Longitudinal changes on ecological diversity of Neotropical fish along a 1700 km river gradient show declines induced by dams

IF 4 2区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION Perspectives in Ecology and Conservation Pub Date : 2024-04-01 DOI:10.1016/j.pecon.2024.03.003
Anahí López-Rodríguez , Mariana Meerhoff , Alejandro D’Anatro , Sunshine de Ávila-Simas , Ivana Silva , Joaquín Pais , Franco Teixeira de Mello , David Augusto Reynalte-Tataje , Evoy Zaniboni-Filho , Iván González-Bergonzoni
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Abstract

In naturally flowing waters, communities are expected to increase their taxonomic and functional diversity as well as increase the complexity of food web architecture along the longitudinal gradient from headwaters to mouth. However, these theories do not necessarily apply to dammed rivers. We analysed fish communities at 12 locations along the 1700 km stretch of the transnational Uruguay River. We determined species richness, beta-diversity and its components (turnover and nestedness), trophic diversity, and isotopic niches at community level, with particular focus on areas upstream and downstream of the four existing dams. We estimated trophic diversity metrics based on diet analysis, and isotopic niche breadth based on Bayesian isotopic niche models. We detected consistent longitudinal changes, supporting predictions from the River Continuum Concept. However, taxonomic richness, trophic diversity, and isotopic niche decreased abruptly immediately downstream of dams, and the component contributing the most to beta diversity was turnover, with the highest values occurring mainly after the cascade of dams in the upper Uruguay River, fitting expectations from the Serial Discontinuity Concept. The dam-free stretches of the Uruguay River allowed the recovery of ecological diversity as fish richness and trophic and isotopic niche increased. The negative impacts of dams should urgently be considered in the Neotropics, where many large dams are projected.

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1700 公里河流梯度上新热带鱼生态多样性的纵向变化显示大坝导致生态多样性下降
在自然流动的水域中,预计群落的分类和功能多样性会增加,从上游到河口的纵向梯度上,食物网结构的复杂性也会增加。然而,这些理论并不一定适用于筑坝河流。我们分析了乌拉圭河 1700 公里跨国河段上 12 个地点的鱼类群落。我们确定了物种丰富度、β-多样性及其组成部分(周转率和嵌套度)、营养多样性以及群落层面的同位素龛位,并特别关注了四个现有大坝的上游和下游地区。我们根据食谱分析估算了营养级多样性指标,并根据贝叶斯同位素生态位模型估算了同位素生态位广度。我们发现了一致的纵向变化,支持河流连续性概念的预测。然而,在大坝下游,分类丰富度、营养多样性和同位素生态位骤然下降,对贝塔多样性贡献最大的成分是周转率,最高值主要出现在乌拉圭河上游的级联大坝之后,符合连续不连续概念的预期。乌拉圭河的无坝河段使生态多样性得以恢复,鱼类丰富度、营养级和同位素生态位均有所提高。在新热带地区,预计会有许多大型水坝,因此迫切需要考虑水坝的负面影响。
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来源期刊
Perspectives in Ecology and Conservation
Perspectives in Ecology and Conservation Environmental Science-Nature and Landscape Conservation
CiteScore
7.80
自引率
4.30%
发文量
46
审稿时长
59 days
期刊介绍: Perspectives in Ecology and Conservation (PECON) is a scientific journal devoted to improving theoretical and conceptual aspects of conservation science. It has the main purpose of communicating new research and advances to different actors of society, including researchers, conservationists, practitioners, and policymakers. Perspectives in Ecology and Conservation publishes original papers on biodiversity conservation and restoration, on the main drivers affecting native ecosystems, and on nature’s benefits to people and human wellbeing. This scope includes studies on biodiversity patterns, the effects of habitat loss, fragmentation, biological invasion and climate change on biodiversity, conservation genetics, spatial conservation planning, ecosystem management, ecosystem services, sustainability and resilience of socio-ecological systems, conservation policy, among others.
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