发表论文

Hui Liu b , Zhaohui Wang, Rong Yu, Fucui Li , Keyi Li, Hanbing Cao, Ning Yang, Menghua Li, Jian Dai, Yaling Zan, Qiang Li, Cheng Xue, Gang He, Donglin Huang, Ming Huang, Jinshan Liu, Weihong Qiu, Hubing Zhao, Hui Mao.Optimal nitrogen input for higher efficiency and lower environmental impacts of winter wheat production in China.

作者:  来源:DOI:10.1016/j.agee.2016.03.022  发布日期:2016-03-20  浏览次数:

 

Optimal nitrogen input for higher efficiency and lower environmental impacts of winter wheat production in China.

Hui Liu b , Zhaohui Wang, Rong Yu, Fucui Li , Keyi Li, Hanbing Cao, Ning Yang, Menghua Li, Jian Dai, Yaling Zan, Qiang Li, Cheng Xue, Gang He, Donglin Huang, Ming Huang, Jinshan Liu, Weihong Qiu, Hubing Zhao, Hui Mao.

Agriculture, Ecosystems and Environment

DOI:10.1016/j.agee.2016.03.022

 

 

Abstract:  Many fertilization guidelines have been established to recommend the proper nitrogen (N) application rate to optimize grain yield. However, environmental impacts and grain nutritional quality such as protein content have not received enough attention. To optimize regional N fertilizer management in China, a total of 1212 and 1110 sets of data from a literature survey and field experiments were used in a regression analysis to determine the relationships of N application rate with winter wheat grain yield and protein content, respectively. Regional N rate recommendations were estimated with the linear-plusplateau model and were between the N rates used to maximize grain yield and protein content. The recommended N rates for the winter wheat–summer maize rotation (WM), winter wheat–rice rotation (WR), and rainfed winter wheat (RW) regions in China were 208–230 kg ha1, 150–195 kg ha1, and 117–134 kg ha1, respectively. These values were comparable to or lower than the investigated farm average in each region; however, calculated based on the linear-plus-plateau model, the recommended N rate in each region achieved 1–19% greater grain yield and 2–9% greater protein content compared with the farm average yield and protein content. Compared with the excessive N input group, the recommended N rates increased the N partial factor productivity (PFPN) of wheat by 7–11, 8–14, and 18–24 kg kg1 and gained an additional profit of 214–228, 91–354, and 465–476 USD ha1 in the three regions, respectively; in addition, the recommended N rates reduced the residual inorganic N, nitrate leaching, and direct nitrous oxide emissions by 8–27%, 29–52%, and 19–36% in the three regions, respectively. These findings suggest that this N recommendation method provides an option to balance the yield, grain quality, income, nitrogen use efficiency, and environmental impacts of winter wheat production in China and similar cropping systems around the world.