海上风电场通过增强悬浮生物摄食路径来改变沿海食物网动态。

Offshore wind farms modify coastal food web dynamics by enhancing suspension feeder pathways.

作者信息

De Borger Emil, van Oevelen Dick, Mavraki Ninon, De Backer Annelies, Braeckman Ulrike, Soetaert Karline, Vanaverbeke Jan

机构信息

Ghent University, Department of Biology, Marine Biology Research Group, Ghent, Belgium.

Royal Netherlands Institute of Sea Research (NIOZ), Department of Estuarine and Delta Systems, Yerseke, The Netherlands.

出版信息

Commun Earth Environ. 2025;6(1):330. doi: 10.1038/s43247-025-02253-w. Epub 2025 Apr 29.

DOI:10.1038/s43247-025-02253-w

PMID:40313562

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12040705/

Abstract

Given the global offshore wind farm (OWF) proliferation, we investigated the impact of OWFs on the marine food web. Using linear inverse modelling (LIM), we compared the OWF food web with two soft-sediment food webs nearby. Novel in situ data on species biomass and their isotopic composition were combined with literature data to construct food webs. Our findings highlight the prominent role of hard-substrate species on turbine foundations as organic material inputs for the food web. Hard substrate species account for approximately 26% of food source uptake from the water column and increase carbon deposition on the surrounding seafloor by ~10%. OWFs facilitate a novel food web with a higher productivity than expected based on standing biomass alone, as a result of numerous interactions between a diverse species community. Our study underscores profound effects of OWFs on marine ecosystems, suggesting the need for further research into their ecological impacts.

摘要

鉴于全球海上风电场（OWF）的迅速增加，我们研究了海上风电场对海洋食物网的影响。使用线性逆模型（LIM），我们将海上风电场食物网与附近的两个软沉积物食物网进行了比较。结合关于物种生物量及其同位素组成的新的原位数据和文献数据来构建食物网。我们的研究结果突出了涡轮机基础上硬底物物种作为食物网有机物质输入的重要作用。硬底物物种约占从水柱摄取食物来源的26%，并使周围海底的碳沉积增加约10%。由于不同物种群落之间的众多相互作用，海上风电场促成了一个新的食物网，其生产力高于仅基于现存生物量所预期的水平。我们的研究强调了海上风电场对海洋生态系统的深远影响，表明有必要进一步研究其生态影响。

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海上风电场通过增强悬浮生物摄食路径来改变沿海食物网动态。

Offshore wind farms modify coastal food web dynamics by enhancing suspension feeder pathways.

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