Publisher
Springer Science and Business Media LLC
Reference5 articles.
1. Challinor, A. J. et al. Current warming will reduce yields unless maize breeding and seed systems adapt immediately. Nat. Clim. Change 6, 954–958 (2016). The paper reports a paradox between breeding and climate warming.
2. Reynolds, M. P. & Langridge, P. Physiological breeding. Curr. Opin. Plant Biol. 31, 162–171 (2016). This review describes a method to deterministically improve complex physiological traits.
3. Reynolds, M. P. et al. Strategic crossing of biomass and harvest index—source and sink—achieved genetic gains in wheat. Euphytica 213, 257 (2017). This article demonstrates that use of deterministic breeding to combine sources of complex physiological traits generates globally competitive lines in terms of yield.
4. Molero, G. et al. Exotic alleles contribute to heat tolerance in wheat under field conditions. Commun. Biol. 6, 21 (2023). This article elucidates haplotypes that contribute to heat tolerance and confer no yield penalty under temperate conditions.
5. Xiong, W. et al. Increased ranking change in wheat breeding under climate change. Nat. Plants 9, 1207–1212 (2021). An article that presents a pathway to mitigation of the impact of climate change on wheat breeding.