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Marine Geology 1991 - 1992: Vol 102-107 Index PDF

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Preview Marine Geology 1991 - 1992: Vol 102-107 Index

Marine Geology, 107 (1992) 299-319 299 Elsevier Science Publishers B.V., Amsterdam 1992 Year-End Index, Volumes 102—107 absolute age see also geochronology; isotopes Alabama—oceanography absolute age—applications sedimentation: Multiple sediment sources and a cellular, non- sedimentation rates: Developing sediment geochronologies integrated, longshore drift system; Northwest Florida and for high-latitude continental shelf deposits; a radiochemi- Southeast Alabama coast, USA (Stone, Gregory W., et al.) 105(1-4): 141-154 cal approach algal flora—biostratigraphy (Harden, S. L., et al.) 103(1-3): 69-97 Quaternary: Middle to late Quaternary sediment flux and absolute age—dates post-depositional processes between the continental slope aragonite: Highstand versus lowstand deposition on carbon- off Gabon and the mid-Guinean margin ate platform margins; insight from Quaternary foreslopes (Bonifay, Denis, et al.) 106(1-2): 107-129 in the Bahamas algal flora—diatom flora (Grammer, G. Michael, et al.) 103(1-3): 125-136 Holocene: Extreme climatic conditions recorded in Santa foraminifers: The East Greenland continental margin (65°N) Barbara Basin laminated sediments; the 1835-1840 Maco- since the last deglaciation; changes in seafloor properties ma event and ocean circulation (Schimmelmann, A., et al.) 106(3-4): 279-299 (Mienert, Jurgen, et al.) 106(3-4): 217-238 Quaternary: Coastal upwelling and atmospheric CO, changes marine sediments: Mineralogical, K-Ar and 87Sr/86Sr isotope over the last 400,000 years; Peru (Schrader, Hans) 107(4): 239-248 studies of Holocene and Late Glacial sediments in a deep- — Late Quaternary changes in Antarctic bottom water sea core from the Northeast Atlantic Ocean velocity inferred from sediment grain size in the northern (Huon, Sylvain, et al.) 107(4): 275-282 Weddell Sea sediments: Paraglacial barrier-lagoon development in the late (Pudsey, Carol J.) 107(1-2): 9-33 Pleistocene Baltic ice lake, southwestern Baltic algal flora—nannofossils (Jensen, Jorn Bo, et al.) 107(1-2): 81-101 Neogene: Paleontological evidence for early exposure of deep shells: The development of a chenier sequence on the Vic- oceanic crust on the Vema fracture zone southern wall toria Delta, Joseph Bonaparte Gulf, northern Australia (Atlantic Ocean, 10°45’N) (Lees, Brian G.) 103(1-3): 215-224 (Aubry, Marie-Pierre, et al.) 107(1-2): 1-7 — The late Weichselian glacial maximum on western Spits- algal flora—paleoecology Quaternary: Late Quaternary carbonate sedimentation on the bergen inferred from offshore sediment cores lower Guajira Shelf, Colombia (Svendsen, John Inge, et al.) 104(1-4): 1-17 (Pujos, M., et al.) 104(1-4): 153-164 acoustical surveys see under geophysical surveys under Antarc- Alps see also the individual countries tic Ocean; Arctic Ocean; Argentina; Atlantic Ocean; Medi- Andes see also the individual countries terranean Sea; Pacific Ocean; Spitsbergen Antarctic Ocean—geophysical surveys Adriatic Sea—oceanography acoustical surveys: Reflector “Pc’’ a prominent feature in the sedimentation: Sedimentation of riverborne material in a shal- Maud Rise sediment sequence (eastern Weddell Sea); oc- low shelf sea; Adige River, Adriatic Sea currence, regional distribution and implications to silica (Boldrin, A., et al.) 103(1-3): 473-485 diagenesis Aegean Sea—oceanography (Bohrmann, Gerhard, et al.) 106(1-2): 69-87 ocean floors: Recent gravitative mass movements in a highly seismic surveys: Cenozoic prograding sequences of the An- tarctic continental margin; a record of glacio-eustatic and tectonically active arc system; the Hellenic Arc tectonic events (Ferentinos, George) 104(1-4): 93-107 (Cooper, Alan K., et al.) 102(1-4): 175-213 aeromagnetic surveys see magnetic surveys under geophysical Antarctic Ocean—oceanography surveys under Spitsbergen ocean circulation: Late Quaternary changes in Antarctic bot- Africa see also Egypt; Gabon; Guinea; Namibia tom water velocity inferred from sediment grain size in the Africa—oceanography northern Weddell Sea continental margin: Hypsometry of divergent and translation- (Pudsey, Carol J.) 107(1-2): 9-33 al continental margins of Southern Africa sediments: Developing sediment geochronologies for high- (Emery, K. O., et al.) 106(1-2): 89-105 latitude continental shelf deposits; a radiochemical ap- 300 1992 YEAR-END INDEX, VOLUMES 102-107 proach ocean floors: Deformation at plate boundaries around the (Harden, S. L., et al.) 103(1-3): 69-97 Gulf of Oman — Paleocene and Eocene kaolinite distribution in the South (Minshull, T. A., et al.) 104(1-4): 265-277 Atlantic and Southern Ocean; Antarctic climatic and — Possible microbial origin of phosphorites on Error Sea- paleoceanographic implications mount, northwestern Arabian Sea (Robert, Christian, et al.) 103(1-3): 99-110 (Purnachandra Rao, V., et al.) 106(1-2): 149-164 — Significance of clay mineral assemblages in the Antarctic sedimentation: A note on the factors controlling the sedimen- Ocean tation rate along the western continental shelf of India (Ehrmann, Werner U., et al.) 107(4): 249-273 (Manjunatha, B. R., et al.) 104(1-4): 219-224 Antarctic Ocean—stratigraphy Arabian Sea—sedimentary petrology Pliocene: Reflector “Pc” a prominent feature in the Maud sedimentary rocks: Possible microbial origin of phosphorites Rise sediment sequence (eastern Weddell Sea); occur- on Error Seamount, northwestern Arabian Sea rence, regional distribution and implications to silica dia- (Purnachandra Rao, V., et al.) 106(1-2): 149-164 genesis (Bohrmann, Gerhard, et al.) 106(1-2): 69-87 Arabian Sea—tectonophysics plate tectonics: Deformation at plate boundaries around the Quaternary: Late Quaternary changes in Antarctic bottom Gulf of Oman water velocity inferred from sediment grain size in the (Minshull, T. A., et al.) 104(1-4): 265-277 northern Weddell Sea (Pudsey, Carol J.) 107(1-2): 9-33 Arctic Ocean—geomorphology Antarctica—geochronology glacial geology: Glacial geology of outer Bjornoyrenna, south- Holocene: Developing sediment geochronologies for high- western Barents Sea latitude continental shelf deposits; a radiochemical ap- (Saettem, J., et al.) 103(1-3): 15-51 proach Arctic Ocean—geophysical surveys (Harden, S. L., et