relation: http://oar.icrisat.org/12001/
title: Nutrient management may reduce global warming potential of rice cultivation in subtropical India
creator: Kumar, A
creator: Swain, D K
creator: Dey, S
creator: Singh, A
creator: Kuttippurath, J
creator: Chander, G
creator: Kumar, A K.
subject: Crop Modelling
subject: Food Security
description: Agricultural practices contribute to greenhouse gas (GHG) emissions; therefore, it is essential to modify the production technologies. We analyzed decadal variation in CO2 and CH4 over a major rice cultivating area in subtropical India using GOSAT satellite data, which shows a sturdy increase. Furthermore, we carried out long- term field experiments with different nutrients management in the research farm to validate CERES–Rice (Crop Environment Resource Synthesis) and DNDC (De-nitrification and Decomposition model) models. The variations in Global warming potential per kg rice grain production over 90 years (2005–2095) are also projected. This study used a simulation technique to predict the rice yield using CERES–Rice and GWP using the DNDC model for three varied nutrient management treatments: chemical fertilizer (CF) at full (100%) recommended level (CF100), organic fertilizer using vermicompost at full recommendation (VC100), and integration of organic and chemical fertilizer (VC50 + CF50). The CF100 treatment showed the highest rate of increase in GWP as 0.014 and 0.021 kg CO2eq kg-grain season
publisher: ELSEVIER
date: 2022-06-17
type: Article
type: PeerReviewed
format: application/pdf
language: en
identifier: http://oar.icrisat.org/12001/1/Paper-Rice-INM-Global-Warming-Published-June2022.pdf
identifier:   Kumar, A and Swain, D K and Dey, S and Singh, A and Kuttippurath, J and Chander, G and Kumar, A K.  (2022) Nutrient management may reduce global warming potential of rice cultivation in subtropical India.  Current Research in Environmental Sustainability, 4 (100169).   ISSN 2666-0490     
relation: https://doi.org/10.1016/j.crsust.2022.100169