DING Guo-hua,LIU Kai,LI Zhu-gang,et al.Breeding of A New High-yield Rice Variety Longdao 132 and Its Saline-Alkali Tolerance Research at Tillering Stage in Cold Region[J].HEILONGJIANG AGRICULTURAL SCIENCES,2022,(08):87-90.[doi:10.11942/j.issn1002-2767.2022.08.0087]
寒地高产水稻新品种龙稻132的选育及分蘖期耐盐碱性研究
- Title:
- Breeding of A New High-yield Rice Variety Longdao 132 and Its Saline-Alkali Tolerance Research at Tillering Stage in Cold Region
- Keywords:
- rice; Longdao 132; tillering stage; saline-alkali stress
- 文献标志码:
- A
- 摘要:
- 种植水稻是对盐碱地改良、利用的有效途径。本文简要介绍了龙稻132的亲本来源、选育过程、主要特征特性及盐碱胁迫下分蘖期的农艺性状。龙稻132是黑龙江省农业科学院耕作栽培研究所水稻研究室以吉特611为母本、龙稻10号为父本进行杂交,经集团和系谱选择育成,具有较好的产量潜力且食味品质优良。2019-2020年区域试验产量分别为8 365.5和8 534.1 kg·hm-2,2020年生产试验产量为8 397.5 kg·hm-2,区域试验和生产试验平均比对照品种(松粳9号)增产8.4%,食味评分达到了82分,较强的分蘖能力是其高产的主要原因。龙稻132在苏打盐碱地的适应性研究发现,与正常田块相比,其分蘖能力在苏打盐碱地受到明显抑制,仅为同期正常田块的63%,干物质积累量下降,地下、地上部干重仅为对照品种的44%、45%,SPAD值与对照品种相当。因此,需要加强水稻品种在盐碱地的分蘖及干物质积累能力的研究,以便提升盐碱地水稻产量。
- Abstract:
- Planting rice is an effective way to improve and utilize saline alkali land.This paper briefly introduced the parental source,breeding process,main characteristics and agronomic characters of Longdao 132 at tillering stage under salt alkali stress.Longdao 132 is a conventional japonica rice variety with good quality and stable yield,bred by Crop Tillage and Cultivation Institute,Heilongjiang Academy of Agricultural Sciences.Longdao 132 has been obtained from the crossing between "Longdao 10" (male) and "Jite 611" (female).From 2019 to 2020,the regional test yield was 8 365.5 kg · ha-1 and 8 534.1 kg · ha-1 respectively,and the production test yield in 2020 was 8 397.5 kg · ha-1.The regional test and production test yield increased by 8.4% compared with the control variety("Songgeng 9"),taste score was 82.Strong tillering ability is the main reason for its high yield.The adaptability of Longdao 132 to saline-alkali soil was not clear.The study found that tillering ability of Longdao 132 was significantly inhibited in saline-alkali soil compared with that of normal soil,which was only 63% of that of normal soil in the same period.The dry matter accumulation of Longdao 132 was decreased,and the dry weight of underground and overground was only 44% and 45% of that of the control,and the SPAD value was similar to that of the control.It is necessary to strengthen the research on the tillering and dry matter accumulation ability of rice varieties in saline alkali soil to improve the rice yield in saline alkali soil.
参考文献/References:
[1]张唤,黄立华,李洋洋,等.东北苏打盐碱地种稻研究与实践[J].土壤与作物,2016,5(3):191-197.
[2]王志兴,王宇,李振宇,等.水稻盐丰47特征特性及高产栽培技术要点[J].北方水稻,2003(6):6-8.
[3]尹桂花,张玉华,张凤鸣,等.寒地超级稻新品种龙稻5号的选育[J].黑龙江农业科学,2007(2):106-107.
[4]孙明法,姚立生,唐红生,等.优质高产多抗中粳糯新品种盐稻10号的选育及栽培技术[J].江苏农业科学,2009(6):149-150.
[5]丁国华,刘凯,曹良子,等.寒地耐盐碱优质稳产水稻新品种龙稻124的选育[J].中国种业,2021(6):78-81.
[6]于丽静,隆艳喜,曾媛,等.‘东稻4号’抵御碱胁迫部分相关基因表达[J].分子植物育种,2019,17(21):6931-6936.
[7]李景鹏,田志杰,谷亚娟,等.耐盐碱优质水稻新品种“东稻12”选育报告[J].吉林农业大学学报,2018,40(5):651-654.
[8]刘晴,聂守军,高世伟,等.香粳水稻品种绥粳18及配套栽培技术[J].中国种业,2018(8):97-98.
[9]王俊河,刘传增,马波,等.寒地优质香稻齐粳10的选育及高产栽培技术[J].中国种业,2019(9):80-82.
[10]曾宪楠,王麒,孙羽,等.优质水稻新品种龙稻21选育及高产栽培技术[J].黑龙江农业科学,2017(8):138-140.
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备注/Memo
收稿日期:2022-05-21
基金项目:黑龙江省农业科学院院级课题(2020FJZX002);国家水稻产业技术体系哈尔滨综合试验站(CARS-01-62)。
第一作者:丁国华(1984-),男,博士,副研究员,从事水稻种质资源创新及育种研究。E-mail:hucheng229@163.com。
通信作者:孙世臣(1979-),男,博士,研究员,从事水稻种质资源创新及配置栽培技术研究。E-mail:shichensun@126.com。