Abstract
Abstract. The relevance of this study is immense for India. The Indian economy largely depends on agriculture, which is impacted by weather extremes and variability in monsoon. India is more vulnerable to disruption from drought than countries like the United States. While agriculture accounts for just 16 percent of India’s economy, half of its 1.3 billion people work on farms, thus, making agriculture the backbone of the Indian economy. However, in agriculture, rice is India’s most important food crop with nearly 1 billion Indian people reliant on it as their major food source. Most important constraint to rice production is water stress which affects nearly ~40 million ha of rainfed system from the total ~45 million ha area under rice cultivation. Future climate change effects on rainfall timing and amount, and projected increases in temperature are expected to exacerbate existing water stresses and will have a direct impact on agriculture in India, especially rice cultivation. We have developed an integrated system that is successfully implemented in many countries. The integrated system RHEAS (Regional Hydrological Extreme and Assessment System) coupled with M-DSSAT (modified DSSAT crop model) ingests various NASA Earth science data to produce a set of relevant hydrologic products (e.g., drought indices, water excess/stress information) and rice yields nowcasts (current conditions), forecasts, and seasonal projections, and then feed them into the operational agency. The overarching goal of this study is to provide this integrated system to stakeholder to improve decision-making process and mitigate the plights of rice farmers and prepare the country to deal with ground realities based on the forecast of rice production.
Highlights
Indian economy largely depends on agriculture, which is impacted by weather extremes and variability in monsoon
While agriculture accounts for just 16 percent of India’s economy, half of its 1.3 billion people work on farms, making agriculture the backbone of the Indian economy
We propose a physically-based, integrated hydrologic and crop modeling framework that essentially factor in all major influencing attributes for modeling seasonal rice yield forecast and estimation, and related drought status
Summary
Indian economy largely depends on agriculture, which is impacted by weather extremes and variability in monsoon. The integrated hydrologic and crop modeling framework will ingest the best available NASA Earth science remotely sensed data products (e.g., SMAP, GPM IMERG, CHIRPS, TMPA, MODIS LAI/FPAR) to produce a set of relevant hydrologic variables (e.g., various drought indices, water excess/stress information) and crop yields nowcasts (current conditions), forecasts, and seasonal projections, and feed them to the operational agency. These vital information is will be useful for: i) assessment, early warning, and risks for agricultural droughts and outlooks of agricultural water demands in the rice cultivated regions of India; and ii) rice crop monitoring, seasonal yield forecasting, and final yield estimation. RHEAS and M-DSSAT system has all the necessary variables to generate new customized products that will be developed based on the user needs and requirements to optimally guide decision-makers and help formulate policies during exigencies
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