Warming trends and shortened growing seasons: integrating four decades of observations and model simulations to develop wheat adaptation strategies in semi-arid Pakistan
Mukhtar Ahmed, Aashir Sameen, Ahmed M.S. Kheir

TL;DR
This study shows how rising temperatures in Pakistan are shortening wheat growing seasons and reducing yields, and suggests adapting sowing dates and using resilient wheat varieties to counter these effects.
Contribution
The study integrates four decades of field data and model simulations to propose wheat adaptation strategies in semi-arid regions under climate change.
Findings
Warming temperatures reduced wheat growing days and grain yields in Islamabad and Chakwal over 41 years.
Early sowing avoided heat stress and minimized yield losses by up to 27% in Islamabad and 25% in Chakwal.
Adopting climate-resilient wheat cultivars and adjusting sowing dates can mitigate warming-induced yield losses.
Abstract
Climate change is increasingly affecting wheat phenology and productivity in semi-arid regions. This study assessed the impact of long-term climate warming on wheat developmental stages, yield, and management options in rainfed systems of Pakistan. Fourty one years (1980–2020) of phenological (days to anthesis and maturity), yield, and meteorological data (minimum and maximum temperature, and rainfall) were analyzed for two locations: Islamabad (33.67° N, 73.12° E) and Chakwal (32.93° N, 72.86° E). Growing degree days (GDD) were calculated using cardinal temperatures of 4 °C (base), 13.2 °C (optimum), and 35 °C (ceiling). Cumulative GDD ranged from 1,679 to 2,637 °C-days at Chakwal and 2,000–2,500 °C-days at Islamabad. Increasing mean temperatures (18.0 °C at Chakwal and 17.8 °C at Islamabad) were associated with accelerated crop development, reducing days to anthesis (from 127 to 70…
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Taxonomy
TopicsClimate change impacts on agriculture · Wheat and Barley Genetics and Pathology · Greenhouse Technology and Climate Control