al.) 103(1-3): 69-97 acoustical surveys: The late Weichselian glacial maximum on Antarctica—oceanography western Spitsbergen inferred from offshore sediment cores continental margin: Cenozoic prograding sequences of the (Svendsen, John Inge, et al.) 104(1-4): 1-17 Antarctic continental margin; a record of glacio-eustatic Arctic Ocean—oceanography and tectonic events ocean circulation: The East Greenland continental margin (Cooper, Alan K., et al.) 102(1-4): 175-213 (65°N) since the last deglaciation; changes in seafloor prop- continental shelf: Developing sediment geochronologies for erties and ocean circulation high-latitude continental shelf deposits; a radiochemical (Mienert, Jurgen, et al.) 106(3-4): 217-238 approach (Harden, S. L., et al.) 103(1-3): 69-97 ocean waves: Model simulations of tsunamis generated by the Storegga slides Antarctica—stratigraphy (Harbitz, C. B.) 105(1-4): 1-21 Cenozoic: Cenozoic prograding sequences of the Antarctic sedimentation: Accumulation rates of surface sediments in continental margin; a record of glacio-eustatic and tectonic the Norwegian-Greenland Sea events (Paetsch, H., et al.) 104(1-4): 19-30 (Cooper, Alan K., et al.) 102(1-4): 175-213 Paleogene: Paleocene and Eocene kaolinite distribution in the Arctic Ocean—petrology South Atlantic and Southern Ocean; Antarctic climatic metamorphic rocks: Petrology and geochemistry of a dredged and paleoceanographic implications clinopyroxenite-dolerite basal complex from the Jan May- (Robert, Christian, et al.) 103(1-3): 99-110 en volcanic province, Norwegian-Greenland Sea (Bailey, J. C., et al.) 105(1-4): 63-76 Appalachians see also the individual states and provinces Arabian Gulf see Persian Gulf Arctic Ocean—tectonophysics plate tectonics: Magmatic-tectonic evolution of a volcanic rift- Arabian Peninsula see also Oman; Saudi Arabia ed margin Arabian Sea—geochemistry (Eldholm, Olav) 102(1-4): 43-61 organic materials: A critical evaluation of depositional param- Arctic region see also the individual countries; Greenland; Spits- eters controlling the variability of organic carbon in Arabi- bergen an Sea sediments (Paropkari, Anil L., et al.) 107(3): 213-226 Argentina—geophysical surveys Arabian Sea—geophysical surveys acoustical surveys: Largo Bank; a shoreface-connected linear seismic surveys: Deformation at plate boundaries around the shoal at the Bahia Blanca Estuary entrance, Argentina Gulf of Oman (Gomez, Eduardo A., et al.) 104(1-4): 193-204 (Minshull, T. A., et al.) 104(1-4): 265-277 Argentina—oceanography Arabian Sea—oceanography continental shelf: Largo Bank; a shoreface-connected linear ocean circulation: Deep currents in the Arabian Sea in 1987 shoal at the Bahia Blanca Estuary entrance, Argentina (Warren, Bruce A.., et al.) 104(1-4): 279-288 (Gomez, Eduardo A., et al.) 104(1-4): 193-204 — The monsoon induced upwelling system of the southern estuaries: Largo Bank; a shoreface-connected linear shoal at coast of Oman the Bahia Blanca Estuary entrance, Argentina (Savidge, G., et al.) 104(1-4): 290-291 (Gomez, Eduardo A., et al.) 104(1-4): 193-204 301 1992 YEAR-END INDEX, VOLUMES 102-107 Argentina—stratigraphy mal activity Holocene: Mass mortality of a Holocene Tagelus plebeius (Melkert, Marian J., et al.) 103(1-3): 407-422 (Mollusca, Bivalvia) population in the Bahia Blanca Estu- — Organic carbon distribution in the North Atlantic Ocean ary, Argentina during the last glacial maximum (Farinati, Ester A., et al.) 106(3-4): 301-308 (Coppedge, Melissa L., et al.) 105(1-4): 37-50 Asia see also Himalayas; India; Indonesia; Japan; Korea; Nepal; sediments: Early diagenesis of marine organic matter; altera- Taiwan tion of the carbon isotopic composition Atlantic Ocean see also Baltic Sea; Caribbean Sea; Gulf of Mex- (McArthur, J. M., et al.) 105(1-4): 51-61 ico; North Sea — Late Cretaceous to Miocene phosphatic sediments in the Atlantic Ocean—geophysical surveys Georges Bank basin, U.S. North Atlantic outer continental acoustical surveys: Coast-parallel palaeochannels off southern shelf Namibia (Poppe, L. J., et al.) 107(4): 227-238 (Day, Richard W., et al.) 105(1-4): 299-304 — Mineralogical, K-Ar and 87Sr/86Sr isotope studies of — Erratum; Parasound echosounding; comparison of ana- Holocene and Late Glacial sediments in a deep-sea core logue and digital echosounder records and physical proper- from the Northeast Atlantic Ocean ties of sediments from the equatorial South Atlantic (Rostek, Frauke, et al.) 103(1-3): 541-542 (Huon, Sylvain, et al.) 107(4): 275-282 — The geomorphology of the Southwest Guinea margin; tec- — Mineralogy of the silt fraction in surficial sediments from tonic, volcanic, mass movement and bottom current influ- the United States mid-Atlantic shelf, slope and rise ences (Poppe, L. J., et al.) 103(1-3): 185-197 (Rossi, S., et al.) 105(1-4): 225-240 — Textural and dispersal patterns of thick mud turbidites seismic surveys: Carbonate platforms along the Southeast from the Madeira abyssal plain Bahamas-Hispaniola collision zone (Jones, K. P. N., et al.) 107(3): 149-173 (Mullins, Henry T., et al.) 105(1-4): 169-209 — Thermoluminescence properties of a deglacial marine se- — Paleogene-Neogene depositional history of the middle quence from Cumberland Sound, Arctic Canada; sedimen- U.S. Atlantic continental rise; mixed turbidite and contou- tologic and geochronologic implications rite depositional systems (Jennings, Anne E., et al.) 103(1-3): 111-123 (Locker, Stanley D., et al.) 103(1-3): 137-164 Atlantic Ocean—stratigraphy surveys: The bathymetry and distribution of the Bahia Sea- Jurassic: Rise and demise of the Bahama-Grand Banks giga- mounts, Brazil Basin platform, northern margin of the Jurassic proto-Atlantic (Cherkis, N. Z., et al.) 103(1-3): 335-347 seaway Atlantic Ocean—oceanography (Poag, C. Wylie) 102(1-4): 63-130 marine geology: Marine particle size measurement with a Neogene: Paleontological evidence for early exposure of deep stream-scanning laser system oceanic crust on the Vema fracture zone southern wall (Jantschik, R., et al.) 106(3-4): 239-250 (Atlantic Ocean, 10°45’N) ocean circulation: Sediment flux patterns in the northeastern Atlantic; variability since the last interglacial (Aubry, Marie-Pierre, et al.) 107(1-2): 1-7 (Cremer, M.., et al.) 104(1-4): 31-53 Quaternary: Middle to late Quaternary sediment flux and — The geomorphology of the Southwest Guinea margin; tec- post-depositional