Ecosystem-level response to complex disturbances of an interconnected river–lake system based on Ecopath model over the last 30 years

IF 2.2 3区 生物学 Q1 MARINE & FRESHWATER BIOLOGY
Jie Liang, Qinxue Zhou, Chongrui Wang, Xiang Gao, Yujie Yuan, Ziqian Zhu, Min Yan, Junjie Ding, Sining Yang
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Abstract

Freshwater ecosystems have been severely disturbed in recent years. However, our understanding of the ecosystem-level changes within freshwater food webs under complex disturbances is still limited. To address this knowledge gap, we took Dongting Lake as a case study, which has undergone significant environmental changes. We established Ecopath models for Dongting Lake in 1997, 2013, and 2021, and validated them using stable isotope-determined trophic levels. Our focus was on describing the structure and maturity of the ecosystem, identifying key species, and quantifying energy flows. The verification result showed that the models were acceptable. The model outputs revealed a significant decline in the average energy transfer efficiency of Dongting Lake. The food web maturity of Dongting Lake decreased and subsequently increased in these three representative periods. Simultaneously, the food web structure was successively simplified over time. Moreover, the identification of keystone species revealed the significance of Zooplankton, Other fish, Silurus asotus, and Molluscs within the ecosystem. Overall, our results offer a scientific underpinning for the effective management and conservation of freshwater ecosystems.

Abstract Image

过去 30 年中基于 Ecopath 模型的生态系统层面对互联河湖系统复杂干扰的反应
近年来,淡水生态系统受到严重干扰。然而,我们对复杂干扰下淡水食物网生态系统层面变化的了解仍然有限。为了填补这一知识空白,我们以环境变化显著的洞庭湖为例进行了研究。我们分别于 1997 年、2013 年和 2021 年为洞庭湖建立了 Ecopath 模型,并利用稳定同位素确定的营养级对其进行了验证。我们的重点是描述生态系统的结构和成熟度、识别关键物种以及量化能量流。验证结果表明,模型是可以接受的。模型输出结果显示洞庭湖的平均能量传递效率显著下降。洞庭湖食物网成熟度在这三个代表性时期先下降后上升。同时,随着时间的推移,食物网结构逐渐简化。此外,通过对关键物种的鉴定,我们发现浮游动物、其他鱼类、蓑鲉和软体动物在生态系统中的重要性。总之,我们的研究结果为有效管理和保护淡水生态系统提供了科学依据。
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来源期刊
Hydrobiologia
Hydrobiologia 生物-海洋与淡水生物学
CiteScore
5.40
自引率
11.50%
发文量
288
审稿时长
4.9 months
期刊介绍: Hydrobiologia publishes original research, reviews and opinions regarding the biology of all aquatic environments, including the impact of human activities. We welcome molecular-, organism-, community- and ecosystem-level studies in contributions dealing with limnology and oceanography, including systematics and aquatic ecology. Hypothesis-driven experimental research is preferred, but also theoretical papers or articles with large descriptive content will be considered, provided they are made relevant to a broad hydrobiological audience. Applied aspects will be considered if firmly embedded in an ecological context.
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