Disentangling climatic and anthropogenic controls on global terrestrial evapotranspiration trends

Jiafu Mao; Wenting Fu; Xiaoying Shi; Daniel M. Ricciuto; Joshua B. Fisher; Robert E. Dickinson; Yaxing Wei; Willis Shem; Shilong Piao; Kaicun Wang; Christopher R. Schwalm; Hanqin Tian; Mingquan Mu; Altaf Arain; Philippe Ciais; Robert Cook; Yongjiu Dai; Daniel Hayes; Forrest M. Hoffman; Maoyi Huang; Suo Huang; Deborah N. Huntzinger; Akihiko Ito; Atul Jain; Anthony W. King; Huimin Lei; Chaoqun Lu; Anna M. Michalak; Nicholas Parazoo; Changhui Peng; Shushi Peng; Benjamin Poulter; Kevin Schaefer; Elchin Jafarov; Peter E. Thornton; Weile Wang; Ning Zeng; Zhenzhong Zeng; Fang Zhao; Qiuan Zhu; Zaichun Zhu

doi:10.1088/1748-9326/10/9/094008

Disentangling climatic and anthropogenic controls on global terrestrial evapotranspiration trends

Jiafu Mao
, Wenting Fu
, Xiaoying Shi
, Daniel M. Ricciuto
, Joshua B. Fisher
, Robert E. Dickinson
, Yaxing Wei
, Willis Shem
, Shilong Piao
, Kaicun Wang
, Christopher R. Schwalm
, Hanqin Tian
, Mingquan Mu
, Altaf Arain
, Philippe Ciais
, Robert Cook
, Yongjiu Dai
, Daniel Hayes
, Forrest M. Hoffman
, Maoyi Huang

Suo Huang, Deborah N. Huntzinger, Akihiko Ito, Atul Jain, Anthony W. King, Huimin Lei, Chaoqun Lu, Anna M. Michalak, Nicholas Parazoo, Changhui Peng, Shushi Peng, Benjamin Poulter, Kevin Schaefer, Elchin Jafarov, Peter E. Thornton, Weile Wang, Ning Zeng, Zhenzhong Zeng, Fang Zhao, Qiuan Zhu, Zaichun Zhu

Oak Ridge National Laboratory
University of Texas at Austin
Jet Propulsion Laboratory, California Institute of Technology
Peking University
Beijing Normal University
Northern Arizona University
Auburn University
University of California at Irvine
McMaster University
CEA CNRS UVSQ
A110 Life Science Building
Pacific Northwest National Laboratory
National Institute for Environmental Studies of Japan
University of Illinois at Urbana-Champaign
Tsinghua University
Carnegie Institution of Washington
Université du Québec à Montréal
Montana State University
University of Colorado Boulder
NASA Ames Research Center
University of Maryland, College Park
Northwest Agriculture and Forestry University

Research output: Contribution to journal › Article › peer-review

152 Scopus citations

Abstract

We examined natural and anthropogenic controls on terrestrial evapotranspiration (ET) changes from 1982 to 2010 using multiple estimates from remote sensing-based datasets and process-oriented land surface models. A significant increasing trend of ET in each hemisphere was consistently revealed by observationally-constrained data and multi-model ensembles that considered historic natural and anthropogenic drivers. The climate impacts were simulated to determine the spatiotemporal variations in ET. Globally, rising CO₂ ranked second in these models after the predominant climatic influences, and yielded decreasing trends in canopy transpiration and ET, especially for tropical forests and high-latitude shrub land. Increasing nitrogen deposition slightly amplified global ET via enhanced plant growth. Land-use-induced ET responses, albeit with substantial uncertainties across the factorial analysis, were minor globally, but pronounced locally, particularly over regions with intensive land-cover changes. Our study highlights the importance of employing multi-stream ET and ET-component estimates to quantify the strengthening anthropogenic fingerprint in the global hydrologic cycle.

