Biblioteca Digital

Stable isotope record of planktonic foraminifera of the South Atlantic

**Autoria(s):** Wefer, Gerold; Berger, Wolfgang H; Bickert, Torsten; Donner, Barbara; Fischer, Gerhard; Kemle-von Mücke, Sylvia; Pätzold, Jürgen; Meinecke, Gerrit; Müller, Peter J; Mulitza, Stefan; Niebler, Hans-Stefan; Schmidt, Heike; Schneider, Ralph R; Segl, Monika
Cobertura	MEDIAN LATITUDE: -10.607458 * MEDIAN LONGITUDE: -10.068214 * SOUTH-BOUND LATITUDE: -24.033333 * WEST-BOUND LONGITUDE: -41.621667 * NORTH-BOUND LATITUDE: 3.831667 * EAST-BOUND LONGITUDE: 9.185833 * DATE/TIME START: 1988-03-02T00:00:00 * DATE/TIME END: 1991-05-17T00:00:00
Data(s)	01/06/1996
Resumo	The central problem of late Quaternary circulation in the South Atlantic is its role in transfer of heat to the North Atlantic, as this modifies amplitude, and perhaps phase, of glacialinterglacial fluctuations. Here we attempt to define the problem and establish ways to attack it. We identify several crucial elements in the dynamics of heat export: (1) warm-water pile-up (and lack thereof) in the Western equatorial Atlantic, (2) general spin-up (or spin-down) of central gyre, tied to SE trades, (3) opening and closing of Cape Valve (Agulhas retroflection), (4) deepwater E-W asymmetry. Means for reconstruction are biogeography, stable isotopes, and productivity proxies. Main results concern overall glacial-interglacial contrast (less pile-up, more spin-up, Cape Valve closed, less NADW during glacial time), dominance of precessional signal in tropics, phase shifts in precessional response. To generate working hypotheses about the dynamics of surface water circulation in the South Atlantic we employ Croll's paradigm that glacial - interglacial fluctuations are analogous to seasonal fluctuations. Our general picture for the last 300 kyrs is that, as concerns the South Atlantic, intensity of surface water (heat) transport depends on the strength of the SE trades. From various lines of evidence it appears that strenger SE trades appeared during glacials and cold substages during interglacials, analogous to conditions in southern winter (August).
Formato	application/zip, 10 datasets
Identificador	https://doi.pangaea.de/10.1594/PANGAEA.738529 doi:10.1594/PANGAEA.738529
Idioma(s)	en
Publicador	PANGAEA
Direitos	CC-BY: Creative Commons Attribution 3.0 Unported Access constraints: unrestricted
Fonte	Supplement to: Wefer, Gerold; Berger, Wolfgang H; Bickert, Torsten; Donner, Barbara; Fischer, Gerhard; Kemle-von Mücke, Sylvia; Pätzold, Jürgen; Meinecke, Gerrit; Müller, Peter J; Mulitza, Stefan; Niebler, Hans-Stefan; Schmidt, Heike; Schneider, Ralph R; Segl, Monika (1996): Late Quaternary surface circulation of the South Atlantic: The stable isotope record and implications for heat transport and productivity. In: Wefer, G; Berger, W H; Siedler, G & Webb, D (eds.), The South Atlantic: Present and Past Circulation, Springer, Berlin, Heidelberg, 461-502
Palavras-Chave	#Amazon Fan; Angola Basin; C. nitida; Candeina nitida; Counting >150 µm fraction; Depth; DEPTH, sediment/rock; dextral, size fraction 550-600 µm; Equatorial Atlantic; Event; Foraminifera, planktic, individuals per volume; Foraminifera, planktic indeterminata; Foram plankt; Foram plankt indet; G. aequilateralis; G. anfracta; G. bulloides; G. calida; G. conglobatus; G. crassaf. d13C; G. crassaf. d18O; G. crassaformis; G. digitata; G. falconensis; G. glutinata; G. hexagonus; G. inflata; G. inflata d13C; G. inflata d18O; G. menardii; G. ruber p; G. ruber p d13C; G. ruber p d18O; G. ruber w; G. ruber w d13C; G. ruber w d18O; G. rubescens; G. sacculifer d13C; G. sacculifer d18O; G. scitula; G. tenellus; G. trilobus sac; G. trilobus tril; G. truncatulinoides; G. truncatulinoides d13C; G. truncatulinoides d18O; G. truncatulinoides s d13C; G. truncatulinoides s d18O; GeoB; GeoB1028-4; GeoB1028-5; GeoB1031-1; GeoB1031-4; GeoB1032-2; GeoB1032-3; GeoB1105-3; GeoB1105-4; GeoB1112-3; GeoB1112-4; GeoB1220-1; GeoB1220-2; GeoB1413-1; GeoB1413-2; GeoB1413-4; GeoB1523-1; GeoB1523-2; Geosciences, University of Bremen; Giant box corer; GKG; Globigerina bulloides; Globigerina digitata; Globigerina falconensis; Globigerina rubescens; Globigerinella aequilateralis; Globigerinella calida; Globigerinita glutinata; Globigerinoides conglobatus; Globigerinoides ruber pink; Globigerinoides ruber pink, d13C; Globigerinoides ruber pink, d18O; Globigerinoides ruber white; Globigerinoides ruber white, d13C; Globigerinoides ruber white, d18O; Globigerinoides sacculifer, d13C; Globigerinoides sacculifer, d18O; Globigerinoides tenellus; Globigerinoides trilobus sacculifer; Globigerinoides trilobus trilobus; Globorotalia anfracta; Globorotalia crassaformis; Globorotalia crassaformis, d13C; Globorotalia crassaformis, d18O; Globorotalia inflata; Globorotalia inflata, d13C; Globorotalia inflata, d18O; Globorotalia menardii; Globorotalia scitula; Globorotalia truncatulinoides; Globorotalia truncatulinoides, d13C; Globorotalia truncatulinoides, d18O; Globorotalia truncatulinoides sinistral, d13C; Globorotalia truncatulinoides sinistral, d18O; Globorotaloides hexagonus; Gravity corer (Kiel type); M12/1; M16/1; M16/2; M6/6; M9/4; Mass spectrometer Finnigan MAT 251; Meteor (1986); MUC; MultiCorer; N. dutertrei; N. pachyderma d; N. pachyderma s; Neogloboquadrina dutertrei; Neogloboquadrina pachyderma dextral; Neogloboquadrina pachyderma dextral and dutertrei integrade; Neogloboquadrina pachyderma sinistral; O. universa; Orbulina universa; P/D int; P. obliquiloculata; Pulleniatina obliquiloculata; S. dehiscens; SFB261; single occurence of different planktonic foraminifera species; size fraction 150-212 µm; size fraction 212-355 µm; size fraction 425-500 µm; SL; South Atlantic in Late Quaternary: Reconstruction of Budget and Currents; Sphaeroidinella dehiscens; T. quinqueloba; Turborotalita quinqueloba; Walvis Ridge; Walvis Ridge, Southeast Atlantic Ocean; West Angola Basin
Tipo	Dataset

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