Google Scholar
  2. J. Oceanogr. Soc. Japan, 25, 1969.No. 4, S. 191–200: Isozaki, I., An investigation on the variations of sea level due to meteorological disturbauces on the coast of Japanese Islands (IV). Storm surges on the Pacific and Okhotsk Sea coasts of North Japan.Google Scholar
  3. Materialy Poljar. nauc.-issl. Inst. mork. ryb. Choz. Okeanogr. 12, 1968. S. 144–148: Sarukhanyan, E. I., (On the nutational phenomena in the Norwegian and Barents Seas.) [in russ. Spr.]Google Scholar
  4. Rep. CSIRO Div. Fish. Oceanogr., Cronulla. No.46, 1969. S. 1–12: Hamon, B. V., “Current-effect” on sea level. I.Google Scholar
  5. Techn. Rep. Hydrogr. Off. Republ. Korea. 1968. S. 140–156: Sok-U, Y., (Variations of oceanic condition and mean sea level in the Korea Strait.) [in korean. Spr. m. engl. Abstr.]Google Scholar

Bottom forms UDC 551.462

  1. Amer. J. Sci. 264, 1966. S. 177–193: Dietz, R. S., Passive continents, spreading sea floors, and collapsing continental rises. [Auch: Coll. Repr. ESSA Inst. Oceanogr. 1966 [um 1968]. Contr. No. 10.]Google Scholar
  2. Amer. Scientist. 52, 1964. S. 50–69: do.,, Origin of continental slopes.Google Scholar
  3. Annu. Rep. Dep. terr. Magn. Carnegie Instn. 1968–1969 (1970). S. 403–408: Hart, S. R., Sea floor basalts.Google Scholar
  4. Arch. Oceanogr. Limnol. 16, 1969.No. 2, S. 129–161: Lenardon, G., Ricerche sedimentologiche e petrografiche su due carote prelevate dal fondo marino al Largo di Napoli. [in ital. Spr. m. engl. Abstr.] [Auch: Pubbl. Ist. sperim. talassogr. No. 458, 1969.]Google Scholar
  5. Arctic Drifting Stations: A report. ... Coordinator: J. E. Sater. Arct. Inst. North America. 1968. S. 365–376: Hunkins, K., Geomorphic provinces of the Arctic Ocean. [Auch: Contr. Lamont geol. Obs. No. 1077.]Google Scholar
  6. Atlas Antarktiki. T. 2. [Textband.] Leningrad1969. S. 265–287: Zhivago, A. V., (Structure and relief of the bottom of the Southern Ocean.)—Atlas Antarktiki. T. 2 [Textband.] Leningrad1969. S. 287–304: Lisitzyn, A. P., (Bottom sediments and suspended load of the Southern Ocean.) [in russ. Spr.]Google Scholar
  7. Berthois, L., Brenot, R., Debyser, J., Carte bathymétrique de la marge continentale du golfe de Gaseogne et de la mer Celtique «à l'échelle de 1:1000 000 ème». (Rucil-Malmaison:) Institut Français du Pétrole, Division Géologie 1969. 4 ungez. S. Text, 2 Kt.Google Scholar
  8. Boll. Geofis. teor. appl. Vol.11,No. 43-44,1969. S. 243–254: Mosetti, F., Le variazion relative del livello marino nell'Adriatico dal 1896 al 1967 e il problema dello sprofondamento di Venezia. [Auch: Contr. Oss. geofis. sperim., Trieste No. 203.]—Boll. Geofis. teor. appl. Vol. 11,No. 43-44,1969. S. 255–260: do., Relazione fra la frequenza dell'acqua alta e l'aumento del livello medio marino a Venezia. [in italien. Spr. m. engl. Abstr.] [Auch: Contr. Oss. geof. sperim., Trieste No. 204.]Google Scholar
  9. Bull. Amer. Assoc. Petrol. Geol. Vol.53, 1969. S. 2431–2479: Lehner, P., Salt tectonics and Pleistocene stratigraphy on continental slope of northern Gulf of Mexico. [Auch: Publ. Shell Dev. Comp., Expl. and Prod. Res. Cent. No. 552.]—Bull. Amer. Assoc. Petrol. Geol. Vol. 53, 1969. S. 2480–2482: Amery, G. B., Structure of Sigsbee scarp, Gulf of Mexico.—Bull. Amer. Assoc. Petrol. Geol. Vol. 53, 1969. S. 2506–2542: Bryant, W. R., Meyerhoff, A. A., Brown, N. K. [a. o.], Escarpments, reef trends, and diapiric structures, eastern Gulf of Mexico.—Bull. Amer. Assoc. Petrol. Geol. Vol. 53, 1969. S. 2543–2550: Antoine, J. W., Bryant, W. R., Distribution of salt and salt structures in Gulf of Mexico.—Bull. Amer. Assoc. Petrol. Geol. Vol. 53, 1969. S. 2551–2558: Sheridan, R. E., Smith, J. D., Gardner, J., Rock dredges from Blake esearpment near Great Abaco Canyon. [Auch: Contr. Lamont-Doherty geolog. Obs. Columbia Univ. No. 1411.]—Bull. Amer. Assoc. Petrol. Geol. Vol. 54, 1970.No. 1, S. 3–43: Hedberg, H. D., Continental margins from viewpoint of the petroleum geologist.—Bull. Amer. Assoc. Petrol. Geol. Vol. 54, 1970.No. 1. S. 44–108: Emery, K. O., Uchupi, E., Phillips, J. D., Continental rise off eastern North America. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2324.]—Bull. Amer. Assoc. Petrol. Geol. Vol. 54, 1970.No. 1, S. 109–124: Garrison, L. E., Development of continental shelf south of New England.—Bull. Amer. Assoc. Petrol. Geol. Vol. 54, 1970.No. 1, S. 125–128: Moore, T. C., Van Andel, T. H., Blow, W. H., Large submarine slide off northeastern continental margin of Brazil.—Bull. Amer. Assoc. Petrol. Geol. Vol. 54, 1970.No. 1, S. 129–157: Rona, P. A., Comparison of continental margins of eastern North America at Cape Hatteras and north-westerb Africa at Cap Blane. [Auch: Contr. Hudson Lab. Columbia Univ. No. 358.]—Bull. Amer. Assoc. Petrol. Geol. Vol. 53, 1969. S. 158–167: McMaster, R. L., De Boer, J., Ashraf, A., Magnetic and seismic reflection studies on continental shelf off Portuguese Guinea, Guinea, and Sierra Leone, West Africa.Google Scholar
  10. Bull. de l'Inst. Océanogr., Vol.68,1969. No. 1392, Annexe. 2 Bl. Carte bathymétrique du précontinent entre cap Ferrat et cap Martin. Vallées de Beaulieu et de Monaco. 1∶25000. Par Pierrot, S., Giermann.Google Scholar
  11. Bull. Soc. géol. France. (7),10, 1968. S. 218–252: Nesteroff, W. D., Duplaix, S., Sauvage, J., Les dépôts récents du canyon de Cap-Breton.Google Scholar
  12. Cah. Biol. mar., Roscoff. 9, 1968.H. 5, [Suppl.], S. 521–536: Cabioch, L., Contribution à la connaissance des peuplements benthiques de la Manche occidentale. Darin: Géologie et sédimentologie de la Manche occidentale.Google Scholar
  13. Cah. océanogr. 22, 1970.No. 1, S. 25–32: Mascle, J., Les sédiments du canyon de Toulon.—Cah. océanogr. 22, 1970.No. 1, S. 33–42: Mauffret, A., Structure des fonds marins autour des Baléares.—Cah. océanogr. 22, 1970.No. 1, S. 63–72: Melieres, F., Nesteroff, W. D., Lancelot, Y., Etude photographique des fonds du golfe de Cadix.—Cah. océanogr. 22, 1970.No. 2, S. 127–146: Duplaix, S., Olivet, J.-L., Étude sédimentologique et morphologique de la tête du rech Bourcart (golfe du Lion).Google Scholar
  14. La carta batimetrica dell'Adriatico Settentrionale, I. I. 1505 (1967) [Text.] Genova: Ist. Idrografico della Marina 1968. 7 S., 7 Abb.Google Scholar
  15. Ciel et Terre. 86, 1970.No. 2, S. 100–124: Vuyst, A. de, La nouvelle conception de la dérive des continents. 2 P. 2. L'enregistrement paléomagnétique de l'expansion des fonds océaniques.Google Scholar
  16. C. R. Acad. Sci., Paris. Sér. D 265, 1967. S. 195–197: Berthois, L., Roa, P., Interprétation des analyses de minéraux lourds par pourcentages pondérés, dans la région des Feroër-Écosse-Hébrides.—C. R. Acad. Sci., Paris. Sér. D, 265, 1967. S. 1278–1281: Agarate, C., Got, H., Monaco, A., Eléments structuraux des canyons sous-marine et du plateau continental catalans, obtenus par «sismique continue». —C. R. Acad. Sci., Paris. Sér. D, 266, 1968. S. 660–662: Berthois, L. LeCalvez, Y., Crosnier, A., Répartition des Foraminifères dans les sédiments du plateau continental camerounais. Essai d'écologie.—C. R. Acad. Sci., Paris. Sér. D., 266, 1968. S. 1934–1936: Berthois, L., Brenot, R., Auffret, G., Note sur la dynamique des ensembles sableux de la Manche Orientale.—C. R. Acad. Sci., Paris. Sér. D, 267, 1968. S. 1079–1083: Glangeaud, L., Bellaiche, G., Gennesseaux, M., Phénomènes pelliculaires et épidermiques du rech Bourcart (golfe du Lion) et de la mer hespérienne.—C. R. Acad. Sci, Paris., Sér. D, 268, 1969. S. 1470–1473: Chenouard, L., Berthois, L., Lalou, C., Etude d'une carotte sédimentaire de la pente continentale atlantique.Google Scholar
  17. Contr. Sedimentol. Res. Lab Fla. St. Univ. No. 18, 1967. X, 72 S. m. Fig. u. Tab. Earley, C. F., The sediments of Card Sound, Florida. Thesis.—Contr. Sedimentol. Res. Lab. Fla. St. Univ. No. 28, 1968. VII, 106 S. m. Fig. u. Tab. Fisher, V. A., The Southern Ocean 700,000 years ago. Diss.—Contr. Sedimentol. Res. Lab. Fla. St. Univ. No. 31, 1970. XI, 124 S. m. Fig. u. Tab. Huang, T.-C., The sediments and sedimentary processes of the eastern Mississippi Cone, Gulf of Mexico. Diss. 1969.Google Scholar
  18. Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: 1969. S. 18–21: Ostapoff, F., A fourth brine hole in the Red Sea?—Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: 1969. S. 59–70: Burek, P. J., Structural effects of sea-floor spreading in the Gulf of Aden and the Red Sea on the Arabian Shield. [Auch: Contr. Southwest Center for Advanced Studies No. 71.]—Degens, E. T., Ross, D. A. Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: 1969. S. 82–97: Ross, D. A., Hays, E. E., Allstrom, F. C., Bathymetry and continuous seismic profiles of the hot brine region of the Red Sea. [Auch: Conr. Woods Hole oceanogr. Instn. No. 2181.]—Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: 1969. S. 122–128: Chase, R. L., Basalt from axial trough of the Red Sea. [Auch: Contr. WoodsHole oceanogr. Instn. No. 2183.]Google Scholar
  19. Deep-Sea Res. 17, 1970.No. 2, S. 267–270: Belderson, R. H., Kenyon, N. H., Stride, A. H., 10-km wide views of Mediterranean deep sea floor.—Deep-Sea Res. 17, 1970.No. 2, S. 373–378: Karig, D. E., Peterson, M. N. A., Shor, G. G., Sediment-capped guyots in the Mid-Pacific mountains.Google Scholar
  20. Dt. hydrogr. Z. 22, 1969.H. 5, S. 193–204: Haase, E., Kaminski, H., Pfannenstiel, M., Versuch einer meeresmorphologischen Deutung von Satelliten-Luftbildern.—Dt. hydrogr. Z. 22, 1969.H. 5, S. 205–208: Fleischer, U., Investigations of rifts by shipboard magnetic and gravity surveys: Gulf of Aqaba-Red Sea and Reykjanes Ridge.Google Scholar
  21. Dokl. Akad. Nauk SSSR. 191, 1970.No. 1, S. 183–186: Neprochnov, Ju. P., Kholopv, B. V., (Thickness and structure of the sedimentary cover in the Indian Ocean.)—Dokl. Akad. Nauk SSSR. 191, 1970. No. 2, S. 446–448: Prokoptsev, N. G., Murdmaa, I. O., (Alkaline augitic lava from the bottom of the Pacific Ocean.) [jeweils in russ. Spr.]Google Scholar
  22. Earth planet. Sci. Letters, 2, 1967. S. 445–448: Johnson, G. L., North Atlantic fracture zones near 53o.—Earth planet. Sci. Letters, 5, 1969. S. 346–351: Hubbard, N. J., A chemical comparison of oceanic ridge, Hawaiian tholeiitic and Hawaiian alkalic basalts. [Auch: Contr. Lamont geol. Obs. No. 1229.]—Earth planet. Sci. Letters, 6, 1969. S. 77–83: Herron, E. M., Hayes, D. E., A geophysical study of the Chile Ridge. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1297.]CrossRefGoogle Scholar
  23. Energia nucl., Milano. 16, 1969.No. 1, S. 36–40: Cerrai, E., Triulzi, C., Vertical distribution of Cs137, Sb125, and Co60 in coastal marine sediments.Google Scholar
  24. Geochim. cosmochim. Acta. 34, 1970.No. 3, S. 389–397: Heye, D., Vertical distribution of Cs137, Sb125, and Co60 in coastal marine sediments.CrossRefGoogle Scholar
  25. Geograph. Rev. 56, (1966?)No. 4, S. 570–576: Perry, R. B., Nichols, H., Geomorphology of Amlia Basin, Aleutian Arc, Alaska. [Auch: Coll. Repr. ESSA Inst. Oceanogr. 1966 [um 1968]. Contr. No. 22]Google Scholar
  26. Geol. i Geofiz., Novosibirsk. 1970. No.1, S. 57–68: Chikov, B. M., Yunov, A. Yu., Belyaev, I. V., (The structure of the water area of the Okhotsk Sea and its relationship with folded complexes of the coasts.) [in russ. Spr.]Google Scholar
  27. Geol. Soc. Am. Bull. 80, 1969. S. 1203–1230: Rodolfo, K. S., Bathymetry and marine geology of the Andaman Basin, and tectonic implications of Southeast Asia.Google Scholar
  28. Geophys. J. R. astr. Soc. 19, 1970.No. 3, S. 261–283: Krause, D. C., Watkins, N. D., North Atlantic crustal genesis in the vicinity of the Azores.Google Scholar
  29. Geyer, R. A., Oceanography of the Gulf of Mexico. Progress report. Coll. Station, Texas: Texas A & M Univ. 1968. S. 7–9: Antoine, J. W., Geophysical research in the Gulf of Mexico.Google Scholar
  30. Heselton, L. R., The continental shelf. (Arlington, Va.:) Inst. Nav. Studies, Center nav. Analyses 1968. (44 S.)Google Scholar
  31. Hidrotehnica. 14, 1969.Nr. 12, S. 642–648: Trufas, V., Vlad, D., (Oberflächenregime des Schwarzen Meeres an der rumänischen Küste.) [in rumäu. Spr.]Google Scholar
  32. Int. hydrogr. Rev. 47, 1970.No. 1, S. 23–33: Krause, D. C., Kanaev, V. F., Narrow-beam echo sounding in marine geomorphology.—Int. hydrogr. Rev. 47, 1970. S. 113–121: Gilg, J. G., A bathymetric evaluation of doubtful hydrographic data.—Int. hydrogr. Rev. 47, 1970.No. 1, S. 123–131: Newson, D. W., A consideration of whether charts should show echo-sounder depths uncorrected for the varying speed of sound in sea water.Google Scholar
  33. Izv. Akad. Nauk SSSR, Fiz. Zemli. 1970. No.4, S. 49–64: Zverev, S. M., (Problems of seismic investigations of oceanic crust.) [in russ. Spr.]Google Scholar
