Optimising Regional Land Use to Enhance Water Productivity Under Climate Uncertainty: The Role of Perennial Crops
Karin Schiller, James Montgomery, Marcus Randall, Andrew LewisThe unique production life cycles of perennial crops make them vulnerable to predicted future climate changes. This paper describes how a new framework specific to perennial crops was developed and integrated into an existing spatio-temporal agricultural land sequencer (STALS) to generate real-world land use insights for a case study region, the Murrumbidgee Irrigation Area, Australia. Model outputs illuminated the role of perennials in a water-constrained future and highlighted the benefit of the operational tactic of deficit irrigation in maintaining the feasibility of perennial crops in the mid-to-long-range planning horizon. Furthermore, diversity of life cycle in land use was shown to maintain economically viable agriculture in the study region. The future of perennial crops as a proportion of land use area in a climate-smart landscape may need to be reevaluated.