Drying and fragmentation drive the dynamics of resources, consumers and ecosystem functions across aquatic‐terrestrial habitats in a river network

IF 3.1 2区环境科学与生态学 Q2 ECOLOGY

Oikos Pub Date : 2024-02-27 DOI:10.1111/oik.10135

Romain Sarremejane, Teresa Silverthorn, Angélique Arbaretaz, Amélie Truchy, Nans Barthélémy, Naiara López‐Rojo, Arnaud Foulquier, Laurent Simon, Hervé Pella, Gabriel Singer, Thibault Datry

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引用次数: 0

Abstract

Rivers form meta‐ecosystems, in which disturbance and connectivity control biodiversity, ecosystem functioning and their interactions across the river network, but also across connected instream and riparian ecosystems. This aquatic–terrestrial linkage is modified by drying, a disturbance that also naturally fragments river networks and thereby modifies organism dispersal and organic matter (OM) transfers across the river network. However, little evidence of the effects of drying on river network‐scale OM cycling exists. Here, we assessed the effects of fragmentation by drying at the river meta‐ecosystem scale by monitoring leaf resource stocks, invertebrate communities and decomposition rates, across three seasons and 20 sites, in the instream and riparian habitats of a river network naturally fragmented by drying. Although instream leaf resource quantity and quality increased, leaf‐shredder invertebrate richness and abundance decreased with flow intermittence. Decomposition was, however, mainly driven by network‐scale fragmentation and connectivity. Shredder richness and invertebrate‐driven decomposition both peaked at sites with intermediate amounts of intermittent reaches upstream, suggesting that upstream drying can promote the biodiversity and functioning of downstream ecosystems. Shredder richness, however, had a negative effect on decomposition in perennial sites, likely due to interspecific competition. Leaf quantity, invertebrate communities and invertebrate‐driven decomposition became more similar between instream and riparian habitats as drying frequency increased, likely due to homogenization of environmental conditions between both habitats as the river dried. Our study demonstrates the paramount effects of drying on the dynamics of resources, communities and ecosystem functioning in rivers and presents evidence of one of the first network‐scale examples of the co‐drivers of ecosystem functions across terrestrial–aquatic boundaries.

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河流网络中水生-陆生栖息地的资源、消费者和生态系统功能受干燥和破碎化的动态影响

河流形成了元生态系统，其中干扰和连通性控制着生物多样性、生态系统功能及其在整个河网中的相互作用，同时也控制着相连的河内生态系统和河岸生态系统。这种水生-陆生联系会因干旱而改变，干旱也会自然地破坏河网，从而改变生物的扩散和有机物（OM）在河网中的转移。然而，很少有证据表明干燥会影响河网尺度的有机物循环。在这里，我们通过监测因干旱而自然破碎的河网的河内和河岸栖息地的叶片资源储量、无脊椎动物群落和分解率，在三个季节和 20 个地点评估了干旱对河流元生态系统尺度的破碎化影响。虽然河内叶片资源的数量和质量都有所提高，但碎叶无脊椎动物的丰富度和丰度却随着水流的间歇性而降低。然而，分解主要是由网络尺度的破碎化和连通性驱动的。碎叶无脊椎动物丰富度和无脊椎动物驱动的分解均在上游有中等数量间歇性河段的地点达到峰值，这表明上游的干涸可以促进下游生态系统的生物多样性和功能。然而，碎屑类丰富度对多年生地点的分解有负面影响，这可能是由于种间竞争造成的。叶片数量、无脊椎动物群落和无脊椎动物驱动的分解在河流干涸频率增加时，在河流内栖地和河岸栖息地之间变得更加相似，这可能是由于河流干涸时两种栖息地的环境条件趋于一致。我们的研究证明了干燥对河流资源、群落和生态系统功能动态的重要影响，并提供了跨陆生-水生边界生态系统功能共同驱动因素的首批网络规模实例之一。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Oikos 环境科学-生态学

CiteScore

6.20

自引率

5.90%

发文量

152

审稿时长

6-12 weeks

期刊介绍： Oikos publishes original and innovative research on all aspects of ecology, defined as organism-environment interactions at various spatiotemporal scales, so including macroecology and evolutionary ecology. Emphasis is on theoretical and empirical work aimed at generalization and synthesis across taxa, systems and ecological disciplines. Papers can contribute to new developments in ecology by reporting novel theory or critical empirical results, and "synthesis" can include developing new theory, tests of general hypotheses, or bringing together established or emerging areas of ecology. Confirming or extending the established literature, by for example showing results that are novel for a new taxon, or purely applied research, is given low priority.