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A Reappraisal of Polyploidy Events in Grasses (Poaceae) in a Rapidly Changing World.

Acga ChengNoraikim Mohd HanafiahJennifer Ann HarikrishnaPhaik Eem LimNiranjan BaisakhMuhamad Shakirin Mispan
Published in: Biology (2022)
Around 80% of megaflora species became extinct at the Cretaceous-Paleogene (K-Pg) boundary. Subsequent polyploidy events drove the survival of thousands of plant species and played a significant historical role in the development of the most successful modern cereal crops. However, current and rapid global temperature change poses an urgent threat to food crops worldwide, including the world's big three cereals: rice, wheat, and maize, which are members of the grass family, Poaceae. Some minor cereals from the same family (such as teff) have grown in popularity in recent years, but there are important knowledge gaps regarding the similarities and differences between major and minor crops, including how polyploidy affects their biological processes under natural and (a)biotic stress conditions and thus the potential to harness polyploidization attributes for improving crop climate resilience. This review focuses on the impact of polyploidy events on the Poaceae family, which includes the world's most important food sources, and discusses the past, present, and future of polyploidy research for major and minor crops. The increasing accessibility to genomes of grasses and their wild progenitors together with new tools and interdisciplinary research on polyploidy can support crop improvement for global food security in the face of climate change.
Keyphrases
  • climate change
  • human health
  • healthcare
  • machine learning
  • stress induced
  • free survival
  • genetic diversity
  • artificial intelligence