Hydro-climatic changes of wetlandscapes across the world

Hydro-climatic changes of wetlandscapes across the world

Abstract Assessments of ecosystem service and function losses of wetlandscapes (i.e., wetlands and their hydrological catchments) suffer from knowledge gaps regarding impacts of ongoing hydro-climatic change. This study investigates hydro-climatic changes during 1976–2015 in 25 wetlandscapes distrib...

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Main Authors: I. Åhlén, G. Vigouroux, G. Destouni, J. Pietroń, N. Ghajarnia, J. Anaya, J. Blanco, S. Borja, S. Chalov, K. P. Chun, N. Clerici, A. Desormeaux, P. Girard, O. Gorelits, A. Hansen, F. Jaramillo, Z. Kalantari, A. Labbaci, L. Licero-Villanueva, J. Livsey, G. Maneas, K. L. McCurley Pisarello, D. Moshir Pahani, S. Palomino-Ángel, R. Price, C. Ricaurte-Villota, L. Fernanda Ricaurte, V. H. Rivera-Monroy, A. Rodriguez, E. Rodriguez, J. Salgado, B. Sannel, S. Seifollahi-Aghmiuni, M. Simard, Y. Sjöberg, P. Terskii, J. Thorslund, D. A. Zamora, J. Jarsjö
Format: Article
Language:English
Published: Nature Publishing Group 2021-02-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-81137-3
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author I. Åhlén
G. Vigouroux
G. Destouni
J. Pietroń
N. Ghajarnia
J. Anaya
J. Blanco
S. Borja
S. Chalov
K. P. Chun
N. Clerici
A. Desormeaux
P. Girard
O. Gorelits
A. Hansen
F. Jaramillo
Z. Kalantari
A. Labbaci
L. Licero-Villanueva
J. Livsey
G. Maneas
K. L. McCurley Pisarello
D. Moshir Pahani
S. Palomino-Ángel
R. Price
C. Ricaurte-Villota
L. Fernanda Ricaurte
V. H. Rivera-Monroy
A. Rodriguez
E. Rodriguez
J. Salgado
B. Sannel
S. Seifollahi-Aghmiuni
M. Simard
Y. Sjöberg
P. Terskii
J. Thorslund
D. A. Zamora
J. Jarsjö
spellingShingle I. Åhlén
G. Vigouroux
G. Destouni
J. Pietroń
N. Ghajarnia
J. Anaya
J. Blanco
S. Borja
S. Chalov
K. P. Chun
N. Clerici
A. Desormeaux
P. Girard
O. Gorelits
A. Hansen
F. Jaramillo
Z. Kalantari
A. Labbaci
L. Licero-Villanueva
J. Livsey
G. Maneas
K. L. McCurley Pisarello
D. Moshir Pahani
S. Palomino-Ángel
R. Price
C. Ricaurte-Villota
L. Fernanda Ricaurte
V. H. Rivera-Monroy
A. Rodriguez
E. Rodriguez
J. Salgado
B. Sannel
S. Seifollahi-Aghmiuni
M. Simard
Y. Sjöberg
P. Terskii
J. Thorslund
D. A. Zamora
J. Jarsjö
Hydro-climatic changes of wetlandscapes across the world
Scientific Reports
author_facet I. Åhlén
G. Vigouroux
G. Destouni
J. Pietroń
N. Ghajarnia
J. Anaya
J. Blanco
S. Borja
S. Chalov
K. P. Chun
N. Clerici
A. Desormeaux
P. Girard
O. Gorelits
A. Hansen
F. Jaramillo
Z. Kalantari
A. Labbaci
L. Licero-Villanueva
J. Livsey
G. Maneas
K. L. McCurley Pisarello
D. Moshir Pahani
S. Palomino-Ángel
R. Price
C. Ricaurte-Villota
L. Fernanda Ricaurte
V. H. Rivera-Monroy
A. Rodriguez
E. Rodriguez
J. Salgado
B. Sannel
S. Seifollahi-Aghmiuni
M. Simard
Y. Sjöberg
P. Terskii
J. Thorslund
D. A. Zamora
J. Jarsjö
author_sort I. Åhlén
title Hydro-climatic changes of wetlandscapes across the world
title_short Hydro-climatic changes of wetlandscapes across the world
title_full Hydro-climatic changes of wetlandscapes across the world
title_fullStr Hydro-climatic changes of wetlandscapes across the world
title_full_unstemmed Hydro-climatic changes of wetlandscapes across the world
title_sort hydro-climatic changes of wetlandscapes across the world
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-02-01
description Abstract Assessments of ecosystem service and function losses of wetlandscapes (i.e., wetlands and their hydrological catchments) suffer from knowledge gaps regarding impacts of ongoing hydro-climatic change. This study investigates hydro-climatic changes during 1976–2015 in 25 wetlandscapes distributed across the world’s tropical, arid, temperate and cold climate zones. Results show that the wetlandscapes were subject to precipitation (P) and temperature (T) changes consistent with mean changes over the world’s land area. However, arid and cold wetlandscapes experienced higher T increases than their respective climate zone. Also, average P decreased in arid and cold wetlandscapes, contrarily to P of arid and cold climate zones, suggesting that these wetlandscapes are located in regions of elevated climate pressures. For most wetlandscapes with available runoff (R) data, the decreases were larger in R than in P, which was attributed to aggravation of climate change impacts by enhanced evapotranspiration losses, e.g. caused by land-use changes.
url https://doi.org/10.1038/s41598-021-81137-3
