Optimization of China’s maize and soy production can ensure feed sufficiency at lower nitrogen and carbon footprints

Zitong Liu; Hao Ying; Mingyou Chen; Jie Bai; Yanfang Xue; Yulong Yin; William D. Batchelor; Yi Yang; Zhaohai Bai; Mingxi Du; Yixin Guo; Qingsong Zhang; Zhenling Cui; Fusuo Zhang; Zhengxia Dou

doi:10.1038/s43016-021-00300-1

Optimization of China’s maize and soy production can ensure feed sufficiency at lower nitrogen and carbon footprints

Zitong Liu
, Hao Ying
, Mingyou Chen
, Jie Bai
, Yanfang Xue
, Yulong Yin
, William D. Batchelor
, Yi Yang
, Zhaohai Bai
, Mingxi Du
, Yixin Guo
, Qingsong Zhang
, Zhenling Cui
, Fusuo Zhang
, Zhengxia Dou

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

155 Scopus citations

Abstract

China purchases around 66% of the soy that is traded internationally. This strains the global food supply and contributes to greenhouse gas emissions. Here we show that optimizing the maize and soy production of China can improve its self-sufficiency and also alleviate adverse environmental effects. Using data from more than 1,800 counties in China, we estimate the area-weighted yield potential (Y_pot) and yield gaps, setting the attainable yield (Y_att) as the yield achieved by the top 10% of producers per county. We also map out county-by-county acreage allocation and calculate the attainable production capacity according to a set of sustainability criteria. Under optimized conditions, China would be able to produce all the maize and 45% of the soy needed by 2035—while reducing nitrogen fertilizer use by 26%, reactive nitrogen loss by 28% and greenhouse gas emissions by 19%—with the same acreage as 2017, our reference year.

Original language	English
Pages (from-to)	426-433
Number of pages	8
Journal	Nature Food
Volume	2
Issue number	6
DOIs	https://doi.org/10.1038/s43016-021-00300-1
State	Published - Jun 2021
Externally published	Yes

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title = "Optimization of China{\textquoteright}s maize and soy production can ensure feed sufficiency at lower nitrogen and carbon footprints",

abstract = "China purchases around 66\% of the soy that is traded internationally. This strains the global food supply and contributes to greenhouse gas emissions. Here we show that optimizing the maize and soy production of China can improve its self-sufficiency and also alleviate adverse environmental effects. Using data from more than 1,800 counties in China, we estimate the area-weighted yield potential (Ypot) and yield gaps, setting the attainable yield (Yatt) as the yield achieved by the top 10\% of producers per county. We also map out county-by-county acreage allocation and calculate the attainable production capacity according to a set of sustainability criteria. Under optimized conditions, China would be able to produce all the maize and 45\% of the soy needed by 2035—while reducing nitrogen fertilizer use by 26\%, reactive nitrogen loss by 28\% and greenhouse gas emissions by 19\%—with the same acreage as 2017, our reference year.",

author = "Zitong Liu and Hao Ying and Mingyou Chen and Jie Bai and Yanfang Xue and Yulong Yin and Batchelor, \{William D.\} and Yi Yang and Zhaohai Bai and Mingxi Du and Yixin Guo and Qingsong Zhang and Zhenling Cui and Fusuo Zhang and Zhengxia Dou",

note = "Publisher Copyright: {\textcopyright} 2021, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2021",

month = jun,

doi = "10.1038/s43016-021-00300-1",

language = "英语",

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TY - JOUR

T1 - Optimization of China’s maize and soy production can ensure feed sufficiency at lower nitrogen and carbon footprints

AU - Liu, Zitong

AU - Ying, Hao

AU - Chen, Mingyou

AU - Bai, Jie

AU - Xue, Yanfang

AU - Yin, Yulong

AU - Batchelor, William D.

AU - Yang, Yi

AU - Bai, Zhaohai

AU - Du, Mingxi

AU - Guo, Yixin

AU - Zhang, Qingsong

AU - Cui, Zhenling

AU - Zhang, Fusuo

AU - Dou, Zhengxia

PY - 2021/6

Y1 - 2021/6

N2 - China purchases around 66% of the soy that is traded internationally. This strains the global food supply and contributes to greenhouse gas emissions. Here we show that optimizing the maize and soy production of China can improve its self-sufficiency and also alleviate adverse environmental effects. Using data from more than 1,800 counties in China, we estimate the area-weighted yield potential (Ypot) and yield gaps, setting the attainable yield (Yatt) as the yield achieved by the top 10% of producers per county. We also map out county-by-county acreage allocation and calculate the attainable production capacity according to a set of sustainability criteria. Under optimized conditions, China would be able to produce all the maize and 45% of the soy needed by 2035—while reducing nitrogen fertilizer use by 26%, reactive nitrogen loss by 28% and greenhouse gas emissions by 19%—with the same acreage as 2017, our reference year.

AB - China purchases around 66% of the soy that is traded internationally. This strains the global food supply and contributes to greenhouse gas emissions. Here we show that optimizing the maize and soy production of China can improve its self-sufficiency and also alleviate adverse environmental effects. Using data from more than 1,800 counties in China, we estimate the area-weighted yield potential (Ypot) and yield gaps, setting the attainable yield (Yatt) as the yield achieved by the top 10% of producers per county. We also map out county-by-county acreage allocation and calculate the attainable production capacity according to a set of sustainability criteria. Under optimized conditions, China would be able to produce all the maize and 45% of the soy needed by 2035—while reducing nitrogen fertilizer use by 26%, reactive nitrogen loss by 28% and greenhouse gas emissions by 19%—with the same acreage as 2017, our reference year.

UR - https://www.scopus.com/pages/publications/85107835714

U2 - 10.1038/s43016-021-00300-1

DO - 10.1038/s43016-021-00300-1

M3 - 文章

C2 - 37118228

AN - SCOPUS:85107835714

SN - 2662-1355

VL - 2

SP - 426

EP - 433

JO - Nature Food

JF - Nature Food

IS - 6

ER -

Optimization of China’s maize and soy production can ensure feed sufficiency at lower nitrogen and carbon footprints

Abstract

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