火灾、火山活动和气候变化:控制印度尼西亚苏拉威西热带兰托亚湖汞(Hg)积累速率的主要因素(~ 16,500-540 cal yr BP)

Jalene Nalbant, Larissa Schneider, Rebecca Hamilton, Simon Connor, Harald Biester, Hilary Stuart-Williams, Olga Bergal-Kuvikas, Geraldine Jacobsen, Janelle Stevenson
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引用次数: 0

摘要

气候变化对长期汞循环的影响仍然没有得到很好的理解,因为气候变化通常是渐进的,只能使用高分辨率档案进行评估。我们的研究地点(印度尼西亚苏拉威西岛的一个小型低地构造湖)提供了一个独特的机会,可以进一步了解更新世到全新世过渡时期东南亚(SEA)热带地区的汞循环,这是一个气候变化显著的时期。本文介绍了苏拉威西岛热带兰托亚湖沉积物中晚冰期和全新世汞沉积的高分辨率记录。利用多代理框架(包括花粉、木炭、碳氮比和高分辨率地球化学记录),研究了沉积物中汞积累速率(HgAR)对气候变化的响应,时间跨度为~ 16,488 ~ 538 cal BP。这一时期包括b ølling- allero ød (BA)变暖、新仙女木期(YD)变冷和全新世变暖事件,为全球气候变化对SEA沉积物HgAR的影响提供了新的认识。更新世末期具有最高的HgAR和显著的变异(µ= 11.32,5.38 ~ 33.91 μg m−2 yr−1),此时较为干燥的环境和较高的木炭积累速率表明,火灾活动是汞进入湖泊的主要来源。在全新世过渡时期,由于潮湿环境阻止了森林燃烧,HgAR降低(µ= 8,3.50 ~ 18.84 μg m−2 yr−1),随后在全新世早期HgAR升高(µ= 11.35,3.30 ~ 158.32 μg m−2 yr−1)。晚全新世的汞积累速率(µ= 3.80,1,67 ~ 43.65 μg m−2 yr−1)是Lantoa湖记录中最低的,火灾事件最少,集水区稳定。晚全新世碳氮比的增加,加上HgAR的下降,表明低地森林的建立抑制了汞的侵蚀/淋滤。研究结果表明,森林火灾、植被变化和火山活动是兰托亚湖汞输入的重要驱动因素,这种关系在很大程度上受到气候和湖泊流域动态的中介作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fire, volcanism and climate change: the main factors controlling mercury (Hg) accumulation rates in Tropical Lake Lantoa, Sulawesi, Indonesia (∼16,500–540 cal yr BP)
The effects of climate change on long-term mercury (Hg) cycling are still not well understood, as climate changes are usually gradual and can only be assessed using high-resolution archives. Our study site (a small, lowland tectonic lake in Sulawesi, Indonesia) provides a unique opportunity to further understanding of Hg cycling in the Southeast Asian (SEA) tropics during the transition from the Pleistocene to the Holocene, a period of significant climate variability. We present a high-resolution record of Late Glacial and Holocene Hg deposition within the sediments of tropical Lake Lantoa, Sulawesi. Using a multi-proxy framework (including pollen, charcoal, carbon:nitrogen ratio and high-resolution geochemistry records) we investigate the response of Hg accumulation rates (HgAR) in sediments to shifts in climate between ∼16,488 and 538 cal BP. This period encompasses the Bølling-Allerød (BA) warming, Younger Dryas (YD) cooling and Holocene warming events, providing new insights into the effects of global climatic transitions on HgAR in SEA sediments. The Pleistocene Termination had the highest HgAR and substantial variability (µ = 11.32, 5.38–33.91 μg m −2 yr −1 ), when drier conditions and high charcoal accumulation rates suggest that fire activity was the main source of Hg to the lake. The Holocene Transition was marked by a decrease in HgAR (µ = 8, 3.50–18.84 μg m −2 yr −1 ) as humid conditions precluded forest burning, followed by high HgAR (µ = 11.35, 3.30–158.32 μg m −2 yr −1 ) in the Early Holocene. Mercury accumulation rate in the Late Holocene (µ = 3.80, 1,67–43.65 μg m −2 yr −1 ) was the lowest in the Lake Lantoa record, marked by the lowest fire events and a stable catchment. An increase in carbon:nitrogen ratios during the Late Holocene, coupled with a decrease in HgAR, suggests that the establishment of lowland forest resulted in suppressed Hg erosion/leaching. Our results demonstrate that forest fires, vegetation change and volcanism are important drivers of Hg inputs to Lake Lantoa, a relationship which is strongly mediated by climate and lake-catchment dynamics.
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