| DOI: | 10.1016/j.quascirev.2016.01.002
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| Scopus记录号: | 2-s2.0-84954496807
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| 论文题名: | Oxygen-isotope variations in post-glacial Lake Ontario |
| 作者: | Hladyniuk R.; Longstaffe F.J.
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| 刊名: | Quaternary Science Reviews
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| ISSN: | 2773791
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| 出版年: | 2016
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| 卷: | 134 | | 起始页码: | 39
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| 结束页码: | 50
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| 语种: | 英语
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| 英文关键词: | Glacial meltwater
; Lake Ontario
; Late-Quaternary climate change
; Laurentide ice sheet
; Oxygen isotopes
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| Scopus关键词: | Climate change
; Glacial geology
; Glaciers
; Grain size and shape
; Isotopes
; Minerals
; Oxygen
; Sediments
; Glacial meltwater
; Lake Ontario
; Late quaternary
; Laurentide ice sheets
; Oxygen isotopes
; Lakes
; Bivalvia
; Ostracoda
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| 英文摘要: | The role of glacial meltwater input to the Atlantic Ocean in triggering the Younger Dryas (YD) cooling event has been the subject of controversy in recent literature. Lake Ontario is ideally situated to test for possible meltwater passage from upstream glacial lakes and the Laurentide Ice Sheet (LIS) to the Atlantic Ocean via the lower Great Lakes. Here, we use the oxygen-isotope compositions of ostracode valves and clam shells from three Lake Ontario sediment cores to identify glacial meltwater contributions to ancient Lake Ontario since the retreat of the LIS (~16,500 cal [13,300 14C] BP). Differences in mineralogy and sediment grain size are also used to identify changes in the hydrologic regime. The average lakewater δ18O of -17.5‰ (determined from ostracode compositions) indicates a significant contribution from glacial meltwater. Upon LIS retreat from the St. Lawrence lowlands, ancient Lake Ontario (glacial Lake Iroquois) lakewater δ18O increased to -12‰ largely because of the loss of low-18O glacial meltwater input. A subsequent decrease in lakewater δ18O (from -12 to -14‰), accompanied by a median sediment grain size increase to 9 μm, indicates that post-glacial Lake Ontario received a final pulse of meltwater (~13,000-12,500 cal [11,100-10,500 14C] BP) before the onset of hydrologic closure. This meltwater pulse, which is also recorded in a previously reported brief freshening of the neighbouring Champlain Valley (Cronin et al., 2012), may have contributed to a weakening of thermohaline circulation in the Atlantic Ocean. After 12,900 cal [11,020 14C] BP, the meltwater presence in the Ontario basin continued to inhibit entry of Champlain seawater into early Lake Ontario. Opening of the North Bay outlet diverted upper Great Lakes water from the lower Great Lakes causing a period (12,300-8300 cal [10,400-7500 14C] BP) of hydrologic closure in Lake Ontario (Anderson and Lewis, 2012). This change is demarcated by a shift to higher δ18Olakewater (~-7‰), driven in part by strong evaporative conditions in the Ontario basin and in part by increasing δ18Oprecipitation at this time. The δ18Olakewater then fluctuated only slightly upon the eventual return of the upper Great Lakes water during the Nipissing phase at 5800 cal [5090 14C] cal BP (Anderson and Lewis, 2012), after which shelly fauna are no longer preserved in the sediment record. © 2016 Elsevier Ltd. |
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| 资源类型: | 期刊论文
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| 标识符: | http://119.78.100.158/handle/2HF3EXSE/59681
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| Appears in Collections: | 过去全球变化的重建
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作者单位: | Department of Earth Sciences, The University of Western Ontario, London, ON, Canada
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| Recommended Citation: | |
Hladyniuk R.,Longstaffe F.J.. Oxygen-isotope variations in post-glacial Lake Ontario[J]. Quaternary Science Reviews,2016-01-01,134
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