检测加利福尼亚州内华达山脉高海拔湖泊受气候影响的生态变化

Laura Lopera-Congote, Michael M. McGlue, Karlyn S Westover, Kevin Yeager, Laura Streib, Jeffery R Stone
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摘要

在过去几十年里,加利福尼亚内华达山脉的气候越来越不稳定,主要表现为冬季降水量减少和气温升高,导致干旱更加频繁。该地区的高海拔湖泊一直被描述为原始生态系统,但越来越多的证据表明,它们正在对气候变化做出剧烈反应。为此,我们分析了内华达山脉东部两个 210Pb 年代沉积物岩心(海鸥湖和茱恩湖)中的硅藻群落,目的是评估它们对新冰期末期(约西元 1450 年至约西元 1850 年)气候变化的敏感性和响应时间,并确定气候驱动因素如何影响硅藻群落。这两个湖泊的营养循环都因气温升高导致的热分层变化而受到破坏,这可以从Stephanodiscus corruscus为主的生态系统转变为Stephanodiscus minutulus为主的生态系统得到解释。在这种情况下,六月湖(较深的湖泊)硅藻群从代表混合状况的硅藻群转变为代表鸥湖之前的分层系统的硅藻群,这是温度升高和温跃层加强的反应。我们将温跃层稳定性的非同步变化与盆地形态联系起来,在盆地形态中,温跃层较深的湖泊对温度升高更为敏感。此外,通过广义加和模型(GAMs),我们确定了两个湖泊生态变化的起始时间,即小冰河时期(LIA;约公元 1850 年)的结束时间,揭示了对气候变化的急性响应。
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Detecting climate-driven ecological changes in high-altitude lakes in the Sierra Nevada, California
Over the past several decades, increasing climate instability in the Sierra Nevada, California, expressed primarily as reduced winter precipitation and higher temperatures, has led to more frequent drought. High-altitude lakes in this region have been characterized as pristine ecosystems, but growing evidence suggests that they are responding acutely to climate change. To address this, we analyzed the diatom assemblages of two 210Pb dated sediment cores (Gull and June Lakes) from the eastern Sierra Nevada with the aim of assessing their sensitivity to and timing of responses to climate change at the end of the neoglacial (~1450 CE to ~1850 CE) and identifying how climate drivers can impact diatom communities. The nutrient cycles of both lakes have been disrupted by changes in thermal stratification, driven by increasing temperatures, as interpreted from the shift from a Stephanodiscus corruscus dominated ecosystem to a Stephanodiscus minutulus dominance. In this case, the June Lake (the deeper lake) diatom assemblage shifted from an assemblage representative of well mixed conditions to one representative of a stratified system before Gull Lake as a response to increasing temperatures and a strengthened thermocline. We relate the asynchronous change in the thermocline stability to basin morphology, where the deeper lake with a deeper thermocline is more sensitive to increasing temperatures. Further, generalized additive models (GAMs) allowed us to identify the onset of ecological change in both lakes, pointing to the termination of the Little Ice Age (LIA; ~1850 CE), revealing an acute response to changing climate.
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