Coping with collapse: Functional robustness of coral-reef fish network to simulated cascade extinction

IF 10.8 1区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION Global Change Biology Pub Date : 2024-09-25 DOI:10.1111/gcb.17513
André L. Luza, Mariana G. Bender, Carlos E. L. Ferreira, Sergio R. Floeter, Ronaldo B. Francini-Filho, Guilherme O. Longo, Hudson T. Pinheiro, Juan P. Quimbayo, Vinicius A. G. Bastazini
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Abstract

Human activities and climate change have accelerated species losses and degradation of ecosystems to unprecedented levels. Both theoretical and empirical evidence suggest that extinction cascades contribute substantially to global species loss. The effects of extinction cascades can ripple across levels of ecological organization, causing not only the secondary loss of taxonomic diversity but also functional diversity erosion. Here, we take a step forward in coextinction analysis by estimating the functional robustness of reef fish communities to species loss. We built a tripartite network with nodes and links based on a model output predicting reef fish occupancy (113 species) as a function of coral and turf algae cover in Southwestern Atlantic reefs. This network comprised coral species, coral-associated fish (site occupancy directly related to coral cover), and co-occurring fish (occupancy indirectly related to coral cover). We used attack-tolerance curves and estimated network robustness (R) to quantify the cascading loss of reef fish taxonomic and functional diversity along three scenarios of coral species loss: degree centrality (removing first corals with more coral-associated fish), bleaching vulnerability and post-bleaching mortality (most vulnerable removed first), and random removal. Degree centrality produced the greatest losses (lowest R) in comparison with other scenarios. In this scenario, while functional diversity was robust to the direct loss of coral-associated fish (R = 0.85), the taxonomic diversity was not robust to coral loss (R = 0.54). Both taxonomic and functional diversity showed low robustness to indirect fish extinctions (R = 0.31 and R = 0.57, respectively). Projections of 100% coral species loss caused a reduction of 69% of the regional trait space area. The effects of coral loss in Southwestern Atlantic reefs went beyond the direct coral-fish relationships. Ever-growing human impacts on reef ecosystems can cause extinction cascades with detrimental consequences for fish assemblages that benefit from corals.

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应对崩溃:珊瑚礁鱼类网络对模拟级联灭绝的功能稳健性
人类活动和气候变化加速了物种的丧失和生态系统的退化,达到了前所未有的程度。理论和经验证据都表明,物种灭绝级联在很大程度上导致了全球物种的减少。物种灭绝级联的影响会波及生态组织的各个层次,不仅会造成分类多样性的二次损失,还会侵蚀功能多样性。在这里,我们通过估算珊瑚礁鱼类群落对物种消失的功能稳健性,在共灭绝分析方面向前迈进了一步。我们根据西南大西洋珊瑚礁中珊瑚礁鱼类(113 种)占有率与珊瑚和草皮藻类覆盖率的函数模型输出结果,建立了一个具有节点和链接的三方网络。该网络包括珊瑚物种、珊瑚相关鱼类(与珊瑚覆盖率直接相关的地点占有率)以及共栖鱼类(与珊瑚覆盖率间接相关的占有率)。我们利用攻击耐受性曲线和估计的网络鲁棒性(R)来量化珊瑚礁鱼类分类学和功能多样性在三种珊瑚物种损失情况下的级联损失:度中心性(首先移除与珊瑚相关鱼类较多的珊瑚)、漂白脆弱性和漂白后死亡率(最脆弱的鱼类首先被移除)以及随机移除。与其他方案相比,度中心法造成的损失最大(R 值最低)。在这种情况下,虽然功能多样性对珊瑚相关鱼类的直接损失具有稳健性(R = 0.85),但分类多样性对珊瑚损失却不具有稳健性(R = 0.54)。分类和功能多样性对间接鱼类灭绝的稳健性都很低(R = 0.31 和 R = 0.57)。预测 100%的珊瑚物种损失会导致区域特征空间面积减少 69%。西南大西洋珊瑚礁珊瑚消失的影响超出了珊瑚与鱼类的直接关系。人类对珊瑚礁生态系统日益增长的影响可能会导致物种灭绝级联,从而对受益于珊瑚的鱼类种群造成有害后果。
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来源期刊
Global Change Biology
Global Change Biology 环境科学-环境科学
CiteScore
21.50
自引率
5.20%
发文量
497
审稿时长
3.3 months
期刊介绍: Global Change Biology is an environmental change journal committed to shaping the future and addressing the world's most pressing challenges, including sustainability, climate change, environmental protection, food and water safety, and global health. Dedicated to fostering a profound understanding of the impacts of global change on biological systems and offering innovative solutions, the journal publishes a diverse range of content, including primary research articles, technical advances, research reviews, reports, opinions, perspectives, commentaries, and letters. Starting with the 2024 volume, Global Change Biology will transition to an online-only format, enhancing accessibility and contributing to the evolution of scholarly communication.
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