Abrupt Climate Change and Transient Climates during the Paleogene: A Marine Perspective

古近纪 地质学 气候学 冰期 全新世气候适宜期 气候状态 气候变化 洋流 深海 海洋学 纬度 全球降温 全球变暖 气候突变 生产力 有孔虫 古生物学 全球变暖的影响 构造盆地 底栖区 大地测量学 经济 宏观经济学
作者
James C. Zachos,Kyger C. Lohmann,James C. G. Walker,Sherwood W Wise
出处
期刊:The Journal of Geology [University of Chicago Press]
卷期号:101 (2): 191-213 被引量:493
标识
DOI:10.1086/648216
摘要

Detailed investigations of high latitude sequences recently collected by the Ocean Drilling Program (ODP) indicate that periods of rapid climate change often culminated in brief transient climates, with more extreme conditions than subsequent long term climates. Two examples of such events have been identified in the Paleogene; the first in latest Paleocene time in the middle of a warming trend that began several million years earlier: the second in earliest Oligocene time near the end of a Middle Eocene to Late Oligocene global cooling trend. Superimposed on the earlier event was a sudden and extreme warming of both high latitude sea surface and deep ocean waters. Imbedded in the latter transition was an abrupt decline in high latitude temperatures and the brief appearance of a full size continental ice-sheet on Antarctica. In both cases the climate extremes were not stable, lasting for less than a few hundred thousand years, indicating a temporary or transient climate state. Geochemical and sedimentological evidence suggest that both Paleogene climate events were accompanied by reorganizations in ocean circulation, and major perturbations in marine productivity and the global carbon cycle. The Paleocene-Eocene thermal maximum was marked by reduced oceanic turnover and decreases in global delta 13C and in marine productivity, while the Early Oligocene glacial maximum was accompanied by intensification of deep ocean circulation and elevated delta 13C and productivity. It has been suggested that sudden changes in climate and/or ocean circulation might occur as a result of gradual forcing as certain physical thresholds are exceeded. We investigate the possibility that sudden reorganizations in ocean and/or atmosphere circulation during these abrupt transitions generated short-term positive feedbacks that briefly sustained these transient climatic states.
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