气候驱动的全新世中后期干旱湿地的水文演变，由美国内华达州南部下帕赫拉纳格特湖的锶、铀和氧同位素记录

IF 1.7 3区地球科学 Q3 GEOGRAPHY, PHYSICAL

Quaternary Research Pub Date : 2023-02-14 DOI:10.1017/qua.2022.72

K. Theissen, J. Paces

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引用次数: 0

摘要

摘要内华达州南部下帕拉纳加特湖（LPAH）12.4米长岩芯中的湖相碳酸盐岩表明，Sr和U的放射性同位素（87Sr/86Sr和234U/238U）保留了过去水源变化和水文条件演变的证据。LPAH碳酸盐岩中的Sr和U同位素组成属于Pahranagat山谷三个主要地下水来源定义的范围，反映了自全新世中期以来这些来源的可变混合物。最古老样本（5.78ka）中的成分与附近泉水的现代排泄物的现代成分非常匹配，表明LPAH水几乎完全来自当地火山含水层。到约5.3–5.2 ka，LPAH水成分急剧向区域碳酸盐含水层地下水中观察到的同位素成分转变，表明从碳酸盐含水层向北排放的大量泉水的地表流量显著增加。沉积在3.08–1.06 ka之间的沉积物表明区域含水层的贡献减少。LPAH碳酸盐中铀和氧同位素值的比较表明，与更干燥的条件相比，更潮湿的气候条件有利于增加更深的区域碳酸盐含水层的供应，而更浅的局部火山含水层的贡献更为重要。

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Climate-driven mid- to late Holocene hydrologic evolution of arid wetlands documented by strontium, uranium, and oxygen isotopes from Lower Pahranagat Lake, southern Nevada, USA

Abstract Lacustrine carbonates in a 12.4-m-long core from Lower Pahranagat Lake (LPAH), southern Nevada, indicate that radiogenic isotopes of Sr and U (87Sr/86Sr and 234U/238U) preserve evidence of past variations in water sources and evolving hydrologic conditions. Sr and U isotope compositions in LPAH carbonates fall within the range defined by the three primary groundwater sources in Pahranagat Valley and reflect variable mixtures of those sources since the mid-Holocene. Compositions in the oldest sample (5.78 ka) closely match modern compositions of modern discharge from nearby springs, indicating that LPAH water was derived almost exclusively from the local volcanic aquifer. By ca. 5.3–5.2 ka, LPAH water compositions shifted sharply towards isotopic compositions observed in groundwater from the regional carbonate aquifer, indicating a marked increase in surface flow from high-volume springs discharging from the carbonate aquifer to the north. Sediments deposited between 3.08–1.06 ka indicate reduced contributions from the regional aquifer. A comparison of uranium- and oxygen-isotope values in LPAH carbonates suggests that wetter climate conditions favor increased supply from deeper, regional carbonate aquifers compared to drier conditions when contributions from shallower, local volcanic aquifers were more important.

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来源期刊

Quaternary Research 地学-地球科学综合

CiteScore

4.70

自引率

8.70%

发文量

审稿时长

3 months

期刊介绍： Quaternary Research is an international journal devoted to the advancement of the interdisciplinary understanding of the Quaternary Period. We aim to publish articles of broad interest with relevance to more than one discipline, and that constitute a significant new contribution to Quaternary science. The journal’s scope is global, building on its nearly 50-year history in advancing the understanding of earth and human history through interdisciplinary study of the last 2.6 million years.