HAN De-zhi,YAN Hong-rui,ZHANG Lei,et al.Breeding and Application of New Super Early Maturing Bud Soybean Variety Heike 77[J].Soybean Science,2021,40(02):279-284.[doi:10.11861/j.issn.1000-9841.2021.02.0279]
超早熟芽豆新品种黑科77号的选育及应用
- Title:
- Breeding and Application of New Super Early Maturing Bud Soybean Variety Heike 77
- Keywords:
- Heike 77; Genetic background; Breeding; Bud variety
- 文献标志码:
- A
- 摘要:
- 黑科77号是黑龙江省农业科学院黑河分院运用快中子辐射育种与常规杂交育种相结合选育而成,在适应生态区出苗至成熟100 d左右,需≥10 ℃活动积温2 000 ℃左右。该品种为亚有限生长习性,株高70 cm左右,强分枝,百粒重9 g左右,产芽率高。两年品质分析平均结果为蛋白含量42.97%,脂肪含量16.71%。三年抗病鉴定结果为中抗灰斑病。适合黑龙江省第五积温带下限及六积温带上限种植。通过遗传系谱分析,黑科77号细胞质基因组成来源于克山白眉,通过紫花四号、丰收1号、黑河54、黑河4号、黑河9号完成传递。黑科77号细胞核基因来源自3份外国外优异种质,分别是日本的十胜长叶、俄罗斯的优比列和Minmax;5份东北地区的骨干材料分别是克山白眉、蓑衣领、四粒荚、元宝株和紫花四号。黑科77的圆叶、小粒优异基因来自于父本Minmax。黑科77号的产芽比极显著高于东农690和黑河43,适用于豆芽生产,具有较好的经济效益。
- Abstract:
- Heike 77 was cultivated through a combination of fast neutron radiation breeding and conventional breeding by Heihe Branch of Heilongjiang Academy of Agricultural Sciences. It is about 100 d from seedling emergence to mature growth in the adaptive area, and the required cumulative active temperature of greater than 10 ℃ is about 2 000 ℃.The plant is about 70 cm height with multiple branches, the 100-seed weight is about 9 g, and with high bean sprout creation rate. Results of average quality analysis in two years were 42.97% protein content, and 16.71% fat content. Identification results of disease resistance inoculation in three years showed medium resistance to gray spot of soybean. This variety is suitable for lower temperature region of the 5th accumulative temperate zone and higher temperature region of the 6th accumulative temperature zone in Heilongjiang Province. Through genealogical analysis, the cytoplasmic genetic composition of Heike was derived from Keshanbaimei and transmitted through Zihuasihao, Harvest 1, Heihe 54, Heihe 4 and Heihe 9. Heike 77 nuclear genes derived from three main parents were Japan Tokachi-Nagaha, Russia Youbilie and Minmax, and 5 native breeds in northeast China was Keshanbaimei, Suoyiling, Silijia, Yuanbaozhu, Zihuasihao as well as local varieties of different periods, respectively. The elite genes of round leaf and small seed of Heike 77 came from the male parent Minmax.The germination ratio of Heihe 77 was very significantly higher than Donong 690 and Heihe 43, suitable for sprout production, and has good economic benefits.
参考文献/References:
[1]王金陵,杨庆凯,吴宗璞.中国东北大豆[M].哈尔滨:黑龙江科学技术出版社,1999. (Wang J L, Yang Q K, Wu Z P.Soybean from northeast China[M]. Harbin: Heilongjiang Science and Technology Press, 1999.)[2]刘丽君.中国东北优质大豆[M].哈尔滨:黑龙江科学技术出版社,2007.(Liu L J. Quality soybean from northeast China[M]. Harbin: Heilongjiang Science and Technology Press, 2007.)[3]花登峰,赵团结,张黎平.小粒专用大豆品质遗传改良研究进展[J].杂粮作物,2005,25(5):311-313.(Hua D F, Zhao T J, Zhang L P. Progress in genetic improvement of quality of small-grain special soybean [J]. Cereals, 2005,25 (5):311-313.)[4]杨光宇.东北地区野生、半野生大豆在大豆育种中利用研究进展[J].大豆科学,1997,16(3):259-263.(Yang G Y. Research progress on utilization of wild and semi-wild soybean in soybean breeding in northeast China [J].Soybean Science, 1997,16 (3):259-263.)