Late Quaternary paleoproductivity history on the Vancouver Island margin, western Canada: a multiproxy geochemical studyThis article is one of a series of papers published in this Special Issue on the theme Polar Climate Stability Network

Multiproxy analysis of a 38 m long sediment core recovered from the Vancouver Island margin (48.97°N, 127.04°W, water depth 1243 m) has yielded a millennial-scale history of upwelling and export production over the last ∼50 ka. Higher concentrations of marine organic carbon, opal, and trace Mo sugge...

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Published inCanadian journal of earth sciences Vol. 45; no. 11; pp. 1283 - 1297
Main Authors Chang, Alice S, Pedersen, Thomas F, Hendy, Ingrid L
Format Journal Article
LanguageEnglish
Published 01.11.2008
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Abstract Multiproxy analysis of a 38 m long sediment core recovered from the Vancouver Island margin (48.97°N, 127.04°W, water depth 1243 m) has yielded a millennial-scale history of upwelling and export production over the last ∼50 ka. Higher concentrations of marine organic carbon, opal, and trace Mo suggest that production was higher, and sedimentary pore waters more anoxic, during the warm Holocene, Bølling-Allerød, and interstadial events between 31 and 44 ka BP. Relatively lower production and higher inputs of terrigenous organic matter occurred during the last glacial (14.7-31 ka BP;; Cordilleran ice sheet proximal to coring site at ∼19.5 ka BP) and from 44-50.4 ka BP. Enrichments in sedimentary δ 15 N during interstadial events are interpreted to reflect episodic delivery and upwelling of isotopically heavy nitrate to the surface waters and subsequent vectoring to the seafloor via settling planktonic detritus. Similar patterns are seen in southern California and other areas along the western margin of North America, implying that heavier nitrate generated by denitrification in the Eastern Tropical North Pacific has in the past been carried northward in the California Undercurrent at least as far as central Vancouver Island. This inference is consistent with modern hydrographic observations in the region. Comparison of the coherent Vancouver Island, Oregon, California, and northwest Mexico margin records with late Pleistocene climate history in Greenland reinforces the conclusion that a tight physical and biogeochemical coupling has existed for at least 50 ka between the North Atlantic and North American margin waters, including those off Vancouver Island.
AbstractList Multiproxy analysis of a 38 m long sediment core recovered from the Vancouver Island margin (48.97°N, 127.04°W, water depth 1243 m) has yielded a millennial-scale history of upwelling and export production over the last ∼50 ka. Higher concentrations of marine organic carbon, opal, and trace Mo suggest that production was higher, and sedimentary pore waters more anoxic, during the warm Holocene, Bølling–Allerød, and interstadial events between 31 and 44 ka BP. Relatively lower production and higher inputs of terrigenous organic matter occurred during the last glacial (14.7–31 ka BP; Cordilleran ice sheet proximal to coring site at ∼19.5 ka BP) and from 44–50.4 ka BP. Enrichments in sedimentary δ 15 N during interstadial events are interpreted to reflect episodic delivery and upwelling of isotopically heavy nitrate to the surface waters and subsequent vectoring to the seafloor via settling planktonic detritus. Similar patterns are seen in southern California and other areas along the western margin of North America, implying that heavier nitrate generated by denitrification in the Eastern Tropical North Pacific has in the past been carried northward in the California Undercurrent at least as far as central Vancouver Island. This inference is consistent with modern hydrographic observations in the region. Comparison of the coherent Vancouver Island, Oregon, California, and northwest Mexico margin records with late Pleistocene climate history in Greenland reinforces the conclusion that a tight physical and biogeochemical coupling has existed for at least 50 ka between the North Atlantic and North American margin waters, including those off Vancouver Island.
