Abstract:
The primary motive of this thesis is to analyze the water footprints of agriculture production
in India broadly. The issues related to freshwater availability, use, and management have
received profound recognition in the global context. The increasing agricultural water use is
the major concern for the investigation based on the growing effects of economic
globalization, rapid industrialization, urbanization, and expansion of irrigated agriculture.
The intensive agricultural practices around the world resulted in severe environmental
degradation, including the loss of biodiversity, reduced soil quality, and surface and
groundwater pollution. Water resources are under threat from water scarcity, water pollution,
water conflicts, and climate change. The policymakers are more concerned regarding the role
of agriculture in economic development.
Chapter 1 discusses a general introduction of the thesis. This chapter discusses the
background of the study, followed by the three theoretical frameworks, i.e., Water Footprints,
Virtual Water, and Sustainability Assessment. Chapter 2 discusses the relevant literature on
the assessment of Water Footprints, Virtual Water flows, and Sustainability of crops
production. This chapter highlights the impacts of agriculture production and its increasing
pressure on water resources, both global and Indian perspectives.
Chapter 3 examines the determinants of agricultural water use, cultivable land use,
and primary crops production across five agro-climatic zones in India over the period 1991-
2019. This study classifies the Indian states into five agro-climatic zones, namely Northern,
Western, Southern, Eastern, and Northeastern, to measure agricultural water use for primary
crops production in India. The study follows the theoretical concept of water footprints (WF)
and the production function framework, which provides a better understanding of crops'
production impact on agricultural water use. This study incorporates the consumption of
agro-chemicals, i.e., fertilizers, and pesticides; and a set of climate control variables such as
annual rainfall, maximum temperature, and minimum temperature to evaluate its diverse
effect on sustainable agricultural water use. The study undertakes robust panel data
regression using instrumental variable two-stage least squares (IV-2SLS) and an instrumental
variable generalized method of moments (IV-GMM) estimators for 29 states in India for over
29 years (1991-2019). The empirical results based on the full panel (29 states) account for the
magnitude of the positive and significant relationship of agricultural water use with cultivated
land use and primary crops production. The findings exhibit that water consumption and fertilizers/pesticides use are highest in many regions, such as Punjab, Uttar Pradesh, Tamil
Nadu, Kerala, and Haryana. Notably, Uttar Pradesh and Punjab are the largest producers of
wheat and rice among all the states. Likewise, excess water consumption in the southern
states, Kerala and Tamil Nadu, is attributable to the high volume of rice production. Climatic
conditions appear to have a moderating effect on water resources. Further, the study shows
that the magnitude of fertilizers and pesticides consumption increases the likelihood of highvolume crops production. Also, there is significant spatial heterogeneity in their usage vis-àvis water appropriation in primary crops production. Lastly, this study demonstrates the
relevance for the policymakers in prescribing the water policies in India.
Chapter 4 analyzes the inter-state virtual water trade (VWT) flows embodied in
agricultural commodities across the 30 states/UTs in India over 1994-2017. The study links
the VWT flows with water scarcity concentration in Indian states to determine whether the
water scarcity is caused by states’ domestic consumption or by exporting agricultural
products from one state to another. Using the theoretical concept of Allan’s VWT (1997) and
Leontief’s extended input-output model (1970), this study decomposes the water
consumption into domestic water demand and export products to the other states. This study
uses the final demand consumption to identify the direct and indirect water consumption
during the production process. Empirical results show that the northern states have massive
wheat and rice production, leading to substantial pressure on water resources. It helps other
states’ water-saving through the inter-state movement of water embodied in wheat and rice
products, especially from the highest virtual water outflows (northern states) to western and
southern (water-scarce) states in India. The findings indicate that unsustainable water flows
and diversity in water-endowments lead to water scarcity in water-abundant states. This study
suggests that inter-state trade in water-intensive products would improve the spatial water
efficiency in India with the stringent state-level water policy.
Chapter 5 evaluates the long- versus short-run relationships between the total crops
production, cultivable land, gross irrigated area, and agricultural water use in India during the
period 1981-2018. Using the sustainable assessment framework and Autoregressive
Distributed Lag-Error Correction Model (ARDL-ECM) approach, this study highlights the
concern of excess foodgrains production over the years to reduce food insecurity and hunger
rates. Further, this study investigates to recognize the negative impacts of food insecurity,
biodiversity loss, and climate change on human development issues following the Sustainable
Development Agenda of the United Nations General Assembly (2015). The study incorporates the set of climatic variables and consumption of agro-chemicals concerning the
sustainability of crops produced in India. The ARDL bounds test of co-integration confirms
the strong evidence of the long-run relationship among the variables. Empirical results show
the positive and significant relationship of crops production with land use and gross irrigated
area. It is noted that there is no specific significant effect of both the climatic variables and
the agro-chemicals on total crops production. Further, the speed of adjustment estimated by
the statistically significant Error Correction Term (ECT) shows that the dependent variable
(total crops production) adjusts moderately to the short-run changes in other variables and
moves to the long-run equilibrium. The findings of this study are robust based on the various
stability and diagnostics tests. This study concludes with some policy implications that focus
on ascertaining the significant social and environmental challenges affecting Indian
agriculture while evaluating the potential policy restructure in boosting growth within this
sector.
Chapter 6 concludes this thesis by discussing the empirical findings from chapters 3
to 5 and brings together some concluding assessments. The thesis highlights the importance
of agricultural water use, which is the critical input to the Indian growth of agriculture
products. The thesis also provides several policy implications, suggests sustainable practices
in the Indian agriculture sector, and sustainably utilizes water and landing resources.
Furthermore, the outline for future research in the research area of water footprints is
presented in this chapter.