Winter wheat yield and water use efficiency response to organic fertilization in northern China: A meta-analysis

Linlin Wang; Qiang Li; Jeffrey A. Coulter; Junhong Xie; Zhuzhu Luo; Renzhi Zhang; Xiping Deng; Linglin Li

doi:10.1016/j.agwat.2019.105934

Winter wheat yield and water use efficiency response to organic fertilization in northern China: A meta-analysis

Linlin Wang, Qiang Li, Jeffrey A. Coulter, Junhong Xie, Zhuzhu Luo, Renzhi Zhang, Xiping Deng, Linglin Li

Agronomy and Plant Genetics

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Abstract

Nitrogen (N) application is a basic practice for increasing cereal yield and efficient utilization of N sources is key to sustainable intensification. A meta-analysis was conducted to determine how organic fertilization (i.e., livestock manure) affects yield, yield variability and water use efficiency (WUE) of winter wheat (Triticum aestivum L.) in northern China, and how this is impacted by N management and growing environment. Organic fertilization significantly increased grain yield and WUE by an average of 18 and 20 % compared to without organic fertilizer, respectively, and also reduced spatial and temporal yield variability. Compared to without organic fertilizer, change in grain yield was +24, +28, and −11 % for treatments of synthetic nitrogen fertilizer plus organic fertilizer with the same level of synthetic nitrogen (NOF), decreased level of synthetic nitrogen fertilizer combined with organic fertilizer (N_LOF), and a portion of synthetic nitrogen fertilizer replaced with organic nitrogen fertilizer at the same level of nitrogen (N_ROF), respectively. The positive effect of organic fertilizer on grain yield and WUE of winter wheat was greatest when yield levels was <4.0 Mg ha^–1. Moreover, organic fertilization was most effective at improving grain yield and WUE in North China Plain when synthetic N application was <150 kg N ha⁻¹ and in growing environments with SOM <1.4 % and ET <500 mm. These results demonstrate that applying organic fertilizer in combination with a decreased level of synthetic N fertilizer is an effective approach for advancing sustainable intensification of winter wheat in northern China, and that greatest benefits with organic fertilization may occur when local environmental factors (e.g., growing region and soil conditions) are appropriately considered.

Original language	English (US)
Article number	105934
Journal	Agricultural Water Management
Volume	229
DOIs	https://doi.org/10.1016/j.agwat.2019.105934
State	Published - Feb 28 2020

Bibliographical note

Funding Information:
This work was supported by start-up funds from Gansu Agricultural University for openly-recruited Ph.D. graduates ( GAU-KYQD-2018-20 ), the Gansu Provincial Key Laboratory of Aridland Crop Science , Gansu Agricultural University ( GSCS-2019-09 , GSCS-2017-4 , and GSCS-2019-Z04 ), the National Natural Science Foundation of China ( 31761143004 , 31660373 , and 31460337 ), the National Science and Technology Supporting Program ( 2015BAD22B04-03 ), and the Department of Education of Gansu Province ( 2017C-12 ).

Funding Information:
This work was supported by start-up funds from Gansu Agricultural University for openly-recruited Ph.D. graduates (GAU-KYQD-2018-20), the Gansu Provincial Key Laboratory of Aridland Crop Science, Gansu Agricultural University (GSCS-2019-09, GSCS-2017-4, and GSCS-2019-Z04), the National Natural Science Foundation of China (31761143004, 31660373, and 31460337), the National Science and Technology Supporting Program (2015BAD22B04-03), and the Department of Education of Gansu Province (2017C-12).

Publisher Copyright:
© 2019 Elsevier B.V.

Keywords

Grain yield
Organic fertilizer
Water use efficiency
Winter wheat
Yield variability

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title = "Winter wheat yield and water use efficiency response to organic fertilization in northern China: A meta-analysis",

abstract = "Nitrogen (N) application is a basic practice for increasing cereal yield and efficient utilization of N sources is key to sustainable intensification. A meta-analysis was conducted to determine how organic fertilization (i.e., livestock manure) affects yield, yield variability and water use efficiency (WUE) of winter wheat (Triticum aestivum L.) in northern China, and how this is impacted by N management and growing environment. Organic fertilization significantly increased grain yield and WUE by an average of 18 and 20 % compared to without organic fertilizer, respectively, and also reduced spatial and temporal yield variability. Compared to without organic fertilizer, change in grain yield was +24, +28, and −11 % for treatments of synthetic nitrogen fertilizer plus organic fertilizer with the same level of synthetic nitrogen (NOF), decreased level of synthetic nitrogen fertilizer combined with organic fertilizer (NLOF), and a portion of synthetic nitrogen fertilizer replaced with organic nitrogen fertilizer at the same level of nitrogen (NROF), respectively. The positive effect of organic fertilizer on grain yield and WUE of winter wheat was greatest when yield levels was <4.0 Mg ha–1. Moreover, organic fertilization was most effective at improving grain yield and WUE in North China Plain when synthetic N application was <150 kg N ha−1 and in growing environments with SOM <1.4 % and ET <500 mm. These results demonstrate that applying organic fertilizer in combination with a decreased level of synthetic N fertilizer is an effective approach for advancing sustainable intensification of winter wheat in northern China, and that greatest benefits with organic fertilization may occur when local environmental factors (e.g., growing region and soil conditions) are appropriately considered.",