[5]郭美玲,郭泰,王志新,等.小粒大豆品种‘合农113’选育及亲本系谱分析[J].中国农学通报,2019,30(26):24-28.(Guo M L, Guo T, Wang Z X, et al. Breeding of small grain soybean variety ‘Henong 113’ and analysis of parent pedigree [J]. Chinese Agricultural Science Bulletin, 2019,30 (26):24-28.)[6]林红,齐宁,来永才,等.特用大豆品种选育新进展[J].农业科技通讯,2008(11):75-76.(Lin H, Qi N, Lai Y C, et al. New progress in breeding special soybean varieties [J]. Bulletin of Agricultural Science and Technology, 2008(11):75-76.)[7]郭泰,刘忠堂,胡喜平,等.国外大豆种质资源的引入、研究和利用[J]. 作物杂志,2005(1):62-64.(Guo T, Liu Z T, Hu X P, et al.Introduction, research and utilization of soybean germplasm resources abroad[J]. Crops, 2005(1):62-64.)[8]王志新,郭泰,吴秀红,等.高产优质耐密植栽培特用小粒大豆品种合农58号的选育[J].中国种业,2010(6):55-56.(Wang Z X, Guo T, Wu X H, et al. Breeding of Henong 58, a special small-grain soybean cultivar with high yield, high quality and high density tolerance [J]. China Seed Industry, 2010(6):55-56.)[9]齐宁,林红,姚振纯,等.特用极小粒大豆龙品9777的选育及栽培技术[J].黑龙江农业科学,2002(3):44-45.(Qi N, Lin H, Yao Z C, et al. Breeding and cultivation techniques of special small-grain soybean Longpian 9777 [J]. Heilongjiang Agricultural Sciences, 2002(3):44-45.)[10]姚振纯,林红,张国栋.加速超小粒大豆品种选育扩大外贸出口[J]. 黑龙江农业科学,1987(4):18-20.(Yao Z C, Lin H, Zhang G D. Accelerating the breeding of super-small soybean varieties and expanding the export of foreign trade [J]. Heilongjiang Agricultural Sciences, 1987(4):18-20.)[11]郭泰,王志新,吴秀红,等.国外大豆资源利用与小粒大豆品种创新 [J].中国农学通报,2009,25(22):306-310.(Guo T, Wang Z X, Wu X H, et al. Foreign soybean resource utilization and small-grain soybean variety innovation [J]. Chinese Agricultural Science Bulletin, 2009,25 (22):306-310.)[12]王英男,齐广勋,刘晓冬,等.小粒大豆新品种吉育111的选育及栽培要点[J].大豆科技,2018(5):42-45.(Wang Y N, Qi G X, Liu X D, et al. Breeding and cultivation of a new small-grain soybean variety Jiyu 111 [J]. Soybean Science & Technology, 2018(5):42-45.)[13]黄初女,朱浩哲,董艺兰,等.延农小粒豆1号选育报告[J].延边大学农学学报,2007,29(3):178-181.(Huang C N, Zhu H Z, Dong Y L, et al. Selection report of new soya bean variety Yannongxiaolidou 1 [J]. Journal of Agricultural Science Yanbian University,2007,29(3):178-181.) [14]林红,来永才,齐宁,等.大豆种间杂交新品种龙小粒豆一号的选育[J].中国油料作物学报,2003(4):44-46. (Lin H, Lai Y C, Qi N, et al. Breeding of a new interspecific hybrid soybean variety Longxiaolidou No. 1 [J]. Chinese Journal of Oil Crops Sciences, 2003(4):44-46.)[15]王昌陵,王文斌,董丽杰,等.高产、优质小粒豆新品种辽小粒豆1号选育及配套栽培技术[J].辽宁农业科学,2014(2):76-77.(Wang C L, Wang W B, Dong L J, et al.Breeding of a new variety of small bean with high yield and good quality Liaoxiaolidou 1 and its related cultivation techniques[J].Liaoning Agricultural Science, 2014(2):76-77.)[16]付春旭,陈维元,姜成喜,等.高蛋白大豆绥小粒豆1号的选育及栽培技术[J].大豆通报,2003(6):14.(Fu C X, Chen W Y, Jiang C X, et al. Breeding and cultivation techniques of high protein soybean Suixiaolidou 1[J]. Soybean Bulletin, 2003(6):14.)[17]付洪波.吉育105小粒豆栽培密度施肥量与产量关系的实验分析[J].农业与技术,2015,35(2):16-17.(Fu H B. Experimental analysis of the relationship between the cultivated density and the yield of Jiliu 105 small grain beans [J].Agriculture and Technology, 2015,35 (2):16-17.)[18]杨光宇,郑惠玉,韩春凤.吉林省小粒黄豆的品种特性及栽培技术[J].作物杂志,1992(3):32-33.