刘海卿, 孙万仓, 刘自刚, 王治江, 袁金海, 方园, 郭仁迪, 米超, 陈奇. 北方不同生态区白菜型冬油菜农艺性状变化分析[J]. 中国生态农业学报(中英文), 2015, 23(6): 694-704. DOI: 10.13930/j.cnki.cjea.141426
引用本文: 刘海卿, 孙万仓, 刘自刚, 王治江, 袁金海, 方园, 郭仁迪, 米超, 陈奇. 北方不同生态区白菜型冬油菜农艺性状变化分析[J]. 中国生态农业学报(中英文), 2015, 23(6): 694-704. DOI: 10.13930/j.cnki.cjea.141426
LIU Haiqing, SUN Wancang, LIU Zigang, WANG Zhijiang, YUAN Jinhai, FANG Yuan, GUO Rendi, MI Chao, CHEN Qi. Analysis of agronomic traits of winter rapeseed (Brassica campestris L.) in different ecological areas of North China[J]. Chinese Journal of Eco-Agriculture, 2015, 23(6): 694-704. DOI: 10.13930/j.cnki.cjea.141426
Citation: LIU Haiqing, SUN Wancang, LIU Zigang, WANG Zhijiang, YUAN Jinhai, FANG Yuan, GUO Rendi, MI Chao, CHEN Qi. Analysis of agronomic traits of winter rapeseed (Brassica campestris L.) in different ecological areas of North China[J]. Chinese Journal of Eco-Agriculture, 2015, 23(6): 694-704. DOI: 10.13930/j.cnki.cjea.141426

北方不同生态区白菜型冬油菜农艺性状变化分析

Analysis of agronomic traits of winter rapeseed (Brassica campestris L.) in different ecological areas of North China

  • 摘要: 为了进一步研究白菜型冬油菜在北方不同生态地区的生长发育特性, 明确冬油菜北移的适应区域, 扩大冬油菜的种植区划, 本研究通过分析18个冬油菜品种在17个不同生态区5 a的农艺性状变化, 用适定性参数法、变异系数法分析其稳定性, 用隶属函数法综合评价不同品种的农艺性状。结果表明, 白菜型冬油菜在北方地区种植, 能够安全越冬的地区农艺性状均很优良, 且优于胡麻和春油菜等同类型的其他油料作物; 品种间、年份间变化不明显, 稳定性高。影响冬油菜农艺性状的主要因子是温度, 其次是海拔、纬度、越冬率等。北方地区冬季寒冷, 极端低温低、低温来临时间早、持续时间长, 昼夜温差大, 这些气候特点决定了冬油菜农艺性状在不同的生态地区间差异十分明显。与冬油菜原种植北界甘肃省天水市(北纬34°6′)相比, 在北纬36°以北的高纬度地区(气温较低)白菜型冬油菜的株高、分枝部位明显降低, 分枝数减少; 且因花期冻害存在分段结实的现象, 突出的表现为主花序长, 而主花序角果数少且分布不均匀。但这些地区籽粒灌浆期相对低温, 灌浆期较长, 且昼夜温差较大, 降低了呼吸消耗, 因此角粒数和千粒重明显增加。在新疆维吾尔自治区的乌鲁木齐市(北纬43°77′)、塔城市(北纬46°74′)、拜城县(北纬41°82′)等极端寒冷的地区, 由于冬春季积雪覆盖, 减弱了冬季冻害和春季干旱, 反而农艺性状优良, 是发展冬油菜的潜在产区。因此, 白菜型冬油菜在北方地区种植是可行的, 能够安全越冬的地区冬油菜均能正常生长, 农艺性状优良, 且由于角粒数和千粒重存在潜在优势而使冬油菜具有发展潜力。

     

    Abstract: This study researched the growth and development characteristics of winter rapeseed (Brassica campestris L.) in different ecological areas in North China to clarify the suitable areas for northward movement of the planting area of winter rapeseed. An experiment involving 18 winter rapeseed varieties was conducted in 2008–2013 at 17 ecological sites and the results statistically analyzed for variations in agronomic traits. Then parametric method and variation coefficient method were used to analyze the stability of the traits of 18 varieties of winter rapeseed. Finally, agronomic traits of the rapeseeds were analyzed using synthetic subordinate function. The analyses showed that winter rapeseed grew normally with excellent agronomic traits in safe wintering areas in North China (dry and cold regions). Also the 18 winter rapeseed varieties performed better than other oil corps, such as spring rapeseed and flax. The agronomic traits of winter rapeseed were not significantly different among varieties and years, showing high stability. Temperature was the main factor influencing the agronomic traits of rapeseed. Also altitude, latitude and wintering rate significantly influenced the agronomic traits of rapeseed. Because average annual temperature and extreme minimum temperature were low, low temperatures occurred early and lasted for a long time, daytime and nighttime temperature difference was largely in the study area of North China, the agronomic traits of 18 rapeseed varieties in different ecological sites were significantly different. The plant height and branch length were shorter, while the number of branches was less in high latitude areas (latitude greater than 36°) than those in the north boundary of the original north planting region of winter rapeseed (Tianshui City, 36 °N). In high latitude areas, segmented siliques happened due to freeze injure during flowering stage. The length of main florescence was longer and the siliques of main florescence were shorter and mal-distributed. However, the 1000-grain weight and seeds per silique increased due to relatively longer postulation period and low temperature during pustulation period, while the large daytime and nighttime temperature difference also reduced respiration consumption. Urumqi, Tacheng and Baicheng Cities were the potential areas of cultivation of winter rapeseed as the extremely cold temperature in these areas provided enough snow both in winter and spring to protect the winter rapeseed from freeze injure in winter and drought stress in spring. Therefore it was not only possible to grow winter rapeseed in dry and cold regions of North China, but it was possible to have excellent agronomic traits of the crop. There was a huge potential for the development of winter rapeseed in North China, an area with huge advantages in terms of 1000-grain weight and seed per silique of winter rapeseed.

     

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