  34. J. geophys. Res. 74, 1969.No. 6, S. 1409–1412: Cullen, D. J., strike-slip displacement of mid-ocean rises and the concept of mid-ocean rise migration.—J. geophys. Res. 74, 1969.No. 6, S. 1413–1420: Chase, R. L., Bunce, E. T., Underthrusting of the eastern margin of the Antilles by the floor of the western North Atlantic Ocean, and origin of the Barbados ridge. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2167.]—J. geophys. Res. 74, 1969.No. 10, S. 2477–2493: Ewing, M., Houtz, R., Ewing, J., South Pacific sediment distribution. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1319.]—J. geophys. Res. 74, 1969.No. 10, S. 2512–2530: Sheridan, R. E., Houtz, R. E., Drake, C. L., Structure of continental margin off Sierra Leone, West Africa.—J. geophys. Res. 74, 1969.No. 10, S. 2597–2607: McDonald, M. F., Katz, E. J., Quantitative method for describing the regional topography of the ocean floor. [Auch: Publ. Electr. Boat Div. No. U 413-66-116; Contr. Woods Hole oceanogr. Instn. No. 2030.]—J. geophys. Res. 74, 1969.No. 12, S. 3069–3081: Phillips, J. D., Thompson, G., Herzen, R. P. von, Mid-Atlantic ridge near 43° N latitude. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2242.]—J. geophys. Res. 74, 1969.No. 12, S. 3082–3094 Bunce, E. T., Fahlquist, D. A., Clough, J. W., Seismic refraction and reflection measurements-Puerto Rico outer ridge. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2254.]—J. geophys. Res. 74, 1969.No. 12, S. 3261–3270: Boström, K., Peterson, M. N. A., Joensuu, O. et al., Aluminum-poor ferromanganoan sediments on active oceanic ridges. [Auch: Contr. Inst. Marine Sci. Univ. Miami No. 1028.]—J. geophys. Res. 74, 1969.No. 12, S. 3271–3272: Rance, H., Lineaments and torsional deformation of the earth: Indian Ocean.—J. geophys. Res. 74, 1969.No. 25, S. 5923–5948: Katsumata, M., Sykes, L. R., Seismicity and tectonics of the Western Pacific: Izu-Mariana-Caroline and Ryukyu-Taiwan regions. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1401.]—J. geophys. Res. 74, 1969.No. 27, S. 6525–6540: Lliboutry, L., Sea-floor spreading, continental drift and lithosphere sinking with an asthenosphere at melting point.—J. geophys. Res. 75, 1970.No. 2, S. 239–254: Karig, D. E., Ridges and basins of the Tonga-Kermadec island arc system.—J. geophys. Res. 74, 1969.No 2, S. 488–490: Scholl, D. W., Huene, R. von, Comments on paper by R. L. Chase and E. T. Bunce, ‘Underthrusting of the eastern margin of the Antilles by the floor of the western North Atlantic Ocean, and origin of the Barbados ridge’.—J. geophys. Res. 74, 1969.No. 5, S. 903–920: Vogt, P. R., Ostenso, N. A., Johnson, G. L., Magnetic and bathymetric data bearing on sea-floor spreading north of Iceland.—J. geophys. Res. 74, 1969.No. 8, S. 1421–1430: Rea, D. K., Changes in structure and trend of fracture zones north of the Hawaiian ridge and relation to sea-floor spreading.—J. geophys. Res. 74, 1969.No. 8, S. 1585–1613: Kay, R., Hubbard, N. J., Gast, P. W., Chemical characteristics and origin of oceanic ridge volcanic rocks. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1463.]—J. geophys. Res. 74, 1969.No. 9, S. 1655–1680: Jones, E. J. W., Ewing, M., Ewing, J. I., Influences of Norwegian Sea overflow water on sedimentation in the northern North Atlantic and Labrador Sea. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1464.]Google Scholar
  35. J. Mar. Geol., 4, 1968. S.1–15: Kagami, H., Honza, E., Kimura, M., Minamisagami formation in Sagami Trough. [in japan. Spr. m engl. Abstr.] [Auch: Coll. Repr. Oc. Res. Inst. Univ. Tokyo. Vol. 7, 1968 (1969). (Contr. No. 143) S. 143–157.]Google Scholar
  36. Mahasagar. 2, 1969.No. 1 u.2, S. 34–37: Anantha Padmanabha Setty, M. G., Physiography of the Arabian Sea.—Mahasagar. 2, 1969.No. 4, S. 10–14: Srivastava, N. K., Sediments of Arabian Sea, Bay of Bengal and Andaman Sea.Google Scholar
  37. Marine Geology. 8, 1970.No. 1, S. 31–58: Conolly, J. R., J. R., Flavelle, A., Dietz, R. S., Continental margin of the Great Australian Bight.—Marine geology. 8, 1970.No. 1, S. 59–83: Von Der Borch, C. C., Conolly, J. R., Dietz, R. S., Sedimentation and structure of the continental margin in the vicinity of the Otway Basin, southern Australia. S. 85–108: Marlow, M. S., Scholl, D. W., Buffington, E. C., Buldir Depression— a Late Tertiary Graben on the Alcutian Ridge, Alaska.—Marine Geology. 8, 1970.No. 2, S. 139–154: Christensen, N. I., Composition and evolution of the oceanic crust.—Marine Geology. 8, 1970.No. 2, S. 155–172: Holtedahl, O., On the morphology of the west Greenland shelf with general remarks on the “marginal channel” problem.CrossRefGoogle Scholar
  38. Mar. Technol. Soc. J. 4, 1970.No. 1, S. 31–46: Riley, S., The legal implications of the Sea Use Program.—Mar. Technol. Soc. J. 4, 1970.No. 1, S. 71–74: Finlay, L. W., The national interest and the limits of the continental shelf.Google Scholar
  39. Mer, Tokyo, 7, 1969.No. 3, S. 15–23: Iwabuchi, Y., Topographic des fosses au Pacifique du nord-ouest, [in japan. Spr.]—Mer, Tokyo, 7, 1969.No. 3, S. 24–30: Aoki, II., Some petrological problems on the seamounts and ridges in the northwestern Pacific.—Mer, Tokyo, 7, 1969,No. 3, S. 31–37: Mogi, A., Topographic sous-marine de mers bordières du Pacifique d'ouest. [in japan. Spr.]—Mer, Tokyo, 7, 1969.No. 3, S. 40–41: Hoshino, M., Ichikawa, K., Niino, H. [a. o.], Some geological problems on the Western Pacific region: On the deep-sea terrace.—Mer, Tokyo, 7, 1969.No. 3, S. 42–43: Hoshino, M., Ichikawa, K., Niino, H. [a. o.], Some geological problems on the Western Pacific region: Problems about Guyots in the Western Pacific.—Mer, Tokyo, 7, 1969.No. 3, S. 43–45: Hoshino, M., Ichikawa, K., Niino, II. [a. o.], Some geological problems on the Western Pacific region: Southwest Honshu are in the pre-Neogene time, with reference to problems of its oceanic side.—Mer, Tokyo, 7, 1969.No. 3, S. 47–63: Present state of Japanese investigation of the Western Pacific ocean floor and a proposal for future studics.Google Scholar
  40. “Meteor” Forsch.-Ergebn. (A), No.7, 1970. S. 111–130, 1 Kt.: Tomezak, G., Annutsch, R.: Die topographie und die hydrographischen Verhältnisse unterhalb 2000 m Tiefe im Gebiet der Romanche-Bruchzone.Google Scholar
  41. Morskoj Sbornik. 53 (122),1970.No. 2, S. 76–82: Popov, E. A., [Topographische Besonderheiten in der Schelfzone des Atlantischen Ozeans] [in russ. Spr.]Google Scholar
  42. Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 1–24–1–42: McAllister, R. F., Geological oceanography.Google Scholar
  43. Nature, Lond. Vol.225,No. 5230,1970. S. 314–315: Support from sediments.—Nature, Lond. Vol. 225, No. 5239, 1970. S. 1226–1228: Lynts, G. W., Conceptual model of the Bahamian Platform for the last 135 million years.—Nature, Lond. Vol. 226, No. 5242, 1970. S. 239–243: McKenzic, D. P., Plate tectonics of the Mediterrancan region.—Nature, Lond. Vol. 226, No. 5242, 1970. S. 243–248: McKenzie, D. P., Davies, D., Molnar, P., Plate tectonics of the Red Sea and East Africa.—Nature, Lond. Vol. 5245, 1970. S. 536–537: Vech, H. H., Veevers, J. J., Sea level at —175 m off the Great Barrier Reef 13,600 to 17,000 year ago.Google Scholar
  44. Oceanogr. Rep. US Coast Guard No.5, 1965. S. 61–98: Uchupi, E., Sediments and topography of Kane Basin. [Auch: Contr. Woods Hole oceanogr. Instn. No. 1463.] —Oceanogr. Rep. US Coast Guard No. 22, 1969, 95 S. m. Fig. u. Tab. Stanley, D. J., Kelling, G., Photographic investigation of sediment texture, bottom current activity, and benthonic organisms in the Wilmington submarine canyon. U.S.C.G.C. Rockaway-Smithoonian Institution Cruise Ro S2). December 1967.Google Scholar
  45. Oil and Gas. J. 65, 1967.No. 8 S. 124–127: Harbison, R. N., De Soto Canyon reveals salt trends. [Auch: Coll. Repr. ESSA Inst. Oceanogr. 1967. Contr. No. 16.]Google Scholar
  46. Okeanologija.10, 1970.No. 1, S. 113–116: Beresnev, A. F., Kovylin, V. M., (The relief of the basement and the distribution of thicknesses of bottom sediment in the central part of the Japan Sea.) [in russ. Spr. m. engl. Abstr.]Google Scholar
  47. Probl. Arkt. Antarkt. 1969. No.31, S. 53–60: Gershanovich, D. Ye., (Main geomorphological characteristics of the bottom of the Bering Sea and Alaska Bay.) [in russ. Spr.]Google Scholar
  48. Proc. Seventh Internatl. Sedimentological Congress. 1967. 4 S. Keller, G. H., Pleistocene-recent boundary in the Malacca Strait, Southeast Asia. [Auch: Coll. Repr. ESSA Inst. Oceanogr. 1967. Contr. No. 19.]Google Scholar
  49. Proc. World Dredging Conf., 1967. S. 535–359: Harrison, W., Environmental effects of dredging and spoil deposition. [Auch: Coll. Repr. ESSA Inst. Oceanogr. 1967. Contr. No. 17.]-Google Scholar
  50. Recu. Trav. Stat. mar. Endoume, 1969. Fase. 62, Bull. 46, S. 193–212: Poizat, C., Note sur la répartition des sédiments au débouché des calanques du littoral des massifs de Marseilleveyre, Puget et Devenson (Marseille à cassis).—Reeu. Trav. Stat. mar. Endoume, 1969. Fasc. 62, Bull. 46, S. 269–284: Muraour, P., Ducrot, J., Marchand, J. P., Contribution a l'étude de la structure profonde entre la Provence et la Corse.Google Scholar
  51. Rev. Géogr. phys. Géol. dynam. 10, 1968.Fasc. 2, S. 137–145: Bellaiche, G., Précisions apportées à la connaissance de la pente continentale et de la plaine abyssale à la suite de trois plongées en bathyscape «Archimède».Google Scholar
  52. Rev. Inst. franç. Pétrole. 23, 1968.No. 9, S. 1029–1045, 6 Taf.: Cholet, J., Damotte, B., Grau, G. Recherches préliminaires sur la structure géologique de la marge continentale du golfe de Gascogne: Commenaires sur quelques profils de sismique réflexion «Flexotir».—Rev. Inst. franç. Pétrole. 24, 1969.No. 4, S. 383–440: Robert, J. P., Géologie du platean countinental Français données recucillies à l'occasion de la mise au point de l'Etinceleur et de son utilisation au profit de certains ports Français et de l'Institut Français du Pétrole.—Rev. Inst. franç. Pétrole. 23, 1968.No. 9, S. 1061–1072, 7 Taf.: Damotte, B., Debyser, J., Montadert, L., Nouvelles données structurales sur le golfe de Gascogne obtenues par sismique réflexion «Flexotir».Google Scholar
  53. Science. Vol.166, No. 3903, 1969. S. 374–375: Macintyre, I. G., Pilkey, O. H., Tropical reef corals: tolerance of low temperatures on the North Carolina continental shelf.—Science. Vol. 166, No. 3904, 1969. S. 499–502: Dansgaard, W., Tauber, H., Glacier oxyen-18 content and pleistocene ocean temperatures.—Science. Vol. 166, No. 3904, 1969. S. 502–504: Forbes, R. B., Hoskin, C. M., Dredged trachyte and basalt from Kodiak Scamount and the adjacent Aleutiau Trench, Alaska.—Science. Vol. 166, No. 3908, 1969. S. 992–994: Gilluly, J., Oceanic sediment volumes and continental drift. —Science. Vol. 166, No. 3909, 1969. S. 1181–1183: Herzen, R. P. von, Bonatti, E., Fissure basalts and ocean-floor spreading on the East Pacific Rise.—Science. Vol. 166, No. 3910, 1969. S. 1265–1266: Silver, E. A., Late cenozoic underthrusting of the continental margin off northernmost California.—Science. Vol. 166, No. 3910, 1969. S. 1267–1269: Emilia, D. A., Heinrichs, D. F., Ocean floor spreading: Olduvai and Gilsa events in the Matuyama epoch.—Science. Vol. 166, No. 3912, 1969. S. 1503–1504: Emiliani, C., Interglacial high sea levels and the control of Greenland ice by the precession of the equinoxes.Google Scholar
  54. Sea Frontiers 13, 1967.No. 1, S. 66–82: Dietz, R. S., More about continental drift. [Auch: Coll. Repr. ESSA Inst. Oceanogr. 1967. Contr. No. 13.]Google Scholar
  55. Segre, A. G., Stocchino, C., Nuove osservazioni sulla geologia e morfologia delle montagne submarine del Mar Tirreno. [in ital. u. franz. Spr.]Google Scholar
  56. Shore & Beach. 1969. Oct., 5 S. Duane, D. B., A study of New Jersey and northern New England coastal waters.Google Scholar
  57. Spec. Publ. Int. hydrogr. Bur. No. 45, 1969. 274 S. m. Abb., Tab. u. Taf. Dishou, M., Heezen, B. C., Digital deepsea sounding library. Decription and index list. — Collection de sondes océaniques digitalisées. ... [in engl. u. franz. Spr.]Google Scholar
  58. Symposium on Continental Margins and Island Ares, Geol. Survey of Canada, Paper 66-15, S. 223–237: Peter, G., Preliminary results of a systematic geophysical survey south of the Alaska Peninsula. [Auch: Coll. Repr. ESSA Inst. Oceanogr. 1966. Contr. No. 24.]Google Scholar
  59. Svensk geogr. Årsb. 45, 1969. S. 107–121: Lindqvist, S., Nilsson, L., Morfologiska studier med ekolod. [in schwed. Spr. m. engl. Abstr.]Google Scholar
  60. Techn. Mem. US Army coast. Engng. Res. Center. No. 29, 1969. 47 S., mit Appendix A-D, ungez. S. Duane, D. B., Meisburger, E. P., Geomorphology and sedi-ments of the nearshore continental shelf Miami to Palm Beach, Florida.Google Scholar
  61. Trans. Gulf Coast Assoc. geol. Soc. 19, 1969: Meisburger, E. P. Duane, D. B., Shallow structural characteristics of Florida Atlantic shelf as revealed by seismic reflection profiles. [Auch: Repr. US Army coast. Engng. Res. Center No. 1-70, 1969.]Google Scholar
  62. Vie et Milieu. série B. 18, 1967.Fasc. 1-B, S. 103–111: Nesteroff, W. D., Lancelot, Y., Mélières, F., Reconnaissance du haut fond de Rochebonne.Google Scholar