Original language	English
Article number	094008
Journal	Environmental Research Letters
Volume	10
Issue number	9
DOIs	https://doi.org/10.1088/1748-9326/10/9/094008
State	Published - 8 Sep 2015
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being
SDG 7 Affordable and Clean Energy
SDG 13 Climate Action
SDG 15 Life on Land

Keywords

MsTMIP
evapotranspiration
factorial analysis
natural and anthropogenic controls

Access to Document

10.1088/1748-9326/10/9/094008

Cite this

Mao, J., Fu, W., Shi, X., Ricciuto, D. M., Fisher, J. B., Dickinson, R. E., Wei, Y., Shem, W., Piao, S., Wang, K., Schwalm, C. R., Tian, H., Mu, M., Arain, A., Ciais, P., Cook, R., Dai, Y., Hayes, D., Hoffman, F. M., ... Zhu, Z. (2015). Disentangling climatic and anthropogenic controls on global terrestrial evapotranspiration trends. Environmental Research Letters, 10(9), Article 094008. https://doi.org/10.1088/1748-9326/10/9/094008

@article{e18fc2769b3644c48f5f98ed0d777877,

title = "Disentangling climatic and anthropogenic controls on global terrestrial evapotranspiration trends",

abstract = "We examined natural and anthropogenic controls on terrestrial evapotranspiration (ET) changes from 1982 to 2010 using multiple estimates from remote sensing-based datasets and process-oriented land surface models. A significant increasing trend of ET in each hemisphere was consistently revealed by observationally-constrained data and multi-model ensembles that considered historic natural and anthropogenic drivers. The climate impacts were simulated to determine the spatiotemporal variations in ET. Globally, rising CO2 ranked second in these models after the predominant climatic influences, and yielded decreasing trends in canopy transpiration and ET, especially for tropical forests and high-latitude shrub land. Increasing nitrogen deposition slightly amplified global ET via enhanced plant growth. Land-use-induced ET responses, albeit with substantial uncertainties across the factorial analysis, were minor globally, but pronounced locally, particularly over regions with intensive land-cover changes. Our study highlights the importance of employing multi-stream ET and ET-component estimates to quantify the strengthening anthropogenic fingerprint in the global hydrologic cycle.",

keywords = "MsTMIP, evapotranspiration, factorial analysis, natural and anthropogenic controls",

author = "Jiafu Mao and Wenting Fu and Xiaoying Shi and Ricciuto, \{Daniel M.\} and Fisher, \{Joshua B.\} and Dickinson, \{Robert E.\} and Yaxing Wei and Willis Shem and Shilong Piao and Kaicun Wang and Schwalm, \{Christopher R.\} and Hanqin Tian and Mingquan Mu and Altaf Arain and Philippe Ciais and Robert Cook and Yongjiu Dai and Daniel Hayes and Hoffman, \{Forrest M.\} and Maoyi Huang and Suo Huang and Huntzinger, \{Deborah N.\} and Akihiko Ito and Atul Jain and King, \{Anthony W.\} and Huimin Lei and Chaoqun Lu and Michalak, \{Anna M.\} and Nicholas Parazoo and Changhui Peng and Shushi Peng and Benjamin Poulter and Kevin Schaefer and Elchin Jafarov and Thornton, \{Peter E.\} and Weile Wang and Ning Zeng and Zhenzhong Zeng and Fang Zhao and Qiuan Zhu and Zaichun Zhu",

note = "Publisher Copyright: {\textcopyright} 2015 IOP Publishing Ltd.",

year = "2015",

month = sep,

day = "8",

doi = "10.1088/1748-9326/10/9/094008",

language = "英语",

volume = "10",

journal = "Environmental Research Letters",

issn = "1748-9326",

publisher = "Institute of Physics",

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}

Mao, J, Fu, W, Shi, X, Ricciuto, DM, Fisher, JB, Dickinson, RE, Wei, Y, Shem, W, Piao, S, Wang, K, Schwalm, CR, Tian, H, Mu, M, Arain, A, Ciais, P, Cook, R, Dai, Y, Hayes, D, Hoffman, FM, Huang, M, Huang, S, Huntzinger, DN, Ito, A, Jain, A, King, AW, Lei, H, Lu, C, Michalak, AM, Parazoo, N, Peng, C, Peng, S, Poulter, B, Schaefer, K, Jafarov, E, Thornton, PE, Wang, W, Zeng, N, Zeng, Z, Zhao, F, Zhu, Q & Zhu, Z 2015, 'Disentangling climatic and anthropogenic controls on global terrestrial evapotranspiration trends', Environmental Research Letters, vol. 10, no. 9, 094008. https://doi.org/10.1088/1748-9326/10/9/094008

TY - JOUR

T1 - Disentangling climatic and anthropogenic controls on global terrestrial evapotranspiration trends

AU - Mao, Jiafu

AU - Fu, Wenting

AU - Shi, Xiaoying

AU - Ricciuto, Daniel M.

