Methane and nitrous oxide emissions from conventional and modified rice cultivation systems in South India

Authors: Oo A. Z., Sudo S., Inubushi K., Mano M., Yamamoto A., Ono K., Osawa T., Hayashida S., Patra P. K., Terao Y., Elayakumar P., Vanitha K., Umamageswari C., Jothimani P., Ravi V.
Journal: Agriculture, Ecosystems and Environment, 252, 148-158
DOI: 10.1016/j.agee.2017.10.014
Abstract: Rice (Oryza sativa L.) production is facing major challenges, including scarcity of irrigation water and ongoing climate change. Modifications of the current cropping techniques could increase yield, save water, and mitigate greenhouse gas emission. We investigated the effect of planting methods (young seedlings, wide spacing with alternate wetting and drying irrigation [YW-AWD], old seedlings, narrow spacing with continuous flooding [ON- CF], and in-between the two planting methods [IB-AWD]) and rice varieties on methane (CH₄) and (N₂O) emissions during two crop seasons. The results show that CH₄ emission, averaged over rice varieties, reduced for YW-AWD by 41% and 24%, compared with ON-CF, while the reduction in emission for the IB-AWD method was 48% and 26% in summer (dry) and monsoon (wet) season, respectively. However, an increase in N₂O emission was observed for YW-AWD and IB-AWD methods in both seasons. There was no significant difference in CH₄ and N₂O emissions between the tested varieties. The total water saving under YW-AWD and IB-AWD was 47.5% and 49.3% in summer, and 79.4% and 79.8% in monsoon season, respectively, compared with ON-CF. The grain yields of YW-AWD and IB-AWD were comparable with the yield of ON-CF in both seasons. The CO₂-eq emission and yield-scaled CO₂-eq emission from YW-AWD and IB-AWD were significantly lower compared with ON-CF due to low CH₄ emission, while maintaining similar rice yields. This study showed that the YW-AWD and IB- AWD methods are effective in reducing CO₂-eq emission and saving irrigation water, while maintaining the rice yield.