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spelling doaj-7f18cd4727134a8d9e1b375954a550a42021-02-07T12:33:16ZengNature Publishing GroupScientific Reports2045-23222021-02-0111111110.1038/s41598-021-81137-3Hydro-climatic changes of wetlandscapes across the worldI. Åhlén0G. Vigouroux1G. Destouni2J. Pietroń3N. Ghajarnia4J. Anaya5J. Blanco6S. Borja7S. Chalov8K. P. Chun9N. Clerici10A. Desormeaux11P. Girard12O. Gorelits13A. Hansen14F. Jaramillo15Z. Kalantari16A. Labbaci17L. Licero-Villanueva18J. Livsey19G. Maneas20K. L. McCurley Pisarello21D. Moshir Pahani22S. Palomino-Ángel23R. Price24C. Ricaurte-Villota25L. Fernanda Ricaurte26V. H. Rivera-Monroy27A. Rodriguez28E. Rodriguez29J. Salgado30B. Sannel31S. Seifollahi-Aghmiuni32M. Simard33Y. Sjöberg34P. Terskii35J. Thorslund36D. A. Zamora37J. Jarsjö38Department of Physical Geography and Bolin Center for Climate Research, Stockholm UniversityDepartment of Physical Geography and Bolin Center for Climate Research, Stockholm UniversityDepartment of Physical Geography and Bolin Center for Climate Research, Stockholm UniversityDepartment of Physical Geography and Bolin Center for Climate Research, Stockholm UniversityDepartment of Physical Geography and Bolin Center for Climate Research, Stockholm UniversityFacultad de Ingeniería, Universidad de MedellínFacultad de Ciencias Exactas y Naturales, Instituto de Biología, Universidad de AntioquiaDepartment of Physical Geography and Bolin Center for Climate Research, Stockholm UniversityFaculty of Geography, Lomonosov Moscow State UniversityDepartment of Geography, Hong Kong Baptist UniversityDepartment of Biology, Faculty of Natural Sciences and Mathematics, Universidad del RosarioSchool of Natural Resources and Environment, University of FloridaCentro de Pesquisa do Pantanal and BioScience Institute, Federal University of Mato GrossoZubov State Oceanographic InstituteDepartment of Civil, Environmental and Architectural Engineering, University of KansasDepartment of Physical Geography and Bolin Center for Climate Research, Stockholm UniversityDepartment of Physical Geography and Bolin Center for Climate Research, Stockholm UniversityDepartment of Geology, Faculty of Sciences, Ibn Zohr UniversityInstitute of Botany and Landscape Ecology, University of GreifswaldDepartment of Physical Geography and Bolin Center for Climate Research, Stockholm UniversityDepartment of Physical Geography and Bolin Center for Climate Research, Stockholm UniversityDepartment of Soil and Water Sciences, University of FloridaDepartment of Physical Geography and Bolin Center for Climate Research, Stockholm UniversityFacultad de Ingeniería, Universidad de MedellínDepartment of Earth and Environment, Southeast Environmental Research Center, Florida International UniversityInstituto de investigaciones marinas y costeras de Colombia “José Benito Vives de Andreis”—INVEMARAlexander von Humboldt Biological Resources Research InstituteAlexander von Humboldt Biological Resources Research InstituteInstituto de investigaciones marinas y costeras de Colombia “José Benito Vives de Andreis”—INVEMARCivil and Agricultural Engineering Department, Universidad Nacional de ColombiaDepartamento de Ciencias Biológicas, Universidad de Los AndesDepartment of Physical Geography and Bolin Center for Climate Research, Stockholm UniversityDepartment of Physical Geography and Bolin Center for Climate Research, Stockholm UniversityJet Propulsion Laboratory, California Institute of TechnologyDepartment of Geosciences and Natural Resource Management, University of CopenhagenFaculty of Geography, Lomonosov Moscow State UniversityDepartment of Physical Geography and Bolin Center for Climate Research, Stockholm UniversityCivil and Agricultural Engineering Department, Universidad Nacional de ColombiaDepartment of Physical Geography and Bolin Center for Climate Research, Stockholm UniversityAbstract Assessments of ecosystem service and function losses of wetlandscapes (i.e., wetlands and their hydrological catchments) suffer from knowledge gaps regarding impacts of ongoing hydro-climatic change. This study investigates hydro-climatic changes during 1976–2015 in 25 wetlandscapes distributed across the world’s tropical, arid, temperate and cold climate zones. Results show that the wetlandscapes were subject to precipitation (P) and temperature (T) changes consistent with mean changes over the world’s land area. However, arid and cold wetlandscapes experienced higher T increases than their respective climate zone. Also, average P decreased in arid and cold wetlandscapes, contrarily to P of arid and cold climate zones, suggesting that these wetlandscapes are located in regions of elevated climate pressures. For most wetlandscapes with available runoff (R) data, the decreases were larger in R than in P, which was attributed to aggravation of climate change impacts by enhanced evapotranspiration losses, e.g. caused by land-use changes.https://doi.org/10.1038/s41598-021-81137-3

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