Global prevalence of non-perennial rivers and streams

Flowing waters have a unique role in supporting global biodiversity, biogeochemical cycles and human societies 1 – 5 . Although the importance of permanent watercourses is well recognized, the prevalence, value and fate of non-perennial rivers and streams that periodically cease to flow tend to be o...

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Vydané v:	Nature (London) Ročník 594; číslo 7863; s. 391 - 397
Hlavní autori:	Messager, Mathis Loïc, Lehner, Bernhard, Cockburn, Charlotte, Lamouroux, Nicolas, Pella, Hervé, Snelder, Ton, Tockner, Klement, Trautmann, Tim, Watt, Caitlin, Datry, Thibault
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	London Nature Publishing Group UK 17.06.2021 Nature Publishing Group
Predmet:	704/242 704/286 706/2805 706/2808 Biodiversity Biogeochemical cycles Biogeochemistry Climate Climate change Creeks & streams Desiccation Distribution Environmental aspects Environmental Sciences Estimates Flow mapping Freshwater sciences Geographic Mapping Geology Groundwater Humanities and Social Sciences Humans Hydrology International aspects Land cover Models, Theoretical multidisciplinary Perennial streams Precipitation River networks Rivers Science Science (multidisciplinary) Stream flow Streams Time Factors Uncertainty Water Supply - statistics & numerical data Watercourses Canada Antarctica Bernhard Lehner )
ISSN:	0028-0836, 1476-4687, 1476-4687
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Abstract	Flowing waters have a unique role in supporting global biodiversity, biogeochemical cycles and human societies 1 – 5 . Although the importance of permanent watercourses is well recognized, the prevalence, value and fate of non-perennial rivers and streams that periodically cease to flow tend to be overlooked, if not ignored 6 – 8 . This oversight contributes to the degradation of the main source of water and livelihood for millions of people 5 . Here we predict that water ceases to flow for at least one day per year along 51–60 per cent of the world’s rivers by length, demonstrating that non-perennial rivers and streams are the rule rather than the exception on Earth. Leveraging global information on the hydrology, climate, geology and surrounding land cover of the Earth’s river network, we show that non-perennial rivers occur within all climates and biomes, and on every continent. Our findings challenge the assumptions underpinning foundational river concepts across scientific disciplines 9 . To understand and adequately manage the world’s flowing waters, their biodiversity and functional integrity, a paradigm shift is needed towards a new conceptual model of rivers that includes flow intermittence. By mapping the distribution of non-perennial rivers and streams, we provide a stepping-stone towards addressing this grand challenge in freshwater science. Non-perennial rivers and streams are mapped globally, showing that more than half of rivers worldwide experience no flow for at least one day per year.
AbstractList	Flowing waters have a unique role in supporting global biodiversity, biogeochemical cycles and human societies1-5. Although the importance of permanent watercourses is well recognized, the prevalence, value and fate of non-perennial rivers and streams that periodically cease to flow tend to be overlooked, if not ignored6-8. This oversight contributes to the degradation of the main source of water and livelihood for millions of people5. Here we predict that water ceases to flow for at least one day per year along 51-60 per cent of the world's rivers by length, demonstrating that non-perennial rivers and streams are the rule rather than the exception on Earth. Leveraging global information on the hydrology, climate, geology and surrounding land cover of the Earth's river network, we show that non-perennial rivers occur within all climates and biomes, and on every continent. Our findings challenge the assumptions underpinning foundational river concepts across scientific disciplines9. To understand and adequately manage the world's flowing waters, their biodiversity and functional integrity, a paradigm shift is needed towards a new conceptual model of rivers that includes flow intermittence. By mapping the distribution of non-perennial rivers and streams, we provide a stepping-stone towards addressing this grand challenge in freshwater science. Flowing waters have a unique role in supporting global biodiversity, biogeochemical cycles and human societies.sup.1-5. Although the importance of permanent watercourses is well recognized, the prevalence, value and fate of non-perennial rivers and streams that periodically cease to flow tend to be overlooked, if not ignored.sup.6-8. This oversight contributes to the degradation of the main source of water and livelihood for millions of people.sup.5. Here we predict that water ceases to flow for at least one day per year along 51-60 per cent of the world's rivers by length, demonstrating that non-perennial rivers and streams are the rule rather than the exception on Earth. Leveraging global information on the hydrology, climate, geology and surrounding land cover of the Earth's river network, we show that non-perennial rivers occur within all climates and biomes, and on every continent. Our findings challenge the assumptions underpinning foundational river concepts across scientific disciplines.sup.9. To understand and adequately manage the world's flowing waters, their biodiversity and functional integrity, a paradigm shift is needed towards a new conceptual model of rivers that includes flow intermittence. By mapping the distribution of non-perennial rivers and streams, we provide a stepping-stone towards addressing this grand challenge in freshwater science. Flowing waters have a unique role in supporting global biodiversity, biogeochemical cycles and human societies 1 – 5 . Although the importance of permanent watercourses is well recognized, the prevalence, value and fate of non-perennial rivers and streams that periodically cease to flow tend to be overlooked, if not ignored 6 – 8 . This oversight contributes to the degradation of the main source of water and livelihood for millions of people 5 . Here we predict that water ceases to flow for at least one day per year along 51–60 per cent of the world’s rivers by length, demonstrating that non-perennial rivers and streams are the rule rather than the exception on Earth. Leveraging global information on the hydrology, climate, geology and surrounding land cover of the Earth’s river network, we show that non-perennial rivers occur within all climates and biomes, and on every continent. Our findings challenge the assumptions underpinning foundational river concepts across scientific disciplines 9 . To understand and adequately manage the world’s flowing waters, their biodiversity and functional integrity, a paradigm shift is needed towards a new conceptual model of rivers that includes flow intermittence. By mapping the distribution of non-perennial rivers and streams, we provide a stepping-stone towards addressing this grand challenge in