Benthic有孔虫表明,自Mid-Brunhes过渡以来,白令海Bowers山脊上的北太平洋中层水和初级生产力降低

IF 4.1 3区 地球科学 Q1 PALEONTOLOGY Journal of Micropalaeontology Pub Date : 2019-12-03 DOI:10.5194/jm-38-177-2019
S. Kender, A. Aturamu, J. Zalasiewicz, M. Kaminski, M. Williams
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引用次数: 7

摘要

摘要在中布鲁内斯过渡期(MBT),冰芯和深海记录中表达的冰川周期的振幅从大约400增加 ka,但其对高纬度气候的影响并不完全。北冰洋被认为已经变暖,海冰减少,但对白令海等海冰边缘地区知之甚少。白令海是连接北冰洋和太平洋的纽带,是一个生产力高、二氧化碳排放量大的地区;没有明显的氧最低带(OMZ),被认为是更新世北太平洋冰川中间水(GNPIW)形成的位置。为了了解该地区的古海洋地理变化,分析了鲍尔斯山脊(U1342800)的底栖有孔虫动物群 mof水深) kyr,因为它们保存完好,对深海和表层海洋条件的变化非常敏感。我们鉴定和分析了71个分类群,并提供了一个完整的分类学。在冰川期,有孔虫的保存率明显较高,表明存在腐蚀性较小的GNPIW。最丰富的物种是出口Bulimina exilis、美味Takayanagia delicata、韦德尔Alabaminella weddellensis、Gyroidina sp.2、金钱子Cassidulina laevigata、北十字Islandiella和分叉Uvigerina divoca,在过去600年中与大致较高的净初级产量一致 kyr。对应分析表明,最显著的组合1包括B。exilis、T.delicata、Bolivina spissa和Brizalina,它们偶尔出现在富含生物成因的层状沉积物的间隔内,主要发生在冰川期和一些退冰川期,被解释为表明生产力非常高。其他组合包括植物碎屑动物物种A.weddellensis、I.norcrossi和C.laevigata,这表明季节性的hytopankton开花。在MBT之前,出现了更多的超高产组合1和A.weddellensis的间隔,我们认为这反映了与海冰相关的季节性分层和冰缘水华增多的时期。我们对MBT后白令海中部海冰融水分层影响减少的推断与北极和太平洋在冰川作用期间变暖的记录一致,并表明高纬度生产力和海冰变化是这一气候事件的一个重要特征。
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Benthic foraminifera indicate Glacial North Pacific Intermediate Water and reduced primary productivity over Bowers Ridge, Bering Sea, since the Mid-Brunhes Transition
Abstract. The Mid-Brunhes Transition (MBT) saw an increase in the amplitude of glacial cycles expressed in ice core and deep ocean records from about 400 ka, but its influence on high-latitude climates is not fully understood. The Arctic Ocean is thought to have warmed and exhibited reduced sea ice, but little is known of sea ice marginal locations such as the Bering Sea. The Bering Sea is the link between the Arctic and Pacific Ocean and is an area of high productivity and CO2 ventilation; it hosts a pronounced oxygen minimum zone (OMZ) and is thought to be the location of Glacial North Pacific Intermediate Water (GNPIW) formation in the Pleistocene. To understand palaeoceanographic change in the region, we analysed benthic foraminiferal faunas from Bowers Ridge (Site U1342, 800 m of water depth) over the past 600 kyr, as they are uniquely well preserved and sensitive to changes in deep and surface ocean conditions. We identified and imaged 71 taxa and provide a full taxonomy. Foraminiferal preservation is markedly higher during glacials, indicating the presence of less corrosive GNPIW. The most abundant species are Bulimina exilis, Takayanagia delicata, Alabaminella weddellensis, Gyroidina sp. 2, Cassidulina laevigata, Islandiella norcrossi, and Uvigerina bifurcata, consistent with broadly high net primary production throughout the last 600 kyr. Correspondence analysis shows that the most significant Assemblage 1 comprises B. exilis, T. delicata, Bolivina spissa, and Brizalina, which occur sporadically within intervals of laminated, biogenic-rich sediment, mostly during glacials and also some deglacials, and are interpreted as indicating very high productivity. Other assemblages contain the phytodetritivore species A. weddellensis, I. norcrossi, and C. laevigata, indicative of seasonal phytoplankton blooms. Before the MBT, more numerous intervals of the very high-productivity Assemblage 1 and A. weddellensis occur, which we suggest reflect a time of more sea-ice-related seasonal stratification and ice edge blooms. Our inference of a decrease in sea ice meltwater stratification influence in the central Bering Sea after the MBT is consistent with records showing that the Arctic and Pacific Ocean warmed during glacials and suggests that high-latitude productivity and sea ice changes were an important feature of this climate event.
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来源期刊
Journal of Micropalaeontology
Journal of Micropalaeontology 生物-古生物学
CiteScore
4.30
自引率
5.00%
发文量
7
审稿时长
>12 weeks
期刊介绍: The Journal of Micropalaeontology (JM) is an established international journal covering all aspects of microfossils and their application to both applied studies and basic research. In particular we welcome submissions relating to microfossils and their application to palaeoceanography, palaeoclimatology, palaeobiology, evolution, taxonomy, environmental change and molecular phylogeny.
期刊最新文献
Late Miocene to Early Pliocene benthic foraminifera from the Tasman Sea (Integrated Ocean Drilling Program Site U1506) Palsys.org: an open-access taxonomic and stratigraphic database of organic-walled dinoflagellate cysts Miocene Climatic Optimum fungal record and plant-based CREST climatic reconstruction from southern McMurdo Sound, Antarctica Triassic and Jurassic possible planktonic foraminifera and the assemblages recovered from the Ogrodzieniec Glauconitic Marls Formation (uppermost Callovian and lowermost Oxfordian, Jurassic) of the Polish Basin Dinoflagellate cyst and pollen assemblages as tracers for marine productivity and river input in the northern Gulf of Mexico
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