Breeding sugar-fodder beet hybrids for biofuel production

M. Kornieieva
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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
培育用于生物燃料生产的糖饲料甜菜杂交种
时事性。乌克兰生物燃料工程的发展要求种植作为可再生能源的农业燃料作物。利用高价值的不育型甜菜和肥沃型饲料甜菜创造的糖饲料杂交品种可能有望用于生物燃料原料生产。目的。开发高能量、适合替代生物燃料生产的实验性糖饲甜菜杂交品种,并选择最佳品种。材料与方法:利用6个甜菜花粉不育选育品系和23个可育饲料甜菜选育号,制备糖料杂交品种。育种过程包括以下步骤:选择初始亲本系,通过配合力评估亲本系,并在最佳的基础上形成杂种。采用多试顶杂交的方法,对试验杂交种进行田间试验。结果。亲本组分的能量产量差异显著,在53.5 ~ 61.5 GJ/ha (ms)之间,在80.0 ~ 87.8 GJ/ha之间(前4位传粉者)。试验杂交完成后,选择甜菜品系MS Iv. 24869和MS Iv. 2484的MS样品,证明其一般配合力显著,分别为6.7 GJ/ha和4.0 GJ/ha;饲料用甜菜品种Halytskyi和Lvivskyi zhovtyi -的传粉者分别为8.0 GJ/ha和6.5 GJ/ha。在“能量输出”性状变异的基因型结构中,亲本样品中有价值的加性基因复合物的影响的总份额(51%)几乎等于组分的非加性相互作用的份额(49%)。结论。通过组合选择的方法,培育出3个新的糖饲料杂交种基因型,其能量输出率高于120吉焦/公顷,适合可再生能源生产生物燃料。这些是基因型MS Iv. 24869/k 41/42;MS Iv. 24869/k 13/14;MS Iv. 24869/s。Lvivskyi zhvtyi,指标分别超标14.3%、15.4%和8.5%。关键词:生物能源,花粉不育形式,传粉媒介,糖饲料杂交种,配合力,能量产量
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