processes between the continental slope tonic, volcanic, mass movement and bottom current influ- off Gabon and the mid-Guinean margin ences (Bonifay, Denis, et al.) 106(1-2): 107-129 (Rossi, S., et al.) 105(1-4): 225-240 Tertiary: Paleogene-Neogene depositional history of the — The western Grand Banks of Newfoundland; transgres- middle U.S. Atlantic continental rise; mixed turbidite and sive Holocene sedimentation under the combined influ- contourite depositional systems ence of waves and currents (Locker, Stanley D., et al.) 103(1-3): 137-164 (Dalrymple, Robert W., et al.) 105(1-4): 95-118 Atlantic Ocean—tectonophysics ocean floors: Carbonate platforms along the Southeast Baha- plate tectonics: Dynamic modeling of divergent margin for- mas-Hispaniola collision zone mation; application to the U.S. Atlantic margin (Mullins, Henry T., et al.) 105(1-4): 169-209 (Sawyer, Dale S., et al.) 102(1-4): 29-42 — The bathymetry and distribution of the Bahia Seamounts, Atlantic region see also the individual countries Brazil Basin atmosphere—geochemistry (Cherkis, N. Z., et al.) 103(1-3): 335-347 carbon dioxide: Coastal upwelling and atmospheric CO, ocean waves: Model simulations of tsunamis generated by the changes over the last 400,000 years; Peru Storegga slides (Schrader, Hans) 107(4): 239-248 (Harbitz, C. B.) 105(1-4): 1-21 sedimentation: Barriers, barrier platforms, and spillover atolls see reefs under environment under diagenesis; see reefs deposits in St. George’s Bay, Newfoundland; paraglacial under oceanography under Jamaica sedimentation on the flanks of a deep coastal basin Australasia see also New Zealand (Shaw, John, et al.) 105(1-4): 119-140 Australia see also New South Wales; Northern Territory; — Episodic preservation of pteropod oozes in the deep Queensland; Tasmania; Western Australia Northeast Atlantic Ocean; climatic change and hydrother- automatic data processing see data processing 302 1992 YEAR-END INDEX, VOLUMES 102-107 Bahamas—geochronology book reviews—sedimentary petrology Quaternary: Highstand versus lowstand deposition on car- title: Argillaceous rock atlas [book review] bonate platform margins; insight from Quaternary fore- (Krinsley, David) 103(1-3): 533-534 slopes in the Bahamas — Carbonate diagenesis and porosity [book review] (Grammer, G. Michael, et al.) 103(1-3): 125-136 (Wright, Paul) 106(1-2): 167-168 Bahamas—stratigraphy — Diagenesis [book review] changes of level: Highstand versus lowstand deposition on (Wright, V. Paul) 103(1-3): 532-533 carbonate platform margins; insight from Quaternary fore- — Evaporite sedimentology; importance in hydrocarbon ac- slopes in the Bahamas cumulation [book review] (Grammer, G. Michael, et al.) 103(1-3): 125-136 (Ricci Lucchi, F.) 103(1-3): 529-530 Bahamas—tectonophysics book reviews—stratigraphy plate tectonics: Carbonate platforms along the Southeast title: Nannofossils and their applications [book review] Bahamas-Hispaniola collision zone (Hay, William W.) 106(1-2): 166-167 (Mullins, Henry T., et al.) 105(1-4): 169-209 — Triassic-Jurassic rifting; continental breakup and the ori- Baltic region see also the individual countries; Baltic Sea gin of the Atlantic Ocean and passive margins; Parts A and B [book review] Baltic Sea—oceanography (Ager, Derek V.) 103(1-3): 538-539 marine geology: Paraglacial barrier-lagoon development in California—oceanography the late Pleistocene Baltic ice lake, southwestern Baltic marine geology: Contemporary sedimentary processes in the (Jensen, Jorn Bo, et al.) 107(1-2): 81-101 Monterey Canyon-Fan system beaches see under shore features under geomorphology 107(1-2): 35-50 (McHugh, Cecilia M., et al.) Belgium—stratigraphy California—stratigraphy changes of level: The morphology of the top-Tertiary erosion Holocene: Extreme climatic conditions recorded in Santa surface in the Belgian sector of the North Sea Barbara Basin laminated sediments; the 1835-1840 Maco- (Liu, A. C., et al.) 105(1-4): 275-284 ma event Neogene: The morphology of the top-Tertiary erosion surface (Schimmelmann, A.., et al.) 106(3-4): 279-299 in the Belgian sector of the North Sea Canada see also Great Lakes; Newfoundland; Northwest Ter- (Liu, A. C., et al.) 105(1-4): 275-284 ritories; Nova Scotia; Ontario bibliography see also under stratigraphy under North America carbon—C-13/C-12 book reviews—areal geology beachrock: Stable isotopic composition of carbonate-cement- title: Geological evolution of Antarctica [book review] ed Recent beachrock along the Mediterranean and the Red (Harrington, H. J.) 106(1-2): 165-166 Sea coasts of Egypt book reviews—geochemistry (Holail, H., et al.) 106(1-2): 141-148 title: Aquatic chemical kinetics; reaction rates of processes in carbonate sediments: Carbonate minerals, major and minor natural waters [book review] elements and oxygen and carbon isotopes and their varia- (Butler, J. N.) 103(1-3): 536-538 tion with water depth in cool, temperate carbonates, west- book reviews—geomorphology ern Tasmania, Australia title: Coasts [book review] (Prasada Rao, C., et al.) 103(1-3): 249-272 (Saville, Thorndike, Jr.) 103(1-3): 530-531 — Oxygen and carbon isotope fields for temperate shelf car- bonates from Tasmania and New Zealand book reviews—geophysical methods (Prasada Rao, C., et al.) 103(1-3): 273-268 title: The potential of deep seismic profiling for hydrocarbon marine sediments: Developing sediment geochronologies for exploration [book review] (Hurst, Andrew) 103(1-3): 531-532 high-latitude continental shelf deposits; a radiochemical approach book reviews—mineralogy (Harden, S. L., et al.) 103(1-3): 69-97 title: Minerals and mineraloids in marine sediments; an opti- — Early diagenesis of marine organic matter; alteration of cal identification guide [book review] the carbon isotopic composition (Glasby, G. P.) 103(1-3): 539 105(1-4): 51-61 (McArthur, J. M., et al.) book reviews—oceanography carbon—geochemistry title: Deep marine environments; clastic sedimentation and marine sediments: A critical evaluation of depositional tectonics [book review] parameters controlling the variability of organic carbon in (Stow, D. A. V.) 103(1-3): 530 Arabian Sea sediments — Deep marine environments; clastic sedimentation and tectonics [book review] (Paropkari, Anil L., et al.) 107(3): 213-226 — Organic carbon accumulation in Bannock Basin; evaluat- (Kenyon, Neil) 104(1-4): 293-294 — Ocean circulation [book