(Yang G Y, Zheng H Y, Han C F. Variety characteristics and cultivation techniques of small soybean in Jilin Province [J]. Crops, 1992(3):32-33.)[19]武天龙,杨庆凯,马占峰,等.东农小粒豆1号大豆新品种选育报 [J].东北农业大学学报,1994,25(1):104.(Wu T L, Yang Q K, Ma Z F, et al. Breeding of new soybean varieties from Dongnongxiaolidou 1 [J]. Journal of Northeast Agricultural University, 1994,25 (1):104.)[20]刘广阳,齐宁,林红,等.高可溶糖含量大豆新品种龙小粒豆2号选育[J].大豆科技,2008(5):46-47. (Liu G Y, Qi N, Lin H, et al.Breeding of a new soybean variety with high soluble sugar content, Longxiaokedou 2 [J]. Soybean Science & Technology, 2008(5):46-47.)[21]赵金福,徐晓东,杨东财. 小粒黄豆高产栽培技术[J].农业科技通讯,2010(6):199-200.(Zhao J F, Xu X D, Yang D C. High-yield cultivation techniques of small soybean [J]. Bulletin of Agricultural Science and Technology, 2010(6):199-200.)[22]马晓萍,杨振宇,王洋,等.小粒大豆新品种吉育106的选育及栽培要点[J].大豆科技,2012(5):67-68. (Ma X P, Yang Z Y, Wang Y, et al. Breeding and cultivation of a new small-grain soybean variety Jiliu 106 [J]. Soybean Science & Technology, 2012(5):67-68.)[23]马晓萍,邱红梅,杨振宇,等.芽菜用小粒大豆新品种吉育109的选育[J].大豆科技,2015(5):56-58.(Ma X P, Qiu H M, Yang Z Y, et al. Breeding of Jiyu 109, a new soybean variety with small grain for budding vegetables [J]. Soybean Science & Technology, 2015(5):56-58.)[24]盖钧镒,赵团结.中国大豆育种的核心祖先亲本分析[J].南京农业大学学报,2001,24(2): 20-23.(Gai J Y, Zhao T J.Analysis of the core ancestor parent of soybean breeding in China[J].Journal of Nanjing Agricultural University,2001,24 (2): 20-23.)[25]盖钧镒,熊冬金,赵团结.中国大豆育成品种系谱与种质基础 (1923—2005)[M].北京:中国农业出版社,2015.(Gai J Y, Xiong D J, Zhao T J.Pedigree and germplasm basis of Chinese soybean cultivars (1923—2005)[M].Beijing: China Agricultural Press, 2015.)[26]赵团结,崔章林,盖钧镒.中国大豆育成品种中江苏种质58-161的遗传贡献[J].大豆科学,1998,17(2): 120-128.(Zhao T J, Cui Z L, Gai J Y.Genetic contribution of Jiangsu germplasm 58-161 in Chinese soybean cultivars [J]. Chinese Journal of Soybean Science, 1998,17 (2): 120-128.)[27]赫世涛,牛若超.克山大豆种质及其利用研究[J].作物品种资源,1997(2):1-4.(He S T, Niu R C.Germplasm and utilization of Keshan soybean [J]. Crop Variety Resources, 1997(2):1-4.)[28]韩德志.黑河43号遗传背景分析[J].中国种业,2014(9):60-61.(Han D Z. Genetic background analysis of Heihe 43 [J]. China Seed Industry,2014(9):60-61.)[29]牛若超,杨兴勇. 优良大豆种质克4430-20[J].作物品种资源,1996(4):49-50.(Niu R C, Yang X Y. Superior soybean germplasm 4430-20[J]. Crop Variety Resources, 1996(4):49-50.)[30]胡喜平.合丰号大豆品种系谱分析[J].大豆科学,2002,21 (2):131-137.(Hu X P. Pedigree analysis of Hefeng soybean variety [J]. Soybean Science, 2002,21(2):131-137.)[31]刘广阳.优异种质资源克4430-20 在黑龙江大豆育种中的应用[J].植物遗传资源学报,2005,6(3):326-329.(Liu G Y. Application of excellent germplasm resources Ke 4430-20 in soybean breeding in Heilongjiang Province [J].Journal of Plant Genetic Resources, 2005,6 (3):326-329.)[32]贾鸿昌,闫洪睿,张雷,等.早熟高产优质大豆新品种黑河43[J].黑龙江农业科学院,2007(5):124.(Jia H C, Yan H R, Zhang L, et al. Heihe 43 new soybean variety with early maturing high yield and high quality [J]. Heilongjiang Academy of Agricultural Sciences, 2007(5):124.)[33]董钻,张仁双 . 大豆特异高产株型材料创新的思路和实践[J].大豆科技,1993(1):11-12.(Dong Z, Zhang R S. Innovative ideas and practice of soybean specific high-yield plant type materials [J].Soybean Science & Technology, 1993(1):11-12.)
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备注/Memo
收稿日期:2020-11-20