以杂交香稻品种青香优19香为材料,设置超声波处理种子(UT,种子发芽前,放入隧道式超声波处理器,在室温下以50 kHz频率处理1.0 min)及非超声波处理种子(CK),用钵苗盘在低温人工气候箱(白天12 h 22℃,晚上12 h 12℃)、高温人工气候箱(白天1...以杂交香稻品种青香优19香为材料,设置超声波处理种子(UT,种子发芽前,放入隧道式超声波处理器,在室温下以50 kHz频率处理1.0 min)及非超声波处理种子(CK),用钵苗盘在低温人工气候箱(白天12 h 22℃,晚上12 h 12℃)、高温人工气候箱(白天12 h 35℃,晚上12 h 25℃)和室温网室(白天平均温度为25.3℃,夜间平均温度为16.6℃)培育秧苗,20 d后统一转移至网室盆中种植至成熟,测定苗期秧苗素质、抗逆性相关酶活性、产量和2-AP含量,以探明超声波处理种子对香稻秧苗素质、抗逆性、产量和香气的影响。结果表明,与CK相比,UT处理提高了水稻苗期植株的株高和茎基宽,显著提高了苗期植株的鲜质量和干质量;UT处理后青香优19香的POD、CAT活性和MDA含量与CK相比无显著差异,但SOD活性、结实率和每穗粒数显著提高,从而显著提高产量;UT处理种子显著提高了青香优19香的2-AP含量。展开更多
This paper compared and analy ed the difference of climate conditions between Guangdong and main maize-production area in Brazil. Related advice is given on maize production arrangement according to seasonal climatic ...This paper compared and analy ed the difference of climate conditions between Guangdong and main maize-production area in Brazil. Related advice is given on maize production arrangement according to seasonal climatic condition change.展开更多
文摘以杂交香稻品种青香优19香为材料,设置超声波处理种子(UT,种子发芽前,放入隧道式超声波处理器,在室温下以50 kHz频率处理1.0 min)及非超声波处理种子(CK),用钵苗盘在低温人工气候箱(白天12 h 22℃,晚上12 h 12℃)、高温人工气候箱(白天12 h 35℃,晚上12 h 25℃)和室温网室(白天平均温度为25.3℃,夜间平均温度为16.6℃)培育秧苗,20 d后统一转移至网室盆中种植至成熟,测定苗期秧苗素质、抗逆性相关酶活性、产量和2-AP含量,以探明超声波处理种子对香稻秧苗素质、抗逆性、产量和香气的影响。结果表明,与CK相比,UT处理提高了水稻苗期植株的株高和茎基宽,显著提高了苗期植株的鲜质量和干质量;UT处理后青香优19香的POD、CAT活性和MDA含量与CK相比无显著差异,但SOD活性、结实率和每穗粒数显著提高,从而显著提高产量;UT处理种子显著提高了青香优19香的2-AP含量。
文摘This paper compared and analy ed the difference of climate conditions between Guangdong and main maize-production area in Brazil. Related advice is given on maize production arrangement according to seasonal climatic condition change.