全球湖泊的复合高温和高叶绿素极端事件

IF 5.6 2区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES

Environmental Research Letters Pub Date : 2021-11-25 DOI:10.1088/1748-9326/ac3d5a

R. Woolway, Benjamin M. Kraemer, J. Zscheischler, C. Albergel

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引用次数: 14

摘要

湖泊生态系统的一个新问题是复合极端事件的发生，即多个湖内极端事件同时发生的情况。特别令人担忧的是湖泊热浪（异常温暖的温度）和高叶绿素（极端叶绿素）的同时出现，这是影响水生生态系统功能的两个重要变量。在这里，利用卫星观测，我们首次评估了全球湖泊中的单变量和复合极端事件。我们的分析表明，湖泊热浪和高叶绿素a极端值的强度因湖泊而异，主要受地表水温度和叶绿素a浓度的年变化范围的影响。湖泊热浪的强度在较小的湖泊和较浅、平均温度较低的湖泊中更大。我们的分析还表明，在大多数研究的湖泊中，复合极值的发生频率高于其独立概率的乘积。我们预计，由于单变量极端事件的发生，复合极端事件对湖泊生态系统的影响将比之前报道的更严重。

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Compound hot temperature and high chlorophyll extreme events in global lakes

An emerging concern for lake ecosystems is the occurrence of compound extreme events i.e. situations where multiple within-lake extremes occur simultaneously. Of particular concern are the co-occurrence of lake heatwaves (anomalously warm temperatures) and high chlorophyll-a extremes, two important variables that influence the functioning of aquatic ecosystems. Here, using satellite observations, we provide the first assessment of univariate and compound extreme events in lakes worldwide. Our analysis suggests that the intensity of lake heatwaves and high chlorophyll-a extremes differ across lakes and are influenced primarily by the annual range in surface water temperature and chlorophyll-a concentrations. The intensity of lake heatwaves is even greater in smaller lakes and in those that are shallow and experience cooler average temperatures. Our analysis also suggests that, in most of the studied lakes, compound extremes occur more often than would be assumed from the product of their independent probabilities. We anticipate compound extreme events to have more severe impacts on lake ecosystems than those previously reported due to the occurrence of univariate extremes.

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来源期刊

Environmental Research Letters 环境科学-环境科学

CiteScore

11.90

自引率

4.50%

发文量

763

审稿时长

4.3 months

期刊介绍： Environmental Research Letters (ERL) is a high-impact, open-access journal intended to be the meeting place of the research and policy communities concerned with environmental change and management. The journal''s coverage reflects the increasingly interdisciplinary nature of environmental science, recognizing the wide-ranging contributions to the development of methods, tools and evaluation strategies relevant to the field. Submissions from across all components of the Earth system, i.e. land, atmosphere, cryosphere, biosphere and hydrosphere, and exchanges between these components are welcome.