摘要
以日光温室越冬番茄为试材,研究了内置秸秆反应堆和菌剂对日光温室土壤温度及越冬番茄生长的影响。结果表明:施用微生物菌剂、内置式秸秆反应堆技术及两者共用后平均分别增加土壤温度0.28、0.85、1.23℃;内置式秸秆反应堆技术及两者共用能够显著加快越冬番茄植株的生长速率,使番茄前期产量增加10.7%和11.8%。
A field experiment was conducted to study the effects of microbial agents and built-in straw biological reactor technology on solar greenhouse soil temperature and the growth of winter tomato(Lycopersicon esculentum Mill.).The results showed that after using the microbial agents,built-in straw biological reactor technology and both methods can increasing soil temperature by 0.28,0.85 ℃ and 1.23 ℃,respectively.The built-in straw biological reactor technology,and applying both of them could dramatically speed up the winter tomato growth,and increase the tomato yield by 10.7% and 11.8%.
出处
《中国蔬菜》
北大核心
2011年第Z1期63-67,共5页
China Vegetables
基金
现代农业产业技术体系北京市果类蔬菜创新团队项目
国家‘973’计划项目(2009CB119002)
关键词
菌剂
内置秸秆反应堆
日光温室
土壤温度
越冬番茄
产量
Microbial agents
Built-in straw biological reactor
Solar greenhouse
Soil temperature
Winter tomato
Yield