Ecosystem water limitation shifts driven by soil moisture in the Loess Plateau, China

IF 4 1区 地球科学 Q1 GEOGRAPHY, PHYSICAL
Xiaoru Liang , Jianwu Yan , Wei Liang , Boyan Li , Xiaohong Liu , Fulai Feng , Jia Wei
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Abstract

In the context of climate change, the functionality of ecosystems is primarily influenced by the availability of water and energy supply. However, there is limited research that comprehensively uses energy indicators to explore how climate change affects the water and energy limiting states of ecosystems. Here we evaluated the historical and future water and energy limitations using the Ecosystem Limitation Index (ELI) derived from evapotranspiration (ET), soil moisture (SM), net radiation (Rn), and air temperature (Ta), and conducted an in-depth analysis of the dominant factors. The results indicate that: (1) The degree of water limitation deepened initially and then weakened. Over 68 % of the region became drier initially, while over 83 % became wetter later. (2) In terms of area, soil moisture emerged as a critical factor influencing the variations in water and energy constraints within the Loess Plateau. Further research revealed the range of critical soil moisture (CSM) for the transition of water-energy limitation state is 0.286 mm3mm−3, and it varies with changes in temperature, soil texture, vegetation cover, and season. (3) Future projections suggest a transition towards heightened water limitations across the Loess Plateau. These findings underscore the efficacy of ELI in assessing and predicting dynamic ecosystem changes, offering valuable insights into the impacts of climate change on water and energy cycles within semi-arid ecosystems.
中国黄土高原土壤水分导致的生态系统水分限制变化
在气候变化的背景下,生态系统的功能主要受水和能源供应的影响。然而,全面使用能源指标来探讨气候变化如何影响生态系统的水和能源限制状态的研究却很有限。在此,我们利用由蒸散量(ET)、土壤湿度(SM)、净辐射(Rn)和气温(Ta)得出的生态系统限制指数(ELI)对历史和未来的水和能量限制进行了评估,并对主导因素进行了深入分析。结果表明(1) 水分限制程度先加深后减弱。超过 68% 的区域最初变得较干,而超过 83% 的区域后来变得较湿。(2) 就面积而言,土壤湿度是影响黄土高原水和能量限制变化的关键因素。进一步研究发现,水能限制状态过渡的临界土壤湿度(CSM)范围为 0.286 mm3mm-3,它随温度、土壤质地、植被覆盖和季节的变化而变化。(3)未来预测表明,整个黄土高原的水限制将向加剧过渡。这些发现强调了 ELI 在评估和预测生态系统动态变化方面的功效,为了解气候变化对半干旱生态系统中水和能量循环的影响提供了宝贵的见解。
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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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