review] ing the role of productivity in the formation of eastern (Olson, Donald B.) 103(1-3): 534 Mediterranean sapropels — Productivity of the ocean; present and past [book review] (Howell, Michael W., et al.) 103(1-3): 461-471 (Eisma, D.) 103(1-3): 536 — Organic carbon distribution in the North Atlantic Ocean — Tracers in the oceans [book review] during the last glacial maximum (Walton, Alan) 103(1-3): 535-536 (Coppedge, Melissa L., et al.) 105(1-4): 37-50 1992 YEAR-END INDEX, VOLUMES 102-107 303 carbonate rocks see under sedimentary rocks climate, ancient see paleoclimatology Caribbean region see also the individual countries Colombia—oceanography continental shelf: Late Quaternary carbonate sedimentation Caribbean Sea—oceanography on the lower Guajira Shelf, Colombia sedimentation: Late Quaternary carbonate sedimentation on (Pujos, M., et al.) 104(1-4): 153-164 the lower Guajira Shelf, Colombia (Pujos, M., et al.) 104(1-4): 153-164 Colombia—stratigraphy changes of level: Late Quaternary carbonate sedimentation on Carpathians see also the individual countries the lower Guajira Shelf, Colombia Caspian Sea—oceanography (Pujos, M., et al.) 104(1-4): 153-164 sedimentation: Sedimentation in the southern inland seas of Colorado Plateau see also the individual states the arid zone of the USSR (Khrustalyov, Yu. P., et al.) 103(1-3): 503-512 Columbia Plateau see also the individual states Cenozoic see also Tertiary; see also under stratigraphy under Commonwealth of Independent States see USSR Antarctica; Gulf of Mexico congresses see symposia Cenozoic—tectonophysics continental drift see also plate tectonics; see also under stratigra- crust: Evolution of Mesozoic and Cenozoic continental mar- phy under Mesozoic; Paleozoic; Phanerozoic; Tertiary gins continental drift—Gondwana (Meyer, Audrey W., et al.) 102(1-4): 1-361 Africa: Hypsometry of divergent and translational continen- cesium— isotopes tal margins of Southern Africa Cs-137: Developing sediment geochronologies for high-lati- (Emery, K. O., et al.) 106(1-2): 89-105 tude continental shelf deposits; a radiochemical approach Western Australia: Stratigraphic evolution of Mesozoic conti- (Harden, S. L., et al.) 103(1-3): 69-97 nental margin and oceanic sequences; Northwest Australia — Recent environmental changes recorded in anoxic Bar- and northern Himalayas snesfjord sediments; western Norway (Gradstein, Felix M., et al.) 102(1-4): 131-173 (Paetzel, Matthias, et al.) 105(1-4): 23-36 continental drift—Pangaea regional: Pangaean divergent margins; historical perspective changes of level see also under geomorphology under Delaware; Denmark; Jamaica; Netherlands; Newfoundland; Queens- (Uchupi, Elazar, et al.) 102(1-4): 1-28 land; see also under stratigraphy under Bahamas; Belgium; continental margin see also under oceanography under Africa; Colombia; Gulf Coastal Plain; Italy; Newfoundland; North- Antarctica; Eastern U.S.; Greenland; Guinea; Gulf Coastal west Territories; Saudi Arabia; Turkey Plain; Israel; Italy; Western Australia China see also Shandong continental shelf see also marine geology; see also under ocea- nography under Antarctica; Argentina; Colombia; Denmark; clay see under sediments Florida; India; Korea; Namibia; New England; Newfound- clay mineralogy—areal studies land; Northern Territory; Shandong; Spitsbergen; Turkey; Antarctic Ocean: Significance of clay mineral assemblages in Western Australia the Antarctic Ocean continental slope see also marine geology; see also under ocea- (Ehrmann, Werner U., et al.) 107(4): 249-273 nography under Gabon; Italy; Norway; Peru Atlantic Ocean: Middle to late Quaternary sediment flux and post-depositional processes between the continental slope crust see also under tectonophysics under Cenozoic; Mesozoic; off Gabon and the mid-Guinean margin New Zealand; Spitsbergen (Bonifay, Denis, et al.) 106(1-2): 107-129 crystal chemistry see also minerals — Mineralogical, K-Ar and 87Sr/86Sr isotope studies of crystal growth see also minerals Holocene and Late Glacial sediments in a deep-sea core crystal structure see also minerals from the Northeast Atlantic Ocean data processing—oceanography (Huon, Sylvain, et al.) 107(4): 275-282 ocean waves: Model simulations of tsunamis generated by the — Paleocene and Eocene kaolinite distribution in the South Storegga slides Atlantic and Southern Ocean; Antarctic climatic and (Harbitz, C. B.) 105(1-4): 1-21 paleoceanographic implications (Robert, Christian, et al.) 103(1-3): 99-110 Delaware—geomorphology England: Bulk properties of intertidal sediments in a muddy, changes of level: Holocene depocenter migration and sedi- macrotidal estuary ment accumulation in Delaware Bay; a submerging mar- (Stephens, J. A., et al.) 103(1-3): 445-460 ginal marine sedimentary basin Indian Ocean: Clay mineralogy of Visakhapatnam shelf sedi- (Fletcher, Charles H., III, et al.) 103(1-3): 165-183 ments, east coast of India [discussion and reply] Delaware—stratigraphy (Durga Prasada Rao, N. V. N., et al.) 105(1-4): 305-308 Holocene: Holocene depocenter migration and sediment ac- Yellow Sea: Origin and dispersal of Recent clay minerals in cumulation in Delaware Bay; a submerging marginal ma- the Yellow Sea rine sedimentary basin (Park, Y. A., et al.) 104(1-4): 205-213 (Fletcher, Charles H., III, et al.) 103(1-3): 165-183 clay mineralogy—experimental studies Denmark—geomorphology marine geology: Notes on the performance of an optical back- changes of level: Paraglacial barrier-lagoon development in scatter sensor for cohesive sediments the late Pleistocene Baltic ice lake, southwestern Baltic (Maa, Jerome P. Y., et al.) 104(1-4): 215-218 (Jensen, Jorn Bo, et al.) 107(1-2): 81-101 304 1992 YEAR-END INDEX, VOLUMES 102-107 Denmark—oceanography diagenesis—materials continental shelf: Methane-derived carbonate cementation of nodules: Local variations in distribution and composition of marine sediments from the Kattegat, Denmark; geochemi- ferromanganese nodules in the Clarion-Clipperton nodule cal and geological evidence province (Jorgensen, Niels Oluf) 103(1-3): 1-13 (Skornyakova, N. S., et al.) 103(1-3): 381-405 Denmark—stratigraphy diagenesis—processes Pleistocene: Paraglacial barrier-lagoon development in the phosphatization: Late Cretaceous to Miocene phosphatic late Pleistocene Baltic ice lake, southwestern Baltic sediments in the Georges Bank basin, U.S. North Atlantic (Jensen, Jorn Bo, et al.) 107(1-2): 81-101 outer continental shelf deposition of ores see mineral deposits, genesis (Poppe, L. J., et al.) 107(4): 227-238 — Possible microbial origin of phosphorites on Error Sea- deuterium see also hydrogen mount, northwestern Arabian Sea deuterium—geochemistry (Purnachandra Rao, V., et al.) 106(1-2): 149-164 sea water: Seawater circulation through the flank of the Flori- diatom flora see under algal flora da Platform; evidence and implications (Paull, C. K., et al.) 102(1-4): 265-279 dolomitization see under diagenesis diagenesis see also sedimentation Eastern Hemisphere see also Africa; Antarctic Ocean; Antarc- tica; Arctic Ocean; Atlantic Ocean; Indian Ocean; USSR diagenesis—cementation carbonates: Methane-derived carbonate cementation of ma- Eastern U.S. see also Delaware; Florida; New England rine sediments from the Kattegat, Denmark; geochemical Eastern U.S.