陈怡平, 陈东, 刘强, 毋俊华, 郭家宏, 张静, 闽东红, 张安静, 李瑞国, 郑颖娟, 赵燕, 马吉福, 苏翠翠, 江瑶, 魏蓉. 冬小麦突变新品系‘白鹿181’的遗传构成、品质分析及栽培技术[J]. 中国生态农业学报 (中英文), 2024, 32(9): 1−10. DOI: 10.12357/cjea.20240091
引用本文: 陈怡平, 陈东, 刘强, 毋俊华, 郭家宏, 张静, 闽东红, 张安静, 李瑞国, 郑颖娟, 赵燕, 马吉福, 苏翠翠, 江瑶, 魏蓉. 冬小麦突变新品系‘白鹿181’的遗传构成、品质分析及栽培技术[J]. 中国生态农业学报 (中英文), 2024, 32(9): 1−10. DOI: 10.12357/cjea.20240091
CHEN Y P, CHEN D, LIU Q, WU J H, GUO J H, ZHANG J, MIN D H, ZHANG A J, LI R G, ZHENG Y J, ZHAO Y, MA J F, SU C C, JIANG Y, WEI R. Genetic composition, quality characters and cultivation techniques of a new winter wheat line ‘Bailu 181’[J]. Chinese Journal of Eco-Agriculture, 2024, 32(9): 1−10. DOI: 10.12357/cjea.20240091
Citation: CHEN Y P, CHEN D, LIU Q, WU J H, GUO J H, ZHANG J, MIN D H, ZHANG A J, LI R G, ZHENG Y J, ZHAO Y, MA J F, SU C C, JIANG Y, WEI R. Genetic composition, quality characters and cultivation techniques of a new winter wheat line ‘Bailu 181’[J]. Chinese Journal of Eco-Agriculture, 2024, 32(9): 1−10. DOI: 10.12357/cjea.20240091

冬小麦突变新品系‘白鹿181’的遗传构成、品质分析及栽培技术

Genetic composition, quality characters and cultivation techniques of a new winter wheat line ‘Bailu 181’

  • 摘要: 为了选育高产高质小麦新品种, 服务国家粮食安全, 本研究以‘小偃22’为试验材料, 采用CO2激光致死剂量辐射小麦品种‘小偃22’的种子, 筛选突变株, 检验其稳定性, 分析其产量和品质, 并探讨突变株‘白鹿181’新品系的栽培技术。结果表明: 1)通过小麦660K芯片对‘小偃22’的突变株‘白鹿181’新品系进行遗传构成鉴定, 共检测出630 517个单核苷酸多态性(SNP)位点, 其中有1个不确定SNP位点, 无差异SNP位点442 859个(占70.23%), 差异SNP位点187 657个(占29.76%)。以‘小偃22’为模板, 发现缺失和变异主要集中在AA、AC、AG、AT、CC、CG、GG、TC、TG和TT单核苷酸多态性(SNP)上, 其中AA、CC、GG和TT分别占19.23%、23.50%、24.4%和19.46%。2)与‘小偃22’相比, 激光诱变产生的突变株‘白鹿181’的千粒重和产量3年平均增幅分别为9.31%和5.07%。3)‘白鹿181’的17种氨基酸含量均高于‘小偃22’, 籽粒容重增加7.33%, 湿面筋指数增加15.40%, 稳定时间延长11.00%, 最大拉伸阻力增加34.80%。4)不同施肥量和播种量对‘白鹿181’产量和千粒重均有不同程度的影响。从产量和千粒重综合考虑, 在施750 kg∙hm−2氮肥条件下, 每公顷播种180 kg种子的效益最大化。研究结果表明, ‘白鹿181’较适宜于关中平原等黄河中游地区种植, ‘白鹿181’新品系的培育, 为丰富我国小麦种质资源以及选育优质高产新品种提供了新材料。

     

    Abstract: In recent years, the frequency of extreme weather events such as drought, rainstorm, low temperature and high temperature is increasing, which has a serious impact on wheat production, yield and quality. The total global wheat production in 2023 was 780 million tons, a 3% decrease from the historical highest level in 2022 according to data from the Food and Agriculture Organization of the United Nations. With the rapid development of China's socio-economic and population growth, the demand for wheat in our country is constantly increasing. Therefore, cultivating wheat varieties with high yield, excellent quality, and strong resistance is crucial for national food security. To cultivate new wheat varieties with strong resistance to adversity and a wide range of adaptability for serving the national food security, wheat variety ‘Xiaoyan 22’ was used to radiate with lethal dose of CO2 laser to found mutant lines. Selection uniform wheat seeds, and then soaking seeds with sterile water for 30min and absorbing surface water with filter paper. Taking 60 seeds and laying them single-layer on the central part of the sample processing platform of the CO2 laser (Figure 1). Turn on the CO2 laser (developed by the Department of Physics at Northwestern University) to irradiate the seeds for 10 minutes with Power density 20 mW ∙ mm – 2. We screened the mutant line, and tested its stability, analyzed its yield and quality, and discussed its cultivation techniques. The results showed: (1) 660K gene chip showed that there were 630517 SNP (Single Nucleotide Polymorphisms) loci between ‘Bailu 181’ and ‘Xiaoyan 22’. No difference SNPs were 442 859, which proportion was about 70.23%. differential SNP loci were187657, accounting for 29.76%. Compared with ‘Xiaoyan 22’, genic mutation was mainly occurred on SNPs of AA, CC, CG and TT, which was of 19.23%, 23.50%, 24.40% and 19.46%, respectively. (2) The1000-rain weight and yield of ‘Bailu 181’ were significantly greater than those of ‘Xiaoyan 22’, which mean value of 3 years were of 9.31% and 5.07% higher than that of ‘Xiaoyan 22’. (3) The 17 amino acids in ‘Bailu 181’ seeds were significantly higher than that of ‘Xiaoyan 22’. Compared with ‘Xiaoyan 22’, grain bulk density and wet gluten index increased with 7.33% and 15.40, stability time extended by 11.00% and maximum tensile resistance increased by 34.80%, respectively. (4) Different fertilization and sowing amount have different degrees of impact on the number of grains per spike, thousand grain weight, number of spikes and yield of ‘Bailu 181’. Taking into account both yield and thousand grain weight, maximizing the economic benefits of sowing 180 kg of seeds per hectare under the condition of applying 750 kg of nitrogen fertilizer per hectare. The results showed that ‘Bailu 181’ was more suitable for planting in Guanzhong Plain and the middle reaches of the Yellow River region. About 30% of the genes in ‘Bailu 181’have changed, which provided breeding materials for enriching China's wheat germplasm resources and breeding high-quality and high-yield new varieties.

     

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