Physical properties UDC 551.463.1 551.463.3 551.463.6 551.463.7

  1. Cah. océanogr. 22, 1970.No. 3, S. 239–257: Gascard, J.-C., Calcul de la salinité et de la densité de l'eau de mer a partir de mesures «in situ» de température, conductivité électrique et pression.Google Scholar
  2. Geyer, R. A., Oceanography of the Gulf of Mexico. Progress report. Coll. Station, Texas: Texas A & M Univ. 1968. S. 41–44: Huebner, G. L., Microwave parameters of sea water. no refs.Google Scholar
  3. J. Acoust. Soc. Amer. 47, 1970.No. 1 (P. 2), S. 281–284: Hovem, J. M., Deconvolution for removing the effects of the bubble pulses of explosive charges.CrossRefGoogle Scholar
  4. J. chem. Engng. Data. 14, 1969.No. 4, S. 422–425: Millero, F. J., Curry, R. W., Drost-Hansen, W., Isothermal compressibility of water at various temperatures. [Auch: Contr. Inst. mar. Sci. Univ. Miami No. 1045.]CrossRefGoogle Scholar
  5. J. geophys. Res. 74, 1969.No. 9, S. 2376–2387: Soderberg, E. F., ELF noise in the sea at depths from 30 to 300 meters.—J. geophys. Res. 74, 1969, No. 13, S. 3415–3420: Stanley, E. M., Batten, R. C., Viscosity of sea water at moderate temperatures and pressures.Google Scholar
  6. Materialy Poljar. nauc.-issl. Inst. morsk. ryb. Choz. Okeanogr. 11, 1968. S. 121–133: Seryakov, D. I., (Long-term fluctuations of the heat balance components in the Barents and Norwegian Scas.)—Materialy Poljar. nauc.-issl. Inst. morks. ryb. Choz. Okeanogr. 12, 1968. S. 149–153: Kudlo, B. P., (Computation of the statistical characteristics of the sea water temperature.) [jeweils in russ. Spr.]Google Scholar
  7. Mer. 6, 1968. S. 282–283: Iida, N., Commentaire de la détermination des coefficients de viscosité par une mesure directe des courants équatoriaux. [in japan. Spr., m. franz. Résumé] [Auch: Coll. Repr. Oc. Res. Inst. Univ. Tokyo. Vol. 7, 1968 (1969). (Contr. No. 133). S. 4–5.]Google Scholar
  8. Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 3-1-3-112: Marsh, H. W., Harford, J. W., Horvat, V., Underwater fields and instrumentation.—Myers, J. J. Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 3-36-3-39: Horvat, V., Underwater radio-wave transmission.Google Scholar
  9. Probl. Arkt. Antarkt. 1969, No.31, S. 48–52: Fonarev, G. A., Shneyer, V. S., (To the problem of vertical electrical fields in the sea currents.) [in russ. Spr.]Google Scholar
  10. Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 29–46: Docenko, S. V., [Messen vom räumlichen Heterogenitäten durch elektrische Leitfähigkeit.]—Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 46–55: do., [Niederfrequente induktive Geber für die elektrische Leitfähigkeit.] [jeweils in russ. Spr.]Google Scholar

