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Climate change may outpace current wheat breeding yield improvements in North America

Tianyi Zhang, Yong He, R. M. DePauw, Zhenong Jin, David A. Garvin, Xu Yue, Weston Anderson, Tao Li, Xin Dong, Tao Zhang, Xiaoguang Yang

2022Nature Communications99 citationsDOIOpen Access PDF

Abstract

Variety adaptation to future climate for wheat is important but lacks comprehensive understanding. Here, we evaluate genetic advancement under current and future climate using a dataset of wheat breeding nurseries in North America during 1960-2018. Results show that yields declined by 3.6% per 1 °C warming for advanced winter wheat breeding lines, compared with -5.5% for the check variety, indicating a superior climate-resilience. However, advanced spring wheat breeding lines showed a 7.5% yield reduction per 1 °C warming, which is more sensitive than a 7.1% reduction for the check variety, indicating climate resilience is not improved and may even decline for spring wheat. Under future climate of SSP scenarios, yields of winter and spring wheat exhibit declining trends even with advanced breeding lines, suggesting future climate warming could outpace the yield gains from current breeding progress. Our study highlights that the adaptation progress following the current wheat breeding strategies is challenging.

Topics & Concepts

Climate changeYield (engineering)Adaptation (eye)Psychological resilienceEnvironmental scienceAgronomyGlobal warmingResilience (materials science)Plant breedingClimate change adaptationBiologyEcologyPsychotherapistMetallurgyMaterials scienceNeurosciencePsychologyPhysicsThermodynamicsClimate change impacts on agricultureWheat and Barley Genetics and PathologyGenetics and Plant Breeding