Fish and macroinvertebrate assemblages reveal extensive degradation of the world's rivers

Rivers suffer from multiple stressors acting simultaneously on their biota, but the consequences are poorly quantified at the global scale. We evaluated the biological condition of rivers globally, including the largest proportion of countries from the Global South published to date. We gathered mac...

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Autores principales: Feio, Maria João, Hughes, Robert M., Serra, Sónia R. Q., Nichols, Susan J., Kefford, Ben J., Lintermans, Mark, Robinson, Wayne, Odume, Oghenekaro N., Callisto, Marcos, Macedo, Diego R., Harding, Jon S., Yates, Adam G., Monk, Wendy, Nakamura, Keigo, Mori, Terutaka, Sueyoshi, Masanao, Mercado‐Silva, Norman, Chen, Kai, Baek, Min Jeong, Bae, Yeon Jae, Tachamo‐Shah, Ram Devi, Shah, Deep Narayan, Campbell, Ian, Moya, Nabor, Arimoro, Francis O., Keke, Unique N., Martins, Renato T., Alves, Carlos B. M., Pompeu, Paulo S., Sharma, Subodh
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2022
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10091732/
https://www.ncbi.nlm.nih.gov/pubmed/36131677
http://dx.doi.org/10.1111/gcb.16439
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author Feio, Maria João
Hughes, Robert M.
Serra, Sónia R. Q.
Nichols, Susan J.
Kefford, Ben J.
Lintermans, Mark
Robinson, Wayne
Odume, Oghenekaro N.
Callisto, Marcos
Macedo, Diego R.
Harding, Jon S.
Yates, Adam G.
Monk, Wendy
Nakamura, Keigo
Mori, Terutaka
Sueyoshi, Masanao
Mercado‐Silva, Norman
Chen, Kai
Baek, Min Jeong
Bae, Yeon Jae
Tachamo‐Shah, Ram Devi
Shah, Deep Narayan
Campbell, Ian
Moya, Nabor
Arimoro, Francis O.
Keke, Unique N.
Martins, Renato T.
Alves, Carlos B. M.
Pompeu, Paulo S.
Sharma, Subodh
author_facet Feio, Maria João
Hughes, Robert M.
Serra, Sónia R. Q.
Nichols, Susan J.
Kefford, Ben J.
Lintermans, Mark
Robinson, Wayne
Odume, Oghenekaro N.
Callisto, Marcos
Macedo, Diego R.
Harding, Jon S.
Yates, Adam G.
Monk, Wendy
Nakamura, Keigo
Mori, Terutaka
Sueyoshi, Masanao
Mercado‐Silva, Norman
Chen, Kai
Baek, Min Jeong
Bae, Yeon Jae
Tachamo‐Shah, Ram Devi
Shah, Deep Narayan
Campbell, Ian
Moya, Nabor
Arimoro, Francis O.
Keke, Unique N.
Martins, Renato T.
Alves, Carlos B. M.
Pompeu, Paulo S.
Sharma, Subodh
author_sort Feio, Maria João
collection PubMed
description Rivers suffer from multiple stressors acting simultaneously on their biota, but the consequences are poorly quantified at the global scale. We evaluated the biological condition of rivers globally, including the largest proportion of countries from the Global South published to date. We gathered macroinvertebrate‐ and fish‐based assessments from 72,275 and 37,676 sites, respectively, from 64 study regions across six continents and 45 nations. Because assessments were based on differing methods, different systems were consolidated into a 3‐class system: Good, Impaired, or Severely Impaired, following common guidelines. The proportion of sites in each class by study area was calculated and each region was assigned a Köppen‐Geiger climate type, Human Footprint score (addressing landscape alterations), Human Development Index (HDI) score (addressing social welfare), % rivers with good ambient water quality, % protected freshwater key biodiversity areas; and % of forest area net change rate. We found that 50% of macroinvertebrate sites and 42% of fish sites were in Good condition, whereas 21% and 29% were Severely Impaired, respectively. The poorest biological conditions occurred in Arid and Equatorial climates and the best conditions occurred in Snow climates. Severely Impaired conditions were associated (Pearson correlation coefficient) with higher HDI scores, poorer physico‐chemical water quality, and lower proportions of protected freshwater areas. Good biological conditions were associated with good water quality and increased forested areas. It is essential to implement statutory bioassessment programs in Asian, African, and South American countries, and continue them in Oceania, Europe, and North America. There is a need to invest in assessments based on fish, as there is less information globally and fish were strong indicators of degradation. Our study highlights a need to increase the extent and number of protected river catchments, preserve and restore natural forested areas in the catchments, treat wastewater discharges, and improve river connectivity.