Underwater sound UDC 551.463.2

  1. Arctic.22, 1969.No. 3, S. 246–264: Kutschale, H., Arctic hydroacoustics.Google Scholar
  2. Arctic Drifting Stations: A report ... Coordinator: J. E. Sater. Arct. Inst. North America. 1968. S. 281–295: Kutschale, H., Long-range sound propagation in the Arctic Ocean. [Auch: Contr. Lamont geol. Obs. No. 1083]Google Scholar
  3. Barakos, P. A., On the theory of acoustic wave scattering and refraction by internal waves. Fort Trumbull, Conn.: U. S. Navy Underwater Sound Laboratory 1965. XI, 159, 11 S.Google Scholar
  4. Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. S. 315–317: Nishimura, M., Application of ultrasonic technology to the ocean investigation. [in japan. Spr. m. engl. Abstr.]Google Scholar
  5. Deep-Sea Res. 17, 1970,No. 2, S. 359–365: Rossby, T., Webb, D., Observing abyssal motions by tracking Swallow floats in the SOFAR Channel—Deep-Sea Res. 17, 1970.No. 2, S. 397–399: Bluy, O. Z., Transducer sidelobe corrections for deep scattering layer data.Google Scholar
  6. Geophysics. 34, 1969.No. 6, S. 882–892: McCann, C., McCann, D. M., The attenuation of compressional waves in marine sediments.CrossRefGoogle Scholar
  7. Hamilton, E. L., Geoacoustic models of the sea floor. 1. Shallow Bering Sea. 2. Mohole (Guadalupe Site). Information and technology involved in deriving models of two contrasting locations ... San Diego, Calif.: U.S. Navy Electronics Laboratory 1965. (52 S.)Google Scholar
  8. IEEE Trans. Aerospace electron. Syst. AES-6, 1970.No. 1, S. 37–50: Glisson, T. H., Black, C. I., Sage, A. P., On sonar signal analysis.Google Scholar
  9. IEEE Trans. Geosci. Electronics. Vol. GE-6, 1968.No. 4, S. 204–211: Kronengold, M., Toulis, W. J., Directional 420-Hz sound source.Google Scholar
  10. Inform. Rep. US nav. oceanogr. Off. No. 67-24, 1967. Getr. Pag., m. Fig. u. Tab. Hart, W. E., Calibration of an ocean bottom accoustic transponder net.—Inform. Rep. US nav. oceanogr. Off. No. 67-87, 1967. V, 7 S. m. Fig. McGrath, J. R., Underwater exploding wires.Google Scholar
  11. J. Acoust. Soc. Amer. 46, 1969,No. 5,P. 2, S. 1246–1250: Eller, A. I., Growth of bubbles by rectified diffusion.—J. Acoust. Soc. Amer. 46, 1969.No. 5, P. 2, S. 1259–1263: Milder, D. M., Ray and wave invariants for SOFAR channel propagation.—J. Acoust. Soc. Amer. 46, 1969.No. 5, P. 2, S. 1284–1288: Reeves, J., Igarashi, Y., Beck, L., Azimuthal dependence of sound backscattered from the sea surface.—J. Acoust. Soc. Amer. 46, 1969,No. 5, P. 2, S. 1308–1317: Urick, R. J., Tulko, T. J., Abraham, D. D., Vertical coherence of sound transmitted over a twenty-four-mile path.—J. Acoust. Soc. Amer. 47, 1970. No. 1 (P. 2), S. 265–268: Broca, L. A., Doppler characteristics of a sonar signal propagating through an anisotropic medium whose index of refraction is a function of time.—J. Acoust. Soc. Amer. 47, 1970.No. 1, (P. 2), S. 276–280: Henriquez, T. A., Ivey, L. E., Standard hydrophone for the infrasonic and audiofrequency range at hydrostatic pressure to 10000 psig. —J. Acoust. Soc. Amer. 47, 1970.No. 1 (P. 2) S. 290–298: Melton, D. R., Horton, C. W., Importance of the Fresnel correction in scattering from a rough surface. 1. Phase and amplitude fluctuations.—J. Acoust. Soc. Amer. 47, 1970.No. 1 (P. 2), S. 299–303: Horton, C. W., Melton, D. R., Importance of the Fresnel correction in scattering from a rough surface. 2. Scattering coefficient.—J. Acoust. Soc. Amer. 47, 1970,No. 1 (P. 2), S. 342–349: Urick, R. J., Lund, G. R., Vertical coherence of shallow-water reverberation.—J. Acoust. Soc. Amer. 47, 1970,No. 1 (P. 2), S. 394–396: Crouch, W. W., Comments on “Vertical directionality of ambient noise in the deep ocean at a site near Bermuda” [E. H. Axelrod, B. A. Schoomer, and W. A. Von Winkle, J. Acoust. Soc. Amer. 37, 77–83 (1965)] and “Ambient-noise directivity measurements” [G. R. Fox, J. Acoust. Soc. Amer. 36, 1537–1540 (1964)].CrossRefGoogle Scholar
  12. Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York[usw.] 1969, S. 3-3–3-20: Marsh, H. W., Underwater sound and instrumentation.Google Scholar
  13. Oceanology international 69. Proceed., Techn. Sess.,day1, ohne Pag. Krocbel, W., On the problem of absolute sound-velocity measurements in sea-water.—Oceanology international 69. Proceed., Techn. Sess.,day 4, ohne Pag. Daniels, C., Henderson, R., “An integrated acoustic underwater survey system”.—ohne Pag. McGrath, J. R., The performance of underwater exploding wires.Google Scholar
  14. Oceanol. international.1970.Jan. S. 16–18: Troutner, R. T., Acoustic telemetry. no refs.—Oceanol. international. 1970.Jan. S. 20–22: Trott, W. J., Underwater electroacoustic measurements.—Oceanol. international. 1970.Jan. S. 24–26: Coburn, W. L., Subsea acoustic controls.Google Scholar
  15. Okeanologija. 10, 1970.No. 1, S. 176–180: Fedorov, I. I., (On the recalculation of depth into pressure while determining sound velocity in sea water.) [in russ. Spr. m. engl. Abstr.]Google Scholar
  16. Proceedings of the Symposium 4th U.S. Navy Symposium on Military Oceanography, Vol. I: S. 309–365 (1967): Clark, J. G., Yarnall, J. R., Long range ocean acoustics and synoptic oceanography Straits of Florida results. [Auch: Contr. Inst. mar. Sci. Univ. Miami No. 798.]Google Scholar
  17. Rep. NRL Progr., Nov.1969. S. 9–14: DelGrosso, V. A., Mader, C. W., Problem notes-Acoustics.Google Scholar
  18. Science. Vol.166, No. 3905, 1969. S. 611–613: Barraclough, W. E., LeBrasseur, R. J., Kennedy, O. D.; Shallow scattering layer in the Subaretic Pacific Ocean: detection by high-frequency echo sounder.Google Scholar
  19. Techn. Rep. SACLANT ASW Res. Centre. No. 102. 1967. 25 S. Castanet, A., Digital techniques of analysis for underwater sound studies.—Techn. Rep. SACLANT ASW Res. Centre. No. 102. 1967. 31 S. Fortuin, L., Impulse response of a random medium.—Techn. Rep. SACLANT ASW Res. Centre. No. 102. 1967. 20 S. Laval, R., Coherence problems in underwater acoustic propagation.—Techn. Rep. SACLANT ASW Res. Centre. No. 102. 1967. 24 S. Parkes, D. J., Pazzini, M., Experimental study of coherence in underwater acoustic.—Techn. Rep. SACLANT ASW Res. Centre. No. 145, 1969. 61 S. davon 37 S. Abb. Hastrup, O. F., A detailed analysis of acoustic reflectivity in the Tyrrhenian abyssal plain.Google Scholar
  20. Techn. Rep. Woods Hole oceanogr. Instn., 1967, Ref. No. 67-53, 3 S. Text, Abb. Beckerle, J. C., Wagar, J. L., Worley, R. D., Underwater acoustic wavefront variations and internal waves.Google Scholar

Optics UDC 551.463.5

  1. Ann. biol. Copenh. 25, 1968 (1969). S. 82–87: Malmberg, S. A., Beam transmittance measurements in Icelandic waters in May and June, 1968.—Ann. biol. Copenh. 25, 1968 (1969). S. 94–96: Visser, M. P., Some optical measurements at Ocean Weather Station M.Google Scholar
  2. Aust. J. Phys. 22, 1969,No. 6, S. 757–766: Mir, A., Backscatter echo from land and sea at 16 MHz.Google Scholar
  3. Deep-Sea Res. 17, 1970.No. 2, S. 271–280: Kampa, E. M., Underwater daylight measurements in the Sea of Cortez.Google Scholar
  4. Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: Springer 1969. S. 153–157: Ryan, W. B. F., Thorndike, E. M., Ewing, M., Suspended matter in the Red Sea brines and its detection by light scattering. [Auch: Contr. Lamont geologic. Observat. No. 1049; Contr. Woods Hole oceanogr. Instn. No. 2187.]Google Scholar
  5. Dokl. Akad. Nauk SSSR, 190, 1970.No. 4, S. 827–830: Voitov, V. I., Kopelevich, O. V., (Indicatrices of light scattering by sea water.) [in russ. Spr.]Google Scholar
  6. FAO Fish. Rep. 3, 1969.No. 62, S. 479–497: Tyler, J. E., The natural light field underwater.Google Scholar
  7. Hidrogr. Gidišn. 1968. S. 93–126: Tešié, M., Vučak, Z., (The solour of the sea with a regard to the colour of the Adriatic Sea.) [in serb.-kroat. Spr. m. engl. Abstr.]Google Scholar
  8. IEEE Trans. Antennas Propag. AP-16, 1968.No. 2, S. 217–223: Wright, J. W., A new model for sea clutter.—IEEE Trans. Antennas Propag. AP-16, 1968.No. 5, S. 554–559: Bass, F. G., Fuks, I. M., Kalmykov, A. I., Very high frequency radiowave scattering by a disturbed sea surface. P. 1: Scattering from a slightly disturbed boundary.—IEEE Trans. Antennas Propag. AP-16, 1968.No. 5, S. 560–568: do., Very high frequency radiowave scattering by a disturbed sea surface. P. 2: Scattering from an actual sea surface.CrossRefGoogle Scholar
  9. J. geophys. Res. 74, 1969.No. 8, S. 1974–1986: Stilwell, D., Directional energy spectra of the sea from photographs.—J. geophys. Res. 74, 1969.No. 23, S. 5540–5541: Zaneveld, J. R., Andrade, M., Beardsley, G. F., Measurements of optical properties at an oceanic front observed near the Galapagos Islands.—J. geophys. Res. 75, 1970.No. 3, S. 551–563: Valenzuela, G. R., Laing, M. B., Study of Doppler spectra of radar sea echo.—J. geophys. Res. 75, 1970.No. 3, S. 612–628: Morrison, R. E., Experimental studies on the optical properties of sea water.Google Scholar
  10. Mar. Technol. Soc. J., 3, 1969.No. 6, S. 11–26: Stoertz, G. E., Hemphill, W. R., Markle, D. A., Airborne fluorometer applicable to marine and estuarine studies.Google Scholar
  11. Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 3-22–3-35: Harford, J. W., Underwater light and instrumentation.Google Scholar
  12. Okeanologija.10, 1970,No. 1, S. 48–50: Voytov, V. I., Dementyeva, M. G., (Relative water transparency of the Indian Ocean.) [in russ. Spr. m. engl. Abstr.]Google Scholar
  13. Postepy fiz., Tom 19, 1968,No. 2, S. 219–236: Kalinowski, J., Dera, J., (Selected topies on the physics of the sea. Part II. Methods of investigating optical phenomena in the sea.) [in poln. Spr. m. engl. Abstr.]Google Scholar
  14. Rep. Inst. fys. Oceanogr. Kobenh. Univ. No. 8, 1969. 8 S., 14 S. Abb. Sugihara, S., The colour of the sea in the Sound between Denmark and Sweden studied with a new colorimeter.—Rep. Inst. fys. Oceanogr. Kobenh Univ. No. 10, 1969. 19 S., 10 S. Abb. Jerlov, N. G., Nygård, K., A quanta and energy meter for photosynthetic studies.Google Scholar
  15. Trudy Morsk. gidrofiz. Inst. 42, 1969, S. 136–150: Li, M. E., Šerstjankin, P. P., [Vertikale Verteilung der Durchsichtigkeit in südlichen Baikalse, während der Herbst-Winter Abkühlungsperiode.] [in russ. Spr.]—Trudy Morsk. gidrofiz. Inst. 44, 1969.No. 2, S. 183–199: Nenymin, G. G., (Studies of nonuniformities of the distribution of optical characteristics of waters in seas and ocean.)—Trudy Morsk. gidrofiz. Inst. 45, 1969.No. 3, S. 126–159: Neuymin, G. G., (Studies of nonuniformities of the distribution of optical characteristics of water in sea and oceans.)—Trudy Morsk. gidrofiz. Inst. 45, 1969.No. 3, S. 160–168: Sorokina, N. A., Timokhina, R. K., (On a relation between water transparency and hydrological characteristics in the central Atlantic.) [jeweils in russ. Spr. m. engl. Abstr.]Google Scholar

Suspensions UDC 551.463.8

  1. Science. Vol.166, No. 3907, 1969. S. 878–879: Pfister, R. M., Dugan, P. R., Frea, J. I., Microparticulates: isolation from water and identification of associated chlorinated pesticides.—Science. Vol. 167, No. 3917, 1970. S. 371–376: Manheim, F. T., Meade, R. H., Bond, G. C., Suspended matter in surface waters of the Atlantic continental margin from Cape Cod to the Florida Keys.PubMedGoogle Scholar
  2. Techn. Rep. Chesapeake Bay Inst. No. 63, Ref. 70-2, 1970. 28 S. m. Fig. u. Tab. Schubel, J. R., Tidal variation of the suspended sediment size distribution at a station in Upper Chesapeake Bay.Google Scholar

