Hydroclimate variability in the Tropical Andes recorded by δ18O isotopes from a new network of Polylepis tarapacana tree-rings

IF 4 1区 地球科学 Q1 GEOGRAPHY, PHYSICAL Global and Planetary Change Pub Date : 2024-06-28 DOI:10.1016/j.gloplacha.2024.104503
Claudio Álvarez , Duncan A. Christie , Álvaro González-Reyes , Thomas T. Veblen , Gerhard Helle , Carlos LeQuesne , Milagros Rodriguez-Caton , Paul Szejner , Felipe Flores-Sáez , Tania Gipoulou-Zúñiga , Manuel Suazo-Álvarez , Tomás Muñoz-Salazar , Diego Aliste , Mariano S. Morales , Ariel Muñoz , Ricardo Villalba
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Abstract

Stable oxygen isotopes records (δ18O) in tree-rings are commonly used to assess the response of trees to environmental variability being a valuable tool for studying past climate at different temporal and spatial scales. This is particularly relevant in semi-arid regions like the southern Tropical Andes, where ongoing environmental changes coincide with a rapidly increasing demand for hydrological resources, presenting a challenge for ecosystem dynamics and water resource management. In this study, we aim to determine the main spatio-temporal variability of a new network of δ18O Polylepis tarapacana chronologies during the last century, and their relationships with hydroclimate and tropical circulation at local to subcontinental scales throughout the Tropical Andes. For this purpose, we develop six δ18O P. tarapacana tree-ring chronologies across a 450 km latitudinal moisture gradient in the southern Tropical Andes adjacent to the Atacama Desert, covering the period 1900–2007. Results show a clear latitudinal gradient in the δ18O values across the network and significant relationships are observed with other δ18O tree-ring chronologies in Tropical South America, demonstrating clear regional climate influences at a subcontinental scale. A principal component analysis of the δ18O tree-ring chronologies demonstrate a strong regional environmental signal contained in the network, exhibiting a main temporal pattern (PC1 δ18O) that explains 63% of the total variance during the period 1900–2007. Comparisons between PC1 δ18O and environmental variables showed significant negative relationships with precipitation and soil moisture, and positive relationships with temperature and vapor pressure deficit (VPD) during summer when the South American monsoon occurs. The main δ18O tree-ring network signal clearly records tropical atmospheric and circulation patterns across South America. The easterly wind flux conditions from the Amazon basin favor lower δ18O values, and the PC1 δ18O exhibit significant positive correlations with VPD across the entire Tropical Andes and the northern portion of the Amazon basin, and as well as outgoing longwave radiation across the southern Tropical Andes and part of the Amazon basin. The close relationships between the regional signals from our δ18O tree-ring network with the previously mentioned parameters, highlight the potential to develop future hydroclimatic-related reconstructions with these δ18O records to assess climate variability and change across the Tropical Andes.

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通过新的 Polylepis tarapacana 树环网络的 δ18O 同位素记录热带安第斯山脉的水文气候变异性
树环中的稳定氧同位素记录(δO)通常用于评估树木对环境变化的反应,是研究不同时空尺度下过去气候的宝贵工具。这一点在热带安第斯山脉南部等半干旱地区尤为重要,因为在这些地区,环境不断变化的同时,对水文资源的需求也在迅速增加,这给生态系统动力学和水资源管理带来了挑战。在这项研究中,我们旨在确定上个世纪δO年代学新网络的主要时空变异性,以及它们与整个热带安第斯山脉从局部到次大陆尺度的水文气候和热带环流之间的关系。为此,我们在热带安第斯山脉南部毗邻阿塔卡马沙漠的 450 公里纬度湿度梯度范围内建立了六个δO 树环年代学,时间跨度为 1900-2007 年。结果表明,整个网络中的δO值存在明显的纬度梯度,并且与南美洲热带地区的其他δO树环年表存在显著关系,这表明在次大陆尺度上存在明显的区域气候影响。对δO 树环年代学进行的主成分分析表明,该网络包含一个强烈的区域环境信号,其主要时间模式(PC1 δO)解释了 1900-2007 年期间总方差的 63%。PC1 δO 与环境变量之间的比较显示,在夏季南美季风发生期间,PC1 δO 与降水和土壤水分有显著的负相关关系,而与温度和水汽压差(VPD)有正相关关系。主要的 δO 树环网络信号清楚地记录了整个南美洲的热带大气和环流模式。亚马逊盆地的东风通量条件有利于较低的δO 值,整个热带安第斯山脉和亚马逊盆地北部的 PC1 δO 与 VPD 呈显著正相关,热带安第斯山脉南部和亚马逊盆地部分地区的外向长波辐射也与 VPD 呈显著正相关。我们的δO 树环网络的区域信号与前面提到的参数之间的密切关系,凸显了利用这些δO 记录开发未来水文气候相关重建的潜力,以评估整个热带安第斯山脉的气候多变性和变化。
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来源期刊
Global and Planetary Change
Global and Planetary Change 地学天文-地球科学综合
CiteScore
7.40
自引率
10.30%
发文量
226
审稿时长
63 days
期刊介绍: The objective of the journal Global and Planetary Change is to provide a multi-disciplinary overview of the processes taking place in the Earth System and involved in planetary change over time. The journal focuses on records of the past and current state of the earth system, and future scenarios , and their link to global environmental change. Regional or process-oriented studies are welcome if they discuss global implications. Topics include, but are not limited to, changes in the dynamics and composition of the atmosphere, oceans and cryosphere, as well as climate change, sea level variation, observations/modelling of Earth processes from deep to (near-)surface and their coupling, global ecology, biogeography and the resilience/thresholds in ecosystems. Key criteria for the consideration of manuscripts are (a) the relevance for the global scientific community and/or (b) the wider implications for global scale problems, preferably combined with (c) having a significance beyond a single discipline. A clear focus on key processes associated with planetary scale change is strongly encouraged. Manuscripts can be submitted as either research contributions or as a review article. Every effort should be made towards the presentation of research outcomes in an understandable way for a broad readership.
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