Biblioteca Digital

Paleogene and early Neogene planktonic foraminifera of ODP sites 119-738 and 119-744

**Autoria(s):** Huber, Brian T
Cobertura	MEDIAN LATITUDE: -62.257000 * MEDIAN LONGITUDE: 81.910680 * SOUTH-BOUND LATITUDE: -62.709000 * WEST-BOUND LONGITUDE: 80.595000 * NORTH-BOUND LATITUDE: -61.579000 * EAST-BOUND LONGITUDE: 82.787800 * DATE/TIME START: 1988-01-10T00:00:00 * DATE/TIME END: 1988-02-07T00:00:00
Data(s)	08/10/1991
Resumo	A virtually complete composite history of Cenozoic pelagic sedimentation was recovered from ODP Sites 738 (62°43' S) and 744 (61°35' S), drilled during Leg 119 on the Kerguelen Plateau. An excellent magnetobiochronologic record was obtained from upper Eocene through Holocene sediments at Site 744, and an expanded lower Paleocene through lower Oligocene sequence was cored at Hole 738. Analysis of the stratigraphic distribution of over 125 planktonic foraminifer taxa from these sites reveals changes in species composition that were strongly influenced by the climatic evolution of Antarctic water masses. Early Paleocene planktonic foraminifer assemblages are nearly identical in species composition to coeval assemblages from low and middle latitude sites, showing the same patterns of post-extinction recovery and taxonomic radiation. Biogeographic isolation, revealed by the absence of tropical keeled species, became apparent by late early Paleocene time. Diversity increased near the Paleocene/Eocene boundary when keeled morozovellids immigrated to the Kerguelen Plateau. Greatest diversity (23 species) was achieved by early Eocene time, corresponding to a Cenozoic warming maximum that has been recognized in lower Eocene deep sea and terrestrial sediments worldwide. A gradual decline in diversity from the late early through middle Eocene, primarily due to the disappearance of acarininids, parallels the record of cooling paleotemperatures in Southern Ocean surface waters. Chiloguembelina-dominated assemblages appeared in the late middle Eocene and persisted through the early Oligocene as Antarctic surface waters became thermally isolated. Late Eocene and early Oligocene assemblages exhibit considerably lower diversity than the older Eocene faunas, and were dominated by chiloguembelinids, subbotinids, and catapsydracids during a time of pronounced climatic cooling and development of continental glaciation on East Antarctica. The small foraminifer Globigerinit? juvenilis replaced chiloguembelinids as the dominant taxon during the late Oligocene. Diversity increased slightly toward the end of the late Oligocene with new appearances of several tenuitellid, globoturborotalitid, and globigerinid species. The trend toward diminishing planktonic foraminifer diversity was renewed during the late early Miocene as siliceous productivity increased in the Antarctic surface waters, culminating with the reduction to nearly monospecific assemblages of Neogloboqu?drin? p?chyderm? that occur in Pliocene-Holocene biosiliceous sediments. An Antarctic Paleogene zonal scheme previously devised for ODP Sites 689 and 690 in the Weddell Sea is used to biostratigraphically subdivide the Kerguelen Plateau sequence. The definition of one Antarctic Paleogene biozone is modified in the present study to facilitate correlation within the southern high latitudes. The ages of 13 late Eoceneearly Miocene datum events are calibrated based on a magnetobiochronologic age model developed for Site 744.
Formato	application/zip, 5 datasets
Identificador	https://doi.pangaea.de/10.1594/PANGAEA.728438 doi:10.1594/PANGAEA.728438
Idioma(s)	en
Publicador	PANGAEA
Direitos	CC-BY: Creative Commons Attribution 3.0 Unported Access constraints: unrestricted
Fonte	Supplement to: Huber, Brian T (1991): Paleogene and Early Neogene planktonic foraminifer biostratigraphy of sites 738 and 744, Kerguelen Plateau (Southern Indian Ocean). In: Barron, J; Larsen, B; et al. (eds.), Proceedings of the Ocean Drilling Program, Scientific Results, College Station, TX (Ocean Drilling Program), 119, 427-449, doi:10.2973/odp.proc.sr.119.142.1991
Palavras-Chave	#119-738; 119-738B; 119-738C; 119-744; 119-744A; A. acarinata; A. aculeata; A. apanthesma; A. australis; A. broedermanni; A. bullbrooki; A. cf. collactea; A. cf. mckannai; A. chascanona; A. coalingensis; A. collactea; A. cuneicamerata; A. esnaensis; A. intermedia; A. interposita; A. matthewsae; A. mayaroensis; A. mckannai; A. nitida; A. pentacamerata; A. praeangulata; A. praecursoria; A. praepentacamerata; A. primitiva; A. pseudotopilensis; A. soldadoensis; A. spinuloinflata; A. strabocella; A. triplex; A. wilcoxensis; A = abundant, C = common, F = few, R = rare; Abathomphalus mayaroensis; Acarinina acarinata; Acarinina aculeata; Acarinina apanthesma; Acarinina broedermanni; Acarinina bullbrooki; Acarinina cf. collactea; Acarinina cf. mckannai; Acarinina chascanona; Acarinina coalingensis; Acarinina collactea; Acarinina cuneicamerata; Acarinina esnaensis; Acarinina intermedia; Acarinina interposita; Acarinina matthewsae; Acarinina mckannai; Acarinina