Chemistry UDC 551.464

  1. Abstr. Gothenburg Diss. Sci. No. 14, 1969. 17 S. Fouselius, S. H., On the staguant conditions in the Baltic.Google Scholar
  2. Annu. Rep. Dep. terr. Magn. Carnegie Instn. 1968–1969 (1970) S. 417–420: Hart, S. R., Potassium/rubidium ratio of Red Sea brines.Google Scholar
  3. Arch. Oceanogr. Limnol., 16, 1969,No. 2, S. 103–115: Triulzi, C., Tassi, Pelati, L., Mezzadri, M. G., Laboratory studies on vertical distribution of Sr, Cs, Ce, Pm, and Eu in traced cores of marine sediments.—Arch. Oceanogr. Limnol. 16, 1969.No. 2, S. 163–171: Macchi, G., Cescon, B., Mamelli-D'Errico, D., A volumetric determination of sulphate in sea water. [Auch: Contr. Osservat. Geofis. Sperimentale, Trieste, No. 186.]—Arch. Oceanogr. Limnol. 16, 1969.No. 2, S. 189–193: Fossato, V. U., Determinazione di azoto e fosforo nel plancton e nella materia particellata. [in ital. Spr. m. engl. Abstr.]Google Scholar
  4. Atlas Antarktiki. T. 2. [Textband.] Leningrad 1969. S. 426–442: Bogoyavlenskiy, A. N., (Water chemism.) [in russ. Spr.]Google Scholar
  5. Bol. Serv. Hidrogr. nav., B. Aires.6, 1969,No. 2, S. 142–147: Orlando, A. M., Nueva definición de salinidad. [in span. Spr. m. engl. Abstr.]Google Scholar
  6. Boll. Pesea Piscic. Idrobiol. 22,f. 2,1967 (1969). S. 113–120: Bregant, D. Distribuzione dei sali nutritivi nell'area delle Bocche di Bonifacio e del Golfo dell' Asinara. Crociera “Bannock” 1964. [in ital. Spr. m. engl. Abstr.] [Auch: Pubbl. Ist. sperim. talassogr. No. 456, 1969.]Google Scholar
  7. Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. S. 7–9: Sugawara, K., Scope of the chemistry of the sea.—Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. S. 179–182: Saijo, Y., Chlorophyll pigments in the deep sea.Google Scholar
  8. Bull. mar. Sci. 19, 1969,No. 4, S. 897–904: Traganza, E. D., Fluorescence excitation and emission spectra of dissolved organic matter in sea water.Google Scholar
  9. Cah. ORSTOM. 7, 1969.No. 3, S. 21–28: Rougeric, F., Sur un noyau à forte teneur en oxygène dans la partie inférieure du courant de Cromwell.Google Scholar
  10. Contr. mar. Sci. Univ. Texas, 14, Decemb.1969, S. 115–153: Wagner, F. S. Jr., Composition of the dissolved organic compounds in seawater: A review.Google Scholar
  11. Deep-Sea Res. 17, 1970.No. 2, S. 221–231: Ogura, N., The relation between dissolved organic carbon and apparent oxygen utilization in the western North Pacific.—Deep-Sea Res. 17, 1970.No. 2, S. 233–243: Gordon, D. C., Some studies on he distribution and composition of particulate organic carbon in the North Atlantic Ocean.—Deep-Sea Res. 17, 1970.No. 2, S. 245–266: Grill, E. V., A mathematical model for the marine dissolved silicate cycle. [Auch: Contr. Dep. Oceanogr. Univ. Wash. No. 504.]—Deep-Sea Res. 17, 1970,No. 2, S. 393–396: Stephens, K., Automated measurement of dissolved nutrients.Google Scholar
  12. Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. A geochemical and geophysical account. Berlin, Heidelberg, New York: Springer 1969. XII, 600 S. [Darin:]—Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. A geochemical and geophysical account. Berlin, Heidelberg, New York: Springer 1969. XII, S. 174–179: Brewer, P. G., Spencer, D. W., A note on the chemical composition of the Red Sea brines. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2188.]—Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. A geochemical and geophysical account. Berlin, Heidelberg, New York: Springer 1969. XII, S. 180–203: Brooks, R. R., Kaplan, I. R., Peterson, M. N. A., Trace element composition of Red Sea geothermal brine and interstitial water. [Auch: Publ. Inst. Geophys. planet. Physics. Univ. Southern California, Los Angeles No. 691.]—Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. A geochemical and geophysical account. Berlin, Heidelberg, New York: Springer 1969. XII, S. 204–207: Hartmann, M., Investigations of Atlantis II deep samples taken by the FS “Meteor”.—Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. A geochemical and geophysical account. Berlin, Heidelberg, New York: Springer 1969. XII, S. 208–242: Craig, H., Geochemistry and origin of the Red Sea brines.—Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. A geochemical and geophysical account. Berlin, Heidelberg, New York: Springer 1969. XII, S. 243–250: Faure, G., Jones, L. M., Anomalous strontium in the Red Sea brines. [Auch: Contr. Laborat. Geolog. & Geochem. No. 6.]—Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. A geochemical and geophysical account. Berlin, Heidelberg, New York: Springer. 1969. XII, S. 251–253: Swinnerton, J. W., Linnenbom, V. J., Low molecular weight hydrocarbon analysis of Atlantis II waters.—Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. A geochemical and geophysical account. Berlin, Heidelberg New York: Springer 1969. XII, S. 254–260: Weiss, R. F., Dissolved argon, nitrogen and total carbonate in the Red Sea brines.—Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. A geochemical and geophysical account. Berlin, Heidelberg, New York: Springer 1969. XII, S. 474–498: Kaplan, I. R., Sweeney, R. E., Nissenbaum, A., Sulfur isotope studies on Red Sea geothermal brines and sediments. [Auch: Contr. Inst. Geophys. & planet. Physics No. 680.]—Degens, E. T., Ross. D. A., Hot brines and recent heavy metal deposits in the Red Sea. A geochemical and geophysical account. Berlin, Heidelberg New York: Springer 1969. XII, S. 557–571: Emery, K. O., Hunt, J. M., Hays, E. E., Summary of hot brines and heavy metal deposits in the Red Sea. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2203.]Google Scholar
  13. Dokl. Akad. Nauk SSSR, 190, 1970.No. 5, S. 1210–1213: Bruevich, S. V., Korzh, V. D., (The basic laws of salt exchange between the ocean and the atmosphere.) [in russ. Spr.]Google Scholar
  14. Earth planet. Sci. Letters. 4, 1968. S. 329–340: Bieri, R. H., Koide, M., Goldberg, E. D., Noble gas contents of marine waters.—Earth planet. Sci. Letters. 5, 1968. S. 101–105: Broecker, W. S., Cromwell, J., Li, Y. H., Rates of vertical eddy diffusion near the ocean floor based on measurements of the distribution of excess222Rn. [Auch: Contr. Lamont geol. Obs. No. 1237.]—Earth planet. Sci. Letters. 5, 1968. S. 175–183: Craig, H., Weiss, R. F., Argon concentrations in the Ocean: A discussion.CrossRefGoogle Scholar
  15. Ekspress-Inform. Morskoj gidrofiz. Inst. No.14, T. 1, 1969. S. 113–118: Kozlovskaja, I. A., Ermakov, V. M., [Die Geräte SOL-65 und SOLEKS-I für die Salzgehaltsbestimmung im Meerwasser nach der relativen elektrischen Leitfähigkeit.] [in russ. Spr.]Google Scholar
  16. Energia nucl., Milano.16, 1969.No. 6, S. 378–385: Cerrai, E., Mezzadri, M. G., Triulzi, C., Sorption experiments of strontium, cesium, promethium, and curopium on marine sediment samples.Google Scholar
  17. Geochemistry Internat. Wash., 2, 1965. S. 559–565: Shishkina, O. V., Pavlova, G. A., Iodine distribution in marine and oceanic bottom muds and in their pore fluids. [Übers. aus: Geochimija. 6, 1965. S. 739–746.]—Geochemistry Internat. Wash., 3, 1966. S. 698–703: Mun, A. I., Bazilevich, Z. A., Budeyeva, K. P., Geochemical behavior of fluorine in the bottom sediments of continental basins. [Übers. aus: Geochimija. 7, 1966. S. 873–878.]Google Scholar
  18. Geochim. Cosmochim. Acta. 34, 1970.No. 1, S. 3–24: Kolodny, Y., Kaplan, I. R., Uranium isotopes in sea-floor phosphorites. [Auch: Publ. Inst. Geophysics and Planetary Physics. No. 747.]—Geochim. Cosmochim. Acta. 34, 1970.No. 1, S. 43–63: Savin, S. M., Epstein, S., The oxygen and hydrogen isotope geochemistry of ocean sediments and shales. [Auch: Contr. Div. Geol. Sci., Cal., Inst. of Technology No. 1542.]—Geochim. Cosmochim. Acta. 34, 1970.No. 2, S. 145–155: Hart, S. R., Nalwalk, A. J., K, Rb, Cs and Sr relationships in submarine basalts from the Puerto Rico trench.—Geochim. Cosmochim. Acta. 34, 1970.No. 2, S. 157–168: Suess, E., Interaction of organic compounds with calcium carbonate-I. Association phenomena and geochemical implications. [Auch: Contr. Hawaii Inst. Geophys. No. 274.]—Geochim. Cosmochim. Acta. 34, 1970.No. 2, S. 193–201: Rashid, M. A., King, L. H., Major oxygen-containing functional groups present in humic and fulvic acid fractions isolated from contrasting marine environments. [Auch: Contr. Bedford Inst. No. 108.]CrossRefGoogle Scholar
  19. Geyer, R. A., Oceanography of the Gulf of Mexico. Progress report. Coll. Station, Texas: Texas A & M Univ. 1968. S. 45–48: Ibert, E. R., Chemical oceanography.Google Scholar
  20. Horne, R. A., Marine chemistry. The structure of water and the chemistry of the hydrosphere. New York [usw.]: Wiley (1969). XXII, 568 S.Google Scholar
  21. Inform. Techn. Meth. for Sea-Water Anal., Charlottenlund. No.1, 1967. S. 5–8: Engström, S., Fonselius, S., A practical modification of the phosphate analysis method by Murphy and Riley and the fast routine work with a spectrophotometer on board a ship.—Inform. Techn. Meth. for Sea-Water Anal., Charlottenlund.No. 1, 1967. S. 9–11: Reusmann, G., The sources of errors in the precise determination of chloride in sea-water.—Inform. Techn. Meth. for Sea-Water Anal., Charlottenlund.No. 1, 1967. S. 12–13: Gieskes, J. M., pH measurements in sea-water.—Inform. Techn. Meth. for Sea-Water Anal., Charlottenlund.No. 1, 1967. S. 15–23: Grasshoff, K., A table for determination of alkalinity by the method of standard acid addition.—Inform. Techn. Meth. for Sea-Water Anal., Charlottenlund.No. 1, 1967. S. 24: Koroleff, F., Standardization of hydrochloric acid solutions to be used in the determination of alkalinity.—Inform. Techn. Meth. for Sea-Water Anal., Charlottenlund.No. 1, 1967. S. 25–30: Johnston, R., Notes on analytical methods and problems.—Inform. Techn. Meth. for Sea-Water Anal., Charlottenlund.No. 2, 1968. S. 7–8: Jones, P. G. W., Observations on variations in the sensitivity of Murphy and Riley's method of estimating phosphate in sea water.—Inform. Techn. Meth. for Sea-Water Anal., Charlottenlund.No. 2, 1968. S. 9–10: Folkard, A. R., Jones, P. G. W., A note on the estimation of silicate in sea water using glass reaction vessels.—Inform. Techn. Meth. for Sea-Water Anal., Charlottenlund.No. 2, 1968. S. 11: Olsen, V., Some experiences in the Danish Fisheries Laboratory.—Inform. Techn. Meth. for Sea-Water Anal., Charlottenlund.No. 2, 1968. S. 12–15: Koroleff, F., Notes on the determination of nitrite, nitrate and ammonia.—Inform. Techn. Meth. for Sea-Water Anal., Charlottenlund.No. 2, 1968. S. 16–17: Nehring, D., Some remarks on the determination of nitrate and ammonia in sea water.—Inform. Techn. Meth. for Sea-Water Anal., Charlottenlund.No. 2, 1968. S. 18–21: Føyn, L., Some experiences with the analysis of ammonia in sea water.—Inform. Techn. Meth. for Sea-Water Anal., Charlottenlund.No. 2, 1968. S. 22–23: Kremling, K., Petersen, H., Photometric EDTA titration of calcium and magnesium in sea water.—Inform. Techn. Meth. for Sea-Water Anal., Charlottenlund.No. 2, 1968. S. 24–27: Park, K., Some remarks on the influence of pH and nutrients on the electrolytic conductance of sea water. —Inform. Techn. Meth. for Sea-Water Anal., Charlottenlund.No. 2, 1968. S. 28–31: Grasshoff, K., Some remarks on the significance of the third decimal place in the salinity determinations.Google Scholar
