Influence of Cutting Date on Phenotypic Variation in Fatty Acid Concentrations of Perennial Ryegrass Genotypes from a Breeding Population

Influence of Cutting Date on Phenotypic Variation in Fatty Acid Concentrations of Perennial Ryegrass Genotypes from a Breeding Population

Breeding forages for increased fatty acid (FA) concentrations has the potential to improve the FA profile of ruminant products (meat and milk). Twenty perennial ryegrass genotypes from an “experimental” breeding population and four genotypes from a “benchmark” mapping population were used to assess...

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Main Authors: Sarah A. Morgan, Sharon A. Huws, Nigel D. Scollan
Format: Article
Language:English
Published: MDPI AG 2020-10-01
Series:Agronomy
Subjects:
<i>Lolium perenne</i>
temperate forage
lipids
cutting interval
seasonal pattern
Online Access:https://www.mdpi.com/2073-4395/10/10/1517
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spelling doaj-357d3ddb8e2244a998730d078535475e2021-04-02T13:21:56ZengMDPI AGAgronomy2073-43952020-10-01101517151710.3390/agronomy10101517Influence of Cutting Date on Phenotypic Variation in Fatty Acid Concentrations of Perennial Ryegrass Genotypes from a Breeding PopulationSarah A. Morgan0Sharon A. Huws1Nigel D. Scollan2Sustainable Agriculture Sciences, Rothamsted Research, North Wyke, Okehampton, Devon, EX20 2SB, UKInstitute for Global Food Security, School of Biological Sciences, Queen’s University Belfast, Belfast BT9 5BN, UKInstitute for Global Food Security, School of Biological Sciences, Queen’s University Belfast, Belfast BT9 5BN, UKBreeding forages for increased fatty acid (FA) concentrations has the potential to improve the FA profile of ruminant products (meat and milk). Twenty perennial ryegrass genotypes from an “experimental” breeding population and four genotypes from a “benchmark” mapping population were used to assess genotypic variation in FAs across a growing season. Mean total FA (TFA) concentration for cuts one through five were 29.0, 31.7, 31.1, 34.4 and 42.0 g kg<sup>−1</sup> DM, respectively. Six main individual FAs, namely palmitic acid (C16:0), trans-3-hexadecenoic acid (C16:1Δ<sup>t3</sup>), stearic acid (C18:0), oleic acid (C18:1Δ<sup>c9</sup>), linoleic acid (C18:2Δ<sup>c9,12</sup>) and α-linolenic acid (C18:3Δ<sup>c9,12,15</sup>), accounted for between 90% to 96% of TFA. Population means differed (<i>p</i> < 0.001) for TFA and all individual FAs, expect for C18:2Δ<sup>c9,12 </sup>(<i>p</i> = 0.106). “Benchmark” mapping population on average had 8%–44% higher FA concentrations compared to the “experimental” breeding population, except for C18:0 where the mapping population had lower concentrations. Individual genotypes from each population differed for all individual FAs and TFA (<i>p</i> < 0.05), with differences between the lowest and highest concentrations ranging from 8% to 23% amongst the mapping population genotypes and between 20% and 39% for the breeding population genotypes. Cutting date had a strong effect on population and genotype means (<i>p</i> < 0.001) with an overall trend for FA concentrations to increase through the season. However, several significant population and genotype × cutting date interactions were also found highlighting the need for further investigations to strengthen our knowledge and understanding of how genetics and environment interact for this particular trait. Nevertheless, candidate “high-lipid” genotypes were able to be identified using multivariate analysis which could be taken forward into a breeding program aimed at increasing forage FAs.https://www.mdpi.com/2073-4395/10/10/1517<i>Lolium perenne</i>temperate foragelipidscutting intervalseasonal pattern
collection DOAJ
language English
format Article
sources DOAJ
author Sarah A. Morgan
Sharon A. Huws
Nigel D. Scollan
spellingShingle Sarah A. Morgan
Sharon A. Huws
Nigel D. Scollan