freshwater science. Non-perennial rivers and streams are mapped globally, showing that more than half of rivers worldwide experience no flow for at least one day per year. Flowing waters have a unique role in supporting global biodiversity, biogeochemical cycles and human societies . Although the importance of permanent watercourses is well recognized, the prevalence, value and fate of non-perennial rivers and streams that periodically cease to flow tend to be overlooked, if not ignored . This oversight contributes to the degradation of the main source of water and livelihood for millions of people . Here we predict that water ceases to flow for at least one day per year along 51-60 per cent of the world's rivers by length, demonstrating that non-perennial rivers and streams are the rule rather than the exception on Earth. Leveraging global information on the hydrology, climate, geology and surrounding land cover of the Earth's river network, we show that non-perennial rivers occur within all climates and biomes, and on every continent. Our findings challenge the assumptions underpinning foundational river concepts across scientific disciplines . To understand and adequately manage the world's flowing waters, their biodiversity and functional integrity, a paradigm shift is needed towards a new conceptual model of rivers that includes flow intermittence. By mapping the distribution of non-perennial rivers and streams, we provide a stepping-stone towards addressing this grand challenge in freshwater science. Flowing waters have a unique role in supporting global biodiversity, biogeochemical cycles and human societies1-5. Although the importance of permanent watercourses is well recognized, the prevalence, value and fate of non-perennial rivers and streams that periodically cease to flow tend to be overlooked, if not ignored6-8. This oversight contributes to the degradation of the main source of water and livelihood for millions of people5. Here we predict that water ceases to flow for at least one day per year along 51-60 per cent of the world's rivers by length, demonstrating that non-perennial rivers and streams are the rule rather than the exception on Earth. Leveraging global information on the hydrology, climate, geology and surrounding land cover of the Earth's river network, we show that non-perennial rivers occur within all climates and biomes, and on every continent. Our findings challenge the assumptions underpinning foundational river concepts across scientific disciplines9. To understand and adequately manage the world's flowing waters, their biodiversity and functional integrity, a paradigm shift is needed towards a new conceptual model of rivers that includes flow intermittence. By mapping the distribution of non-perennial rivers and streams, we provide a stepping-stone towards addressing this grand challenge in freshwater science.Flowing waters have a unique role in supporting global biodiversity, biogeochemical cycles and human societies1-5. Although the importance of permanent watercourses is well recognized, the prevalence, value and fate of non-perennial rivers and streams that periodically cease to flow tend to be overlooked, if not ignored6-8. This oversight contributes to the degradation of the main source of water and livelihood for millions of people5. Here we predict that water ceases to flow for at least one day per year along 51-60 per cent of the world's rivers by length, demonstrating that non-perennial rivers and streams are the rule rather than the exception on Earth. Leveraging global information on the hydrology, climate, geology and surrounding land cover of the Earth's river network, we show that non-perennial rivers occur within all climates and biomes, and on every continent. Our findings challenge the assumptions underpinning foundational river concepts across scientific disciplines9. To understand and adequately manage the world's flowing waters, their biodiversity and functional integrity, a paradigm shift is needed towards a new conceptual model of rivers that includes flow intermittence. By mapping the distribution of non-perennial rivers and streams, we provide a stepping-stone towards addressing this grand challenge in freshwater science. Flowing waters have a unique role in supporting global biodiversity, biogeochemical cycles and human societies(1-5). Although the importance of permanent watercourses is well recognized, the prevalence, value and fate of non-perennial rivers and streams that periodically cease to flow tend to be overlooked, if not ignored(6-8). This oversight contributes to the degradation of the main source of water and livelihood for millions of people(5). Here we predict that water ceases to flow for at least one day per year along 51-60 per cent of the world's rivers by length, demonstrating that non-perennial rivers and streams are the rule rather than the exception on Earth. Leveraging global information on the hydrology, climate, geology and surrounding land cover of the Earth's river network, we show that non-perennial rivers occur within all climates and biomes, and on every continent. Our findings challenge the assumptions underpinning foundational river concepts across scientific disciplines(9). To understand and adequately manage the world's flowing waters, their biodiversity and functional integrity, a paradigm shift is needed towards a new conceptual model of rivers that includes flow intermittence. By mapping the distribution of non-perennial rivers and streams, we provide a stepping-stone towards addressing this grand challenge in freshwater science. Flowing waters have a unique role in supporting global biodiversity, biogeochemical cycles and human societies.sup.1-5. Although the importance of permanent watercourses is well recognized, the prevalence, value and fate of non-perennial rivers and streams that periodically cease to flow tend to be overlooked, if not ignored.sup.6-8. This oversight contributes to the degradation of the main source of water and livelihood for millions of people.sup.5. Here we predict that water ceases to flow for at least one day per year along 51-60 per cent of the world's rivers by length, demonstrating that non-perennial rivers and streams are the rule rather than the exception on Earth. Leveraging global information on the hydrology, climate, geology and surrounding land cover of the Earth's river network, we show that non-perennial rivers occur within all climates and biomes, and on every continent. Our findings challenge the assumptions underpinning foundational river concepts across scientific disciplines.sup.9. To understand and adequately manage the world's flowing waters, their biodiversity and functional integrity, a paradigm shift is needed towards a new conceptual model of rivers that includes flow intermittence. By mapping the distribution of non-perennial rivers and streams, we provide a stepping-stone towards addressing this grand challenge in freshwater science. Non-perennial rivers and streams are mapped globally, showing that more than half of rivers worldwide experience no flow for at least one day per year.
