Global irrigation contribution to wheat and maize yield

Xuhui Wang; Christoph Müller; Joshua Elliot; Nathaniel D. Mueller; Philippe Ciais; Jonas Jägermeyr; James Gerber; Patrice Dumas; Chenzhi Wang; Hui Yang; Laurent Li; Delphine Deryng; Christian Folberth; Wenfeng Liu; David Makowski; Stefan Olin; Thomas A.M. Pugh; Ashwan Reddy; Erwin Schmid; Sujong Jeong; Feng Zhou; Shilong Piao

doi:10.1038/s41467-021-21498-5

Global irrigation contribution to wheat and maize yield

Xuhui Wang
, Christoph Müller
, Joshua Elliot
, Nathaniel D. Mueller
, Philippe Ciais
, Jonas Jägermeyr
, James Gerber
, Patrice Dumas
, Chenzhi Wang
, Hui Yang
, Laurent Li
, Delphine Deryng
, Christian Folberth
, Wenfeng Liu
, David Makowski
, Stefan Olin
, Thomas A.M. Pugh
, Ashwan Reddy
, Erwin Schmid
, Sujong Jeong

Feng Zhou, Shilong Piao

Tsinghua University
Potsdam Institute for Climate Impact Research (PIK)
University of Chicago
Center for Climate Systems Research
Colorado State University
Cooperative Institute for Research in the Atmosphere
UVSQ
University of Minnesota Twin Cities
CIRED
Climate Analytics
Universität München
China Agricultural University
Université Paris-Saclay
Lund University
University of Maryland, College Park
University of Natural Resources and Life Sciences
Seoul National University
Chinese Academy of Sciences
Chinese Academy of Sciences

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Irrigation is the largest sector of human water use and an important option for increasing crop production and reducing drought impacts. However, the potential for irrigation to contribute to global crop yields remains uncertain. Here, we quantify this contribution for wheat and maize at global scale by developing a Bayesian framework integrating empirical estimates and gridded global crop models on new maps of the relative difference between attainable rainfed and irrigated yield (ΔY). At global scale, ΔY is 34 ± 9% for wheat and 22 ± 13% for maize, with large spatial differences driven more by patterns of precipitation than that of evaporative demand. Comparing irrigation demands with renewable water supply, we find 30–47% of contemporary rainfed agriculture of wheat and maize cannot achieve yield gap closure utilizing current river discharge, unless more water diversion projects are set in place, putting into question the potential of irrigation to mitigate climate change impacts.

langue originale	Anglais
Numéro d'article	1235
journal	Nature Communications
Volume	12
Numéro de publication	1
Les DOIs	https://doi.org/10.1038/s41467-021-21498-5
état	Publié - 1 déc. 2021

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Ce résultat contribue à ou aux Objectifs de développement durable suivants

SDG 7 Énergie abordable et propre
SDG 13 Action climatique

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10.1038/s41467-021-21498-5

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Wang, X., Müller, C., Elliot, J., Mueller, N. D., Ciais, P., Jägermeyr, J., Gerber, J., Dumas, P., Wang, C., Yang, H., Li, L., Deryng, D., Folberth, C., Liu, W., Makowski, D., Olin, S., Pugh, T. A. M., Reddy, A., Schmid, E., ... Piao, S. (2021). Global irrigation contribution to wheat and maize yield. Nature Communications, 12(1), Article 1235. https://doi.org/10.1038/s41467-021-21498-5

@article{3bdade4d13f14d959d044fd57b9f97bc,

title = "Global irrigation contribution to wheat and maize yield",

abstract = "Irrigation is the largest sector of human water use and an important option for increasing crop production and reducing drought impacts. However, the potential for irrigation to contribute to global crop yields remains uncertain. Here, we quantify this contribution for wheat and maize at global scale by developing a Bayesian framework integrating empirical estimates and gridded global crop models on new maps of the relative difference between attainable rainfed and irrigated yield (ΔY). At global scale, ΔY is 34 ± 9\% for wheat and 22 ± 13\% for maize, with large spatial differences driven more by patterns of precipitation than that of evaporative demand. Comparing irrigation demands with renewable water supply, we find 30–47\% of contemporary rainfed agriculture of wheat and maize cannot achieve yield gap closure utilizing current river discharge, unless more water diversion projects are set in place, putting into question the potential of irrigation to mitigate climate change impacts.",

