Yirssaw Demeke Ambaw, Andargachew Gedebo Abitea, Temesgen Magule Olango, Mikias Biazen Molla
{"title":"基于种子含油量和脂肪酸组成的埃塞俄比亚芥菜(Brassica carinata A. Braun)种质遗传变异","authors":"Yirssaw Demeke Ambaw, Andargachew Gedebo Abitea, Temesgen Magule Olango, Mikias Biazen Molla","doi":"10.1007/s10722-024-02155-4","DOIUrl":null,"url":null,"abstract":"<p>Ethiopian mustard (<i>Brassica carinata</i> A. Braun) is a versatile oilseed crop with potential applications in food, biofuel, and industrial sectors. However, its potential has not been fully exploited through breeding because of the limited understanding of genetic variation in oil-related traits. The present study characterized the genetic diversity of 386 <i>B. carinata</i> accessions to identify superior genotypes based on their oil content and fatty acid composition. The experiment employed an augmented block design with two replicates. Oil content and fatty acid profiles were determined using nuclear magnetic resonance spectroscopy (NMRS) and near-infrared reflectance spectroscopy (NIRS), respectively. Significant (<i>p</i> ≤ 0.05) variation was observed across all traits, with seed oil content ranging from 37.88% to 46.98%. High heritability (85–94%) and genetic advance (22.30–59.29%) were estimated for all traits. Cluster analysis revealed seven distinct groups with significant intercluster distances. Generally, acc-386 for oil content, acc-02 for erucic acid, acc-386 for α-linolenic acid, acc-385 for eicosenoic acid, and acc-309 for stearic acid were identified as promising candidates for industrial applications because of their high oil content and fatty acid levels. Acc-372 for linoleic, acc-326 for oleic, and acc-270 for palmitic acids showed considerable potential for further improvement for edible oil. This study provides valuable insights for future breeding programs, highlighting the utilization of genetic diversity to optimize fatty acid profiles for various end uses. In particular, the identified genotypes with high erucic acid contents have the potential to develop sustainable biofuel feedstock from <i>B. carinata</i>.</p>","PeriodicalId":12467,"journal":{"name":"Genetic Resources and Crop Evolution","volume":"1 1","pages":""},"PeriodicalIF":1.6000,"publicationDate":"2024-09-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Genetic variation in Ethiopian mustard (Brassica carinata A. Braun) germplasm based on seed oil content and fatty acid composition\",\"authors\":\"Yirssaw Demeke Ambaw, Andargachew Gedebo Abitea, Temesgen Magule Olango, Mikias Biazen Molla\",\"doi\":\"10.1007/s10722-024-02155-4\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Ethiopian mustard (<i>Brassica carinata</i> A. Braun) is a versatile oilseed crop with potential applications in food, biofuel, and industrial sectors. However, its potential has not been fully exploited through breeding because of the limited understanding of genetic variation in oil-related traits. The present study characterized the genetic diversity of 386 <i>B. carinata</i> accessions to identify superior genotypes based on their oil content and fatty acid composition. The experiment employed an augmented block design with two replicates. Oil content and fatty acid profiles were determined using nuclear magnetic resonance spectroscopy (NMRS) and near-infrared reflectance spectroscopy (NIRS), respectively. Significant (<i>p</i> ≤ 0.05) variation was observed across all traits, with seed oil content ranging from 37.88% to 46.98%. High heritability (85–94%) and genetic advance (22.30–59.29%) were estimated for all traits. Cluster analysis revealed seven distinct groups with significant intercluster distances. Generally, acc-386 for oil content, acc-02 for erucic acid, acc-386 for α-linolenic acid, acc-385 for eicosenoic acid, and acc-309 for stearic acid were identified as promising candidates for industrial applications because of their high oil content and fatty acid levels. Acc-372 for linoleic, acc-326 for oleic, and acc-270 for palmitic acids showed considerable potential for further improvement for edible oil. This study provides valuable insights for future breeding programs, highlighting the utilization of genetic diversity to optimize fatty acid profiles for various end uses. 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Genetic variation in Ethiopian mustard (Brassica carinata A. Braun) germplasm based on seed oil content and fatty acid composition
Ethiopian mustard (Brassica carinata A. Braun) is a versatile oilseed crop with potential applications in food, biofuel, and industrial sectors. However, its potential has not been fully exploited through breeding because of the limited understanding of genetic variation in oil-related traits. The present study characterized the genetic diversity of 386 B. carinata accessions to identify superior genotypes based on their oil content and fatty acid composition. The experiment employed an augmented block design with two replicates. Oil content and fatty acid profiles were determined using nuclear magnetic resonance spectroscopy (NMRS) and near-infrared reflectance spectroscopy (NIRS), respectively. Significant (p ≤ 0.05) variation was observed across all traits, with seed oil content ranging from 37.88% to 46.98%. High heritability (85–94%) and genetic advance (22.30–59.29%) were estimated for all traits. Cluster analysis revealed seven distinct groups with significant intercluster distances. Generally, acc-386 for oil content, acc-02 for erucic acid, acc-386 for α-linolenic acid, acc-385 for eicosenoic acid, and acc-309 for stearic acid were identified as promising candidates for industrial applications because of their high oil content and fatty acid levels. Acc-372 for linoleic, acc-326 for oleic, and acc-270 for palmitic acids showed considerable potential for further improvement for edible oil. This study provides valuable insights for future breeding programs, highlighting the utilization of genetic diversity to optimize fatty acid profiles for various end uses. In particular, the identified genotypes with high erucic acid contents have the potential to develop sustainable biofuel feedstock from B. carinata.
期刊介绍:
Genetic Resources and Crop Evolution is devoted to all aspects of plant genetic resources research. It publishes original articles in the fields of taxonomical, morphological, physiological, biochemical, genetical, cytological or ethnobotanical research of genetic resources and includes contributions to gene-bank management in a broad sense, that means to collecting, maintenance, evaluation, storage and documentation.
Areas of particular interest include:
-crop evolution
-domestication
-crop-weed relationships
-related wild species
-history of cultivated plants including palaeoethnobotany.
Genetic Resources and Crop Evolution also publishes short communications, e.g. newly described crop taxa, nomenclatural notes, reports of collecting missions, evaluation results of gene-bank material etc. as well as book reviews of important publications in the field of genetic resources.
Every volume will contain some review articles on actual problems. The journal is the internationalized continuation of the German periodical Die Kulturpflanze, published formerly by the Institute of Plant Genetics and Crop Plant Research at Gatersleben, Germany.
All contributions are in the English language and are subject to peer reviewing.