PubAg

Alternate Wetting and Drying (AWD) in Broadcast rice (Oryza sativa L.) Management to Maintain Yield, Conserve Water, and Reduce Gas Emissions in Thailand

Author:

Malumpong, Chanate, Ruensuk, Nittaya, Rossopa, Benjamas, Channu, Chairat, Intarasathit, Wannakorn, Wongboon, Waraporn, Poathong, Kriskamol, Kunket, Kingkew

Source:

Agricultural research 2021 v.10 no.1 pp. 116-130

ISSN:

2249-720X

Subject:

Oryza sativa, agricultural research, dry season, irrigated farming, irrigation, methane, paddies, rice, water shortages, Thailand

Abstract:

In Thailand, rice production accounts for the largest proportion of irrigated crop production, especially in the dry season. Water shortage problems have recently become widespread in Thailand, with implications for irrigated rice cultivation. Compared with the continuous flooding (CF) technique, the alternate wetting and drying (AWD) technique can reduce the amount of water typically needed in rice systems and can reduce methane emissions produced from paddy fields. In this study, AWD (10/-10, 10/-15, and 10/-20) and CF combined with the broadcasting technique were studied at seven rice research stations in the dry seasons of 2014 and 2015. The results showed that the AWD technique reduced grain yields compared with those of CF, but the milling quality was not significantly different among the treatments. In addition, the total CH₄ emissions from the AWD treatments were less than those from CF, but the percentage of CH₄ reduction in the AWD treatments was different among the seven stations. However, the total N₂O emissions were not significantly different between the CF and AWD treatments. Thus, if water scarcity is happening and if it is necessary to grow rice in those cases, the AWD10/-10 technique is recommended in broadcast rice systems in Thailand.

Agid:

7303634

http://dx.doi.org/10.1007/s40003-020-00483-2