Alleviating juvenile bottleneck of top predators can mitigate eutrophication through top-down and bottom-up control in shallow lake ecosystems
ID:1716 View Protection:ATTENDEE Updated Time:2024-04-11 17:45:35 Hits:1640 Oral Presentation

Start Time:2024-05-19 13:00(Asia/Shanghai)

Duration:15min

Session:S4 主题​4、生态与可持续发展 » S4-9主题4、生态与可持续发展 专题4.4、专题4.2(19日下午,215)

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Abstract
Shallow lakes, the most abundant freshwater ecosystems on earth, are characterized by the spatially asymmetric distribution of energy resources between pelagic and benthic habitats including nutrient and light. Fish, as a key factor providing pathways for energy and material transmissions between habitats, can significantly affect ecosystem functioning and lake stability. However, the influence of fish ontogeny, a ubiquitous phenomenon in nature, on the benthic-pelagic coupling has been largely overlooked. Here, to simulate how fish ontogeny mediated benthic-pelagic coupling affects shallow lake dynamics, we proposed a process-based and empirically well-fed shallow lake model where pelagic and benthic food chains are integrated by size-structured fish. Results show that species coexistence region is considerably enlarged in our model compared to the model counterpart without fish ontogeny,  suggesting that fish ontogenetic development improves ecosystem capacity to withstand harsh environment. Fish ontogeny is additionally demonstrated to act in concert with spatially asymmetric resource competition to regulate community biomass patterns, including algae bloom, by alleviating top-down control. Most importantly, our model shows that lake dynamics losses its stability when fish alter their living habitat from benthic to pelagic owing to light insufficiency or nutrient inadequacy/enrichment. The potential mechanism underlying such stability change is the energy leap induced by size-dependent habitat shifts. We conclude that the uncovered mechanism may become a general driver in undermining lake stability due to the ubiquity of fish ontogeny in natural ecosystems. Our results highlight the necessity to consider fish ontogenetic development in addition to spatial asymmetry of resource competition, when studying shallow lake responses to widespread environmental changes.
 
Keywords
shallow lakes; spatial asymmetry; fish ontogeny; size structure; community structure; ecosystem stability
Speaker
张来
教授 扬州大学数学科学学院

Submission Author
张来 扬州大学数学科学学院
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    May 17

    2024

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    May 20

    2024

  • Mar 31 2024

    Draft paper submission deadline

  • Mar 31 2024

    Contribution Submission Deadline

  • May 20 2024

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Sponsored By
青年地学论坛理事会
Organized By
厦门大学近海海洋环境科学国家重点实验室
中国科学院城市环境研究所
自然资源部第三海洋研究所
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