长期玉米-大豆带状套作系统中减少氮投入对作物产量和氮利用效率的影响

Effects of reduced nitrogen inputs on crop yield and nitrogen use efficiency in a long-term maize-soybean relay strip intercropping system.

作者信息

Chen Ping, Du Qing, Liu Xiaoming, Zhou Li, Hussain Sajad, Lei Lu, Song Chun, Wang Xiaochun, Liu Weiguo, Yang Feng, Shu Kai, Liu Jiang, Du Junbo, Yang Wenyu, Yong Taiwen

机构信息

College of Agronomy, Sichuan Agricultural University, Chengdu, P.R China.

Sichuan Engineering Research Center for Crop Strip Intercropping System, Key Laboratory of Crop Ecophysiology and Farming System in Southwest China (Ministry of Agriculture), Sichuan Agricultural University, Chengdu, P. R. China.

出版信息

PLoS One. 2017 Sep 14;12(9):e0184503. doi: 10.1371/journal.pone.0184503. eCollection 2017.

DOI:10.1371/journal.pone.0184503

PMID:28910355

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5598979/

Abstract

The blind pursuit of high yields via increased fertilizer inputs increases the environmental costs. Relay intercropping has advantages for yield, but a strategy for N management is urgently required to decrease N inputs without yield loss in maize-soybean relay intercropping systems (IMS). Experiments were conducted with three levels of N and three planting patterns, and dry matter accumulation, nitrogen uptake, nitrogen use efficiency (NUE), competition ratio (CR), system productivity index (SPI), land equivalent ratio (LER), and crop root distribution were investigated. Our results showed that the CR of soybean was greater than 1, and that the change in root distribution in space and time resulted in an interspecific facilitation in IMS. The maximum yield of maize under monoculture maize (MM) occurred with conventional nitrogen (CN), whereas under IMS, the maximum yield occurred with reduced nitrogen (RN). The yield of monoculture soybean (MS) and of soybean in IMS both reached a maximum under RN. The LER of IMS varied from 1.85 to 2.36, and the SPI peaked under RN. Additionally, the NUE of IMS increased by 103.7% under RN compared with that under CN. In conclusion, the separation of the root ecological niche contributed to a positive interspecific facilitation, which increased the land productivity. Thus, maize-soybean relay intercropping with reduced N input provides a very useful approach to increase land productivity and avert environmental pollution.

摘要

通过增加肥料投入盲目追求高产会增加环境成本。套作具有增产优势，但在玉米-大豆套作体系中迫切需要一种氮肥管理策略，以在不降低产量的情况下减少氮肥投入。本研究设置了3个施氮水平和3种种植模式，对干物质积累、氮素吸收、氮素利用效率（NUE）、竞争比率（CR）、系统生产力指数（SPI）、土地当量比（LER）及作物根系分布进行了研究。结果表明，大豆的CR大于1，根系在时空上的分布变化导致套作体系中的种间促进作用。单作玉米（MM）下玉米的最高产量出现在常规施氮（CN）处理，而在套作体系中，最高产量出现在减氮（RN）处理。单作大豆（MS）和套作体系中大豆的产量均在RN处理下达最大值。套作体系的LER在1.85至2.36之间，SPI在RN处理下达峰值。此外，与CN处理相比，套作体系在RN处理下的NUE提高了103.7%。总之，根系生态位的分离促成了积极的种间促进作用，提高了土地生产力。因此，减氮的玉米-大豆套作是提高土地生产力和避免环境污染的有效途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/61d4/5598979/cf61a32f7d6a/pone.0184503.g001.jpg

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长期玉米-大豆带状套作系统中减少氮投入对作物产量和氮利用效率的影响

Effects of reduced nitrogen inputs on crop yield and nitrogen use efficiency in a long-term maize-soybean relay strip intercropping system.

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