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spelling pubmed-100917322023-04-13 Fish and macroinvertebrate assemblages reveal extensive degradation of the world's rivers Feio, Maria João Hughes, Robert M. Serra, Sónia R. Q. Nichols, Susan J. Kefford, Ben J. Lintermans, Mark Robinson, Wayne Odume, Oghenekaro N. Callisto, Marcos Macedo, Diego R. Harding, Jon S. Yates, Adam G. Monk, Wendy Nakamura, Keigo Mori, Terutaka Sueyoshi, Masanao Mercado‐Silva, Norman Chen, Kai Baek, Min Jeong Bae, Yeon Jae Tachamo‐Shah, Ram Devi Shah, Deep Narayan Campbell, Ian Moya, Nabor Arimoro, Francis O. Keke, Unique N. Martins, Renato T. Alves, Carlos B. M. Pompeu, Paulo S. Sharma, Subodh Glob Chang Biol Research Articles Rivers suffer from multiple stressors acting simultaneously on their biota, but the consequences are poorly quantified at the global scale. We evaluated the biological condition of rivers globally, including the largest proportion of countries from the Global South published to date. We gathered macroinvertebrate‐ and fish‐based assessments from 72,275 and 37,676 sites, respectively, from 64 study regions across six continents and 45 nations. Because assessments were based on differing methods, different systems were consolidated into a 3‐class system: Good, Impaired, or Severely Impaired, following common guidelines. The proportion of sites in each class by study area was calculated and each region was assigned a Köppen‐Geiger climate type, Human Footprint score (addressing landscape alterations), Human Development Index (HDI) score (addressing social welfare), % rivers with good ambient water quality, % protected freshwater key biodiversity areas; and % of forest area net change rate. We found that 50% of macroinvertebrate sites and 42% of fish sites were in Good condition, whereas 21% and 29% were Severely Impaired, respectively. The poorest biological conditions occurred in Arid and Equatorial climates and the best conditions occurred in Snow climates. Severely Impaired conditions were associated (Pearson correlation coefficient) with higher HDI scores, poorer physico‐chemical water quality, and lower proportions of protected freshwater areas. Good biological conditions were associated with good water quality and increased forested areas. It is essential to implement statutory bioassessment programs in Asian, African, and South American countries, and continue them in Oceania, Europe, and North America. There is a need to invest in assessments based on fish, as there is less information globally and fish were strong indicators of degradation. Our study highlights a need to increase the extent and number of protected river catchments, preserve and restore natural forested areas in the catchments, treat wastewater discharges, and improve river connectivity. John Wiley and Sons Inc. 2022-10-17 2023-01 /pmc/articles/PMC10091732/ /pubmed/36131677 http://dx.doi.org/10.1111/gcb.16439 Text en © 2022 The Authors. Global Change Biology published by John Wiley & Sons Ltd. https://creativecommons.org/licenses/by/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Articles
Feio, Maria João
Hughes, Robert M.
Serra, Sónia R. Q.
Nichols, Susan J.
Kefford, Ben J.
Lintermans, Mark
Robinson, Wayne
Odume, Oghenekaro N.
Callisto, Marcos
Macedo, Diego R.
Harding, Jon S.
Yates, Adam G.
Monk, Wendy
Nakamura, Keigo
Mori, Terutaka
Sueyoshi, Masanao
Mercado‐Silva, Norman
Chen, Kai
Baek, Min Jeong
Bae, Yeon Jae
Tachamo‐Shah, Ram Devi
Shah, Deep Narayan
Campbell, Ian
Moya, Nabor
Arimoro, Francis O.
Keke, Unique N.
Martins, Renato T.
Alves, Carlos B. M.
Pompeu, Paulo S.
Sharma, Subodh
Fish and macroinvertebrate assemblages reveal extensive degradation of the world's rivers
title Fish and macroinvertebrate assemblages reveal extensive degradation of the world's rivers
title_full Fish and macroinvertebrate assemblages reveal extensive degradation of the world's rivers
title_fullStr Fish and macroinvertebrate assemblages reveal extensive degradation of the world's rivers
title_full_unstemmed Fish and macroinvertebrate assemblages reveal extensive degradation of the world's rivers
title_short Fish and macroinvertebrate assemblages reveal extensive degradation of the world's rivers
title_sort fish and macroinvertebrate assemblages reveal extensive degradation of the world's rivers
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10091732/
https://www.ncbi.nlm.nih.gov/pubmed/36131677
http://dx.doi.org/10.1111/gcb.16439
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