Growth under cold conditions in perennial ryegrass is under tight genetic control

Background. Perennial ryegrass is a cool-season grass species from the family Poaceae and is widely cultivated in temperate regions because it exhibits rapid growth and establishment, and possesses high forage quality. The extension of the growing season in Ireland in spring and autumn is a breeding...

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Bibliographic Details
Published in:PeerJ preprints 2018-03
Main Authors: ster, Lena, Grant, Jim, Thibauld Michel, Ng, Carl, Barth, Susanne
Format: Article
Language:English
Subjects:
Breeding
Chlorophyll
Cold
Cold tolerance
Electrolytes
Genetic control
Genotypes
Growth conditions
Leakage
Lolium perenne
Temperature effects
Turfgrasses
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Summary:Background. Perennial ryegrass is a cool-season grass species from the family Poaceae and is widely cultivated in temperate regions because it exhibits rapid growth and establishment, and possesses high forage quality. The extension of the growing season in Ireland in spring and autumn is a breeding target to make farming more profitable since a grass-fed diet based on grazing is the cheapest way of nutrition for ruminants. Methods. Fifty-seven perennial ryegrass accessions were screened for their ability to grow under typical Irish spring conditions as taken from long term temperature records in controlled climate chambers. They were grown in low temperature (8°C/2°C day/night) and control conditions (15°C/8°C day/night) in three consecutive independent experiments. Fresh weight, height, chlorophyll content and electrolyte leakage were measured, and these parameters were used to rank plant performance under low temperature growth conditions. Results. The results showed that height, yield and electrolyte leakage are excellent measures for the impact of cold stress tolerance. Little variation in growth was seen under cold stress, but a wide variety of responses were observed under control conditions. Discussion. Our results suggest that cold stress is under tight genetic control. Interestingly, the various genotypes responded differentially to more amenable control conditions, indicating that a quick response to more amenable growth conditions is a better target for breeding programmes.
ISSN:2167-9843
DOI:10.7287/peerj.preprints.26620v1