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1 Sharma, R.; Poleman, T. T. 1993. The new economics of India’s green revolution: Income and employment diffusion in Uttar Pradesh. Ithaca, NY, USA: Cornell University Press. xix, 272p.

Green revolution ; Poverty ; Income distribution ; Households ; Villages ; Agrarian reform ; Irrigated farming ; Dairy farms ; Case studies / India / Uttar Pradesh / Walidpur / Rampur / Izarpur / Jamalpur / Meerut / Sitapur

(Location: IWMI-HQ Call no: 338.1 G635 SHA Record No: H038557)

2 O’Keeffe, J.; Moulds, S.; Bergin, E.; Brozovic, N.; Mijic, A.; Buytaert, W. 2018. Including farmer irrigation behavior in a sociohydrological modeling framework with application in North India. Water Resources Research, 54(7):4849-4866. [doi: https://doi.org/10.1029/2018WR023038]

Irrigation water ; Farmers ; Human behaviour ; Socioeconomic environment ; Hydrology ; Models ; Water resources ; Groundwater table ; Water users ; Living standards ; Farm income ; Climate change ; Crop yield / India / Uttar Pradesh / Sitapur / Sultanpur / Hamirpur / Jalaun

(Location: IWMI HQ Call no: e-copy only Record No: H048922)

https://agupubs.onlinelibrary.wiley.com/doi/epdf/10.1029/2018WR023038
https://vlibrary.iwmi.org/pdf/H048922.pdf

(3.65 MB) (3.65 MB)

Understanding water user behavior and its potential outcomes is important for the development of suitable water resource management options. Computational models are commonly used to assist water resource management decision making; however, while natural processes are increasingly well modeled, the inclusion of human behavior has lagged behind. Improved representation of irrigation water user behavior within models can provide more accurate and relevant information for irrigation management in the agricultural sector. This paper outlines a model that conceptualizes and proceduralizes observed farmer irrigation practices, highlighting impacts and interactions between the environment and behavior. It is developed using a bottom-up approach, informed through field experience and farmer interaction in the state of Uttar Pradesh, northern India. Observed processes and dynamics were translated into parsimonious algorithms, which represent field conditions and provide a tool for policy analysis and water management. The modeling framework is applied to four districts in Uttar Pradesh and used to evaluate the potential impact of changes in climate and irrigation behavior on water resources and farmer livelihood. Results suggest changes in water user behavior could have a greater impact on water resources, crop yields, and farmer income than changes in future climate. In addition, increased abstraction may be sustainable but its viability varies across the study region. By simulating the feedbacks and interactions between the behavior of water users, irrigation officials and agricultural practices, this work highlights the importance of directly including water user behavior in policy making and operational tools to achieve water and livelihood security.