Total 75 rice varieties (lines) in Heilongjiang Province (or cold region) as germplasm resources were identified for cold tolerance at germinating stage by controlling temperature in artificial incubator. The resu...Total 75 rice varieties (lines) in Heilongjiang Province (or cold region) as germplasm resources were identified for cold tolerance at germinating stage by controlling temperature in artificial incubator. The results showed that the shooting seed rate at the germinating stage could be used as the evaluation index of cold tolerance. The cold tolerance was recorded on 1-9 scale and could be identified by the criteria of five indexes such as highly tolerant (HT), tolerant (T), moderately tolerant (MT), susceptible (S), highly susceptible (HS).展开更多
室内生物测定是农作物除草剂耐受性鉴定的常用方法,已广泛应用于大豆、棉花等作物对草甘膦、氯嘧磺隆等除草剂的耐受性研究,但莠去津室内生测方法及大豆对莠去津耐受性相关研究鲜见报道。本研究以莠去津对大豆萌发期各单项指标为评价指...室内生物测定是农作物除草剂耐受性鉴定的常用方法,已广泛应用于大豆、棉花等作物对草甘膦、氯嘧磺隆等除草剂的耐受性研究,但莠去津室内生测方法及大豆对莠去津耐受性相关研究鲜见报道。本研究以莠去津对大豆萌发期各单项指标为评价指标,分析莠去津胁迫条件下大豆发芽势、发芽率、发芽指数、活力指数、根长等性状的变化,建立大豆莠去津耐受性室内生测方法,确定3.5 mL L^(-1)是大豆萌发期莠去津耐受性筛选的适宜浓度;对159份大豆种质进行萌发期莠去津耐受性鉴定表明,各指标相对值的变异系数为发芽相对莠去津胁迫率>相对芽长>相对发芽指数>相对活力指数>相对发芽势>相对发芽率;根据T值的聚类分析,将供试种质分为4个莠去津耐性级别,共鉴定出高耐种质9份、中耐种质50份、低耐种质70份和敏感种质30份;黄豆、花色豆、垦丰13、南农99-6等9个种质为莠去津耐受性综合能力优异的种质资源。采用多元逐步回归分析法,建立大豆萌发期耐莠去津评价模型Y=–0.155+0.004X_(2)+0.001X_(3)+0.001X_(4)+0.002X_(5)(P=0.000)。本研究为培育耐莠去津育种的亲本选配、后代选择及大豆耐莠去津相关基因挖掘提供了理论依据、材料和技术支撑。展开更多
文摘Total 75 rice varieties (lines) in Heilongjiang Province (or cold region) as germplasm resources were identified for cold tolerance at germinating stage by controlling temperature in artificial incubator. The results showed that the shooting seed rate at the germinating stage could be used as the evaluation index of cold tolerance. The cold tolerance was recorded on 1-9 scale and could be identified by the criteria of five indexes such as highly tolerant (HT), tolerant (T), moderately tolerant (MT), susceptible (S), highly susceptible (HS).
文摘土壤盐渍化严重影响大豆品质与产量,筛选耐盐大豆资源对开展盐碱地综合利用意义重大。为建立大豆苗期耐盐鉴定评价体系,设置淡水和NaCl含量为0.9%~1.8%的10个等差梯度,以蛭石为培养基质,大豆2片真叶始现时开始盐处理。结果表明, 1.2%盐处理16 d时,不同大豆种质资源耐盐等级四分位差值最大,是大豆苗期耐盐鉴定评价的最适条件。利用大豆苗期耐盐鉴定评价体系对来自国内外的504份大豆种质资源进行苗期耐盐性鉴定评价,耐盐等级为1级、2级、3级、4级、5级的大豆资源依次为46份、146份、157份、79份、76份。利用GmSALT3基因的分子标记对1级耐盐资源进行检测,其中40份(86.96%)大豆材料扩增结果与GmSALT3基因的分子标记结果相符合。为分析大豆苗期鉴定过程中盐胁迫浓度的变化趋势,确立了土壤含盐量(Y,%)与电导率(X,mScm^(–1))的回归方程:Y=0.278X–0.0618,预测精准度在95%以上。测定统计了从盐处理开始至调查结束时的培养基质含盐量变化趋势,培养基质含盐量基本维持在13 mS cm^(–1)左右。本研究为大豆苗期规模化耐盐性鉴定和培育耐盐新种质提供了技术体系和基础材料。
文摘室内生物测定是农作物除草剂耐受性鉴定的常用方法,已广泛应用于大豆、棉花等作物对草甘膦、氯嘧磺隆等除草剂的耐受性研究,但莠去津室内生测方法及大豆对莠去津耐受性相关研究鲜见报道。本研究以莠去津对大豆萌发期各单项指标为评价指标,分析莠去津胁迫条件下大豆发芽势、发芽率、发芽指数、活力指数、根长等性状的变化,建立大豆莠去津耐受性室内生测方法,确定3.5 mL L^(-1)是大豆萌发期莠去津耐受性筛选的适宜浓度;对159份大豆种质进行萌发期莠去津耐受性鉴定表明,各指标相对值的变异系数为发芽相对莠去津胁迫率>相对芽长>相对发芽指数>相对活力指数>相对发芽势>相对发芽率;根据T值的聚类分析,将供试种质分为4个莠去津耐性级别,共鉴定出高耐种质9份、中耐种质50份、低耐种质70份和敏感种质30份;黄豆、花色豆、垦丰13、南农99-6等9个种质为莠去津耐受性综合能力优异的种质资源。采用多元逐步回归分析法,建立大豆萌发期耐莠去津评价模型Y=–0.155+0.004X_(2)+0.001X_(3)+0.001X_(4)+0.002X_(5)(P=0.000)。本研究为培育耐莠去津育种的亲本选配、后代选择及大豆耐莠去津相关基因挖掘提供了理论依据、材料和技术支撑。