  22. Invest. pesq., Barcelona. 33, 1969.1, S. 163–177: Fraga, F., Distribución del nitrógeno orgánico en el Océano Indico occidental. 2.Google Scholar
  23. J. Cons. 33, 1969.No. 1, S. 14–19: Szekielda, K.-H., The application of a chemical model to calculate the “theoretical” organic carbon in seawater.—J. Cons. 33, 1969.No. 1, S. 103–104: Burton, J. D., Molybdenum in the Vellar Estuary, Southern India.Google Scholar
  24. J. Geol. Chicago, 75, 1967.No. 6, S. 665–692: Goodell, H. G., The sediments and sedimentary geochemistry of the southeastern Atlantic shelf.Google Scholar
  25. J. geophys. Res., 74, 1969.No. 23, S. 5491–5506: Craig, H., Abyssal carbon and radiocarbon in the Pacific.—J. geophys. Res., 74, 1969.No. 23, S. 5507–5525: Li, Y.-H., Takahashi, T., Broccker, W. S., Degree of saturation of CaCO3 in the oceans. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1352.]—J. geophys. Res., 74, 1969.No. 28, S. 6967–6974: Foster, T. D., Experiments on haline convection induced by the freezing of sea water. —J. geophys. Res., 74, 1969.No. 28, S. 7009–7017: Hawkins, L. K., Visual observations of manganese deposits on the Blake plateau.Google Scholar
  26. J. Mar. Res., 28, 1970.No. 1, S. 15–21: Culberson, C., Pytkowicz, R. M., Hawley, J. E., Seawater alkalinity determination by the pH method.—J. Mar. Res., 28, 1970.No. 1, S. 22–34: Price, N. B., Calvert, S. E., Jones, P. G. W., The distribution of iodine and bromine in the sediments of the southwestern Barents Sea.Google Scholar
  27. J. Oceanogr. Soc. Japan. 24, 1968.No. 4, S. 147–152: Kato, K., Kitano, Y., Solubility and dissolution rate of amorphous silica in distilled and sea water at 20° C. [Auch: Coll. Pap. Sci. Atmosph. Hydrosph. 6, 1968 (1969). Contr. No. 1, S. 1–6.]Google Scholar
  28. J. sediment. Petrol. 36, 1966.No. 1, S. 143–151: Gevirtz, J. L., Friedman, G. M., Deep-sea carbonate sediments of the Red Sea and their implications on marine lithification. [Auch: Contr. Dept. Geol. Rensselaer polytechn. Inst. No. 66-7.]Google Scholar
  29. Kieler Meeresforsch. 25, 1969.No. 1, S. 71–80: Ehrhardt, M., The particulate organic carbon and nitrogen, and the dissolved organic carbon in the Gotland Deep in May 1968.—Kieler Meeresforsch. 25, 1969.No. 1, S. 81–104: Kremling, K., Untersuchungen über die chemische Zusammensetzung des Meerwassers der Ostsee.Google Scholar
  30. Limnol. & Oceanogr. 14, 1969.No. 6, S. 874–882: Ben-Yaakov, S., Kaplan, I. R., Determination of carbonate saturation of seawater with a carbonate saturometer.—Limnol. & Oceanogr. 14, 1969.No. 6, S. 928–929: Lyman, J., Redefinition of salinity and chlorinity.—Limnol. & Oceanogr. 14, 1969.No. 6, S. 929–933: Wangersky, P. J., Distribution of suspended carbonate with depth in the ocean.—Limnol. & Oceanogr. 14, 1969.No. 6, S. 933–935: Broch, E. S., Yake, W., A modification of Maucha's ionic diagram to include ionic concentrations.Google Scholar
  31. Mar. Geol. 8, 1970.No. 2, S. 111–138: Berger, W. H., Planktonic Foraminifera: Selective solution and the lysocline.CrossRefGoogle Scholar
  32. Maritimes. 14,1970.No. 1, S. 1–2: Fresh water from salt improving the desalination process.Google Scholar
  33. Materialy Poljar. nauc.-issl. Inst. morsk. ryb. Choz. Okeanogr. 11, 1968. S. 133–144: Zlobin, V. S., Sapronetskaya, N. G., Alekseeva, A. G., (Some regularities in the formation of the hydrochemical regime and primary production of the Norwegian Sea.)—Materialy Poljar. nauc.-issl. Inst. morsk. ryb. Choz. Okeanogr. 12, 1968. S. 166–172: Aizatullin, T. A., Kara-Murza, S. G., Leonov, A. V., (Some peculiarities of oxygen consumption kinetics in the sea-water samples.) [jeweils in russ. Spr.]Google Scholar
  34. Myers, J. J., Holm, C. H., McAllister, R. F., [ed.] Handbook of ocean and underwater engineering. New York [usw.] 1969. S. 1-16—1-23: McAllister, R. F., Corcoran, E. F., Chemical oceanography.Google Scholar
  35. Nature, Lond. 225, No. 5239, 1970. S. 1242: Matthews, A. D., Riley, J. P., Occurence of indium in seawater and some marine sediments.—Nature, Lond. Vol. 226, No. 5243, 1970. S. 348–349: Towe, K. M., Malone, P. G., Precipitation of metastable carbonate phases from seawater.Google Scholar
  36. Nature & Resources. Int. hydrol. Decade. 6, 1970.No. 1, S. 2–6: De Forges, J. M., Research on the utilization of saline water for irrigation in Tunisia.Google Scholar
  37. Nav. Res. Rev., Wash., 1969. Dez. S. 13 u. 30: Oceans as source of carbon monoxide.Google Scholar
  38. Oceanogr. Mag. 21, 1969.No. 1, S. 39–46: Sugiura, Y., Distribution of pH in the Kuroshio and the Oyashio regions and its oceanographical significance.—Oceanogr. Mag. 21, 1969.No. 1, S. 47–52: do., Sugiura, Y., The relationship between phosphate and oxygen concentrations in the up-welling waters and its oceanographical significance.—Oceanogr. Mag. 21, 1969.No. 1, S. 53–59: Akiyama, T., Carbon dioxide in the atmosphere and in sea water in the adjacent seas of Japan.—Oceanogr. Mag. 21, 1969.No. 1, S. 61–66: Sagi, T., The concentration of calcium and the calcium chlorinity ratio in the western North Pacific Ocean.Google Scholar
  39. Oceanogr. Rep. US Coast Guard No.5, 1965. S. 37–60 u. S. 73-98: McGill, D. A., Corwin, N., Observations on the nutrient concentrations in the northern region of Baffin Bay and the Kane Basin, summer 1963. [Auch: Contr. Woods Hole oceanogr. Instn. No. 1506.]Google Scholar
  40. Oceanology international 69. Proceed., Techn. Sess.,day 1, ohne Pag. Gafford, R. D., Greene, M. W., Recent developments in dissolved oxygen sensing for oceanographic research.—ohne Pag. Kamogawa, H., Fujii, I., Inouye, T., On-site analysis of deep seafloor mineral deposits.Google Scholar
  41. Oceans, S. Diego, 2, 1969.No. 3/4, S. 20–21: Cummings, W. C., Seawater chemistry.Google Scholar
  42. Okeanologija. 10, 1970.No. 1, S. 51–62: Sorokin, Yu. I., (Experimental studies of the rate and mechanism of oxidation of hydrogen sulphide in the Black Sea with the aid of S-35.) [in russ. Spr. m. engl. Abstr.]Google Scholar
  43. Rep. Bedford Inst. Oceanogr. 1970–1, 1970. 20 S. Bewers, J. M., An investigation into fluoride concentration profiles in the North Atlantic. (unpubl. ms.)Google Scholar
  44. Rep. NRL Progr., Nov.1969. S. 1–4: Hoover, J. I., Dohne, C. F., Cosmic ray neutrons in the first six meters beneath a water surface.Google Scholar
  45. Science. Vol.166, No. 3911, 1969. S. 1397–1399: Somayajulu, B. L. K., Lal, D., Kusumgar, S., Manmade carbon-14 in deep Pacific waters: transport by biological skeletal material.PubMedGoogle Scholar
  46. Stud. Fish. Res. Bd. Can. No. 1263-1318, 1969 (P. 1). S. 151–152. No. 1273: Duedall, I. W., Partial molal volumes of 16 salts in sea water. [Auch: Environ. Sci. Techn. 2, 1968, S. 706–707.]Google Scholar
  47. Trudy Morsk. gidrofiz. Inst. T.41, 1969. S. 212–216: Kalašnikov, P. A., [Stabilisierungssystem für ein Gamma-Spektrometer.]—Trudy Morsk. gidrofiz. Inst. T. 42, 1969. S. 157–177: Skopincev, B. A., [Besonderheiten beim Kreislauf von Schwefel im offenen Teil der Wassermassen im Schwarzen Meer.]—Trudy Morsk. gidrofiz. Inst. T. 42, 1969. S. 178–195: Skopincev, B. A., Romenskaja, N. N., Sokolova, M. V., [Organischer Kohlenstoff in den Wassermassen der Norwegischen See und im nordöstlichen Teil des Atlantischen Ozeans.] —Trudy Morsk. gidrofiz. Inst. T. 42, 1969. S. 195–214: Man'kovskaja, L. I., Danilenko, A. F., [Bestimmungsergebnisse von Sulfaten, Alkalinität und erdalkalischen Elementen Ca” und Mg”) in den tiefen Wassermassen des Schwarzen Meeres.]—Trudy Morsk. gidrofiz. Inst. T. 42, 1969. S. 214–223: Beljaev, L. I., [Beschleunigte Methode für eine vereinfachte Gehaltsbestimmung von Mikroelementen aus schweren Metallen in den Oberflächenwassermassen des Schwarzen Meeres.]—Trudy Morsk. gidrofiz. Inst. T. 42, 1969. S. 224–233: Beljaev, L. I., Ovsjanyj, E. I., [Untersuchung einiger Meereserzeugnisse-Konzentrate als perspektive Quelle für die Gewinnung von seltenen und verstreuten Elementen (Mikroelementen) aus der Reihe der schweren Metalle.] —Trudy Morsk. gidrofiz. Inst. T. 42, 1969. S. 234–253: Maksimova, M. P., [Freie Kohlensäure, pH und Alk/C1 im nördlichen Teil des Atlantischen Ozeans, bis zum Polarbecken angrenzend während der Herbst-Winter Periode.]—Trudy Morsk. gidrofiz. Inst. T. 42, 1969. S. 253–264: Maksimova, M. P., [Zum Problem über die täglichen und zwischenjährlichen Schwankungen des partiellen Kohlensäuredrucks in den Wassermassen des Atlantischen Ozeans.]—Trudy Morsk. gidrofiz. Inst. T. 42, 1969. S. 264–278: do., Maksimova, M. P., [Alkalinitätsvorrat, chloralkalischer Koeffizient und pH im Atlantischen Ozean im Schnitt auf dem 30. Meridian (22° 02′ S. Br. bis 66° 22′ N. Br.)]. —Trudy Morsk. gidrofiz. Inst. T. 42, 1969. S. 278–289: Žavoronkina, V. K., Žavoronkina, T. K., Bogačeva, M. P., [Bestimmungsergebnisse von gelöstem Sauerstoff in den tropischen Wassermassen des Atlantischen Ozeans.] [jeweils in russ. Spr.]—Trudy Morsk. gidrofiz. Inst. T. 45, 1969.No. 3, S. 181–186: Kasyanov, A. V., (A method of processing air and sea water samples for radiocarbon analysis at sea.) [in russ. Spr. m. engl. Abstr.]Google Scholar
  48. Umschau. 70, 1970.H. 9, S. 268–274: Degens, E. T., Sea Floor Spreading: Lagerstättenkundliche Untersuchungen im Roten und im Schwarzen Meer.—Umschau. 70, 1970.H. 10, S. 317: Uran aus Meerwasser.Google Scholar
  49. Underwater Sci. Technol. J. 2, 1970.No. 1, S. 28–33: Tooms, J. S., Metal deposits in the Red Sea- their nature, origin and economic worth.Google Scholar
  50. Unesco techn. Pap. mar. Sci. No.9, 1966?, S. 9–18: Grasshoff, K., The results of the chlorinity and salinity interealibration measurements. Leningrad, May 1966.—Unesco techn. Pap. mar. Sci. No. 9. 1966?, S. 43–48 (52): Cox, R. A., Salinity and chlorinity results. Copenhagen intercalibration trials, 1966.—Unesco techn. Pap. mar. Sci. No. 9. 1966?, S. 99–107: Koroleff, F., Intercalibration of alkalinity. Copenhagen, September 1966.—Unesco techn. Pap. mar. Sci. No. 9. 1966?, S. 111–114: Grasshoff, K., General conclusions of the intercalibration measurements.Google Scholar
  51. Z. Geophys. 35, 1969.H. 6, S. 611–613: Wooster, W. S., Lee, A. J., Dietrich, G., Redefinition of salinity.Google Scholar