author = "Xuhui Wang and Christoph M{\"u}ller and Joshua Elliot and Mueller, \{Nathaniel D.\} and Philippe Ciais and Jonas J{\"a}germeyr and James Gerber and Patrice Dumas and Chenzhi Wang and Hui Yang and Laurent Li and Delphine Deryng and Christian Folberth and Wenfeng Liu and David Makowski and Stefan Olin and Pugh, \{Thomas A.M.\} and Ashwan Reddy and Erwin Schmid and Sujong Jeong and Feng Zhou and Shilong Piao",

note = "Publisher Copyright: {\textcopyright} 2021, The Author(s).",

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doi = "10.1038/s41467-021-21498-5",

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Wang, X, Müller, C, Elliot, J, Mueller, ND, Ciais, P, Jägermeyr, J, Gerber, J, Dumas, P, Wang, C, Yang, H, Li, L, Deryng, D, Folberth, C, Liu, W, Makowski, D, Olin, S, Pugh, TAM, Reddy, A, Schmid, E, Jeong, S, Zhou, F & Piao, S 2021, 'Global irrigation contribution to wheat and maize yield', Nature Communications, VOL. 12, Numéro 1, 1235. https://doi.org/10.1038/s41467-021-21498-5

TY - JOUR

T1 - Global irrigation contribution to wheat and maize yield

AU - Wang, Xuhui

AU - Müller, Christoph

AU - Elliot, Joshua

AU - Mueller, Nathaniel D.

AU - Ciais, Philippe

AU - Jägermeyr, Jonas

AU - Gerber, James

AU - Dumas, Patrice

AU - Wang, Chenzhi

AU - Yang, Hui

AU - Li, Laurent

AU - Deryng, Delphine

AU - Folberth, Christian

AU - Liu, Wenfeng

AU - Makowski, David

AU - Olin, Stefan

AU - Pugh, Thomas A.M.

AU - Reddy, Ashwan

AU - Schmid, Erwin

AU - Jeong, Sujong

AU - Zhou, Feng

AU - Piao, Shilong

PY - 2021/12/1

Y1 - 2021/12/1

N2 - Irrigation is the largest sector of human water use and an important option for increasing crop production and reducing drought impacts. However, the potential for irrigation to contribute to global crop yields remains uncertain. Here, we quantify this contribution for wheat and maize at global scale by developing a Bayesian framework integrating empirical estimates and gridded global crop models on new maps of the relative difference between attainable rainfed and irrigated yield (ΔY). At global scale, ΔY is 34 ± 9% for wheat and 22 ± 13% for maize, with large spatial differences driven more by patterns of precipitation than that of evaporative demand. Comparing irrigation demands with renewable water supply, we find 30–47% of contemporary rainfed agriculture of wheat and maize cannot achieve yield gap closure utilizing current river discharge, unless more water diversion projects are set in place, putting into question the potential of irrigation to mitigate climate change impacts.

AB - Irrigation is the largest sector of human water use and an important option for increasing crop production and reducing drought impacts. However, the potential for irrigation to contribute to global crop yields remains uncertain. Here, we quantify this contribution for wheat and maize at global scale by developing a Bayesian framework integrating empirical estimates and gridded global crop models on new maps of the relative difference between attainable rainfed and irrigated yield (ΔY). At global scale, ΔY is 34 ± 9% for wheat and 22 ± 13% for maize, with large spatial differences driven more by patterns of precipitation than that of evaporative demand. Comparing irrigation demands with renewable water supply, we find 30–47% of contemporary rainfed agriculture of wheat and maize cannot achieve yield gap closure utilizing current river discharge, unless more water diversion projects are set in place, putting into question the potential of irrigation to mitigate climate change impacts.

UR - https://www.scopus.com/pages/publications/85101337711

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DO - 10.1038/s41467-021-21498-5

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VL - 12

JO - Nature Communications

JF - Nature Communications

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M1 - 1235

ER -

Global irrigation contribution to wheat and maize yield

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