R Sudi scite author profile

The agriculture in low rainfall areas of eastern Rajasthan, India is characterized by high risks from drought, degraded natural resources and pervasive poverty, food insecurity and malnutrition. In this region, water is the main limiting factor for upgrading rainfed agriculture. For such areas integrated watershed management is recognized as a potential approach for agriculture growth and rehabilitation of fragile and degraded lands. At Gokulpura-Goverdhanpura village in Bundi eastern Rajasthan, India an integrated watershed project was implemented using the holistic systems approach. This paper discusses the impacts of this watershed program on bio-physical, socio-economic, environmental and ecological parameters. Results indicate that due to watershed interventions the groundwater availability has substantially increased which brought changes in cropping patterns with high value crops. Significant increases in irrigated area, cropping intensity along with diversification of crops from traditional to commercial cash crops were recorded. The watershed program also significantly improved the socio-economic status of the watershed community. It has increased the income and reduced poverty of the people in the watershed. The watershed interventions generated good employment opportunities and significantly reduced the migration of both skilled and unskilled labor from the watershed village to urban areas. It has also improved the environmental quality and ecological status in the watershed. The watershed interventions increased the vegetative index or greenery, reduced runoff, soil loss, and land degradations and improved the bio-diversity in fragile ecosystems. Overall, the integrated watershed program at Gokulpura-Goverdhanpura provided resilience by ensuring continued and sustainable multiple outputs, besides soil and water conservation and other positive environmental effects.

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Opportunities for water harvesting and supplemental irrigation for improving rainfed agriculture in semi-arid areas.

Pathak¹,

Sahrawat²,

Wani³

et al. 2009

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This chapter discusses the research results and experiences gained in runoff harvesting and supplemental irrigation in the semiarid tropical (SAT) regions of India and Africa. Topics covered include: traditional tank irrigation in SAT India; assessment of adequate water availability in tanks at critical crop growth stages; optimum tank size and other design parameters; efficient application of supplemental irrigation water; crop responses to supplemental irrigation; economic evaluation of runoff storage structures and supplemental irrigation; and watershed-based water harvesting, groundwater recharging and efficient water utilization.

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Assessing the Environmental Benefits of Watershed Development: Evidence from the Indian Semi-Arid Tropics

Wani

Anantha

Sreedevi

et al. 2017

JSWSM

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Many environmental benefits result from watershed interventions in the semi-arid tropics. Environmental benefits may be defined as the condition and process through which ecosystems sustain and fulfill human life, including the provision of food and other goods. The spillover effects of these benefits range from an increase in household welfare condition to ecosystem sustainability. An attempt is made in this paper to assess these benefits in the context of Indian Semiarid tropics using primary data collected from two micro watersheds (Rajasamadhiyala and Shekta watersheds). Results indicate that groundwater availability has substantially increased and soil conservation has brought changes in cropping patterns with high-value crops. Rainwater harvesting through check dams, causeway cum check dams, percolation tanks, farm ponds and earthen bunds have significantly increased water storage capacity and water availability along with doubling the production of major crops. Significant increases in irrigated area, cropping intensity along with diversification of crops from traditional to commercial cash crops were recorded in the watersheds. Assessing the environmental benefits accrued from the watershed development approach may lead to the identification of 'keystone elements' in a landscape that have a substantial impact by providing multi-functions. The integrated watershed management practices adopted in the two micro watersheds substantially improved the sustainability in these watersheds. Using available methods we have assessed the environmental benefits of micro watersheds in the Indian semi-arid tropics.

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A Runoff Model for Small Watersheds in the Semi-Arid Tropics

Pathak¹,

Laryea²,

Sudi³

1989

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R Sudi

Hydrological behavior of Alfisols and Vertisols in the semi-arid zone: Implications for soil and water management

Multiple Impact of Integrated Watershed Management in Low Rainfall Semi-Arid Region: A Case Study from Eastern Rajasthan, India

Opportunities for water harvesting and supplemental irrigation for improving rainfed agriculture in semi-arid areas.

Assessing the Environmental Benefits of Watershed Development: Evidence from the Indian Semi-Arid Tropics

A Runoff Model for Small Watersheds in the Semi-Arid Tropics

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