Radioactivity UDC 551.464.1:541.28 551.464.6.02 551.464.7.02

  1. Ekspress-Inform. Morskoj gidrofiz. Inst. No.14, T. 1.1969. S. 39–48: Nelepo, B. A., Kalašnikov, P. A., [Automatisation der Radioaktivitätsuntersuchungen der Wassermassen im Weltmeer.] [in russ. Spr.]Google Scholar
  2. Geochim. cosmochim. Acta. 34, 1970.No. 1, S. 105–120: Peterman, Z. E., Hedge, C. E., Tourtelot, H., Isotopic composition of strontium in sea water throughout Phanerozoic time.CrossRefGoogle Scholar
  3. Inform. Rep. US nav. oceanogr. Off. No. 67-56. 1967. 44 S. Olson, B. E., Chronology of sea water.Google Scholar
  4. J. geophys. Res. 74, 1969.No. 13, S. 3396–3407: Donk, J. van, Mathieu, G., Oxygen isotope compositions of foraminifera and water samples from the Aretic Ocean. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1328.]—J. geophys. Res. 75, 1970.No. 3, S. 691–695: Craig, H., Abyssal carbon 13 in the South Pacific.—J. geophys. Res. 75, 1970.No. 6, S. 1084–1091: Volchok, H. L., Feiner, M., Simpson, H. J., Ocean falloutthe Crater Lake experiment.—J. geophys. Res. 75, 1970.No. 6, S. 1092–1096: Machta, L., Telegadas, K., Harris, D. L., Strontium-90 fallout over Lake Michigan.Google Scholar
  5. Limnol. & Oceanogr. 14, 1969.No. 6, S. 883–888: Broekker, W. S., Gerard, R., Natural radiocarbon in the Mediterranean Sea. [Auch: Contr. Lamont-Doherty geol. Obs. No. 1440.]Google Scholar
  6. Meßwerte Umweltradioaktiv. Euratom. 1965 (1966). S. 40–50: Radioaktivität der Gewässer.—Meßwerte Umweltradioaktiv. Euratom. 1966 (1967). S. 48–60: Radioaktivität der Gewässer.Google Scholar
  7. Trudy Morsk. gidrofiz. Inst. T.41, 1969. S. 122–131: Vinogradov, A. S., Vinogradova, K. G., [Messung der Gamma-Aktivität des Seewassers nach der Methode eines versenkbaren Szintillationsgebers.]—Trudy Morsk. gidrofiz. Inst. T. 41, 1969. S. 131–135: Vinogradov, A. S., [Der Einfluß von geringen Heterogenitäten eines Mediums auf die Rechengeschwindigkeit eines versenkbaren Szintillationsgebers.] [jeweils in russ. Spr.]—Trudy Morsk. gidrofiz. Inst. T. 45, 1969.No. 3, S. 98–114: Nelepo, B. A., (On statistical errors of sea and ocean radioactivity determination.)—Trudy Morsk. gidrofiz. Inst. T. 45, 1969.No. 3, S. 187–190: Kasyanov, A. V., Solovyeva, L. V., (Benzol synthesis from natural carbon contained in sea water for measuring C14 concentration.) [jeweils in russ. Spr. m. engl. Abstr.]Google Scholar

Water masses UDC 551.465.1 551.465.11 551.465.12 551.465.16

  1. Bull. Far Seas Fish. Lab., Shimizu. Sept. 1969. No.2, S. 257–273: Yamanaka, H., Morita, J., Anraku, N., Relation between the distribution of tunas and water types of the North and South Pacific Ocean.Google Scholar
  2. Geyer, R. A., Oceanography of the Gulf of Mexico. Progress report. Coll. Station, Texas: Texas A & M Univ. 1968. S. 52–53: Reid, R. O., Theoretical studies in ocean dynamics.Google Scholar
  3. Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 6, 1970.No. 2, S. 221–223: Monin, A. S., Osmidov, R. V., (International Symposium on Physical Variability in North Atlantic.) [in russ. Spr.]Google Scholar
  4. Manuscr. Rep. Ser. Mar. Sci. Br. Dep. Mines, Ottawa,1969. No. 14, 119 S. Yuen, K. B., A numerical study of large-scale motions in a two-layer rectangular basin.Google Scholar
  5. Met. i Gidrol. 1970. No.1, S. 69–79: Samrov, V. P., (Calculations of currents for a real ocean.)—Met. i Gidrol. 1970.No. 3, S. 12–17: Marchuk, G. I., (On a statement of the problem on the structure of flows in baroclinic sea taking into account the macroturbulent exchange.) [jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  6. Trudy Morsk. gidrofiz. Inst. No.44, 1969. 2, S. 50–68: Vasiliev, A. S., (On the steady circulation in a baroclinic ocean.) [in russ. Spr. m. engl. Abstr.]Google Scholar

Water masses: Mixing UDC 551.465.15

  1. Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 6, 1970.No. 3, S. 285–291: Ozmidov, R. V., Belyaev, V. S., Yampolsky, A. D., (Some features of the turbulent energy transport and kinetic energy transformation in the ocean.) [in russ. Spr. m. engl. Abstr.]Google Scholar
  2. J. geophys. Res., 74, 1969.No. 28, S. 6953–6959: Kirwan, A. D., Formulation of constitutive equations for largescale turbulent mixing. [Auch: Contr. 77, Geophys. Sci. Lab., Dep. of Meteorol. and Oceanogr. New York Univ.]—J. geophys. Res., 75, 1970.No. 3, S. 673–682: Schuert, E. A., Turbulent diffusion in the intermediate waters of the North Pacific Ocean.—J. geophys. Res., 75, 1970. No. 9, S. 1647–1654: Murray, S. P., Settling velocities and vertical diffusion of particles in turbulent water.Google Scholar
  3. J. Hydraul. Div. Am. Soc. civ. Engrs., 95, 1969.No. HY 1, S. 209–223: McQuivey, R. S., Richardson, E. V., Some turbulence measurements in open-channel flow.Google Scholar
  4. Materialy Poljar. nauc.-issl. Inst. mork. ryb. Choz. Okeanogr. 12, 1968. S. 158–161: Zubin, A. B., Filippov, D. M., (On large-scale characteristics of the horizontal turbulent change in ocean.) [in russ. Spr.]Google Scholar
  5. Radio Sci. 4, 1969.No. 12, S. 1289–1298: Woods, J. D., On Richardson's number as a acriterion for laminarturbulent-laminar transition in the ocean and atmosphere.Google Scholar
  6. Techn. Rep. Chesapeake Bay Inst. No. 61, Ref. 69–14, 1969. 35 S. m. Fig. u. Appendix A u. B. Carter, H. H., A preliminary report on the characteristics of a heated jet discharged horizontally into a transverse current. P. 1—Constant depth.—Techn. Rep. Chesapeake Bay Inst. No. 62, Ref. 70–1, 1970. 119 S. m. Fig. u. 20 S. References. Okubo, A., Oceanic mixing.Google Scholar