—oceanography and geological evidence continental margin: Dynamic modeling of divergent margin (Jorgensen, Niels Oluf) 103(1-3): 1-13 formation; application to the U.S. Atlantic margin geochemistry: Carbonate minerals, major and minor elements (Sawyer, Dale S., et al.) 102(1-4): 29-42 and oxygen and carbon isotopes and their variation with — Rise and demise of the Bahama-Grand Banks gigaplat- water depth in cool, temperate carbonates, western Tas- form, northern margin of the Jurassic proto-Atlantic sea- mania, Australia way (Prasada Rao, C., et al.) 103(1-3): 249-272 (Poag, C. Wylie) 102(1-4): 63-130 silica: Reflector “Pc” a prominent feature in the Maud Rise ecology—observations sediment sequence (eastern Weddell Sea); occurrence, re- deep-sea environment: Seawater circulation through the flank gional distribution and implications to silica diagenesis of the Florida Platform; evidence and implications (Bohrmann, Gerhard, et al.) 106(1-2): 69-87 (Paull, C. K., et al.) 102(1-4): 265-279 diagenesis—dolomitization Egypt—sedimentary petrology carbonate platforms: Seawater circulation through the flank of diagenesis: Stable isotopic composition of carbonate-cement- the Florida Platform; evidence and implications ed Recent beachrock along the Mediterranean and the Red (Paull, C. K., et al.) 102(1-4): 265-279 Sea coasts of Egypt diagenesis—environment (Holail, H., et al.) 106(1-2): 141-148 deep-sea environment: Indications of hydrothermal activity at engineering geology see also slope stability; soil mechanics the Chile Ridge spreading centre (Marienfeld, P., et al.) 105(1-4): 241-252 England—oceanography reefs: Dynamic hydrology and diagenesis of a submerged estuaries: Bulk properties of intertidal sediments in a muddy, Pleistocene fringing reef, Discovery Bay, Jamaica macrotidal estuary (McCullough, M. L., et al.) 104(1-4): 139-151 (Stephens, J. A., et al.) 103(1-3): 445-460 slope environment: Highstand versus lowstand deposition on sediments: Source of sediment and sediment transport on the carbonate platform margins; insight from Quaternary fore- east coast of England; significant or coincidental phenome- slopes in the Bahamas na? (Grammer, G. Michael, et al.) 103(1-3): 125-136 (Chang, Shih-Chiao, et al.) 107(4): 283-288 diagenesis—experimental studies environmental geology see also ecology bioturbation: Experimental evaluation of the influences of bi- eruptive rocks see igneous rocks ogenic reworking on carbonate preservation in nearshore Eurasia see also Caspian Sea sediments (Green, Mark A., et al.) 107(3): 175-181 Europe see also Belgium; Denmark; England; France; Greece; Netherlands; Norway diagenesis—geochemistry isotopes: Oxygen and carbon isotope fields for temperate shelf experimental studies see under clay mineralogy; diagenesis carbonates from Tasmania and New Zealand Far East see also the individual countries (Prasada Rao, C., et al.) 103(1-3): 273-268 faulting see faults organic materials: Early diagenesis of marine organic matter; faults—distribution alteration of the carbon isotopic composition basement: Preliminary interpretation of aeromagnetic data (McArthur, J. M., et al.) 105(1-4): 51-61 stable isotopes: Stable isotopic composition of carbonate-ce- from Spitsbergen, Svalbard Archipelago (76°-79°N); im- plications for structure of the basement mented Recent beachrock along the Mediterranean and (Skilbrei, Jan Reidar) 106(1-2): 53-68 the Red Sea coasts of Egypt (Holail, H., et al.) 106(1-2): 141-148 fjords see under shore features under geomorphology 1992 YEAR-END INDEX, VOLUMES 102-107 305 Florida—oceanography geochemistry—geochemical cycle continental shelf: Neogene to Recent stratigraphy and deposi- lithium: Lithium; sources in pore fluids of Peru slope sedi- tional regimes of the Northwest Florida inner continental ments and implications for oceanic fluxes shelf (Martin, Jonathan B., et al.) 102(1-4): 281-292 (Locker, Stanley D., et al.) 104(1-4): 123-138 geochemistry—processes — Siliciclastic-to-carbonate transition on the inner shelf em- chemical fractionation: Carbonate minerals, major and minor bayment, Southwest Florida elements and oxygen and carbon isotopes and their varia- (Sussko, Roger J., et al.) 107(1-2): 51-60 tion with water depth in cool, temperate carbonates, west- sedimentation: Multiple sediment sources and a cellular, non- ern Tasmania, Australia integrated, longshore drift system; Northwest Florida and (Prasada Rao, C., et al.) 103(1-3): 249-272 Southeast Alabama coast, USA reduction: Seawater circulation through the flank of the Flori- (Stone, Gregory W., et al.) 105(1-4): 141-154 da Platform; evidence and implications Florida—stratigraphy (Paull, C. K., et al.) 102(1-4): 265-279 Quaternary: Neogene to Recent stratigraphy and deposition- solution: Experimental evaluation of the influences of biogen- al regimes of the Northwest Florida inner continental shelf ic reworking on carbonate preservation in nearshore sedi- (Locker, Stanley D., et al.) 104(1-4): 123-138 ments folds see also faults (Green, Mark A., et al.) 107(3): 175-181 foraminifera see also foraminifers geochronology see also absolute age geochronology—paleomagnetism foraminifers see also foraminifera Triassic: Magnetostratigraphy of Triassic sediments, ODP foraminifers—biostratigraphy sites 759 and 760, Leg 122, Wombat Plateau, northwest of Holocene: Extreme climatic conditions recorded in Santa Australia 107(4): 293-298 Barbara Basin laminated sediments; the 1835-1840 Maco- (Galbrun, Bruno, et al.) ma event