Journal Articles Science of the Total Environment Year : 2023

Discussion: Prioritize perennial grain development for sustainable food production and environmental benefits

James A Anderson
  • Function : Author
Prabin Bajgain
  • Function : Author
Andrea Basche
  • Function : Author
Douglas J Cattani
  • Function : Author
Jared Crain
  • Function : Author
Timothy E Crews
  • Function : Author
Christophe David
Olivier Duchene
Jessica Gutknecht
  • Function : Author
Richard C Hayes
  • Function : Author
Fengyi Hu
  • Function : Author
Jacob M Jungers
  • Function : Author
Søren Knudsen
  • Function : Author
Wenqian Kong
  • Function : Author
Steve Larson
  • Function : Author
Per-Olof Lundquist
  • Function : Author
Guangbin Luo
  • Function : Author
Allison J Miller
  • Function : Author
Anna Westerbergh
  • Function : Author
Pheonah Nabukalu
  • Function : Author
Matthew T Newell
  • Function : Author
Lennart Olsson
  • Function : Author
Michael Palmgren
  • Function : Author
Andrew H Paterson
  • Function : Author
Valentin D Picasso
  • Function : Author
Jesse A Poland
  • Function : Author
Erik J Sacks
  • Function : Author
Shuwen Wang
  • Function : Author

Abstract

Perennial grains have potential to contribute to ecological intensification of food production by enabling the direct harvest of human-edible crops without requiring annual cycles of disturbance and replanting. Studies of prototype perennial grains and other herbaceous perennials point to the ability of agroecosystems including these crops to protect water quality, enhance wildlife habitat, build soil quality, and sequester soil carbon. However, genetic improvement of perennial grain candidates has been hindered by limited investment due to uncertainty about whether the approach is viable. As efforts to develop perennial grain crops have expanded in past decades, critiques of the approach have arisen. With a recent report of perennial rice producing yields equivalent to those of annual rice over eight consecutive harvests, many theoretical concerns have been alleviated. Some valid questions remain over the timeline for new crop development, but we argue these may be mitigated by implementation of recent technological advances in crop breeding and genetics such as low-cost genotyping, genomic selection, and genome editing. With aggressive research investment in the development of new perennial grain crops, they can be developed and deployed to provide atmospheric greenhouse gas reductions.
Fichier principal
Vignette du fichier
DeHaan et al 2023 Pre-Proof.pdf (888.02 Ko) Télécharger le fichier
Origin Files produced by the author(s)

Dates and versions

hal-04145160 , version 1 (28-06-2023)

Identifiers

Cite

Lee R Dehaan, James A Anderson, Prabin Bajgain, Andrea Basche, Douglas J Cattani, et al.. Discussion: Prioritize perennial grain development for sustainable food production and environmental benefits. Science of the Total Environment, 2023, 895, pp.164975. ⟨10.1016/j.scitotenv.2023.164975⟩. ⟨hal-04145160⟩

Collections

ISARA
100 View
205 Download

Altmetric

Share

More