DONG Zhaoyang,ZHANG Xiaoli,HAN Haibin,et al.Comparative Experiment of New Rape Varieties in Yangling Agricultural High-Tech Industry Demonstration Zone[J].HEILONGJIANG AGRICULTURAL SCIENCES,2024,(04):64-68.[doi:10.11942/j.issn1002-2767.2024.04.0064]
油菜新品种在杨凌农业高新技术产业示范区的比较试验
- Title:
- Comparative Experiment of New Rape Varieties in Yangling Agricultural High-Tech Industry Demonstration Zone
- 文章编号:
- 11
- Keywords:
- rape; breed; comparative test; agronomic character
- 文献标志码:
- A
- 摘要:
- 油菜是我国食用植物油的第一大来源,黄淮区域及其以北冬油菜区是我国重要油菜产区之一,杨凌油菜试点的区试结果能较好反映整个黄淮区试的平均结果。为进一步提高油菜产量与品质,加快品种更新换代的步伐,挖掘高品质油菜品种,提高种植农户的经济效益,从全国针对性地收集油菜品种,并进行试验示范。结果表明,油菜2132和秦油64菌核病发病率为23.81%,较CK高17.46个百分点;秦油64、荣华油369、秦优116和秦优7号(CK)株高均高于180 cm,抗倒伏性差;秦优2185株高较低,单株有效角果数较低,较CK增产6.11%;晋油256虽然单株有效角果数和每角粒数低于运杂1810,但晋油256异形株率和抗倒伏性、一次有效分枝数、千粒重和产量均优于运杂1810,且较CK增产25.87%,差异极显著,综合性状最优。因此,综合各性状表现,晋油256可在杨凌区优先推广。
- Abstract:
- Rapeseed is the largest source of edible vegetable oil in China, and the Huanghuai and its Northern Winter Rapeseed Region are one of the important rapeseed production areas in China. The results of the Yangling rapeseed pilot regional trial can better reflect the average results of the entire Huanghuai trial. In order to further improve the yield and quality of rapeseed, accelerate the pace of variety renewal, explore high-quality rapeseed, and improve the economic benefits of farmers, targeted collection of rapeseed varieties from various parts of the country is needed, and conduct experimental demonstrations. The results showed that the incidence rate of sclerotinia sclerotiorum in 2132 and Qinyou 64 was 23.81%, 17.46 percentage points higher than that in CK.The plant heights of Qinyou 64, Ronghuayou 369, Qinyou 116, and Qinyou 7 (CK) were all higher than 180 cm, indicating poor lodging resistance.Qinyou 2185 had a lower plant height and lower number of effective pods per plant, increasing yield by 6.11% compared to CK; Although the effective number of pods per plant and the number of seeds per pod of Jinyou 256 were lower than those of Yunza 1810, the heteromorphic plant rate, lodging resistance, number of effective branches per plant, thousand seed weight, and yield of Jinyou 256 were better than those of Yunza 1810, and the yield was increased by 25.87% compared to CK, with significant differences and the best comprehensive traits. Therefore, based on the comprehensive performance of various characters, Jinyou 256 can be prioritized for promotion in the Yangling.
参考文献/References:
[1]柴维,李忠慧,柴方芝.平坝区天龙镇油菜生产现状及高产技术[J].基层农技推广,2023,11(9):97-100.[2]2023年中央一号文件解读[J].现代农村科技,2023(3):126.[3]杜德志,肖麓,赵志,等.我国春油菜遗传育种研究进展[J].中国油料作物学报,2018,40(5):633-639.[4]侯献飞,孙万仓,方彦,等.甘蓝型冬油菜在西北寒旱区适应性分析[J].干旱地区农业研究,2016,34(6):63-68.[5]刘引祥,李荣,李冬肖.陕西关中油菜新品种秦优1618全程机械化关键技术[J].农业科技通讯,2021(4):274-275,304.[6]陈长云.油菜品种沣油737稻茬田免耕直播栽培技术[J].现代农业科技,2020(14):28,40.[7]朱强国.冬油菜新品种(系)比较试验[J].安徽农学通报,2021,27(18):88-89.[8]李倩,黄益国,李小芳,等.衡阳地区油菜品种比较试验研究[J].湖南农业科学,2018(10):23-25,28.[9]张梅.全国约四分之一油菜良种出自陕西[N]. 陕西日报,2022-05-21(001).[10]陈文华.书写农业现代化发展的新篇章:记杨凌农业高新技术产业示范区[J].中国农村科技,2023(7):38-41.[11]刘凤兰,张冬晓,杨经泽,等.全国冬油菜品种生态区域试验研究进展[J].中国油料作物学报,2001,23(2):79-81.[12]王伟荣,陈旭,杨立勇,等. 2001-2010年上海市油菜区域试验参试品种产量和品质分析[J].上海农业学报,2012,28(4):18-20.[13]张振兰,郑磊,李永红,等.黄淮地区国家油菜区域试验点评价和品种生态区划分[J].西北农林科技大学学报(自然科学版),2017,45(10):49-55.[14]杨学军.油菜越冬管理措施探究[J].新农业,2021(19):51-53.[15]郑磊,李殿荣,陈娜娜,等.北方冬油菜安全越冬问题探讨[J].陕西农业科学,2022,68(5):81-85.[16]贺继奎. 油菜品种适应超高密度种植的机制及调控研究[D].荆州:长江大学,2023.[17]林宝刚,郝鹏飞,任韵,等.施氮量和采收株高对油菜薹外观性状、养分积累和氨基酸组分含量的影响[J].核农学报,2022,36(12):2474-2481.[18]马宁,张冰冰,徐宇,等.不同株高甘蓝型油菜茎秆特性及其与倒伏的相关性[J].西北农业学报,2021,30(2):203-211.[19]章凌翔. 基于无人机多光谱影像油菜产量预测及倒伏风险评价[D].杨凌:西北农林科技大学,2022.[20]左萃宸,曾涛,何永强,等.长江中游南部油菜产区低产原因及育种对策[J/OL].中国油料作物学报:1-8(2023-12-15)[2023-12-21].https://doi.org/10.19802/j.issn.1007-9084.2023072.
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备注/Memo
收稿日期:2023-09-13