geochronology—racemization (Schimmelmann, A., et al.) 106(3-4): 279-299 Quaternary: Glacial geology of outer Bjornoyrenna, south- Mesozoic: Stratigraphic evolution of Mesozoic continental western Barents Sea margin and oceanic sequences; Northwest Australia and (Saettem, J., et al.) 103(1-3): 15-51 northern Himalayas (Gradstein, Felix M., et al.) 102(1-4): 131-173 geochronology—thermoluminescence Holocene: Thermoluminescence dating of dunes at Cape St. Neogene: Paleontological evidence for early exposure of deep Lambert, East Kimberleys, northwestern Australia oceanic crust on the Vema fracture zone southern wall (Lees, Brian G., et al.) 106(1-2): 131-139 (Atlantic Ocean, 10°45’N) (Aubry, Marie-Pierre, et al.) 107(1-2): 1-7 geologic time see absolute age; geochronology Quaternary: Glacial geology of outer Bjornoyrenna, south- geomorphology see also glacial geology western Barents Sea geomorphology—processes (Saettem, J., et al.) 103(1-3): 15-51 sedimentation: Frequency dependent cross-shore suspended — Indications of hydrothermal activity at the Chile Ridge sediment transport; 1, A non-barred shoreface spreading centre (Osborne, Philip D., et al.) 106(1-2): 1-24 (Marienfeld, P., et al.) 105(1-4): 241-252 — Frequency dependent cross-shore suspended sediment — Middle to late Quaternary sediment flux and post-deposi- transport; 2, A barred shoreface tional processes between the continental slope off Gabon (Osborne, Philip D., et al.) 106(1-2): 25-51 and the mid-Guinean margin (Bonifay, Denis, et al.) 106(1-2): 107-129 geomorphology—shore features barrier islands: Physical processes and sedimentary record of foraminifers—occurrence a modern, transgressive, lacustrine barrier island carbonate sediments: Benthic foraminifera in carbonate facies (Bray, Thomas F., Jr., et al.) 105(1-4): 155-168 of a coastal sabkha, Red Sea coast, Saudi Arabia basins: Basin changes in Jervis Bay, New South Wales; 1894- (Abou Ouf, M.) 104(1-4): 187-191 1988 Formosa see Taiwan (Bowyer, J. K.) 105(1-4): 211-224 fossils see appropriate fossil group beaches: Beach systems of the central Netherlands coast; pro- foundations see also soil mechanics cesses, morphology and structural impacts in a storm driv- en multi-bar system France—oceanography (Short, Andrew D.) 107(1-2): 103-137 marine geology: Marine particle size measurement with a cheniers: The development of a chenier sequence on the Vic- stream-scanning laser system toria Delta, Joseph Bonaparte Gulf, northern Australia (Jantschik, R., et al.) 106(3-4): 239-250 (Lees, Brian G.) 103(1-3): 215-224 Gabon—oceanography coastal dunes: Thermoluminescence dating of dunes at Cape continental slope: Middle to late Quaternary sediment flux St. Lambert, East Kimberleys, northwestern Australia and post-depositional processes between the continental (Lees, Brian G., et al.) 106(1-2): 131-139 slope off Gabon and the mid-Guinean margin coastlines: A model of coastal evolution in a transgressed (Bonifay, Denis, et al.) 106(1-2): 107-129 thermokarst topography, Canadian Beaufort Sea genesis of ore deposits see mineral deposits, genesis (Ruz, Marie-Helene, et al.) 106(3-4): 251-278 306 1992 YEAR-END INDEX, VOLUMES 102-107 — Holocene evolution of the coast of Holland glaciation see under glacial geology (Beets, D. J., et al.) 103(1-3): 423-443 glaciers see under glacial geology deltas: Quaternary sequence stratigraphy of the Brisbane global tectonics see plate tectonics River delta, Moreton Bay, Australia Gondwana see under continental drift (Evans, Kenneth G., et al.) 107(1-2): 61-79 Great Basin see also the individual states fjords: Seismic architecture and sedimentation in Northwest Great Britain see also England Spitsbergen fjords (Sexton, David J., et al.) 103(1-3): 53-68 Great Lakes—geomorphology landform evolution: Barriers, barrier platforms, and spillover processes: Frequency dependent cross-shore suspended sedi- ment transport; 2, A barred shoreface deposits in St. George’s Bay, Newfoundland; paraglacial (Osborne, Philip D., et al.) 106(1-2): 25-51 sedimentation on the flanks of a deep coastal basin — Physical processes and sedimentary record of a modern, (Shaw, John, et al.) 105(1-4): 119-140 transgressive, lacustrine barrier island — Holocene depocenter migration and sediment accumula- (Bray, Thomas F., Jr., et al.) 105(1-4): 155-168 tion in Delaware Bay; a submerging marginal marine sedi- Great Lakes region see also the individual states and provinces mentary basin (Fletcher, Charles H., III, et al.) 103(1-3): 165-183 Great Plains see also the individual states and provinces shoals: Largo Bank; a shoreface-connected linear shoal at the Greater Antilles—tectonophysics Bahia Blanca Estuary entrance, Argentina plate tectonics: Carbonate platforms along the Southeast (Gomez, Eduardo A., et al.) 104(1-4): 193-204 Bahamas-Hispaniola collision zone geophysical methods see under book reviews (Mullins, Henry T., et al.) 105(1-4): 169-209 geophysical surveys see under Antarctic Ocean; Arabian Sea; Greece—structural geology Arctic Ocean; Argentina; Atlantic Ocean; Gulf of Mexico; neotectonics: Recent gravitative mass movements in a highly Japan Sea; Mediterranean Sea; North Sea; Pacific Ocean; tectonically active arc system; the Hellenic Arc Spitsbergen; Tyrrhenian Sea; see acoustical surveys under (Ferentinos, George) 104(1-4): 93-107 geophysical surveys under Antarctic Ocean; Arctic Ocean; Greenland—oceanography Argentina; Atlantic Ocean; Mediterranean Sea; Pacific continental margin: The East Greenland continental margin Ocean; Spitsbergen; see magnetic surveys under geophysical (65°N) since the last deglaciation; changes in seafloor prop- surveys under Spitsbergen; see seismic surveys under geo- erties and ocean circulation (Mienert, Jurgen, et al.) 106(3-4): 217-238 physical surveys under Antarctic Ocean; Arabian Sea; Atlan- tic Ocean; Gulf of Mexico; Japan Sea; Mediterranean Sea; Guinea—oceanography North Sea; Tyrrhenian Sea; see surveys under geophysical continental margin: The geomorphology of the Southwest surveys under Atlantic Ocean; Pacific Ocean Guinea margin; tectonic, volcanic, mass movement and bottom current influences glacial geology see also geomorphology (Rossi, S., et al.) 105(1-4): 225-240 glacial geology—glaciation deglaciation: The East Greenland continental margin (65°N) Gulf Coastal Plain see also the individual states and countries since the last deglaciation; changes