Collaborative Research: P2C2--2000 Years of Variability in the Southern Annular Mode from Tree Rings and Ice

合作研究：P2C2--2000年树木年轮和冰的南环模态变化

• 批准号: 1804121
• 负责人: Amy Hessl
• 金额: $ 21.93万
• 依托单位: West Virginia University Research Corporation
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2019
• 资助国家: 美国
• 起止时间: 2019-02-01 至 2023-01-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1804121&HistoricalAwards=false
• 关键词: Collaborative; Research; P2C2; 2000; Years

This project aims to use new data from King Billy pine trees (Athrotaxis selaginella) located on subalpine ridges in southern Tasmania, Australia, in combination with two high-resolution East Antarctic ice cores, to reconstruct the behavior of the Southern Annular Mode (SAM) over the last 2,000 years. This is important because the SAM influences not only Southern Hemisphere climate but also carbon and heat uptake and Antarctic ice melt.The SAM is the leading mode of climate variability in the middle to high latitudes of the Southern Hemisphere, where it affects the strength and position of the westerly winds and, therefore, precipitation and temperature anomalies across oceans and continents. The SAM controls the strength and position of the Southern Hemisphere westerlies, and therefore links large-scale climate anomalies across multiple continents and oceans. These subpolar winds also modulate the uptake of heat and carbon by the Southern Ocean and affect the cryosphere.While investigations of Northern Hemisphere climate dynamics have benefitted from a robust network of annually resolved climate proxies, the Southern Hemisphere has far more limited paleoclimate data during the Common Era, particularly in the Indian Ocean sector, the most climate data-sparse region globally. The recently discovered sub-fossil wood from King Billy pine trees provides a new opportunity for generating multi-millennial reconstructions of regional temperature and sea level pressure - key indicators of the SAM at mid-latitudes. This network of tree sites builds on and complements another emerging network of high-resolution climate records from east Antarctic ice. A new environmental reconstruction, centered on the Indian Ocean sector of the Southern Hemisphere, will help address significant uncertainties in existing SAM reconstructions from the Pacific sector and allow an assessment of the role of internal dynamics and natural forcing of Southern Hemisphere climate prior to human modifications of the atmosphere. Further, new data and reconstructions help make possible identification and quantification of uncertainty related to proxy type, location, and seasonality, and the influence of these on inferences about the timing and emergence of trends in the SAM. New environmental and climatological reconstructions also help explore what drives variability in this dynamical feature. These new reconstructions may extend existing reconstructions of SAM from the Antarctic Peninsula by at least 1,000 years. Greater understanding of the long-term variability of SAM and its links to Indian Ocean and ENSO dynamics, as well as to external forcing mechanisms (e.g ozone depletion, greenhouse gases) using data-model comparison techniques is possible. This project strengthens international collaborations between American and Australian scientists as well as across paleoclimate disciplines (tree rings and ice cores).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.

该项目旨在利用位于澳大利亚塔斯马尼亚州南部亚高山山脊上的比利王松树（Athrotaxis selaginella）的新数据，结合两个高分辨率的南极东部冰芯，重建过去2000年来南部环状模式（SAM）的行为。这一点很重要，因为SAM不仅影响南半球气候，还影响碳和热吸收以及南极冰融化。SAM是南半球中高纬度地区气候变率的主要模态，它影响西风的强度和位置，从而影响海洋和大陆的降水和温度异常。SAM控制着南半球西风带的强度和位置，因此将跨多个大陆和海洋的大规模气候异常联系起来。这些次极地风还调节了南大洋对热量和碳的吸收，并影响了冰冻圈。北半球气候动力学的调查得益于每年解决的气候代理的强大网络，南半球在Common Era期间的古气候数据要有限得多，特别是在全球气候数据最稀疏的地区印度洋地区。最近发现的比利王松树的亚化石木材为生成中纬度SAM的关键指标区域温度和海平面压力的千年重建提供了新的机会。这个树木站点网络建立在另一个新兴的南极东部冰的高分辨率气候记录网络的基础上，并对其进行了补充。以南半球印度洋部分为中心的新环境重建将有助于解决现有太平洋部分SAM重建中的重大不确定性，并允许评估在人类改变大气之前南半球气候的内部动力和自然强迫的作用。此外，新的数据和重建有助于识别和量化与代理类型、位置和季节性相关的不确定性，以及这些因素对推断SAM趋势出现的时间和出现的影响。新的环境和气候重建也有助于探索是什么驱动了这一动态特征的变化。这些新的重建可能将南极半岛现有的SAM重建至少延长1000年。利用数据模式比较技术可以更好地了解SAM的长期变率及其与印度洋和ENSO动力学以及与外部强迫机制（例如臭氧消耗、温室气体）的联系。该项目加强了美国和澳大利亚科学家之间的国际合作，以及古气候学科（树木年轮和冰芯）之间的合作。该奖项反映了美国国家科学基金会的法定使命，并通过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，被认为值得支持。

项目成果

A data assimilation approach to last millennium temperature field reconstruction using a limited high-sensitivity proxy network

使用有限高灵敏度代理网络重建上千年温度场的数据同化方法

• DOI: 10.1175/jcli-d-20-0661.1
• 发表时间: 2021
• 期刊: Journal of Climate
• 影响因子: 4.9
• 作者: King, Jonathan M.;Anchukaitis, Kevin J.;Tierney, Jessica E.;Hakim, Gregory J.;Emile-Geay, Julien;Zhu, Feng;Wilson, Rob
• 通讯作者: Wilson, Rob

High Resolution Radiocarbon Spike Confirms Tree Ring Dating with Low Sample Depth

• DOI: 10.1016/j.dendro.2022.126048
• 发表时间: 2022-12
• 期刊: Dendrochronologia
• 影响因子: 3
• 作者: Meagan Walker;Alexis Mueller;K. Allen;Pavla Fenwick;V. Agrawal;K. Anchukaitis;A. Hessl

Investigating the potential for Southern Hemisphere climate reconstruction using stable isotopes in Tasmanian tree rings

研究利用塔斯马尼亚树木年轮中的稳定同位素重建南半球气候的潜力

• DOI: 10.1016/j.dendro.2022.126016
• 发表时间: 2022
• 期刊: Dendrochronologia
• 影响因子: 3
• 作者: Grzywacz, Zachary;Hessl, Amy;Anchukaitis, Kevin;Sharma, Shikha;Evans, Michael N.;Nichols, Scott
• 通讯作者: Nichols, Scott

Relationship Between Weather Regimes and Atmospheric Rivers in East Antarctica

• DOI: 10.1029/2021jd035294
• 发表时间: 2021-12
• 期刊: Journal of Geophysical Research: Atmospheres
• 作者: B. Pohl;V. Favier;J. Wille;Danielle G. Udy;T. Vance;J. Pergaud;Niels Dutrievoz;J. Blanchet;C. Kittel;C. Amory;G. Krinner;Francis Codron