Multiproxy analysis of a 38 m long sediment core recovered from the Vancouver Island margin (48.97°N, 127.04°W, water depth 1243 m) has yielded a millennial-scale history of upwelling and export production over the last ∼50 ka. Higher concentrations of marine organic carbon, opal, and trace Mo suggest that production was higher, and sedimentary pore waters more anoxic, during the warm Holocene, Bølling-Allerød, and interstadial events between 31 and 44 ka BP. Relatively lower production and higher inputs of terrigenous organic matter occurred during the last glacial (14.7-31 ka BP;; Cordilleran ice sheet proximal to coring site at ∼19.5 ka BP) and from 44-50.4 ka BP. Enrichments in sedimentary δ 15 N during interstadial events are interpreted to reflect episodic delivery and upwelling of isotopically heavy nitrate to the surface waters and subsequent vectoring to the seafloor via settling planktonic detritus. Similar patterns are seen in southern California and other areas along the western margin of North America, implying that heavier nitrate generated by denitrification in the Eastern Tropical North Pacific has in the past been carried northward in the California Undercurrent at least as far as central Vancouver Island. This inference is consistent with modern hydrographic observations in the region. Comparison of the coherent Vancouver Island, Oregon, California, and northwest Mexico margin records with late Pleistocene climate history in Greenland reinforces the conclusion that a tight physical and biogeochemical coupling has existed for at least 50 ka between the North Atlantic and North American margin waters, including those off Vancouver Island.
Abstract_FL Une analyse de multiples indicateurs substituts dans une carotte de sédiments de 38 m prélevée à la limite de l'île de Vancouver (48,97°N, 127,04°O, profondeur d'eau de 1243 m) a donné un historique d'échelle millénaire de remontée d'eau et de production au cours des derniers 50 milliers d'années. Des concentrations plus élevées de carbone organique marin, d'opale et de traces de Mo suggèrent une la production plus élevée et des eaux de pores sédimentaires plus anoxiques au cours de l'Holocène chaud, du Bølling-Allerød et des événements interstadiaires il y a entre 31 et 44 milliers d'années avant le présent (ka BP). Il y avait relativement moins de production et plus d'intrants de matière organique terrigène durant la dernière période glaciaire (14,7-31 ka BP;; l'Inlandsis de la Cordillère était présent à proximité du site de carottage vers 19,5 ka BP) et de 44-50,4 ka BP. Des enrichissements en δ 15 N durant les événements interstadiaires sont interprétés comme le reflet de livraisons épisodiques et de la remontée de nitrate isotopiquement lourd vers les eaux de surface puis d'un cheminement vers le fond de l'océan avec les détritus de plancton. Des patrons similaires peuvent être constatés dans le sud de la Californie et à d'autres endroits le long de la bordure ouest de l'Amérique du Nord, impliquant que le nitrate plus lourd, généré par de la dénitrification dans l'Est tropical du Pacifique Nord, a jadis été porté vers le nord par le sous-courant de la Californie et s'est rendu au moins aussi loin que le centre de l'île de Vancouver. Cette inférence concorde avec les observations hydrographiques modernes dans la région. Une comparaison des données de bordure de l'île de Vancouver, de l'Oregon, de la Californie et du nord-ouest du Mexique, cohérentes avec l'historique climatique au Pléistocène tardif au Groenland, appuie la conclusion que, pour au moins 50 ka, il existait un jumelage physique et biogéochimique serré entre les eaux de bordure de l'Amérique du Nord et de l'Atlantique Nord, incluant les eaux au large de l'île de Vancouver.
Author Chang, Alice S
Hendy, Ingrid L
Pedersen, Thomas F
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Snippet Multiproxy analysis of a 38 m long sediment core recovered from the Vancouver Island margin (48.97°N, 127.04°W, water depth 1243 m) has yielded a...
Multiproxy analysis of a 38 m long sediment core recovered from the Vancouver Island margin (48.97°N, 127.04°W, water depth 1243 m) has yielded a...
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Title Late Quaternary paleoproductivity history on the Vancouver Island margin, western Canada: a multiproxy geochemical studyThis article is one of a series of papers published in this Special Issue on the theme Polar Climate Stability Network
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