This study examines the economic vulnerability of cereal production to climate change across four key regions of northern Algeria, Blida, Tizi Ouzou, Tiaret, and Sétif, selected for their agro-climatic diversity and strategic contribution to national grain supply. By integrating DSSAT crop modeling with a SWOT-AHP multi-criteria framework, the research evaluates adaptation strategies through a cost-benefit perspective. Climate projections under RCP4. 5 and RCP8. 5 (2025–2050) suggest potential cereal yield declines of 18% to 40% by mid-century, which could raise annual cereal import costs by 1. 2 billion and result in the loss of up to 12, 000 agricultural jobs. Among the climatic constraints, heat stress during the flowering stage emerges as the most critical yield-limiting factor. Stakeholder-weighted prioritization highlights drip irrigation (BCR = 2. 8) and drought-tolerant seed varieties (BCR = 1. 9) as the most economically viable interventions, though both require substantial initial investment (≈ 500 million) and subsidy reforms. The findings reveal significant trade-offs within Algeria’s agricultural policy but underscore that reallocating existing cereal subsidies toward climate-smart technologies could considerably strengthen resilience while maintaining food security in semi-arid regions. Beyond Algeria, the study provides a replicable framework for other countries facing similar climate–agriculture challenges, combining biophysical modeling with participatory decision-making to guide cost-effective adaptation.
Mohamed Marouf Aribi (Wed,) studied this question.
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