福建超级稻品种茎秆结构特征及其与抗倒性和产量的关系
Relationship of characteristics of culm construction to lodging resistance and yield of Fujian-bred super-rice cultivars
-
摘要: 为探讨超级稻品种的茎秆结构特征及其与抗倒伏性和产量因子的关系, 以期为选育抗倒伏的水稻品种及高产栽培提供参考依据, 选用福建省育成的经农业部认定的4个超级稻品种("Ⅱ优明86"、"Ⅱ优航1号"、"特优航1号"和"Ⅱ优航2号")及对照品种"汕优63"为材料, 按常规方法进行田间试验, 在成熟期每品种各选取有代表性的20个茎蘖, 测定基部伸长节间的抗折力、各节间至穗顶的长度及鲜重、节间长度、粗度和秆壁厚度, 并进行室内考种。结果表明, 除"Ⅱ优明86"的倒1节间极显著短于对照外, 超级稻品种各节间多数不同程度比对照长; 各节间粗度多数与对照差异不明显; 在节间壁厚方面, 除"Ⅱ优明86"倒1节间极显著厚于对照外, 其他多数低于对照; 超级稻品种各节间的倒伏指数均大于对照, 且多数达极显著水平, 但倒伏指数均小于200, 表明均具有较强的抗倒能力; 茎秆基部3个伸长节间的抗折力与相应节间壁厚呈极显著正相关, 各节间的倒伏指数与相应节间壁厚呈显著或极显著负相关, 而与株高、节间长、节间粗度关系不显著, 显示供试品种的抗倒伏性能主要取决于节间秆壁的厚度; 穗长与节间壁厚呈显著正相关, 增加基部伸长节间壁厚有利于孕育大穗。在超级稻品种培育过程中, 可寻找植株矮化以外的抗倒因素, 培育茎秆壁厚实的品种, 以增强品种的抗倒伏能力。Abstract: Lodging is common issue in rice production that influences not only rice yield but quality as well. In recent years, contradictions in high yields and lodging resistance have increased with increasing plant height and rice panicle weight, which has in turn greatly impacted rice production. Experiments were therefore conducted to study the relationships of characteristics of culm construction to lodging resistance and yield components of Fujian-bred super-rice cultivars. The study was necessary to lay the basis for breeding lodging-resistant varieties and high-yield cultivation in Fujian Province. The experiment consisted of 4 super-rice cultivars ("Ⅱ youming 86", "Ⅱ youhang 1", "Teyouhang 1" and "Ⅱ youhang 2") confirmed by China's Ministry of Agriculture and the "Shanyou 63" cultivar as the control. In the field experiment, conventional methods were used and 20 representative stem per cultivar selected at maturity stage. Length, diameter, wall thicknesses of different internodes and yield were measured, and breaking-resistant strength, bending moment and loading index calculated in the experiment. The results showed that most internodes of super-rice cultivars were longer than CK. However, the first internodes (from the top) of "Ⅱ youming 86" was significant shorter than CK. Also most of the internode diameters of super-rice cultivars were little different from CK. Most of the internode wall thickness of super-rice cultivars were also smaller than CK, except for the first internodes (from the top) of "Ⅱ youming 86" which were significant greater than CK. Lodging indexes of super-rice cultivar internodes were greater than CK, with most being significantly difference. However, all lodging indexes for cultivars were below 200, indicating strong resistance to lodging. Breaking-resistance strengths of three elongation internodes near stem base were significantly correlated with internode wall thickness. Lodging index of each internode was significantly or highly significantly negatively correlated with corresponding internode wall thickness. However, lodging index was not significantly correlated with plant height, internode length and diameter. This suggested that lodging resistance of the tested cultivars largely depended on internode wall thickness. As panicle length was significantly positively correlated with internode wall thickness, increasing base elongation internode wall thickness was beneficial to longer panicle breeds. To strengthen lodging resistance capacity, it was necessary to search for non-dwarf lodging-resistance traits, especially thick wall culm, during super-rice breeding.