Genetic architecture of yield‐component traits in the new perennial grain crop, intermediate wheatgrass

Altendorf, Kayla R.; DeHaan, Lee R.; Anderson, James A.

doi:10.1002/csc2.20716

Crop Science

2022

DOI: 10.1002/csc2.20716

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Genetic architecture of yield‐component traits in the new perennial grain crop, intermediate wheatgrass

Kayla R. Altendorf

Lee R. DeHaan

James A. Anderson

Abstract: Intermediate wheatgrass [Thinopyrum intermedium (Host) Barkworth & D.R. Dewey] (IWG) is a perennial, cool‐season grass species currently undergoing direct domestication as one of the first perennial grain crops. To domesticate and improve this obligately outcrossing allohexaploid (2n = 6x = 42), breeders are using both phenotypic‐ and genomic‐assisted recurrent selection methodologies. Thus far, efforts have focused primarily on improving domestication traits and yield, but breeders are limited by the relative… Show more

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Cited by 2 publications

References 34 publications

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What is the prospect of a perennial grain revolution of agriculture?

Olsson,

Andersson,

Ardö

et al. 2024

Glob. Sustain.

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Non-technical summary Agriculture has been dominated by annual plants, such as all cereals and oilseeds, since the very beginning of civilization over 10,000 years ago. Annual plants are planted and uprooted every year which results in severe disturbance of the soil and disrupts ecosystem services. Science has shown that it is possible to domesticate completely new perennial grain crops, i.e. planted once and harvested year after year. Such crops would solve many of the problems of agriculture, but their development and uptake would be at odds with the current agricultural technology industry. Technical summary Agriculture is arguably the most environmentally destructive innovation in human history. A root cause is the reliance on annual crops requiring uprooting and restarting every season. Most environmental predicaments of agriculture can be attributed to the use of annuals, as well as many social, political, and economic ones. Advances in domestication and breeding of novel perennial grain crops have demonstrated the possibility of a future agricultural shift from annual to perennial crops. Such a change could have many advantages over the current agricultural systems which are to over 80% based on annual crops mainly grown in monocultures. We analyze and review the prospects for such scientific advances to be adopted and scaled to a level where it is pertinent to talk about a perennial revolution. We follow the logic of E.O. Wright's approach of Envisioning Real Utopias by discussing the desirability, viability, and achievability of such a transition. Proceeding from Lakatos' theory of science and Lukes' three dimensions of power, we discuss the obstacles to such a transition. We apply a transition theory lens to formulate four reasons of optimism that a perennial revolution could be imminent within 3–5 decades and conclude with an invitation for research.

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What is the prospect of a perennial grain revolution of agriculture?

Olsson,

Andersson,

Ardö

et al. 2024

Glob. Sustain.

View full text Add to dashboard Cite

show abstract

Perennials as Future Grain Crops: Opportunities and Challenges

et al. 2022

Self Cite

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Perennial grain crops could make a valuable addition to sustainable agriculture, potentially even as an alternative to their annual counterparts. The ability of perennials to grow year after year significantly reduces the number of agricultural inputs required, in terms of both planting and weed control, while reduced tillage improves soil health and on-farm biodiversity. Presently, perennial grain crops are not grown at large scale, mainly due to their early stages of domestication and current low yields. Narrowing the yield gap between perennial and annual grain crops will depend on characterizing differences in their life cycles, resource allocation, and reproductive strategies and understanding the trade-offs between annualism, perennialism, and yield. The genetic and biochemical pathways controlling plant growth, physiology, and senescence should be analyzed in perennial crop plants. This information could then be used to facilitate tailored genetic improvement of selected perennial grain crops to improve agronomic traits and enhance yield, while maintaining the benefits associated with perennialism.

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Genetic architecture of yield‐component traits in the new perennial grain crop, intermediate wheatgrass

Cited by 2 publications

References 34 publications

What is the prospect of a perennial grain revolution of agriculture?

What is the prospect of a perennial grain revolution of agriculture?

Perennials as Future Grain Crops: Opportunities and Challenges

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