keywords = "Grain yield, Organic fertilizer, Water use efficiency, Winter wheat, Yield variability",

author = "Linlin Wang and Qiang Li and Coulter, {Jeffrey A.} and Junhong Xie and Zhuzhu Luo and Renzhi Zhang and Xiping Deng and Linglin Li",

note = "Funding Information: This work was supported by start-up funds from Gansu Agricultural University for openly-recruited Ph.D. graduates ( GAU-KYQD-2018-20 ), the Gansu Provincial Key Laboratory of Aridland Crop Science , Gansu Agricultural University ( GSCS-2019-09 , GSCS-2017-4 , and GSCS-2019-Z04 ), the National Natural Science Foundation of China ( 31761143004 , 31660373 , and 31460337 ), the National Science and Technology Supporting Program ( 2015BAD22B04-03 ), and the Department of Education of Gansu Province ( 2017C-12 ). Funding Information: This work was supported by start-up funds from Gansu Agricultural University for openly-recruited Ph.D. graduates (GAU-KYQD-2018-20), the Gansu Provincial Key Laboratory of Aridland Crop Science, Gansu Agricultural University (GSCS-2019-09, GSCS-2017-4, and GSCS-2019-Z04), the National Natural Science Foundation of China (31761143004, 31660373, and 31460337), the National Science and Technology Supporting Program (2015BAD22B04-03), and the Department of Education of Gansu Province (2017C-12). Publisher Copyright: {\textcopyright} 2019 Elsevier B.V.",

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AU - Zhang, Renzhi

AU - Deng, Xiping

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N2 - Nitrogen (N) application is a basic practice for increasing cereal yield and efficient utilization of N sources is key to sustainable intensification. A meta-analysis was conducted to determine how organic fertilization (i.e., livestock manure) affects yield, yield variability and water use efficiency (WUE) of winter wheat (Triticum aestivum L.) in northern China, and how this is impacted by N management and growing environment. Organic fertilization significantly increased grain yield and WUE by an average of 18 and 20 % compared to without organic fertilizer, respectively, and also reduced spatial and temporal yield variability. Compared to without organic fertilizer, change in grain yield was +24, +28, and −11 % for treatments of synthetic nitrogen fertilizer plus organic fertilizer with the same level of synthetic nitrogen (NOF), decreased level of synthetic nitrogen fertilizer combined with organic fertilizer (NLOF), and a portion of synthetic nitrogen fertilizer replaced with organic nitrogen fertilizer at the same level of nitrogen (NROF), respectively. The positive effect of organic fertilizer on grain yield and WUE of winter wheat was greatest when yield levels was <4.0 Mg ha–1. Moreover, organic fertilization was most effective at improving grain yield and WUE in North China Plain when synthetic N application was <150 kg N ha−1 and in growing environments with SOM <1.4 % and ET <500 mm. These results demonstrate that applying organic fertilizer in combination with a decreased level of synthetic N fertilizer is an effective approach for advancing sustainable intensification of winter wheat in northern China, and that greatest benefits with organic fertilization may occur when local environmental factors (e.g., growing region and soil conditions) are appropriately considered.

AB - Nitrogen (N) application is a basic practice for increasing cereal yield and efficient utilization of N sources is key to sustainable intensification. A meta-analysis was conducted to determine how organic fertilization (i.e., livestock manure) affects yield, yield variability and water use efficiency (WUE) of winter wheat (Triticum aestivum L.) in northern China, and how this is impacted by N management and growing environment. Organic fertilization significantly increased grain yield and WUE by an average of 18 and 20 % compared to without organic fertilizer, respectively, and also reduced spatial and temporal yield variability. Compared to without organic fertilizer, change in grain yield was +24, +28, and −11 % for treatments of synthetic nitrogen fertilizer plus organic fertilizer with the same level of synthetic nitrogen (NOF), decreased level of synthetic nitrogen fertilizer combined with organic fertilizer (NLOF), and a portion of synthetic nitrogen fertilizer replaced with organic nitrogen fertilizer at the same level of nitrogen (NROF), respectively. The positive effect of organic fertilizer on grain yield and WUE of winter wheat was greatest when yield levels was <4.0 Mg ha–1. Moreover, organic fertilization was most effective at improving grain yield and WUE in North China Plain when synthetic N application was <150 kg N ha−1 and in growing environments with SOM <1.4 % and ET <500 mm. These results demonstrate that applying organic fertilizer in combination with a decreased level of synthetic N fertilizer is an effective approach for advancing sustainable intensification of winter wheat in northern China, and that greatest benefits with organic fertilization may occur when local environmental factors (e.g., growing region and soil conditions) are appropriately considered.

KW - Grain yield

KW - Organic fertilizer

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KW - Yield variability

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Winter wheat yield and water use efficiency response to organic fertilization in northern China: A meta-analysis

Abstract

Bibliographical note

Keywords

UN SDGs

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