in seafloor properties Gulf Coastal Plain—oceanography and ocean circulation continental margin: Depositional, tectonic and eustatic con- (Mienert, Jurgen, et al.) 106(3-4): 217-238 trols on hydrocarbon distribution in divergent margin ba- — Thermoluminescence properties of a deglacial marine se- sins; Cenozoic Gulf of Mexico case history (Morton, Robert A., et al.) 102(1-4): 239-263 quence from Cumberland Sound, Arctic Canada; sedimen- sedimentation: Siliciclastic-to-carbonate transition on the in- tologic and geochronologic implications ner shelf embayment, Southwest Florida (Jennings, Anne E., et al.) 103(1-3): 111-123 (Sussko, Roger J., et al.) 107(1-2): 51-60 deposition: Cenozoic prograding sequences of the Antarctic Gulf Coastal Plain—stratigraphy continental margin; a record of glacio-eustatic and tectonic changes of level: Depositional, tectonic and eustatic controls events on hydrocarbon distribution in divergent margin basins; (Cooper, Alan K., et al.) 102(1-4): 175-213 Cenozoic Gulf of Mexico case history glacial extent: Glacial geology of outer Bjornoyrenna, south- (Morton, Robert A., et al.) 102(1-4): 239-263 western Barents Sea Neogene: Neogene to Recent stratigraphy and depositional (Saettem, J., et al.) 103(1-3): 15-51 regimes of the Northwest Florida inner continental shelf — The late Weichselian glacial maximum on western Spits- (Locker, Stanley D., et al.) 104(1-4): 123-138 bergen inferred from offshore sediment cores Gulf of Mexico—economic geology (Svendsen, John Inge, et al.) 104(1-4): 1-17 oil and gas fields: Eustatic controls on carbonate facies in glacial geology—glaciers reservoirs, and seals associated with Mesozoic hydrocar- ice movement: Seismic architecture and sedimentation in bon fields of the Arabian Gulf and the Gulf of Mexico Northwest Spitsbergen fjords (Kendall, Christopher G. St. C., et al.) (Sexton, David J., et al.) 103(1-3): 53-68 102(1-4): 215-238 glacial geology—periglacial features petroleum: Depositional, tectonic and eustatic controls on thermokarst: A’model of coastal evolution in a transgressed hydrocarbon distribution in divergent margin basins; thermokarst topography, Canadian Beaufort Sea Cenozoic Gulf of Mexico case history (Ruz, Marie-Helene, et al.) 106(3-4): 251-278 (Morton, Robert A., et al.) 102(1-4): 239-263 307 1992 YEAR-END INDEX, VOLUMES 102-107 Gulf of Mexico—geophysical surveys Indian Ocean—oceanography seismic surveys: Neogene to Recent stratigraphy and deposi- nodules: Geochemistry of polymetallic nodules from the cen- tional regimes of the Northwest Florida inner continental tral Indian Ocean basin shelf (Valsangkar, A. B., et al.) 103(1-3): 361-371 (Locker, Stanley D., et al.) 104(1-4): 123-138 ocean circulation: Nd isotopes in Indian Ocean sediments Gulf of Mexico—oceanography used as a tracer of supply to the ocean and circulation paths sea water: Seawater circulation through the flank of the Flori- (Dia, Aline, et al.) 103(1-3): 349-359 da Platform; evidence and implications sediments: Clay mineralogy of Visakhapatnam shelf sedi- (Paull, C. K., et al.) 102(1-4): 265-279 ments, east coast of India [discussion and reply] sedimentation: Siliciclastic-to-carbonate transition on the in- (Durga Prasada Rao, N. V. N., et al.) 105(1-4): 305-308 ner shelf embayment, Southwest Florida — Sedimentology of fine-grained turbidites inferred from (Sussko, Roger J., et al.) 107(1-2): 51-60 continuously recorded physical properties data (Wetzel, Andreas, et ai.) 104(1-4): 165-178 Gulf of Mexico—stratigraphy Cenozoic: Depositional, tectonic and eustatic controls on hy- Indian Ocean—stratigraphy drocarbon distribution in divergent margin basins; Ceno- Mesozoic: Stratigraphic evolution of Mesozoic continental zoic Gulf of Mexico case history margin and oceanic sequences; Northwest Australia and (Morton, Robert A., et al.) 102(1-4): 239-263 northern Himalayas Mesozoic: Eustatic controls on carbonate facies in reservoirs, (Gradstein, Felix M., et al.) 102(1-4): 131-173 and seals associated with Mesozoic hydrocarbon fields of Triassic: Magnetostratigraphy of Triassic sediments, ODP the Arabian Gulf and the Gulf of Mexico sites 759 and 760, Leg 122, Wombat Plateau, northwest of (Kendall, Christopher G. St. C., et al.) Australia 102(1-4): 215-238 (Galbrun, Bruno, et al.) 107(4): 293-298 heavy minerals see under marine sediments under sediments Indonesia—oceanography Himalayas see also the individual countries ocean floors: Three trench endings in eastern Indonesia Himalayas—stratigraphy (Milsom, John, et al.) 104(1-4): 227-241 Mesozoic: Stratigraphic evolution of Mesozoic continental Indonesia—tectonophysics margin and oceanic sequences; Northwest Australia and plate tectonics: Three trench endings in eastern Indonesia northern Himalayas (Milsom, John, et al.) 104(1-4): 227-241 (Gradstein, Felix M., et al.) 102(1-4): 131-173 instruments see under marine geology; oceanography Holocene see also under geochronology under Antarctica; intrusions see also igneous rocks; metasomatism Northern Territory; Western Australia; see also under stratig- raphy under Argentina; California; Delaware; Pacific Ocean Invertebrata see also foraminifera hydrogen see also deuterium invertebrates see also foraminifers; mollusks; radiolarians hydrogen—D/H Ionian Sea—oceanography sea water: Seawater circulation through the flank of the Flori- ocean floors: Recent gravitative mass movements in a highly da Platform; evidence and implications tectonically active arc system; the Hellenic Arc (Paull, C. K., et al.) 102(1-4): 265-279 (Ferentinos, George) 104(1-4): 93-107 hydrothermal processes see under manganese ores under miner- isotope dating see absolute age al deposits, genesis isotopes see also absolute age; geochronology ice ages see glacial geology isotopes—C-13/C-12 igneous rocks see also magmas; metamorphic rocks; metasoma- marine sediments: Early diagenesis of marine organic matter; tism alteration of the carbon isotopic composition igneous rocks—ultramafics (McArthur, J. M., et al.) 105(1-4): 51-61 ophiolite: Initiation of ophiolite emplacement; a modern ex- isotopes—cesium ample from Okushiri Ridge, Northeast Japan Arc Cs-137: Recent environmental changes recorded in anoxic (Tokuyama, Hidekazu, et al.) 103(1-3): 323-334 Barsnesfjord sediments; western Norway India—oceanography (Paetzel, Matthias, et al.) 105(1-4): 23-36 continental shelf: A note on the factors