AU - Fisher, Joshua B.

AU - Dickinson, Robert E.

AU - Wei, Yaxing

AU - Shem, Willis

AU - Piao, Shilong

AU - Wang, Kaicun

AU - Schwalm, Christopher R.

AU - Tian, Hanqin

AU - Mu, Mingquan

AU - Arain, Altaf

AU - Ciais, Philippe

AU - Cook, Robert

AU - Dai, Yongjiu

AU - Hayes, Daniel

AU - Hoffman, Forrest M.

AU - Huang, Maoyi

AU - Huang, Suo

AU - Huntzinger, Deborah N.

AU - Ito, Akihiko

AU - Jain, Atul

AU - King, Anthony W.

AU - Lei, Huimin

AU - Lu, Chaoqun

AU - Michalak, Anna M.

AU - Parazoo, Nicholas

AU - Peng, Changhui

AU - Peng, Shushi

AU - Poulter, Benjamin

AU - Schaefer, Kevin

AU - Jafarov, Elchin

AU - Thornton, Peter E.

AU - Wang, Weile

AU - Zeng, Ning

AU - Zeng, Zhenzhong

AU - Zhao, Fang

AU - Zhu, Qiuan

AU - Zhu, Zaichun

PY - 2015/9/8

Y1 - 2015/9/8

N2 - We examined natural and anthropogenic controls on terrestrial evapotranspiration (ET) changes from 1982 to 2010 using multiple estimates from remote sensing-based datasets and process-oriented land surface models. A significant increasing trend of ET in each hemisphere was consistently revealed by observationally-constrained data and multi-model ensembles that considered historic natural and anthropogenic drivers. The climate impacts were simulated to determine the spatiotemporal variations in ET. Globally, rising CO2 ranked second in these models after the predominant climatic influences, and yielded decreasing trends in canopy transpiration and ET, especially for tropical forests and high-latitude shrub land. Increasing nitrogen deposition slightly amplified global ET via enhanced plant growth. Land-use-induced ET responses, albeit with substantial uncertainties across the factorial analysis, were minor globally, but pronounced locally, particularly over regions with intensive land-cover changes. Our study highlights the importance of employing multi-stream ET and ET-component estimates to quantify the strengthening anthropogenic fingerprint in the global hydrologic cycle.

AB - We examined natural and anthropogenic controls on terrestrial evapotranspiration (ET) changes from 1982 to 2010 using multiple estimates from remote sensing-based datasets and process-oriented land surface models. A significant increasing trend of ET in each hemisphere was consistently revealed by observationally-constrained data and multi-model ensembles that considered historic natural and anthropogenic drivers. The climate impacts were simulated to determine the spatiotemporal variations in ET. Globally, rising CO2 ranked second in these models after the predominant climatic influences, and yielded decreasing trends in canopy transpiration and ET, especially for tropical forests and high-latitude shrub land. Increasing nitrogen deposition slightly amplified global ET via enhanced plant growth. Land-use-induced ET responses, albeit with substantial uncertainties across the factorial analysis, were minor globally, but pronounced locally, particularly over regions with intensive land-cover changes. Our study highlights the importance of employing multi-stream ET and ET-component estimates to quantify the strengthening anthropogenic fingerprint in the global hydrologic cycle.

KW - MsTMIP

KW - evapotranspiration

KW - factorial analysis

KW - natural and anthropogenic controls

UR - https://www.scopus.com/pages/publications/84945208742

U2 - 10.1088/1748-9326/10/9/094008

DO - 10.1088/1748-9326/10/9/094008

M3 - 文章

AN - SCOPUS:84945208742

SN - 1748-9326

VL - 10

JO - Environmental Research Letters

JF - Environmental Research Letters

IS - 9

M1 - 094008

ER -

Disentangling climatic and anthropogenic controls on global terrestrial evapotranspiration trends

Abstract

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Keywords

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