Stratification UDC 551.465.4

  1. Ann. biol., Copenh. 25, 1968 (1969). S. 14–21: Malmberg, S. A., Hydrographic conditions in Icelandic waters in June, 1968.—Ann. biol., Copenh. 25, 1968(1969). S. 22: Meyer, A., Some hydrographic observations in the “Dohrn Bank” area.—Ann. biol., Copenh. 25, 1968 (1969). S. 24–26: do. Meyer, A., Some hydrographic investigations with R.V. “Anton Dohrn” in January 1967 and 1968 off Bear Island and in the western Barents Sea.—Ann. biol., Copenh. 25, 1968 (1969). S. 26–28: Penin, V., Zvereva, L., Water temperature of the Norwegian Sea in 1968.—Ann. biol., Copenh. 25, 1968 (1969). S. 29–31: Mukhin, A., Temperature conditions in the southern Barents Sea in 1968.—Ann. biol., Copenh. 25, 1968 (1969). S. 31–33: Ehricke, K., Some results of hydrographic investigations with R.V. “Anton Dohrn” in the north-western North Sea.Google Scholar
  2. Atlas Antarktiki. T. 2. [Textband.] Leningrad 1969. S. 403–418: Kort, V. G., (Hydrological characteristics.) —Atlas Antarktiki. T. 2. [Textband.] Leningrad 1969. S. 442–448: Ledenev, V. G., (Hydrological characteristics of antarctic inshore waters.) [jeweils in russ. Spr.]Google Scholar
  3. Atti Ist. veneto (mat. e nat.) 127, 1968–69. S. 309–326: Grancini, G., Lavenia, A., Mosetti, F., Ricerche oceanografiche nel Golfo di Taranto. [in ital. Spr. m. engl. Abstr.] [Auch: Contr. Oss. geofis. sperim., Trieste No. 192.]Google Scholar
  4. Boll. Geofis. teor. appl. Vol.11, No. 43-44, 1969. S. 191–218: Mosetti, F., Lavenia, A., Ricerche oceanografiche in Adriatico nel periodo 1966–1968. [in ital. Spr. m. engl. Abstr.] [Auch: Contr. Oss. geofis. sperim., Trieste No. 202.]Google Scholar
  5. Bull. Far Seas Fish. Lab., Shimizu. Sept.1969. No.2, S. 275–292 u. Abb.: Kawai, H., On the relationship between thermal structure and distribution of longline fishing-grounds of tunas in the intertropical Atlantic- I. Analysis based on isotherms on level surfaces, topographies of thermocline, etc. [in japan. Spr. m. engl. Abstr.]—Bull. Far Seas Fish. Lab., Shimizu. Sept.1969.No. 2, S. 305–317: Kawai, H., Anraku, N., On the relationship between thermal structure and distribution of long-line fishing-grounds of tunas in the intertropical Atlantic- II. Analysis based on temperature and pH profiles. [in japan. Spr. m. engl. Abstr.]Google Scholar
  6. Bull. Inter-Amer. trop. Tuna Commiss. 14, 1969.No. 2, S. 49–385: Forsbergh, E. D., On the climatology, oceanography and fisheries of the Panama Bight. [in engl. Spr. m. span. Version.]Google Scholar
  7. Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. S. 67–71: Cox, C., Nagata, Y., Osborn, T., Oceanic fine structure and internal waves.—Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. S. 77–79: Kawai, H., A synoptic view of problems in synoptic analysis in the ocean. [in japan. Spr. m. engl. Abstr.]—Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. S. 115–121: Robinson, M. K., Theoretical predictions of subtropical countercurrent confirmed by bathythermograph (BT) data.—Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. S. 129–134: Kato, T., An influence of the upper water of the Kuroshio upon the bottom water mass over the continental shelf in the East China Sea.—Bull. Jap. Soc. Fish. Oceanogr. Spec. No. 1969. S. 279–285: Kondo, M., The cold water masses and the purse-seine fishing grounds in the East China and Yellow Seas. [in japan. Spr. m. engl. Abstr.]Google Scholar
  8. Cah. océanogr. 22, 1970.No. 3, S. 259–267: Becacos-Kontos, T., Ignatiades, L., Preliminary biological chemical and physical observations in the Corinth Canal area.—Cah. océanogr. 22, 1970.No. 3. S. 269–276: Le Floch, J., Évolution rapide de régimes de circulation non permanents des couches d'eaux superficielles dans le secteur sud-est du Golfe de Gascogne.—Cah. océanogr. 22, 1970.No. 3, S. 277–288: Gallardo, Y., Contribution a l'étude du Golfe de Guinée hydrologie et courants dans la région de l'íle Annobon.—Cah. océanogr. 22, 1970.No. 4, S. 343–351: Anati, D., Stommel, H., The initial phase of deep water formation in the northwest Mediterranean, during MEDOC '69, on the basis of observations made by “Atlantis II” (January 25–February 12, 1969).—Cah. océanogr. 22, 1970.No. 3, S. 353–366: Donguy, J.-R., Observations de surface le long des lignes de navigation dans la partic Ouest de l'océan Indien.Google Scholar
  9. Cah. ORSTOM. 7, 1969.No. 2, S. 3–26: Donguy, J. R., Piton, B., Aperçu des conditions hydrologiques de la partie nord du canal de Mozambique.—Cah. ORSTOM. 7, 1969.No. 2, S. 95–100: Merle, J., Noël, J., Sur l'évolution de la relation température-salinité en un point fixe, à l'équateur, dans le Pacifique occidental., pendant une période de 6 jours.Google Scholar
  10. Deep-Sea Res. 17, 1970.No. 2, S. 293–301: Wunsch, C., On oceanic boundary mixing.—Deep-Sea Res. 17, 1970.No. 2, S. 303–316: Riffenburgh, R. H., Probable depths of interfaces between temperature layers, with a generalization.—Deep-Sea Res. 17, 1970.No. 2, S. 367–371: Wright, W. R., Northward transport of Antarctic bottom water in the western Atlantic Ocean. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2328.]Google Scholar
  11. Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: Springer 1969. S. 3–9: Swallow, J. C., History of the exploration of the hot brine area of the Red Sea: Discovery account.—Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: Springer 1969. S. 10–14: Dietrich, G., Krause, G., The observations of the vertical structure of hot salty water by R.V. “Meteor”.—Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: Springer 1969. S. 131–137: Siedler, G., General circulation of water masses in the Red Sea. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2184.] —Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: Springer 1969. S. 138–147: Brewer, P. G., Densmore, C. D., Munns, R., Hydrography of the Red Sea brines. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2185.] —Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: Springer 1969. S. 148–152: Ross, D. A., Temperature structure of the Red Sea brines. [Auch: Contr. Woods Hole oceanogr. Instn. No. 2186.]—Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: Springer 1969. S. 158–163: Pugh, D. T., Temperature measurements in the bottom layers of the Red Sea brines.—Degens, E. T., Ross, D. A., Hot brines and recent heavy metal deposits in the Red Sea. Berlin [usw.]: Springer 1969. S. 164–173: Turner, J. S., A physical interpretation of the observations of hot brine layers in the Red Sea.Google Scholar
  12. Dt. hydrogr. Z. 22, 1969.H. 5, S. 209–212: Tomezak, G., Die thermischen Verhältnisse der oberen Wasserschichten des Skagerraks im Sommer 1966 auf Grund von “Delphin”-Messungen.Google Scholar
  13. Geyer, R. A., Oceanography of the Gulf of Mexico. Progress report. Coll. Station, Texas: Texas A & M Univ. 1968. S. 19–28 u. 10 Abb.: Cochrane, J. D., Currents and waters of the eastern Gulf of Mexico and western Caribbean, of the western Tropical Atlantic Ocean, and of the eastern Tropical Pacific Ocean.—Geyer, R. A., Oceanography of the Gulf of Mexico. Progress report. Coll. Station, Texas: Texas A & M Univ. 1968. S. 49–51: Leipper, D. F., Sea temperature and synoptic oceanography. no refs.Google Scholar
  14. Hidrogr. Godišn. 1968. S. 127–140: Ilié, K., Božié, E., (Observations sur les variations de quelques facteurs hydrographiques dans la zone de Rovinj et du Canal de Lim en 1965 et 1966.) [in serb.-kroat. Spr. m. franz. Abstr.]Google Scholar
  15. Inform. Rep. US nav. oceanogr. Off. No. 67-91, 1967. 15 S. m. Fig. Breaker, L. C., Gleason, R. R., The magnitude of temperature variability at one location in the Tongue of the Ocean.—Inform. Rep. US nav. oceanogr. Off. No. 68-10, 1968. 12 S. m. Fig. Bourkland. M. T., Oceanographic cruise summary, western Greenland Sea, August–September 1965.—Inform. Rep. US nav. oceanogr. Off. No. 68-37, 1968. 12 S. m. Fig. u. Tab. Countryman, K. A., Oceanographic cruise summary, Denmark Strait, April–May 1965.Google Scholar
  16. Invest. Rep. Div. Sea Fish. S.Afr. No. 77, 1969. 23 S. Visser, G. A., Hydrological observations in the southeast Atlantic Ocean. 1. The Schmidt-Ott Seamount area.—Invest. Rep. Div. Sea Fish. S.Afr. No. 81, 1969. 46 S. m. Fig. Stander, G. H., Decker, A. H. B. de, Some physical and biological aspects of an oceanographic anomaly off South West Africa in 1963.Google Scholar
  17. Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 6, 1970.No. 1, S. 76–85: Zhukov, L. A., (The numerical calculation of the upwelling in nonhomogeneous ocean.)—Izv. Akad. Nauk SSSR, Fiz. Atmosf. Okeana. 6, 1970.No. 2, S. 178–188: Kitaigorodsky, S. A., Miropolsky, Yu. Z., (On the theory of the open ocean active layer.) [jeweils in russ. Spr. m. engl. Abstr.]Google Scholar
  18. J. geophys. Res., 74, 1969.No. 23, S. 5439–5448: Brock, II. W., Determination of the aliasing band corresponding to each spectrum peak in ocean-bottom temperature spectra.—J. geophys. Res., 74, 1969.No. 23, S. 5449–5452: do. Brock, II. W., Fluctuations in bottom temperature at 2000-meter depth off Blake plateau.—J. geophys. Res., 74, 1969.No. 23, S. 5542–5546: Rossby, T., On monitoring depth variations of the main thermocline acoustically.—J. geophys. Res., 74, 1969, No. 28, S. 6975–6983: Orlanski, I., Bryan, K., Formation of the thermocline step structure by large-amplitude internal gravity waves.—J. geophys. Res., 75, 1970.No. 3, S. 521–530: Faller, A. J., Kaylor, R., Numerical studies of penetrative convective instabilities.—J. geophys. Res., 75, 1970.No. 3, S. 565–582: Namias, J., Macroscale variations in sea-surface temperatures in the North Pacific.—J. geophys. Res., 75, 1970.No. 3, S. 629–636: Pak, H., Beardsley, G. F., Smith, R. L., An optical and hydrographic study of a temperature inversion off Oregon during upwelling.—J. geophys. Res., 75, 1970.No. 3. S. 659–672: Stevenson, M., Circulation in the Panama Bight.—J. geophys. Res., 75, 1970, No. 6, 1970. S. 1097–1109: Roden, G. I., Aspects of the mid-Pacific transition zone. [Auch: Contr. Departm. Oceanogr., Univ. Wash. Seattle, No. 514.]—J. geophys. Res., 75, 1970. No. 6, S. 1110–1115: Kitano, K., A note on the thermal structure of the eastern Bering Sea.—J. geophys. Res., 75, 1970. No. 6, S. 1127–1131: Cairns, J. L., Nelson, K. W., A description of the seasonal thermocline cycle in shallow coastal water.Google Scholar
  19. J. Mar. Res., 28, 1970.No. 1, S. 1–14: Nagata, Y., Detailed temperature cross section of the cold-water belt along the northern edge of the Kuroshio.Google Scholar
  20. J. Oceanogr. Soc. Japan, 25, 1969.No. 4, S. 167–171: Murty, T. S., Taylor, J. D., An estimation of the intensity of upwelling in the Cromwell Current.Google Scholar
  21. Kieler Meeresforsch.25, 1969.No. 1, S. 1–18: El-Sabh, M. I., Seasonal hydrographic variations in the Suez Canal after the completion of the Aswan High Dam.—Kieler Meeresforsch. 25, 1969.No. 1, S. 105–132: Gieskes, J. M. T. M., Grasshoff, K., A study of the variability in the hydrochemical factors in the Baltic Sea on the basis of two anchor stations September 1967 and May 1968.Google Scholar
  22. “Meteor” Forsch.-Ergebn. (A), No.7, 1970. S. 1–109: Tomezak, M., Schwankungen von Schichtung und Strömung im westafrikanischen Auftriebsgebiet während der “Deutschen Nordatlantischen Expedition” 1937.Google Scholar
  23. Mber. Dt. Akad. Wiss. Berlin. 10, 1968.H. 10, S. 748–754: Schulz, S., Rückgang des Benthos in der Lübeeker Bucht.—Mber. Dt. Akad. Wiss. Berlin. 10, 1968.H. 11/12, S. 829–836: Sager, G., Mathematische Approximationen von Dichtesprüngen.Google Scholar
  24. N.Z.J. mar. Freshw. Res. 3, 1969.No. 4, S. 545–559: Ridgway, N. M., Stanton, B. R., Some hydrological features of Hawke Bay and nearby shelf waters.Google Scholar
  25. Oceanogr. Mag. 21, 1969.No. 1, S. 13–29: Hata, K., Some problems relating to fluctuation of hydrographic conditions in the sea northeast of Japan (Part 2)—Fluctuation of the warm eddy cut off northward from the Kuroshio-.Google Scholar
  26. Oceanogr. Rep. US Coast Guard No.27, 1969. S. 7–192: Husby, D. M., Seasonal variation of oceanographic conditions from Ocean Station Victor to the coast of Japan along 34° N. latitude, 1966–1967.Google Scholar
  27. Oceanology international 69. Proceed., Techn. Sess.,day 1, ohne Pag. Dietrich, G., Technological demands for the investigation of the physical variability in the sea.Google Scholar
  28. Okeanologija.10, 1970.No. 1, S. 38–47: Moroshkin, K. V., Bubnov, V. A., Bulatov, R. P., (Water circulation in the southeastern Atlantic). [in russ. Spr. m. engl. Abstr.]Google Scholar
  29. Rep. Inst. fys. Oceanogr. Københ. Univ. No. 9, 1969. 9 S., 18 S. Abb. Thamsborg, M., Features of the hydrography and dynamics of the Sound between Denmark and Sweden.Google Scholar
  30. Science. Vol.166, No. 3903, 1969. S. 373–374: Neal, V. T., Neshyba, S., Denner, W., Thermal stratification in the Arctic Ocean.Google Scholar
  31. Stud. Fish. Res. Bd. Can. No. 1263-1318, 1969 (Part 1). S. 183–185. No. 1280: Templeman, W., Temperatures and salinities, 1967 at station 27 and in the St. John's-Flemish Cap section. [Auch: Redbook. Int. Commiss. Northw. Atlant. Fish. P. 3, 1968. S. 37–39.]Google Scholar
  32. Techn. Rep. U.S. nav. oceanogr. Off. No. TR-216. Sept.1969. 35 S. Some summer oceanographic features of the Norwegian Sea. Summer 1963.Google Scholar
  33. Tellus.21, 1969.No. 5, S. 715–723: Pochapsky, T. E., Currents and temperature stability over the Antarctic Bottom Current at 10° N.—Tellus. 22, 1970.No. 1, S. 76–81: Stern, M. E., Optical measurement of Salt fingers.Google Scholar
  34. Wet. Rapp. K. ned. met. Inst. (1969 u.) 1970.No. 1, 13 S., Fig., 3 App. Meerburg, A. J., Een diffusieexperiment voor de Nederlandse kust met behulp van Rhodamine B.Google Scholar

Copyright information

© Deutsches Hydrographisches Institut 1970

Personalised recommendations