Abstract
Algeria is among the most water-stressed countries in the world. Because of its climatic conditions, irrigation is essential for agricultural production. Water prices paid by farmers in public irrigation districts are very low and do not cover the operation and maintenance (O&M) costs of the irrigated perimeters, thus leading to the deterioration of these infrastructures. The objective of this paper is to analyse whether farmer’s in the West Mitidja irrigation district in northern Algeria would be willing to pay more for surface water in order to maintain the water supply service in its current conditions. We estimated farmers’ willingness to pay (WTP) for water using data from a dichotomous choice contingent valuation survey to 112 randomly selected farmers. Farmers’ responses were modelled using logistic regression techniques. We also analysed which technical, structural, social and economic characteristics of farms and farmers explain the differences in WTP. Our results showed that nearly 80% of the surveyed farmers are willing to pay an extra price for irrigation water. The average WTP was 64% greater than the price currently paid by farmers, suggesting some scope for improving the financial resources of the Mitidja irrigated perimeter, but insufficient to cover all O&M costs. Some of the key identified factors that affect WTP for surface water relate to farm ownership, access to groundwater resources, cropping patterns, farmers’ agricultural training and risk exposure.
Highlights
Algeria is among the most water stressed countries around the world
The average willingness to pay (WTP) was 64% greater than the price currently paid by farmers, suggesting some scope for improving the financial resources of the Mitidja irrigated perimeter, but insufficient to cover all operation and maintenance (O&M) costs
This study has estimated farmers’ WTP for surface water in the West Mitidja irrigated area in northern Algeria using contingent valuation (CV) techniques. It identified which technical, social and economic variables are related with such WTP. This is a relatively modern irrigation district, whose water distribution infrastructures are in risk of deterioration in the future, as the water tariff paid by farmers does not cover the operation and maintenance costs
Summary
Average annual water availability is 404 m3 per inhabitant (Hamiche et al, 2015), which is far below the World Bank's scarcity threshold, set at 1000 m3/inhabitant/year (Drouiche et al, 2012). Groundwater resources in the southern Sahara region are estimated at 5,000 Mm3/year (Hamiche et al, 2015). The country is exposed to very unfavourable climatic conditions, characterized by scarce, variable and unevenly distributed (both spatially and temporarily) rainfall, and a high evapotranspiration rate. In such scenario, irrigation is essential for agricultural production. It produces half of the country’s value of agricultural production using only a 14.5% of agricultural area
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