Josily Samuel scite author profile

Josily Samuel

5Publications

27Citation Statements Received

93Citation Statements Given

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Central Research Institute for Dryland Agriculture

Publications

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Spatial and temporal estimation of soil loss for the sustainable management of a wet semi-arid watershed cluster

Rejani

Rao

Osman

et al. 2016

Environ Monit Assess

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The ungauged wet semi-arid watershed cluster, Seethagondi, lies in the Adilabad district of Telangana in India and is prone to severe erosion and water scarcity. The runoff and soil loss data at watershed, catchment, and field level are necessary for planning soil and water conservation interventions. In this study, an attempt was made to develop a spatial soil loss estimation model for Seethagondi cluster using RUSLE coupled with ARCGIS and was used to estimate the soil loss spatially and temporally. The daily rainfall data of Aphrodite for the period from 1951 to 2007 was used, and the annual rainfall varied from 508 to 1351 mm with a mean annual rainfall of 950 mm and a mean erosivity of 6789 MJ mm ha(-1) h(-1) year(-1). Considerable variation in land use land cover especially in crop land and fallow land was observed during normal and drought years, and corresponding variation in the erosivity, C factor, and soil loss was also noted. The mean value of C factor derived from NDVI for crop land was 0.42 and 0.22 in normal year and drought years, respectively. The topography is undulating and major portion of the cluster has slope less than 10°, and 85.3% of the cluster has soil loss below 20 t ha(-1) year(-1). The soil loss from crop land varied from 2.9 to 3.6 t ha(-1) year(-1) in low rainfall years to 31.8 to 34.7 t ha(-1) year(-1) in high rainfall years with a mean annual soil loss of 12.2 t ha(-1) year(-1). The soil loss from crop land was higher in the month of August with an annual soil loss of 13.1 and 2.9 t ha(-1) year(-1) in normal and drought year, respectively. Based on the soil loss in a normal year, the interventions recommended for 85.3% of area of the watershed includes agronomic measures such as contour cultivation, graded bunds, strip cropping, mixed cropping, crop rotations, mulching, summer plowing, vegetative bunds, agri-horticultural system, and management practices such as broad bed furrow, raised sunken beds, and harvesting available water using farm ponds and percolation tanks. This methodology can be adopted for estimating the soil loss from similar ungauged watersheds with deficient data and for planning suitable soil and water conservation interventions for the sustainable management of the watersheds.

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Assessing the Impact of Climate Resilient Technologies in Minimizing Drought Impacts on Farm Incomes in Drylands

et al. 2021

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Asia is the region most vulnerable to climate change and India is ranked as one of the most climate vulnerable countries in the world, frequently affected by natural disasters. In this study, we investigated the impact of drought on crop productivity, farmer’s employment and income. The difference-in-difference model (DID) and stepwise multiple linear regression (MLR) were employed to quantify the impact of adopting climate resilient technologies (CRTs) on farm household income during a drought. The factors influencing farm incomes were analyzed using MLR. The study used survey data collected from the drought prone district of Telangana, India. Sixty farmers each from a village adopted under the National Innovations in Climate Resilient Agriculture (NICRA) program and a control village were interviewed. Primary data on the socio-economic characteristic of farmers, cropping pattern, income composition, productivity of major crops, employment and climate resilient interventions adopted by farmers were collected using a well-structured schedule. The results reveal that income crop cultivation was the major contributor to household income (60%) followed by livestock rearing. Farmers reported that droughts decreased the income from crops by 54 per cent and income from livestock rearing by 40 per cent. The farmers belonging to the climate resilient village had 35 per cent higher incomes compared to those in the control village and it was estimated to be Rs. 31,877/farm household/year during droughts using the DID estimate. Farm size, livestock possession, adoption of CRTs and investment in agriculture were the determining factors influencing farm income. Thus, farmers especially in drought prone regions need to be encouraged and supported to adopt cost effective, location specific climate resilient technologies.

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Enabling a more Equitable and Efficient Groundwater Irrigation in Rainfed Regions of South India

Rao¹,

Dixit²,

Surendranath³

et al. 2017

Ind. Jour. of Dryl. Agri. Rese. and Deve.

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Welfare Gains from Application of First Generation Biotechnology in Indian Agriculture: The Case of Bt Cotton

Ramasundaram¹,

Suresh²,

Samuel³

et al. 2014

Agri. Econ. Rese. Revi.

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The study has quantified the welfare gains from adoption of Bt cotton in India. The adoption of Bt cotton has increased income levels and generated substantial gains due to higher yields and lower cost of production through lower cost on plant protection. During the period 2002-15, the total benefit has been estimated to be of ` 220 billion with 85 per cent share accruing to the producers and 15 per cent to the private seed companies/ marketing firms. The welfare gains have been found to vary across states, depending upon the extent of penetration of Bt technology and agronomic performance of the crop. In India, Bt gene is embedded in hybrids as a value-capturing mechanism, necessitating seed purchase by farmers every season afresh. One policy option to improve the producer surplus could be development of the open pollinated Bt varieties in the country that may provide higher benefits to the adopters in resourcepoor regions, which are generally more suited for varieties than hybrids. The study has also highlighted some indirect gains in terms of soil health, green house emission, human health, to cite a few.

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Economic analysis of farming systems: Capturing the systemic aspects

Rao¹,

Raju²,

Samuel³

et al. 2017

Agri. Econ. Rese. Revi.

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Josily Samuel

Spatial and temporal estimation of soil loss for the sustainable management of a wet semi-arid watershed cluster

Assessing the Impact of Climate Resilient Technologies in Minimizing Drought Impacts on Farm Incomes in Drylands

Enabling a more Equitable and Efficient Groundwater Irrigation in Rainfed Regions of South India

Welfare Gains from Application of First Generation Biotechnology in Indian Agriculture: The Case of Bt Cotton

Economic analysis of farming systems: Capturing the systemic aspects

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