Biblioteca Digital

Benthic foraminifera abundance data of sediment core GeoB7926-2

**Autoria(s):** McKay, Claire L; Filipsson, Helena L; Romero, Oscar E; Stuut, Jan-Berend; Donner, Barbara
Cobertura	LATITUDE: 20.213300 * LONGITUDE: -18.451700 * DATE/TIME START: 2002-04-27T05:21:00 * DATE/TIME END: 2002-04-27T05:21:00
Data(s)	07/07/2014
Resumo	We present a high resolution, multiproxy study of the relationship between pelagic and benthic environments of a coastal upwelling system in the subtropical NE Atlantic Ocean. Marine sediments corresponding to late MIS3 to the Holocene in the radiocarbon dated core GeoB7926, retrieved off Mauritania (21°N) were analysed to reconstruct productivity in surface waters and its linkage to deep waters during the last 35 ka BP. High latitude cold events and changes in atmospheric and oceanographic dynamics influenced upwelling intensity over this time period. Subsequently, this caused changes in primary productivity off this low-latitude coastal upwelling locality. The benthic foraminiferal fauna displays four main community shifts corresponding to fundamental climatic events, first of all during late MIS3 (35-28 ka BP), secondly from 28 to 19 ka BP (including Heinrich event 2 and the LGM), thirdly within Heinrich event 1, the Bølling Allerød and the Younger Dryas (18-11.5 ka BP) and finally during the Holocene (11.5-0 ka BP). In particular, strong pelagic-benthic coupling is apparent in MIS 3, as demonstrated by increased primary productivity, indicated by moderate DAR and the dominance of benthic foraminiferal species which prefer fresh phytodetritus. A decline in upwelling intensity and nutrient availability follows, which resulted in a proportionately larger amount of older, degraded matter, provoking a shift in the benthic foraminifera fauna composition. This rapid response of the benthic environment continues with a progressive increase in upwelling intensity due to sea level and oceanographic changes and according high surface production during the LGM. During Heinrich event 1 and the Younger Dryas, extreme levels of primary production actually hindered benthic environment through the development of low oxygen conditions. After this period, a final change in benthic foraminiferal community composition occurs which indicates a return to more oxygenated conditions during the Holocene.
Formato	application/zip, 3 datasets
Identificador	https://doi.pangaea.de/10.1594/PANGAEA.847824 doi:10.1594/PANGAEA.847824
Idioma(s)	en
Publicador	PANGAEA
Direitos	CC-BY: Creative Commons Attribution 3.0 Unported Access constraints: unrestricted
Fonte	Supplement to: McKay, Claire L; Filipsson, Helena L; Romero, Oscar E; Stuut, Jan-Berend; Donner, Barbara (2014): Pelagic-benthic coupling within an upwelling system of the subtropical northeast Atlantic over the last 35 ka BP. Quaternary Science Reviews, 106, 299-315, doi:10.1016/j.quascirev.2014.04.027
Palavras-Chave	#Age; AGE; Age, 14C AMS; Age, 14C calibrated; Age, dated; Age, dated material; Age, dated standard error; Age, maximum/old; Age, minimum/young; Age dated; Age max; Age min; Age model; Age std e; B. aculeata; B. alata; B. dilatata; B. marginata; B. mexicana; B. pacifica; B. pseudopunctata; Bolivina dilatata; Bolivina pacifica; Bolivina pseudopunctata; Bulimina aculeata; Bulimina alata; Bulimina marginata; Bulimina mexicana; C. bradyi; C. globulosus; C. involvens; C. laevigata; C. lobatulus; C. oolina; C. ovoidea; C. pachyderma; C. primitivius; C. robertsonianus; C. wuellerstorfi; Calendar years; Cal yrs; Cassidella bradyi; Cassidulina laevigata; Cassidulinoides bradyi; cf.; Chilostomella oolina; Chilostomella ovoidea; Cibicidoides bradyi; Cibicidoides globulosus; Cibicidoides lobatulus; Cibicidoides pachyderma; Cibicidoides robertsonianus; Cibicidoides wuellerstorfi; Cornuspira involvens; Cornuspiroides primitivius; Counting >150 µm fraction; D. bradyensis; Dated material; DeltaE = 0 yr, 2 sigma, ka BP; Dentalina bradyensis; Depth; DEPTH, sediment/rock; E. exigua; E. exilis; E. macellum; Elphidium macellum; Epistominella exigua; Eubuliminella exilis; F. kerguelensis; F. mexicana; F. rotundata; Fissurina kerguelensis; Foram bent; Foram bent indet; Foraminifera, benthic; Foraminifera, benthic indeterminata; Fursenkoina mexicana; Fursenkoina rotundata; G. crassa; G. orbicularis; G. polius; G. soldanii; G. turgida; G. zealandica; GeoB; Geosciences, University of Bremen; Globobulimina turgida; Globocassidulina crassa; Gyroidinoides orbicularis; Gyroidinoides polius; Gyroidinoides soldanii; Gyroidinoides zealandica; K. bradyi; Karreriella bradyi; Kim et al. (2012); Kim et al. 2012; Lab label; Laboratory code/label; Lagena sp.; M. barleeanus; M. pompilioides; M. subrotunda; Melonis barleeanus; Melonis pompilioides; Miliolinella subrotunda; N. fragilis; N. iridea; N. turgida; Nannoconus fragilis; Nonionella fragilis; Nonionella iridea; Nonionella turgida; O. umbonatus; Oridorsalis umbonatus; OXCAL; P. aequalis; P. bulloides; P. elongata; P. glandulinoformis; P. murrhina; P. salisburyi; P. simplex; Pseudoglandulina aequalis; Pseudoglandulina glandulinoformis; Pullenia bulloides; Pullenia salisburyi; Pullenia simplex; Pyrgo elongata; Pyrgo murrhina; PyrgoP.murrhina; Pyrgo sp.; Q. pescicula; Q. seminula; Q. venusta; Q. weaveri; Quadrimorphina pescicula; Quinqueloculina seminula; Quinqueloculina venusta; Quinqueloculina weaveri; R. tasmanica; Reference; Reference/source; Roberta tasmanica; S. ampullacea; S. bulloides; Siphouvigerina ampullacea; sp. 1; sp. 2; sp. 3; sp. 4; sp. 5; sp. 6; sp. 7; sp. 8; Sphaeroidina bulloides; Stainforthia sp.; T. hanzawai; T. tricarinata; Tosaia hanzawai; Triloculina tricarinata; U. auberiana; uncorrected; Uvigerina auberiana; Uvigerina sp.; varia 7
Tipo	Dataset

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