离子注入红芸豆种子生物效应分析
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摘要
离子注入处理种子是一项农业物理新技术,该诱变技术稳定可靠、简便易行。采用田间试验的方法,研究不同离子注入剂量对红芸豆生物效应的影响。结果表明,低剂量氮离子注入红芸豆种子对红芸豆的生物效应影响明显,与对照相比,2×10~(16)N~+/cm~2剂量处理使红芸豆株高增高14.6%,豆荚数增加14.7%,百粒质量减少3.4%,产量增加5.4%。试验筛选出了处理红芸豆的最佳剂量,使红芸豆的生长潜力得到提升,产量得到一定提高,对创制新种质资源具有积极的作用。
Ion implantation for seed treatment is a new agricultural physics technology, and the method is stable, reliable and convenient. Field experiments were conducted to study the effects of different ion implantation doses on the biological effects of red kidney beans. The results showed that there was a significant influence on biological effect of red kidney bean treated with low dose nitrogen ion implantation. When treated with 2×10~(16) N~+/cm~2 nitrogen ion, the plant height, number of pods, yield increased by 14.6%, 14.7% and 5.4%,respectively,while the 100-seed quality decreased by 3.4%. The best dosage of ion implantation for red kidney bean was selected in this study,and growth potential and yield were improved. This study made positive effects on germplasm resources innovation.
Ion implantation for seed treatment is a new agricultural physics technology, and the method is stable, reliable and convenient. Field experiments were conducted to study the effects of different ion implantation doses on the biological effects of red kidney beans. The results showed that there was a significant influence on biological effect of red kidney bean treated with low dose nitrogen ion implantation. When treated with 2×10~(16) N~+/cm~2 nitrogen ion, the plant height, number of pods, yield increased by 14.6%, 14.7% and 5.4%,respectively,while the 100-seed quality decreased by 3.4%. The best dosage of ion implantation for red kidney bean was selected in this study,and growth potential and yield were improved. This study made positive effects on germplasm resources innovation.
引文
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[12]晋凡生,韩彦龙,李洁,等.氮磷钾配施对红芸豆养分吸收、干物质积累及产量构成因子的影响[J].华北农学报,2018,33(6):183-192.
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[14]韩彦龙,晋凡生.红芸豆养分限制因子及养分吸收、积累和分配特征研究[J].中国生态农业学报,2016,24(7):902-909.
[15]黄明镜.等离子体对小麦种子萌发过程中某些生理变化的影响[J].山西农业科学,2010,38(11):22-25.
[16]袁成凌,余增亮.低能离子束在生物技术中的应用研究[J].中国生物工程杂志,2003,23(4):57-61.
[17]季孔庶.园林植物高新技术育种研究综述和展望[J].分子植物育种,2004,2(2):295-300.
[18]申晓慧,冯鹏,李如来,等.红小豆品种数量性状对育种遗传改良研究分析[J].安徽农业科学,2018,46(34):18-20.
[2]余增亮,邱励俭,霍裕平,等.离子注入生物效应及育种研究进展[J].安徽农业大学学报,1991,18(4):251-257.
[3]施巾帼,范庆霞,王琳清,等.太空环境诱发红小豆大粒突变[J].核农学报,2000,14(2):93-98.
[4]李俊,张西西,董爱香,等.离子注入一串红的生物学效应研究核[J].核农学报,2015,29(7):1302-1306.
[5]柴岩,万富世.中国小杂粮产业发展报告[M].北京:中国农业科学科技出版社,2007:84-90.
[6]龙静宜.食用豆类种植技术[M].北京:金盾出版社,2002:164-166.
[7]郑卓杰.中国食用豆类学[M].北京:中国农业出版社,1997:222-226,247.
[8]张耀文,邢亚静,崔春香,等.山西小杂粮[M].太原:山西科学技术出版社,2006:267-273.
[9]廖琴.浅析我国芸豆产业发展现状及对策[J].种子世界,2003(7):1-4.
[10]晋凡生,韩彦龙,李晓平.氮磷钾配比对红芸豆养分吸收规律及肥料利用率的影响[J].中国农学通报,2017,33(13):26-36.
[11]畅建武,郝晓鹏,王燕,等.红芸豆氮磷钾肥效试验研究[J].中国农学通报,2015,31(15):108-113.
[12]晋凡生,韩彦龙,李洁,等.氮磷钾配施对红芸豆养分吸收、干物质积累及产量构成因子的影响[J].华北农学报,2018,33(6):183-192.
[13]晋凡生,韩彦龙.氮磷钾配比对红芸豆光合特性及产量相关性状的影响[J].山西农业科学,2017,45(8):1295-1300.
[14]韩彦龙,晋凡生.红芸豆养分限制因子及养分吸收、积累和分配特征研究[J].中国生态农业学报,2016,24(7):902-909.
[15]黄明镜.等离子体对小麦种子萌发过程中某些生理变化的影响[J].山西农业科学,2010,38(11):22-25.
[16]袁成凌,余增亮.低能离子束在生物技术中的应用研究[J].中国生物工程杂志,2003,23(4):57-61.
[17]季孔庶.园林植物高新技术育种研究综述和展望[J].分子植物育种,2004,2(2):295-300.
[18]申晓慧,冯鹏,李如来,等.红小豆品种数量性状对育种遗传改良研究分析[J].安徽农业科学,2018,46(34):18-20.
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