An assessment of satellite-based agricultural water productivity over the Indian region

An assessment of satellite-based agricultural water productivity over the Indian region

The preliminary analysis of agricultural water productivity (AWP) over India using satellite data were investigated through productivity mapping, water use (actual evapotranspiration (ET a )/effective rainfall (R eff ) mapping and water productivity mapping. Moderate Resolution Imaging Spectroradiom...

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Bibliographic Details
Published in:International journal of remote sensing Vol. 39; no. 8; pp. 2294 - 2311
Main Authors: Choudhury, Indrani, Bhattacharya, Bimal
Format: Journal Article
Language:English
Published: London Taylor & Francis 18-04-2018
Taylor & Francis Ltd
Subjects:
Agricultural land
Agricultural practices
Agriculture
Annual variations
Climate prediction
Data
Effective precipitation
Evapotranspiration
Food security
Government agencies
Hydrologic data
Imaging techniques
Indian spacecraft
Land cover
Mapping
Plains
Primary production
Productivity
Rain
Rain water
Rainfall
Rainfall data
Ratios
Satellite data
Satellites
Security
Soil
Soil conservation
Spatial variability
Spatial variations
Spectroradiometers
Water resources
Water stress
Water use
India
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Summary:The preliminary analysis of agricultural water productivity (AWP) over India using satellite data were investigated through productivity mapping, water use (actual evapotranspiration (ET a )/effective rainfall (R eff ) mapping and water productivity mapping. Moderate Resolution Imaging Spectroradiometer data was used for generating agricultural land cover (MCD12Q1 at 500 m), gross primary productivity (GPP; MOD17A2 at 1 km), and ET a (MOD16A2 at 1 km). R eff was estimated at 10 km using the United States Department of Agriculture soil conservation service method from daily National Oceanic and Atmospheric Administration Climate Prediction Center rainfall data. Six years' (2007-2012) data were analysed from June to October. The seasonal AWP and rainwater productivity (RWP) were estimated using the ratios of seasonal GPP (kg C m −2 ) and water use (mm) maps. The average AWP and RWP ranges from 1.10-1.30 kg Cm −3 and 0.94-1.0 kg C m −3 , respectively, with no significant annual variability but a wide spatial variability over India. The highest AWP was observed in northern India (1.22-1.80 kg C m −3 ) and lowest in western India (0.81-1.0 kg C m −3 ). Large variations in AWP (0.69-1.80 kg C m −3 ) were observed in Himachal Pradesh, Jammu and Kashmir, northeastern states (except Assam), Kerala, and Uttaranchal. The low GPP of these areas (0.0013-0.13 kg C m −2 ) with low seasonal total ET a (<101 mm) and R eff (<72 mm) making the AWP high that do not correspond to high productivity but possible water stress. Gujarat, Rajasthan, Maharashtra, Madhya Pradesh, Jharkhand, and Karnataka showed low AWP (0.73-1.13 kg C m −3 ) despite having high ET a (261-558 mm) and high R eff (287-469 mm), indicating significant scope for improving productivity. The highest RWP was observed in northern parts and Indo-Gangetic plains (0.80-1.6 kg C m −3 ). The 6 years' analysis reveals the status of AWP, leading to appropriate interventions to better manage land and water resources, which have great importance in global food security analysis.
ISSN:0143-1161
1366-5901
DOI:10.1080/01431161.2017.1421792