Development of Precipitation, Evaporation and Temperature Records from Tropical Lake Sediments and Cave Deposits for the last 700,000 years

过去 70 万年热带湖泊沉积物和洞穴沉积物的降水、蒸发和温度记录的发展

• 批准号: 2102996
• 负责人: Donald Rodbell
• 金额: $ 54.12万
• 依托单位: Union College
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2021
• 资助国家: 美国
• 起止时间: 2021-07-15 至 2024-06-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2102996&HistoricalAwards=false
• 关键词: Development; Precipitation; Evaporation; Temperature; Records

This award is funded in whole or in part under the American Rescue Plan Act of 2021 (Public Law 117-2).The influence of increasing global temperatures on people and ecosystems varies across the world. In tropical regions, the impact is felt mostly in terms of water availability. Deposits preserved in caves and lakes provide key insights into how tropical environments responded to past climate change. This study will build a 700 thousand year-long record from cave deposits and lake sediments in Peru to understand how a changing global climate affects precipitation, temperature and humidity in the upper reaches of the Amazon Basin. The findings from this work will apply to understanding the impacts of climate change in this region and extend globally, as the Amazon is home to the world’s largest rainforest and an important regulator of the global carbon cycle. This project will integrate researchers at three research universities and one undergraduate liberal arts college. Undergraduate students will interface with graduate students through all aspects of the proposed work, and a postdoctoral fellow will be based at the liberal arts institution and will work with teams at the research universities. In addition, scientists will collaborate with faculty and students in Peru to establish a monitoring program for regional caves, lakes and precipitation, and on a public outreach program aimed at climate change education led by community members. Researchers will expand participation of underrepresented minority students in the Earth sciences through development of a hands-on hydrology and climate change module as part of the University of Michigan Earth Camp, an experiential learning program for high school students.Researchers will combine analyses of a suite of paleoclimate proxies using both the 700,000 year-long Lake Junín sediment record and deposits from nearby caves, to produce a near-continuous, composite record of precipitation-evaporation balance and temperature for the upper Amazon Basin for the last 700,000 years. The National Science Foundation and the International Continental Drilling Program funded the successful collection of the Lake Junín drill core in 2015, and the cave deposits were collected in 2019 using university funds. Researchers will combine the well-dated Lake Junín drill core with a composite speleothem (cave) record dated by precise U-Th geochronology, and will use these archives to build records of precipitation, evaporation, and temperature, that will enable synthesis of our new data with existing records to investigate coupled climate systems in the Amazon Basin (monsoon strength and Atlantic meridional overturning circulation), climate sensitivity under different boundaryconditions, and hydrologic change during periods of large and rapid changes in forcing.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

该奖项全部或部分由2021年美国救援计划法案（公法117-2）资助。全球气温升高对人类和生态系统的影响在世界各地各不相同。在热带地区，影响主要体现在水的供应方面。保存在洞穴和湖泊中的沉积物为了解热带环境如何应对过去的气候变化提供了关键的见解。这项研究将从秘鲁的洞穴沉积物和湖泊沉积物中建立一个长达70万年的记录，以了解不断变化的全球气候如何影响亚马逊盆地上游的降水、温度和湿度。这项工作的结果将适用于了解气候变化在该地区的影响，并扩展到全球，因为亚马逊是世界上最大的雨林和全球碳循环的重要调节器。该项目将整合三所研究型大学和一所本科文科学院的研究人员。 本科生将通过拟议工作的各个方面与研究生进行交流，博士后研究员将在文科机构工作，并将与研究型大学的团队合作。 此外，科学家们将与秘鲁的教师和学生合作，建立一个区域洞穴、湖泊和降水的监测计划，以及一个旨在由社区成员领导的气候变化教育的公共宣传计划。作为密歇根大学地球营的一部分，研究人员将通过开发一个实践水文和气候变化模块来扩大少数民族学生在地球科学领域的参与，这是一个面向高中生的体验式学习项目。研究人员将利用胡宁湖70万年的沉积物记录和附近洞穴的沉积物，在过去的70万年里，亚马逊河上游盆地的降水蒸发平衡和温度几乎是连续的，复合记录。国家科学基金会和国际大陆钻探计划于2015年资助了胡宁湖岩心的成功采集，并于2019年利用大学资金收集了洞穴沉积物。 研究人员将联合收割机将胡宁湖的钻孔岩芯与精确的U-Th地质年代学确定的复合洞穴记录结合起来，并将利用这些档案建立降水、蒸发和温度的记录，这将使我们的新数据与现有记录相结合，以研究亚马逊盆地的耦合气候系统（季风强度和大西洋纬向翻转环流），不同边界条件下的气候敏感性，该奖项反映了NSF的法定使命，并被认为是值得支持的，使用基金会的知识价值和更广泛的影响审查标准进行评估。

项目成果

Determining the source of speleothem δ18O variability from in situ measurements of seasonal and inter-annual isotope trends in precipitation, cave drip water and modern calcite from sites in the Central Peruvian Andes

通过对秘鲁中部安第斯山脉地区降水、洞穴滴水和现代方解石的季节性和年际同位素趋势进行现场测量，确定洞穴沉积物 δ18O 变化的来源

• 发表时间: 2022
• 期刊: IL
• 作者: Olson, E.J.

South American Hydroclimate Change on Millennial and Orbital Timescales: Insights From 70,000 Year Amazon and Andes Speleothem Records.

千禧年和轨道时间尺度上的南美洲水文气候变化：来自 70,000 年亚马逊和安第斯山脉洞穴记录的见解。

• 发表时间: 2021
• 期刊: AGU Fall meeting
• 作者: Parmenter, D.