Influence of Cutting Date on Phenotypic Variation in Fatty Acid Concentrations of Perennial Ryegrass Genotypes from a Breeding Population
Agronomy
<i>Lolium perenne</i>
temperate forage
lipids
cutting interval
seasonal pattern
author_facet Sarah A. Morgan
Sharon A. Huws
Nigel D. Scollan
author_sort Sarah A. Morgan
title Influence of Cutting Date on Phenotypic Variation in Fatty Acid Concentrations of Perennial Ryegrass Genotypes from a Breeding Population
title_short Influence of Cutting Date on Phenotypic Variation in Fatty Acid Concentrations of Perennial Ryegrass Genotypes from a Breeding Population
title_full Influence of Cutting Date on Phenotypic Variation in Fatty Acid Concentrations of Perennial Ryegrass Genotypes from a Breeding Population
title_fullStr Influence of Cutting Date on Phenotypic Variation in Fatty Acid Concentrations of Perennial Ryegrass Genotypes from a Breeding Population
title_full_unstemmed Influence of Cutting Date on Phenotypic Variation in Fatty Acid Concentrations of Perennial Ryegrass Genotypes from a Breeding Population
title_sort influence of cutting date on phenotypic variation in fatty acid concentrations of perennial ryegrass genotypes from a breeding population
publisher MDPI AG
series Agronomy
issn 2073-4395
publishDate 2020-10-01
description Breeding forages for increased fatty acid (FA) concentrations has the potential to improve the FA profile of ruminant products (meat and milk). Twenty perennial ryegrass genotypes from an “experimental” breeding population and four genotypes from a “benchmark” mapping population were used to assess genotypic variation in FAs across a growing season. Mean total FA (TFA) concentration for cuts one through five were 29.0, 31.7, 31.1, 34.4 and 42.0 g kg<sup>−1</sup> DM, respectively. Six main individual FAs, namely palmitic acid (C16:0), trans-3-hexadecenoic acid (C16:1Δ<sup>t3</sup>), stearic acid (C18:0), oleic acid (C18:1Δ<sup>c9</sup>), linoleic acid (C18:2Δ<sup>c9,12</sup>) and α-linolenic acid (C18:3Δ<sup>c9,12,15</sup>), accounted for between 90% to 96% of TFA. Population means differed (<i>p</i> < 0.001) for TFA and all individual FAs, expect for C18:2Δ<sup>c9,12 </sup>(<i>p</i> = 0.106). “Benchmark” mapping population on average had 8%–44% higher FA concentrations compared to the “experimental” breeding population, except for C18:0 where the mapping population had lower concentrations. Individual genotypes from each population differed for all individual FAs and TFA (<i>p</i> < 0.05), with differences between the lowest and highest concentrations ranging from 8% to 23% amongst the mapping population genotypes and between 20% and 39% for the breeding population genotypes. Cutting date had a strong effect on population and genotype means (<i>p</i> < 0.001) with an overall trend for FA concentrations to increase through the season. However, several significant population and genotype × cutting date interactions were also found highlighting the need for further investigations to strengthen our knowledge and understanding of how genetics and environment interact for this particular trait. Nevertheless, candidate “high-lipid” genotypes were able to be identified using multivariate analysis which could be taken forward into a breeding program aimed at increasing forage FAs.
topic <i>Lolium perenne</i>
temperate forage
lipids
cutting interval
seasonal pattern
url https://www.mdpi.com/2073-4395/10/10/1517
work_keys_str_mv AT sarahamorgan influenceofcuttingdateonphenotypicvariationinfattyacidconcentrationsofperennialryegrassgenotypesfromabreedingpopulation
AT sharonahuws influenceofcuttingdateonphenotypicvariationinfattyacidconcentrationsofperennialryegrassgenotypesfromabreedingpopulation
AT nigeldscollan influenceofcuttingdateonphenotypicvariationinfattyacidconcentrationsofperennialryegrassgenotypesfromabreedingpopulation
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