研究了叠氮化钠及其与γ射线复合处理对水稻 M_1代的生理损伤和 M_2代的诱变效应,主要结果是:(1)叠氮化钠可引起水稻生理损伤及叶绿素、株高和抽穗期突变;(2)不同 pH 值的叠氮化钠效应不同,与 pH3相比,pH7的叠氮化钠生理效应及诱变效应较小,而且在10mM 以下不引起明显的苗期损伤;(3)预浸处理能增加水稻对叠氮化钠的敏感性,但 pH3下,预浸24小时可减轻叠氮化钠的损伤作用;(4)γ射线与叠氮化钠复合处理,加剧了 M_1代损伤,增加 M_2代突变率,在pH3下,叠氮化钠的增效作用较强,复合处理突变谱较广;(5)用叶绿素突变的穗行突变体(白化苗)分离比例分析法估算,水稻主穗的原基细胞平均为2—3个。我们认为,在水稻诱变育种中,采用γ射线(1.5—3万伦)与 pH3叠氮化钠(0.5-1mM)复合处理,能提高诱变频率。 The main results are as follows: (1) Sodium azide can cause physiological damage of rice and the effects of chlorophyll, plant height and plant height (2) The effects of sodium azide at different pH values ​​were different. Compared with pH3, the physiological and mutagenic effects of sodium azide at pH7 were small, and no significant seedling damage was induced under 10 mM. (3) The pre-treatment can increase the sensitivity of rice to sodium azide, but pretreatment at pH3 for 24 hours can reduce the damage of sodium azide; (4) The combination of gamma ray and sodium azide aggravates M_1 generation increased the M_2 generation mutation rate, the synergistic effect of sodium azide was stronger at pH3, and the composite treatment had a broader mutation spectrum. (5) The percentage of spike line mutant with chlorophyll mutation Analytical method estimated that the average number of primary basal cells in rice is 2-3. In our opinion, in rice mutagenesis, the frequency of mutagenesis can be increased by the combination of γ-ray (1.5-3 million) and pH3 sodium azide (0.5-1 mM).