controlling the sedi- isotopes—neodymium mentation rate along the western continental shelf of India Nd-144/Nd-143: Nd isotopes in Indian Ocean sediments (Manjunatha, B. R., et al.) 104(1-4): 219-224 used as a tracer of supply to the ocean and circulation paths — Clay mineralogy of Visakhapatnam shelf sediments, east coast of India [discussion and reply] (Dia, Aline, et al.) 103(1-3): 349-359 (Durga Prasada Rao, N. V. N., et al.) 105(1-4): 305-308 isotopes—O-18/0O-16 Indian Ocean see also Arabian Sea; Persian Gulf; Red Sea marine sediments: Middle to late Quaternary sediment flux and post-depositional processes between the continental Indian Ocean—geochemistry slope off Gabon and the mid-Guinean margin organic materials: Nutrient biogeochemical fluxes in the (Bonifay, Denis, et al.) 106(1-2): 107-129 northwestern Indian Ocean (Mantoura, R. F. C., et al.) 104(1-4): 291-292 isotopes—sea water trace elements: Rare earth elements and neodymium isotopes stable isotopes: Seawater circulation through the flank of the in the Indian Ocean Florida Platform; evidence and implications (Bertram, C. J., et al.) 104(1-4): 289-290 (Paull, C. K., et al.) 102(1-4): 265-279 308 1992 YEAR-END INDEX, VOLUMES 102-107 isotopes—sedimentary rocks Italy—structural geology beachrock: Stable isotopic composition of carbonate-cement- neotectonics: Collapse and flow of lowstand shelf-margin ed Recent beachrock along the Mediterranean and the Red deposits; an example from the eastern Tyrrhenian Sea, It- Sea coasts of Egypt aly (Holail, H., et al.) 106(1-2): 141-148 (Trincardi, Fabio, et al.) 105(1-4): 77-94 isotopes—sediments Jamaica—geomorphology carbonate sediments: Carbonate minerals, major and minor changes of level: Dynamic hydrology and diagenesis of a sub- merged Pleistocene fringing reef, Discovery Bay, Jamaica elements and oxygen and carbon isotopes and their varia- tion with water depth in cool, temperate carbonates, west- (McCullough, M. L., et al.) 104(1-4): 139-151 ern Tasmania, Australia Jamaica—oceanography (Prasada Rao, C., et al.) 103(1-3): 249-272 reefs: Dynamic hydrology and diagenesis of a submerged — Oxygen and carbon isotope fields for temperate shelf car- Pleistocene fringing reef, Discovery Bay, Jamaica bonates from Tasmania and New Zealand (McCullough, M. L., et al.) 104(1-4): 139-151 (Prasada Rao, C., et al.) 103(1-3): 273-268 Japan—oceanography sediments: Sediments and sedimentary processes in Mutsu marine sediments: Developing sediment geochronologies for high-latitude continental shelf deposits; a radiochemical Bay, Japan; pelletization as the most important mode in approach depositing argillaceous sediments (Harden, S. L., et al.) 103(1-3): 69-97 (Minoura, Koji, et al.) 103(1-3): 487-502 isotopes—Sr-87/Sr-86 Japan—tectonophysics marine sediments: Mineralogical, K-Ar and 87Sr/8®Sr isotope plate tectonics: Initiation of ophiolite emplacement; a modern studies of Holocene and Late Glacial sediments in a deep- example from Okushiri Ridge, Northeast Japan Arc (Tokuyama, Hidekazu, et al.) 103(1-3): 323-334 sea core from the Northeast Atlantic Ocean (Huon, Sylvain, et al.) 107(4): 275-282 Japan Sea—geophysical surveys pore water: Evidence from fluid seeps atop serpentine sea- seismic surveys: Initiation of ophiolite emplacement; a mod- ern example from Okushiri Ridge, Northeast Japan Arc mounts in the Mariana Forearc; clues for emplacement of (Tokuyama, Hidekazu, et al.) 103(1-3): 323-334 the seamounts and their relationship to forearc tectonics Jurassic see also under stratigraphy under Atlantic Ocean (Haggerty, Janet A.) 102(1-4): 293-309 — Lithium; sources in pore fluids of Peru slope sediments Korea—oceanography and implications for oceanic fluxes continental shelf: Origin and dispersal of Recent clay minerals (Martin, Jonathan B., et al.) 102(1-4): 281-292 in the Yellow Sea isotopes—thorium (Park, Y. A., et al.) 104(1-4): 205-213 Th-230: Accumulation rates of surface sediments in the lava see also igneous rocks; magmas Norwegian-Greenland Sea lead—isotopes (Paetsch, H., et al.) 104(1-4): 19-30 Pb-210: Developing sediment geochronologies for high-lati- Israel—oceanography tude continental shelf deposits; a radiochemical approach continental margin: Late Tertiary seismic facies and struc- (Harden, S. L., et al.) 103(1-3): 69-97 tures of the Levant passive margin off central Israel, east- lithium—geochemistry ern Mediterranean pore water: Lithium; sources in pore fluids of Peru slope sedi- (Tibor, Gideon, et al.) 105(1-4): 253-273 ments and implications for oceanic fluxes Israel—stratigraphy (Martin, Jonathan B., et al.) 102(1-4): 281-292 Neogene: Late Tertiary seismic facies and structures of the magmas see also igneous rocks Levant passive margin off central Israel, eastern Mediter- magmas—evolution ranean continental margin: Magmatic-tectonic evolution of a volcan- (Tibor, Gideon, et al.) 105(1-4): 253-273 ic rifted margin Italy—oceanography (Eldholm, Olav) 102(1-4): 43-61 continental margin: Collapse and flow of lowstand shelf-mar- spreading centers: The Valu Fa Ridge; the pattern of volcanic gin deposits; an example from the eastern Tyrrhenian Sea, activity at a back-arc spreading centre Italy (Collier, J. S., et al.) 104(1-4): 243-263 (Trincardi, Fabio, et al.) 105(1-4): 77-94 magnetic surveys see under geophysical surveys under Spitsber- continental slope: Effect of sea-level variation on upper-slope gen depositional processes offshore of Tiber Delta, Tyrrhenian magnetism of rocks and minerals see paleomagnetism Sea, Italy maps see also under geophysical surveys under Spitsbergen; see (Chiocci, Franceso L., et al.) 104(1-4): 109-122 also under stratigraphy under North America estuaries: Sedimentation of riverborne material in a shallow Mariana Islands—oceanography shelf sea; Adige River, Adriatic Sea ocean floors: First results of study of sulphur-rich hydrother- (Boldrin, A., et al.) 103(1-3): 473-485 mal activity from an island-arc environment; Esmeralda Italy—stratigraphy Bank in the Mariana Arc changes of level: Effect of sea-level variation on upper-slope (Stuben, D., et al.) 103(1-3): 521-528 depositional processes offshore of Tiber Delta, Tyrrhenian marine geology see also oceanography; see also under oceanogra- Sea, Italy phy under Atlantic Ocean; Baltic Sea; California; France; (Chiocci, Franceso L., et al.) 104(1-4): 109-122 Taiwan

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