Aerial and surface rivers: downwind impacts on water availability from land use changes in Amazonia

Aerial and surface rivers: downwind impacts on water availability from land use changes in Amazonia

The abundant evapotranspiration provided by the Amazon forests is an important component of the hydrological cycle, both regionally and globally. Since the last century, deforestation and expanding agricultural activities have been changing the ecosystem and its provision of moisture to the atmosphe...

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Main Authors: W. Weng, M. K. B. Luedeke, D. C. Zemp, T. Lakes, J. P. Kropp
Format: Article
Language:English
Published: Copernicus Publications 2018-02-01
Series:Hydrology and Earth System Sciences
Online Access:https://www.hydrol-earth-syst-sci.net/22/911/2018/hess-22-911-2018.pdf
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spelling doaj-eb2df96e31394474be502919161e30c12020-11-24T22:26:09ZengCopernicus PublicationsHydrology and Earth System Sciences1027-56061607-79382018-02-012291192710.5194/hess-22-911-2018Aerial and surface rivers: downwind impacts on water availability from land use changes in AmazoniaW. Weng0W. Weng1W. Weng2M. K. B. Luedeke3D. C. Zemp4D. C. Zemp5T. Lakes6T. Lakes7J. P. Kropp8J. P. Kropp9Potsdam Institute for Climate Impact Research, 14482 Potsdam, GermanyGeography Department, Humboldt-Universität zu Berlin, 10099 Berlin, GermanyIntegrative Research Institute on Transformations of Human-Environment Systems, Humboldt-Universität zu Berlin, 10099 Berlin, GermanyPotsdam Institute for Climate Impact Research, 14482 Potsdam, GermanyPotsdam Institute for Climate Impact Research, 14482 Potsdam, GermanyBiodiversity, Macroecology & Biogeography, University of Goettingen, 37077 Göttingen, GermanyGeography Department, Humboldt-Universität zu Berlin, 10099 Berlin, GermanyIntegrative Research Institute on Transformations of Human-Environment Systems, Humboldt-Universität zu Berlin, 10099 Berlin, GermanyPotsdam Institute for Climate Impact Research, 14482 Potsdam, GermanyInstitute of Earth and Environmental Science, University of Potsdam, 14469 Potsdam, GermanyThe abundant evapotranspiration provided by the Amazon forests is an important component of the hydrological cycle, both regionally and globally. Since the last century, deforestation and expanding agricultural activities have been changing the ecosystem and its provision of moisture to the atmosphere. However, it remains uncertain how the ongoing land use change will influence rainfall, runoff, and water availability as findings from previous studies differ. Using moisture tracking experiments based on observational data, we provide a spatially detailed analysis recognizing potential teleconnection between source and sink regions of atmospheric moisture. We apply land use scenarios in upwind moisture sources and quantify the corresponding rainfall and runoff changes in downwind moisture sinks. We find spatially varying responses of water regimes to land use changes, which may explain the diverse results from previous studies. Parts of the Peruvian Amazon and western Bolivia are identified as the sink areas most sensitive to land use change in the Amazon and we highlight the current water stress by Amazonian land use change on these areas in terms of the water availability. Furthermore, we also identify the influential source areas where land use change may considerably reduce a given target sink's water reception (from our example of the Ucayali River basin outlet, rainfall by 5–12 % and runoff by 19–50 % according to scenarios). Sensitive sinks and influential sources are therefore suggested as hotspots for achieving sustainable land–water management.https://www.hydrol-earth-syst-sci.net/22/911/2018/hess-22-911-2018.pdf
collection DOAJ
language English
format Article
sources DOAJ
author W. Weng
W. Weng
W. Weng
M. K. B. Luedeke
D. C. Zemp
D. C. Zemp
T. Lakes
T. Lakes
J. P. Kropp
J. P. Kropp
spellingShingle W. Weng
W. Weng
W. Weng
M. K. B. Luedeke
D. C. Zemp
D. C. Zemp
T. Lakes
T. Lakes
J. P. Kropp
J. P. Kropp
Aerial and surface rivers: downwind impacts on water availability from land use changes in Amazonia
Hydrology and Earth System Sciences
author_facet W. Weng
W. Weng
W. Weng
M. K. B. Luedeke
D. C. Zemp
D. C. Zemp
T. Lakes
T. Lakes
J. P. Kropp
J. P. Kropp
author_sort W. Weng
title Aerial and surface rivers: downwind impacts on water availability from land use changes in Amazonia
title_short Aerial and surface rivers: downwind impacts on water availability from land use changes in Amazonia
title_full Aerial and surface rivers: downwind impacts on water availability from land use changes in Amazonia
title_fullStr Aerial and surface rivers: downwind impacts on water availability from land use changes in Amazonia
title_full_unstemmed Aerial and surface rivers: downwind impacts on water availability from land use changes in Amazonia
title_sort aerial and surface rivers: downwind impacts on water availability from land use changes in amazonia
publisher Copernicus Publications
series Hydrology and Earth System Sciences
issn 1027-5606
1607-7938
publishDate 2018-02-01
description The abundant evapotranspiration provided by the Amazon forests is an important component of the hydrological cycle, both regionally and globally. Since the last century, deforestation and expanding agricultural activities have been changing the ecosystem and its provision of moisture to the atmosphere. However, it remains uncertain how the ongoing land use change will influence rainfall, runoff, and water availability as findings from previous studies differ. Using moisture tracking experiments based on observational data, we provide a spatially detailed analysis recognizing potential teleconnection between source and sink regions of atmospheric moisture. We apply land use scenarios in upwind moisture sources and quantify the corresponding rainfall and runoff changes in downwind moisture sinks. We find spatially varying responses of water regimes to land use changes, which may explain the diverse results from previous studies. Parts of the Peruvian Amazon and western Bolivia are identified as the sink areas most sensitive to land use change in the Amazon and we highlight the current water stress by Amazonian land use change on these areas in terms of the water availability. Furthermore, we also identify the influential source areas where land use change may considerably reduce a given target sink's water reception (from our example of the Ucayali River basin outlet, rainfall by 5–12 % and runoff by 19–50 % according to scenarios). Sensitive sinks and influential sources are therefore suggested as hotspots for achieving sustainable land–water management.
url https://www.hydrol-earth-syst-sci.net/22/911/2018/hess-22-911-2018.pdf
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