CHEN Jia-qin,ZHU Xing-tao,YANG Chun-jie,et al.Breeding and Cultivation Technology of A New Mosaic Virus-Resisted Soybean Variety Qiandou 13[J].Soybean Science,2022,41(05):624-627.[doi:10.11861/j.issn.1000-9841.2022.05.0624]
抗花叶病毒病大豆新品种黔豆13的培育及栽培技术
- Title:
- Breeding and Cultivation Technology of A New Mosaic Virus-Resisted Soybean Variety Qiandou 13
- Keywords:
- resistance to mosaic virus; new soybean variety; Qiandou 13; breeding; cultivation technology
- 文献标志码:
- A
- 摘要:
- 黔豆13是贵州省油料研究所选用贵州省地方大豆品种资源六枝六月黄、大方封顶豆、龙里大白水豆、纳雍光壳豆、镇远大黄豆进行复合杂交,培育而成的高产高抗大豆花叶病毒病新品种。2017—2018年参加贵州省大豆品种区域试验,两年平均产量2 711.26 kg?hm-2,较对照黔豆7号增产5.50%;2018年生产试验,平均产量2 724.15 kg?hm-2,较对照黔豆7号增产10.31%。人工接种大豆花叶病毒病SC3和SC7株系,病情指数为0,抗性评价为高抗;粗蛋白含量44.09%,粗脂肪含量19.21%;生育期116.90 d,株高56.50 cm,主茎节数12.30,分枝数2.30,单株荚数35.10,单株粒数52.60,百粒重23.90 g,紫花,灰毛,亚有限结荚,株系收敛,叶片椭圆,种皮黄色,种脐褐色。2020年通过贵州省审定,审定编号黔审豆20200002,适宜在贵州省春播推广种植。
- Abstract:
- Qiandou 13 was a new soybean variety with high yield and high resistance to soybean mosaic virus which was bred by Guizhou Oil Research Institute by mutiple hybridization among landraces of Liuzhiliuyuehuang, Dafangfengdingdou, Longlidabaishuidou, Nayongguangkedou and Zhenyuandahuangdou. The average yield of two years from 2017 to 2018 of Qiandou 13 was 2 711.26 kg?ha-1 which was 5.50% higher than that of the control Qiandou 7 in Guizhou provincial regional trial. The yield was 2 724.15 kg?ha-1 which was 10.31% higher than that of Qiandou 7 in production test in 2018. The soybean variety showed high resistance to soybean mosaic virus by artificial inoculation with SC3 and SC7 strains. And the protein and the fat content were 44.09% and 19.21%, respectively. The agronomic traits of Qiandou 13 were as follows: Growth period 116.90 d, plant height 56.50 cm, 12.30 main stem nodes, 2.30 branches, 3510 pods per plant, 5260 seeds per plant, 100-seed weight 23.90 g, purple flower, gray hair, semi-determinate podding habit, compact plant type, oval leaves, yellow seed coat, brown seed umbilicus. Qiandou 13 was suitable for spring sowing and planting in Guizhou Province which was approved by Guizhou Province with the approval number of Qianshendou 20200002 in 2020.
参考文献/References:
[1]李凯, 盖钧镒, 孙长美, 等. 国审抗病优质高产鲜食大豆新品种南农46[J]. 大豆科学, 2020, 39(5): 810-811. (LI K, GAI J Y, SHUN C M, et al. New vegetable soybean variety Nannong 46 with high yield and high resistance to disease[J]. Soybean Science, 2020, 39(5): 810-811.)[2]陈佳琴, 朱星陶, 杨春杰, 等. 高产耐荫大豆新品种黔豆10号的选育[J]. 贵州农业科学, 2016, 44(3): 1-4. (CHEN J Q, ZHU X T, YANG C J, et al. Breeding of Qiandou 10, a new soybean variety with high yield and shade tolerance[J]. Guizhou Agriculture Sciences, 2016, 44 (3): 1-4.) [3]朱星陶, 陈佳琴, 杨春杰, 等. 粮菜兼用型大豆新品种黔豆7号的选育[J]. 贵州农业科学, 2011, 39(12): 21-25. (ZHU X T, CHEN J Q, YANG C J, et al. Breeding of Qiandou 7, a new soybean variety with grain and vegetable type[J]. Guizhou Agriculture Sciences, 2011, 39(12): 21-25.)
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备注/Memo
收稿日期:2022-03-28