Drought in intermittent river and ephemeral stream networks

Intermittent rivers and ephemeral streams (IRES), those watercourses that periodically cease to flow or dry, are the world's most widespread type of river ecosystem. Our understanding of the natural hydrology and ecology of IRES has greatly improved, but their responses to extreme events such a...

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Published in:Ecohydrology Vol. 15; no. 5
Main Authors: Sarremejane, Romain, Messager, Mathis Loïc, Datry, Thibault
Format: Journal Article
Language:English
Published: Oxford Wiley Subscription Services, Inc 01.07.2022
Wiley
Subjects:
Aquatic ecosystems
Climatic zones
communities
Drought
Drying
Ecohydrology
Ecological studies
Ecology, environment
Environmental Sciences
Ephemeral streams
extreme events
fragmentation
Hydrology
Intermittent rivers
Life Sciences
Networks
non‐perennial rivers
Perennial streams
population
Rivers
State-of-the-art reviews
Watercourses
extreme events
non-perennial rivers
hydrology
fragmentation
population
communities
ISSN:1936-0584, 1936-0592
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Abstract Intermittent rivers and ephemeral streams (IRES), those watercourses that periodically cease to flow or dry, are the world's most widespread type of river ecosystem. Our understanding of the natural hydrology and ecology of IRES has greatly improved, but their responses to extreme events such as drought remain a research frontier. In this review, we present the state of the art, knowledge gaps and research directions on droughts in IRES from an ecohydrological perspective. We clarify the definition of droughts in IRES, giving recommendations to promote transferability in how ecohydrological studies characterize droughts in non‐perennial stream networks. Based on a systematic search of the literature, we also identify common patterns and sources of variation in the ecological responses of IRES to droughts and provide a roadmap for further research to enable improved understanding and management of IRES during those extreme hydrological events. Confusion in the terminology and the lack of tools to assess the hydrological responses of IRES to drought may have hindered the development of drought research in IRES. We found that 44% of studies confused the term drought with seasonal drying and that those that measure droughts in a transferable way are a minority. Studies on ecological responses to drought in IRES networks are still rare and limited to a few climatic zones and organisms and mainly explored in perennial sections. Our review highlights the need for additional research on this topic to inform IRES management and conservation.
AbstractList Intermittent rivers and ephemeral streams (IRES), those watercourses that periodically cease to flow or dry, are the world's most widespread type of river ecosystem. Our understanding of the natural hydrology and ecology of IRES has greatly improved, but their responses to extreme events such as drought remain a research frontier. In this review, we present the state of the art, knowledge gaps and research directions on droughts in IRES from an ecohydrological perspective. We clarify the definition of droughts in IRES, giving recommendations to promote transferability in how ecohydrological studies characterize droughts in non‐perennial stream networks. Based on a systematic search of the literature, we also identify common patterns and sources of variation in the ecological responses of IRES to droughts and provide a roadmap for further research to enable improved understanding and management of IRES during those extreme hydrological events. Confusion in the terminology and the lack of tools to assess the hydrological responses of IRES to drought may have hindered the development of drought research in IRES. We found that 44% of studies confused the term drought with seasonal drying and that those that measure droughts in a transferable way are a minority. Studies on ecological responses to drought in IRES networks are still rare and limited to a few climatic zones and organisms and mainly explored in perennial sections. Our review highlights the need for additional research on this topic to inform IRES management and conservation.
Author Messager, Mathis Loïc
Sarremejane, Romain
Datry, Thibault
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  orcidid: 0000-0002-4943-1173
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  fullname: Sarremejane, Romain
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  givenname: Thibault
  surname: Datry
  fullname: Datry, Thibault
  organization: INRAE, UR RiverLy, Centre Lyon‐Grenoble Auvergne‐Rhône‐Alpes
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Issue 5
Keywords extreme events
non-perennial rivers
hydrology
fragmentation
population
communities
Language English
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Significance statement: Drought severity and frequency are increasing due to climate change, affecting river ecosystems around the world. Here, we review the current understanding, knowledge gaps and research directions for investigating ecohydrological responses to droughts in Intermittent Rivers and Ephemeral Streams (IRES), that is, those streams that naturally cease to flow at some point in time. Studies assessing the effects of droughts in IRES networks are still limited to a few climatic zones, countries and organisms, most probably because disentangling ecological responses to natural flow intermittence from responses to drought remains a challenge.
European Union's Horizon 2020 research and innovation programme, Grant/Award Number: 869226
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2008
2009; 375
2008; 600
2018; 63
2004
2016; 125
2007; 52
2014; 111
2021; 90
1959; 88
2021; 13
1987; 23
2019; 81
2009; 32
2021; 11
2018; 628–629
2021
2018; 559
2020
2020; 70
2017; 98
2017; 10
2010; 652
2018
2017
2016; 61
2017; 184
2020; 111
2020; 65
1996; 47
2018; 55
2012; 7
2007; 44
2018; 54
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Snippet Intermittent rivers and ephemeral streams (IRES), those watercourses that periodically cease to flow or dry, are the world's most widespread type of river...
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SubjectTerms Aquatic ecosystems
Climatic zones
communities
Drought
Drying
Ecohydrology
Ecological studies
Ecology, environment
Environmental Sciences
Ephemeral streams
extreme events
fragmentation
Hydrology
Intermittent rivers
Life Sciences
Networks
non‐perennial rivers
Perennial streams
population
Rivers
State-of-the-art reviews
Watercourses
Title Drought in intermittent river and ephemeral stream networks
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Volume 15
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