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Position: Home > Articles > Drip irrigation incorporating water conservation measures: Effects on soil water-nitrogen utilization, root traits and grain production of spring maize in semi-arid areas Journal of Integrative Agriculture 2021,20 (12)

Drip irrigation incorporating water conservation measures: Effects on soil water-nitrogen utilization, root traits and grain production of spring maize in semi-arid areas

作者：

Wu Yang;Bian Shao-feng;Liu Zhi-ming;Wang Li-chun;Wang Yong-jun;Xu Wen-hua;Zhou Yu

单位：

Jiujiang Univ, Jiujiang 332005, Peoples R China;Chongqing Acad Agr Sci, Yongchuan 402160, Peoples R China;Chinese Acad Sci, Inst Appl Ecol, Shenyang 110016, Peoples R China;Jilin Acad Agr Sci, Changchun 130033, Peoples R China

关键词：

drip irrigation;root;water use efficiency;nitrogen use efficiency;maize

摘要：

The Northeast Plain is the largest maize production area in China, and drip irrigation has recently been proposed to cope with the effects of frequent droughts and to improve water use efficiency (WUE). In order to develop an efficient and environmentally friendly irrigation system, drip irrigation experiments were conducted in 2016-2018 incorporating different soil water conservation measures as follows: (1) drip irrigation under plastic film mulch (PI), (2) drip irrigation under biodegradable film mulch (BI), (3) drip irrigation incorporating straw returning (SI), and (4) drip irrigation with the tape buried at a shallow soil depth (OI); with furrow irrigation (FI) used as the control. The results showed that PI and BI gave the highest maize yield, as well as the highest WUE and nitrogen use efficiency (NUE) because of the higher root length density (RLD) and better heat conditions during the vegetative stage. But compared with BI, PI consumed more soil water in the 20-60 and 60-100 cm soil layers, and accelerated the progress of root and leaf senescence due to a larger root system in the top 0-20 cm soil layer and a higher soil temperature during the reproductive stage. SI was effective in improving soil water and nitrate contents, and promoted RLD in deeper soil layers, thereby maintaining higher physiological activity during the reproductive stage. FI resulted in higher nitrate levels in the deep 60-100 cm soil layer, which increased the risk of nitrogen losses by leaching compared with the drip irrigation treatments. RLD in the 0-20 cm soil layer was highly positively correlated with yield, WUE and NUE (P<0.001), but it was negatively correlated with root nitrogen use efficiency (NRE) (P<0.05), and the correlation was weaker in deeper soil layers. We concluded that BI had advantages in water-nitrogen utilization and yield stability response to drought stress, and thus is recommended for environmentally friendly and sustainable maize production in Northeast China.

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Drip irrigation incorporating water conservation measures: Effects on soil water-nitrogen utilization, root traits and grain production of spring maize in semi-arid areas

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