Climate change is altering the water cycle globally, increasing the frequency and magnitude of floods and droughts. An outstanding question is whether biodiversity responses to hydrological disturbance depend on background climatic context – and if so, which contexts increase vulnerability to disturbance. Answering this question requires comparison of organismal responses across environmental gradients. However, opportunities to track disturbed communities against an undisturbed baseline remain rare. Here we gathered a global dataset capturing responses of aquatic invertebrate communities to river drying, which includes 112 sites spanning a gradient of climatic aridity. We measured the effects of river drying on taxonomic richness and tempo...
Freshwater habitats are drying more frequently and for longer under the combined pressures of climat...
1. Ecological communities can be relatively stable for long periods of time, and then, often as a re...
Disturbance events govern how the biodiversity of ecological communities varies in both space and ti...
Climate change is altering the water cycle globally, increasing the frequency and magnitude of flood...
Intermittent rivers are naturally dynamic ecosystems in which flow cessation and riverbed drying cau...
<p><strong>Abstract</strong></p> <p>Understanding how communities respond to disturbance is essentia...
Predicting the impacts of global change on highly dynamic ecosystems requires a better understanding...
Climatic extremes are becoming more frequent and intense across much of the globe, potentially trans...
Determining and understanding relationships between biodiversity and hydrology is a critical goal in...
Ecological communities can remain stable in the face of disturbance if their constituent species hav...
Intermittent streams are globally ubiquitous and comprise a large percentage of stream networks. As ...
More freshwater ecosystems are drying in response to global change thereby posing serious threat to ...
1. Unpredictable, extreme climatic events (e.g. droughts) can potentially destabilize aquatic commun...
Drying disturbances are the primary determinant of aquatic community biodiversity in dynamic river e...
Flow intermittence occurs in an increasing number of streams, due to climate change, local land‐use...
Freshwater habitats are drying more frequently and for longer under the combined pressures of climat...
1. Ecological communities can be relatively stable for long periods of time, and then, often as a re...
Disturbance events govern how the biodiversity of ecological communities varies in both space and ti...
Climate change is altering the water cycle globally, increasing the frequency and magnitude of flood...
Intermittent rivers are naturally dynamic ecosystems in which flow cessation and riverbed drying cau...
<p><strong>Abstract</strong></p> <p>Understanding how communities respond to disturbance is essentia...
Predicting the impacts of global change on highly dynamic ecosystems requires a better understanding...
Climatic extremes are becoming more frequent and intense across much of the globe, potentially trans...
Determining and understanding relationships between biodiversity and hydrology is a critical goal in...
Ecological communities can remain stable in the face of disturbance if their constituent species hav...
Intermittent streams are globally ubiquitous and comprise a large percentage of stream networks. As ...
More freshwater ecosystems are drying in response to global change thereby posing serious threat to ...
1. Unpredictable, extreme climatic events (e.g. droughts) can potentially destabilize aquatic commun...
Drying disturbances are the primary determinant of aquatic community biodiversity in dynamic river e...
Flow intermittence occurs in an increasing number of streams, due to climate change, local land‐use...
Freshwater habitats are drying more frequently and for longer under the combined pressures of climat...
1. Ecological communities can be relatively stable for long periods of time, and then, often as a re...
Disturbance events govern how the biodiversity of ecological communities varies in both space and ti...
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