Audience	Academic
Author	Messager, Mathis Loïc Lehner, Bernhard Tockner, Klement Trautmann, Tim Cockburn, Charlotte Snelder, Ton Pella, Hervé Watt, Caitlin Datry, Thibault Lamouroux, Nicolas
Author_xml	– sequence: 1 givenname: Mathis Loïc orcidid: 0000-0002-3051-8068 surname: Messager fullname: Messager, Mathis Loïc email: mathis.messager@mail.mcgill.ca organization: Department of Geography, McGill University, RiverLY Research Unit, National Research Institute for Agriculture, Food and Environment (INRAE) – sequence: 2 givenname: Bernhard orcidid: 0000-0003-3712-2581 surname: Lehner fullname: Lehner, Bernhard email: bernhard.lehner@mcgill.ca organization: Department of Geography, McGill University – sequence: 3 givenname: Charlotte orcidid: 0000-0001-8608-0192 surname: Cockburn fullname: Cockburn, Charlotte organization: Department of Geography, McGill University, Department of Earth Science, Dartmouth College – sequence: 4 givenname: Nicolas orcidid: 0000-0002-9184-2558 surname: Lamouroux fullname: Lamouroux, Nicolas organization: RiverLY Research Unit, National Research Institute for Agriculture, Food and Environment (INRAE) – sequence: 5 givenname: Hervé orcidid: 0000-0003-2715-0677 surname: Pella fullname: Pella, Hervé organization: RiverLY Research Unit, National Research Institute for Agriculture, Food and Environment (INRAE) – sequence: 6 givenname: Ton orcidid: 0000-0002-2330-4563 surname: Snelder fullname: Snelder, Ton organization: LWP Ltd – sequence: 7 givenname: Klement surname: Tockner fullname: Tockner, Klement organization: Senckenberg Society for Nature Research, Faculty of Biological Sciences, Goethe University Frankfurt – sequence: 8 givenname: Tim surname: Trautmann fullname: Trautmann, Tim organization: Institute of Physical Geography, Goethe University Frankfurt – sequence: 9 givenname: Caitlin orcidid: 0000-0002-8439-9463 surname: Watt fullname: Watt, Caitlin organization: Department of Geography, McGill University, Lethbridge Research and Development Centre, Agriculture and Agri-Food Canada – sequence: 10 givenname: Thibault orcidid: 0000-0003-1390-6736 surname: Datry fullname: Datry, Thibault email: thibault.datry@inrae.fr organization: RiverLY Research Unit, National Research Institute for Agriculture, Food and Environment (INRAE)
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/34135525$$D View this record in MEDLINE/PubMed https://hal.science/hal-04151878$$DView record in HAL
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Snippet	Flowing waters have a unique role in supporting global biodiversity, biogeochemical cycles and human societies 1 – 5 . Although the importance of permanent... Flowing waters have a unique role in supporting global biodiversity, biogeochemical cycles and human societies . Although the importance of permanent... Flowing waters have a unique role in supporting global biodiversity, biogeochemical cycles and human societies.sup.1-5. Although the importance of permanent... Flowing waters have a unique role in supporting global biodiversity, biogeochemical cycles and human societies1-5. Although the importance of permanent... Flowing waters have a unique role in supporting global biodiversity, biogeochemical cycles and human societies(1-5). Although the importance of permanent...
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SubjectTerms	704/242 704/286 706/2805 706/2808 Biodiversity Biogeochemical cycles Biogeochemistry Climate Climate change Creeks & streams Desiccation Distribution Environmental aspects Environmental Sciences Estimates Flow mapping Freshwater sciences Geographic Mapping Geology Groundwater Humanities and Social Sciences Humans Hydrology International aspects Land cover Models, Theoretical multidisciplinary Perennial streams Precipitation River networks Rivers Science Science (multidisciplinary) Stream flow Streams Time Factors Uncertainty Water Supply - statistics & numerical data Watercourses
Title	Global prevalence of non-perennial rivers and streams
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