Responses of water productivity to irrigation and N supply for hybrid maize seed production in an arid region of Northwest China

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Abstract Water and nitrogen (N) are generally two of the most important factors in determining the crop productivity. Proper water and N managements are prerequisites for agriculture sustainable development in arid areas. Field experiments were conducted to study the responses of water productivity for crop yield (WP_Y-ET) and final biomass (WP_B-ET) of film-mulched hybrid maize seed production to different irrigation and N treatments in the Hexi Corridor, Northwest China during April to September in 2013 and also during April to September in 2014. Three irrigation levels (70%–65%, 60%–55%, and 50%–45% of the field capacity) combined with three N rates (500, 400, and 300 kg N/hm²) were tested in 2013. The N treatments were adjusted to 500, 300, and 100 kg N/hm² in 2014. Results showed that the responses of WP_Y-ETand WP_B-ETto different irrigation amounts were different. WP_Y-ETwas significantly reduced by lowering irrigation amounts while WP_B-ETstayed relatively insensitive to irrigation amounts. However, WP_Y-ETand WP_B-ETbehaved consistently when subjected to different N treatments. There was a slight effect of reducing N input from 500 to 300 kg/hm2 on the WP_Y-ETand WP_B-ET, however, when reducing N input to 100 kg/hm², the values of WP_Y-ETand WP_B-ETwere significantly reduced. Water is the primary factor and N is the secondary factor in determining both yield (Y) and final biomass (B). Partial factor productivity from applied N (PFP_N) was the maximum under the higher irrigation level and in lower N rate (100–300 kg N/hm²) in both years (2013 and 2014). Lowering the irrigation amount significantly reduced evapotranspiration (ET), but ET did not vary with different N rates (100–500 kg N/hm²). Both Y and B had robust linear relationships with ET, but the correlation between B and ET (R²=0.8588) was much better than that between Y and ET (R²=0.6062). When ET increased, WP_Y-ETlinearly increased and WP_B-ET decreased. Taking the indices of Y, B, WP_Y-ET, WP_B-ETand PFP_N into account, a higher irrigation level (70%–65% of the field capacity) and a lower N rate (100–300 kg N/hm²) are recommended to be a proper irrigation and N application strategy for plastic film-mulched hybrid maize seed production in arid Northwest China.

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	RAN Hui
	KANG Shaozhong
	LI Fusheng
	DU Taisheng
	DING Risheng
	LI Sien
	TONG Ling

Key words： water use efficiency water stress nitrogen use efficiency evapotranspiration water productivity for yield water productivity for biomass arid region

Received: 2016-07-08; Published: 2017-05-04

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This research was supported by the National Natural Science Foundation of China (51621061, 91425302, 51379208), the Research Projects of the Agricultural Public Welfare Industry in China (201503125), and the Discipline Innovative Engineering Plan (111 Program, B14002).

Corresponding Authors: TONG Ling
E-mail: tongling2001@cau.edu.cn

Cite this article:

RAN Hui,KANG Shaozhong,LI Fusheng et al. Responses of water productivity to irrigation and N supply for hybrid maize seed production in an arid region of Northwest China[J]. Journal of Arid Land, 2017, 9(4): 504-514.

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