nitida; Acarinina pentacamerata; Acarinina praeangulata; Acarinina praecursoria; Acarinina praepentacamerata; Acarinina primitiva; Acarinina pseudotopilensis; Acarinina soldadoensis; Acarinina sp.; Acarinina spinuloinflata; Acarinina strabocella; Acarinina triplex; Acarinina wilcoxensis; Age, maximum/old; Age, minimum/young; Age max; Age min; Age model; Age model, optional; Age model opt; Ageprof dat des; Ageprofile Datum Description; Archaeoglobigerina australis; B. alabamensis; Bifarina alabamensis; C. amekiensis; C. crinita; C. cubensis; C. dissimilis; C. echinatus; C. morsei; C. unicavus; C. waiparaensis; C. wilcoxensis; Cassigerinelloita amekiensis; Catapsydrax dissimilis; Catapsydrax echinatus; Catapsydrax unicavus; Chiloguembelina crinita; Chiloguembelina cubensis; Chiloguembelina morsei; Chiloguembelina waiparaensis; Chiloguembelina wilcoxensis; Chronozone; COMPCORE; Composite Core; Depth; Depth, bottom/max; DEPTH, sediment/rock; Depth, top/min; Depth bot; Depth top; DRILL; Drilling/drill rig; E. eobulloides; E. quadrilocula; E. simplicissima; Eoglobigerina eobulloides; Eoglobigerina quadrilocula; Eoglobigerina simplicissima; Epoch; FAD = first appearance datum, LAD = last appearance datum; first appearance datum, LAD last appearance datum; Foram bent; Foraminifera, benthic; Foraminifera, planktic abundance; Foraminifera, planktic preservation; Foram plankt; Foram plankt preserv; G. aff. testarugosa; G. barri; G. brazieri; G. bulloides; G. cf. labiacrassata; G. cf. praebulloides; G. connecta; G. daubjergensis; G. euapertura; G. falconensis; G. index; G. juvenilis; G. labiacrassata; G. leroyi; G. multispinus; G. petaloidea; G. praebulloides; G. praescitula; G. puncticulata; G. scitula; G. subcarinatus; G. suteri; G. tapuriensis; G. triseriata; G. woodi; G. zealandica; G = good, M = moderate, P = poor; Globigerina bulloides; Globigerina cf. praebulloides; Globigerina euapertura; Globigerina falconensis; Globigerina leroyi; Globigerina praebulloides; Globigerina tapuriensis; Globigerinatheka barri; Globigerinatheka index; Globigerinelloides multispinus; Globigerinelloides subcarinatus; Globigerinita juvenilis; Globoconusa daubjergensis; Globorotalia praescitula; Globorotalia puncticulata; Globorotalia scitula; Globorotalia zealandica; Globorotaloides aff. testarugosa; Globorotaloides suteri; Globotruncanella petaloidea; Globoturborotalita brazieri; Globoturborotalita cf. labiacrassata; Globoturborotalita connecta; Globoturborotalita labiacrassata; Globoturborotalita woodi; Guembelitria triseriata; Guembelitrioides sp.; H. globulosa; H. planata; H. sliteri; Hedbergella sliteri; Heterohelix globulosa; Heterohelix planata; I. pusilla; I. spiralis; Igorina pusilla; Igorina spiralis; Indian Ocean; Joides Resolution; Label; Leg119; M. cf. quetra; M. gracilis; M. inconstans; M. senni; M. spinulosa; M. subbotinae; Morozovella cf. quetra; Morozovella gracilis; Morozovella inconstans; Morozovella spinulosa; Morozovella subbotinae; Muricoglobigerina senni; N. pachyderma; Neogloboquadrina pachyderma; Ocean Drilling Program; ODP; ODP sample designation; P. australiformis; P. cf. appressus; P. chapmani; P. compressus; P. imitatus; P. incognita; P. insolita; P. micra; P. nana; P. planoconicus; P. pseudocontinuosa; P. reissi; P. wilcoxensis; Paragloborotalia incognita; Paragloborotalia nana; Paragloborotalia pseudocontinuosa; Plank foram zone; Planktonic foraminifera zone; Planorotalites australiformis; Planorotalites cf. appressus; Planorotalites chapmani; Planorotalites compressus; Planorotalites imitatus; Planorotalites planoconicus; Planorotalites reissi; Planorotalites sp.; Praetenuitella insolita; Praetenuitella sp.; previous published; Pseudohastigerina micra; Pseudohastigerina sp.; Pseudohastigerina wilcoxensis; questionable; R. circumnodifer; Reference; Reference/source; Rugotruncana circumnodifer; S. angiporoides; S. cf. disjuncta; S. cf. hornibrooki; S. corpulenta; S. eocaena; S. gortanii; S. hardingae; s.l.; S. linaperta; S. multispinata; S. patagonica; S. pseudobulloides; S. pseudoeocaena; S. pseudovenezuelana; S. reissi; s.s.; S. triangularis; S. triloculinoides; S. trivialis; S. utilisindex; S. varianta; S. velascoensis; S. yeguaensis; Sample code/label; Schackoina multispinata; Siliceous microfossils; Silic foss; Sphaeroidinellopsis cf. disjuncta; Subbotina angiporoides; Subbotina cf. hornibrooki; Subbotina corpulenta; Subbotina eocaena; Subbotina gortanii; Subbotina hardingae; Subbotina linaperta; Subbotina patagonica; Subbotina pseudobulloides; Subbotina pseudoeocaena; Subbotina pseudovenezuelana; Subbotina reissi; Subbotina spp.; Subbotina triangularis; Subbotina triloculinoides; Subbotina trivialis; Subbotina utilisindex; Subbotina varianta; Subbotina velascoensis; Subbotina yeguaensis; T. angustiumbilicata; T. clemenciae; T. gemma; T. munda; T. quinqueloba; Tenuitella angustiumbilicata; Tenuitella clemenciae; Tenuitella gemma; Tenuitella munda; Turborotalia quinqueloba; var. 1; var. 2; var. 3; Z. teuria; Zeauvigerina teuria
Tipo	Dataset

Acesso ao item digital