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Abstract
Irrigated agriculture will play a crucial role to meet future food demand, but a sustainable
water resource management in agriculture is crucial as well. Therefore, the European Water
Framework Directive promotes several measures, e.g., the adoption of adequate water pricing
mechanisms or the promotion of water-saving irrigation techniques. Since production
conditions such as weather and climate development are uncertain, farmers might be reluctant
to invest in a water-saving but capital intensive irrigation system. We apply a stochastic
dynamic programming approach to analyze a farmer’s optimal investment strategy for either a
water–saving drip irrigation system or sprinkler irrigation system under weather uncertainty
and assess the probability of adopting either irrigation system until the year 2040. We design
two policy scenarios: (i) irrigation water pricing and (ii) equipment subsidies for drip
irrigation, and investigate how they affect the farmer’s optimal investment strategy. Our case
study analysis is performed for the region Marchfeld, a typical semi-arid agricultural
production region in Austria. We use data from the bio-physical process simulation model
EPIC (Environmental Policy Integrated Climate) which accounts for site and management
related characteristics as well as weather parameters from a statistical climate change model.
We find that investment in drip irrigation is unlikely unless subsidies for equipment cost are
granted. Even water prices do not increase the probability to adopt a drip irrigation system,
but rather decrease the probability to invest into either irrigation system.