DOI: 10.5194/cp-11-473-2015
Scopus记录号: 2-s2.0-84925364243
论文题名: Early Paleogene variations in the calcite compensation depth: New constraints using old borehole sediments from across Ninetyeast Ridge, central Indian Ocean
作者: Slotnick B.S. ; Lauretano V. ; Backman J. ; Dickens G.R. ; Sluijs A. ; Lourens L.
刊名: Climate of the Past
ISSN: 18149324
出版年: 2015
卷: 11, 期: 3 起始页码: 473
结束页码: 493
语种: 英语
Scopus关键词: air-sea interaction
; borehole
; calcite
; carbon cycle
; compensation
; deep-sea sediment
; global change
; paleoclimate
; Paleogene
; Indian Ocean
; Ninetyeast Ridge
; Discoaster
英文摘要: Major variations in global carbon cycling occurred between 62 and 48 Ma, and these very likely related to changes in the total carbon inventory of the ocean-atmosphere system. Based on carbon cycle theory, variations in the mass of the ocean carbon should be reflected in contemporaneous global ocean carbonate accumulation on the seafloor and, thereby, the depth of the calcite compensation depth (CCD). To better constrain the cause and magnitude of these changes, the community needs early Paleogene carbon isotope and carbonate accumulation records from widely separated deep-sea sediment sections, especially including the Indian Ocean. Several CCD reconstructions for this time interval have been generated using scientific drill sites in the Atlantic and Pacific oceans; however, corresponding information from the Indian Ocean has been extremely limited. To assess the depth of the CCD and the potential for renewed scientific drilling of Paleogene sequences in the Indian Ocean, we examine lithologic, nannofossil, carbon isotope, and carbonate content records for late Paleocene - early Eocene sediments recovered at three sites spanning Ninetyeast Ridge: Deep Sea Drilling Project (DSDP) Sites 213 (deep, east), 214 (shallow, central), and 215 (deep, west). The disturbed, discontinuous sediment sections are not ideal, because they were recovered in single holes using rotary coring methods, but remain the best Paleogene sediments available from the central Indian Ocean. The δ13C records at Sites 213 and 215 are similar to those generated at several locations in the Atlantic and Pacific, including the prominent high in δ13C across the Paleocene carbon isotope maximum (PCIM) at Site 215, and the prominent low in δ13C across the early Eocene Climatic Optimum (EECO) at both Site 213 and Site 215. The Paleocene-Eocene thermal maximum (PETM) and the K/X event are found at Site 213 but not at Site 215, presumably because of coring gaps. Carbonate content at both Sites 213 and 215 drops to <5% shortly after the first occurrence of Discoaster lodoensis and the early Eocene rise in δ13C (∼52 Ma). This reflects a rapid shoaling of the CCD, and likely a major decrease in the net flux of 13C-depleted carbon to the ocean. Our results support ideas that major changes in net fluxes of organic carbon to and from the exogenic carbon cycle occurred during the early Paleogene. Moreover, we conclude that excellent early Paleogene carbonate accumulation records might be recovered from the central Indian Ocean with future scientific drilling. © Author(s) 2015. 资助项目: ERC, European Research Council
; KNAW, European Research Council
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资源类型: 期刊论文
标识符: http://119.78.100.158/handle/2HF3EXSE/49163
Appears in Collections: 气候变化与战略
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Recommended Citation:
Slotnick B.S.,Lauretano V.,Backman J.,et al. Early Paleogene variations in the calcite compensation depth: New constraints using old borehole sediments from across Ninetyeast Ridge, central Indian Ocean[J]. Climate of the Past,2015-01-01,11(3)