Terminal Heat Stress in Wheat: Impacts and Solutions https://doi.org/10.21276/AATCCReview.2025.13.02.204 Wheat (Triticum aestivum L.) is recognized as one of the most significant
cereal crops worldwide. A major challenge to wheat production is heat
stress, an abiotic factor that significantly diminishes grain yield, particularly in
semi-arid and subtropical regions. Heat stress poses severe threats to wheat
growth, with yield losses estimated at approximately 6% for each 1°C
increase in temperature. Terminal heat stress, which becomes critical when
the average temperature during the grain-filling phase surpasses 31°C, is a
primary factor contributing to reduced productivity. The elevated temperatures
experienced during this crucial developmental stage are the primary drivers
of low wheat yields. During the 2020-21 and 2021-22 growing seasons, the
average temperatures in March and April were 2-3°C higher than usual,
exacerbating the impact of terminal heat stress. Consequently, wheat yields
were reduced by 2-3 quintals per acre. The sudden increase in both
maximum and minimum temperatures across North-West India contributed to
an 8-10% reduction in final crop yields during these years. This review
summarized the general effect and management to this problem. Findings
indicated that elevated temperatures accelerated wheat maturation, leading to
earlier-than-normal harvests. On March 15 of both consecutive years,
maximum temperatures reached 40°C and remained at or above this
threshold throughout the harvesting period. To mitigate the effects of heat
stress, several strategies were employed, including the development of heat-
resistant crop varieties, the adoption of climate-adaptive cropping practices,
the implementation of conservation agriculture, and adjustments to planting
windows. Researchers can use this review to better understand the
landscape of terminal heat stress research and shortcomings.

]]>
Current Issue
https://doi.org/10.21276/AATCCReview.2025.13.02.204

Abstract

Wheat (Triticum aestivum L.) is recognized as one of the most significant
cereal crops worldwide. A major challenge to wheat production is heat
stress, an abiotic factor that significantly diminishes grain yield, particularly in
semi-arid and subtropical regions. Heat stress poses severe threats to wheat
growth, with yield losses estimated at approximately 6% for each 1°C
increase in temperature. Terminal heat stress, which becomes critical when
the average temperature during the grain-filling phase surpasses 31°C, is a
primary factor contributing to reduced productivity. The elevated temperatures
experienced during this crucial developmental stage are the primary drivers
of low wheat yields. During the 2020-21 and 2021-22 growing seasons, the
average temperatures in March and April were 2-3°C higher than usual,
exacerbating the impact of terminal heat stress. Consequently, wheat yields
were reduced by 2-3 quintals per acre. The sudden increase in both
maximum and minimum temperatures across North-West India contributed to
an 8-10% reduction in final crop yields during these years. This review
summarized the general effect and management to this problem. Findings
indicated that elevated temperatures accelerated wheat maturation, leading to
earlier-than-normal harvests. On March 15 of both consecutive years,
maximum temperatures reached 40°C and remained at or above this
threshold throughout the harvesting period. To mitigate the effects of heat
stress, several strategies were employed, including the development of heat-
resistant crop varieties, the adoption of climate-adaptive cropping practices,
the implementation of conservation agriculture, and adjustments to planting
windows. Researchers can use this review to better understand the
landscape of terminal heat stress research and shortcomings.

View / Download PDF
]]>