Combination of site-specific nitrogen management and alternate wetting and drying irrigation increases grain yield and nitrogen and water use efficiency in super rice

•An interaction occurs between site-specific nitrogen management (SSNM) and alternate wetting and drying irrigation (AWD) on rice yield.•The interaction between SSNM and AWD could increase not only grain yield, but also N use efficiency (NUE) and water use efficiency (WUE).•The synergistic interacti...

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Published in:	Field crops research Vol. 154; pp. 226 - 235
Main Authors:	Liu, Lijun, Chen, Tingting, Wang, Zhiqin, Zhang, Hao, Yang, Jianchang, Zhang, Jianhua
Format:	Journal Article
Language:	English
Published:	Elsevier B.V 01-12-2013
Subjects:	Alternate wetting and drying irrigation (AWD) biomass dry matter accumulation drying farmers filling period grain yield harvest date harvest index inflorescences irrigation rates irrigation water leaf area leaves nitrogen Nitrogen use efficiency Oryza sativa oxidation photosynthesis rain rice Root oxidation activity Site-specific nitrogen management (SSNM) Super rice (Oryza sativa L.) tillers Water use efficiency Alternate wetting and drying irrigation (AWD) CF ROA WUE Root oxidation activity FNP DAH Water use efficiency LCC AWD LAD PFPN Nitrogen use efficiency IEN LAI DAT SSNM Site-specific nitrogen management (SSNM) NUE Super rice (Oryza sativa L.)
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Summary:	•An interaction occurs between site-specific nitrogen management (SSNM) and alternate wetting and drying irrigation (AWD) on rice yield.•The interaction between SSNM and AWD could increase not only grain yield, but also N use efficiency (NUE) and water use efficiency (WUE).•The synergistic interaction increases percentage of productive tillers, root and shoot activities during grain filling and harvest index.•Combination of SSNM and AWD technologies holds great promise to increase yield and resource-use efficiency in super rice. Site-specific nitrogen management (SSNM) and alternate wetting and drying (AWD) irrigation are two applied technologies developed in recent years in rice production. Little is known, however, how synergistic these two technologies can be in terms of grain yield, nitrogen and water use efficiencies. We investigated this issue using super rice under SSNM, AWD, or both. Two super rice varieties subjected to four N and irrigation treatments, i.e., continuously flooded (CF) and farmer's N practice (FNP) (CF-FNP), CF-SSNM, AWD-FNP, and AWD-SSNM, were field-grown in 2011 and 2012. SSNM or AWD significantly increased the percentage of productive tillers, leaf area duration, leaf photosynthetic rate, root oxidation activity and dry matter accumulation during grain filling compared with FNP or CF. Such increases were more evident when both AWD and SSNM were adopted together. The AWD-SSNM treatment increased not only the number of spikelets per panicle, but also the percentage of filled grains and grain weight. Root biomass at heading time and the harvest index were significantly higher under the AWD-SSNM treatment than those under any other treatments. When compared to those under the CF-FNP treatment, grain yield, N partial factor productivity (grain yield over the N rate) and WUE (grain yield over the amount of irrigation water and rainfall) under the SSNM-AWD treatment were increased by 12.4–14.5%, 26.5–30.7% and 22.8–26.7%, respectively, and also significantly higher than those under SSNM or AWD alone. The results suggest that synergistic interaction between SSNM and AWD occurs in the yield formation, and such an interaction could increase not only grain yield, but also resource-use efficiency in super rice.
Bibliography:	http://dx.doi.org/10.1016/j.fcr.2013.08.016 ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
ISSN:	0378-4290 1872-6852
DOI:	10.1016/j.fcr.2013.08.016