{"title":"Breeding sugar-fodder beet hybrids for biofuel production","authors":"M. Kornieieva","doi":"10.31867/2523-4544/0226","DOIUrl":null,"url":null,"abstract":"Topicality. The development of biofuel engineering in Ukraine demands to cultivate the agrofuel crops as renewable energy sources. The sugar-fodder hybrids created using high-value sterile forms of sugar beet and fertile forms of fodder beet may hold promise for biofuel feedstock production. Purpose. Develop experimental sugar-fodder beet hybrids with high energy yield, suitable for alternative biofuels production, and select the best ones. Materials and Methods. 6 pollen-sterile breeding lines of sugar beet and 23 selection numbers of fertile fodder beet were used to create the sugar-fodder hybrids. The breeding process comprised the following steps: selection of initial parental lines, evaluation them by combining ability, and, based on the best, formation of the hybrids. Method of multi-tester top crossing was applied and field trials of the experimental hybrids held. Results. The parent components varied significantly in energy yield, which ranged within 53.5–61.5 GJ/ha (for the MS-samples) and from 80.0 to 87.8 GJ/ha for the top 4 pollinators. On completion of the tester crosses, the following have been selected: MS-samples of the sugar beet lines MS Iv. 24869 and MS Iv. 2484 with proven significant effects of general combining ability at 6.7 GJ/ha and 4.0 GJ/ha; and pollinators of the fodder beet varieties Halytskyi and Lvivskyi zhovtyi – at 8.0 GJ/ha and 6.5 GJ/ha, respectively. In the genotypic structure of variability of the “energy output” trait, the total share of the influence of valuable additive gene complexes of parental samples (51 %) was almost equivalent to the share of non-additive interaction of components (49 %). Conclusions. By the method of combinative selection, three new genotypes of sugar-fodder hybrids have been developed, with energy output rate higher than 120 GJ/ha, suitable for the biofuel production from renewable sources. These are the genotypes MS Iv. 24869/k 41/42; MS Iv. 24869/k 13/14; and MS Iv. 24869/s. Lvivskyi zhovtyi, with indicators exceeding the standard by 14.3 %, 15.4 % and 8.5 %, respectively. Keywords: bioenergy, pollen-sterile forms, pollinators, sugar-fodder hybrids, combining ability, energy yield","PeriodicalId":23071,"journal":{"name":"The Scientific Journal Grain Crops","volume":"120 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-03-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"The Scientific Journal Grain Crops","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.31867/2523-4544/0226","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Topicality. The development of biofuel engineering in Ukraine demands to cultivate the agrofuel crops as renewable energy sources. The sugar-fodder hybrids created using high-value sterile forms of sugar beet and fertile forms of fodder beet may hold promise for biofuel feedstock production. Purpose. Develop experimental sugar-fodder beet hybrids with high energy yield, suitable for alternative biofuels production, and select the best ones. Materials and Methods. 6 pollen-sterile breeding lines of sugar beet and 23 selection numbers of fertile fodder beet were used to create the sugar-fodder hybrids. The breeding process comprised the following steps: selection of initial parental lines, evaluation them by combining ability, and, based on the best, formation of the hybrids. Method of multi-tester top crossing was applied and field trials of the experimental hybrids held. Results. The parent components varied significantly in energy yield, which ranged within 53.5–61.5 GJ/ha (for the MS-samples) and from 80.0 to 87.8 GJ/ha for the top 4 pollinators. On completion of the tester crosses, the following have been selected: MS-samples of the sugar beet lines MS Iv. 24869 and MS Iv. 2484 with proven significant effects of general combining ability at 6.7 GJ/ha and 4.0 GJ/ha; and pollinators of the fodder beet varieties Halytskyi and Lvivskyi zhovtyi – at 8.0 GJ/ha and 6.5 GJ/ha, respectively. In the genotypic structure of variability of the “energy output” trait, the total share of the influence of valuable additive gene complexes of parental samples (51 %) was almost equivalent to the share of non-additive interaction of components (49 %). Conclusions. By the method of combinative selection, three new genotypes of sugar-fodder hybrids have been developed, with energy output rate higher than 120 GJ/ha, suitable for the biofuel production from renewable sources. These are the genotypes MS Iv. 24869/k 41/42; MS Iv. 24869/k 13/14; and MS Iv. 24869/s. Lvivskyi zhovtyi, with indicators exceeding the standard by 14.3 %, 15.4 % and 8.5 %, respectively. Keywords: bioenergy, pollen-sterile forms, pollinators, sugar-fodder hybrids, combining ability, energy yield