摘要
选用泥炭、发酵风化煤、发酵牛粪等材料,配制成无土栽培基质,应用于设施番茄栽培,观察其生长情况。试验结果表明,按照发酵风化煤︰泥炭︰发酵牛粪=1∶1︰1配制成的无土栽培基质,在设施番茄产量、叶色、结果穗数、畸形果率、抗病毒病指标上效果略优于商品基质,且应用成本低,可在设施蔬菜生产中推广应用。
Peat, fermented weather coal, fermented cow dung and other materials were mixed as soilless cultivation substrates to observed the growth and production of tomato. The result showed that compared with commodity substrates, the mixed soilless cultivation substrates with the ratio of fermented weather coal:peat:fermented cow dung=1:1:1 could provide positive effects on yield, leaf color, result panicle number, abnormal fruit rate, anti-viral disease indice to some extent. It could be used in facility vegetable production for its lower cost.
引文
[1]夏树让.国内外无土栽培的应用及发展方向[J].农产品加工,2009(3):35~37.
[2]张雪丽.关于我国无土栽培技术的研究[J].商品与质量,2012(8):317.
[3]刘伟,余宏军,蒋卫杰.我国蔬菜无土栽培基质研究与应用进展[J].中国生态农业学报,2006,14(3):4~7.
[4]栾亚宁,孙向阳,刘克林,等.几种泥炭基质物理性质比较研究[J].中国农学通报,2008,24(9):137~140.
[5]李善祥.我国煤炭腐植酸资源及其利用[J].腐植酸,2002(3):7~13.
[6]张昕,林启美,赵小蓉.风化煤的微生物转化:Ⅰ菌种的筛选及转化能力测定(待续)[J].腐植酸,2002(3):18~23.
[7]阿拉坦其其格.能降解风化煤微生物的筛选及初步鉴定[D].内蒙古农业大学硕士学位论文,2011.
[8]张昕.风化煤的微生物降解机理及产物的生理效应[D].中国农业大学硕士学位论文,2002.
[9]梁婉婉,高灵旺.腐植酸在植物保护领域的应用研究进展[J].腐植酸,2015(6):9~14.
[10]张杰.杜鹃花栽培基质研究现状[J].现代农业科技,2015(18):163~165.