而在植物内部,碳酸氢根离子和钙离子等天然带电粒子的运输速度加快,二氧化碳吸收和光合作用等代谢活动也在增加。
Professor Liu Binjiang, agriculture scientist and a leading member of the project, said the electric current flowing through the wires is only a few millionths of an ampere by volume – lower than a smartphone cable’s workload.
农业科学家、该项目的主要成员刘滨疆教授说,裸铜线中的电流只有百万分之几安培,比智能手机电线的负荷还要低。
“It does absolutely no harm to the plants or to humans standing nearby,” he said.
他说:“带电栽培对蔬菜和站在近旁的工作人员完全无害。”
Thanks to the positive findings of the study, the area devoted to electrified farms in China is now growing with uNPRecedented speed, according to Liu, from 1,000 to 1,300 hectares each year.
刘滨疆教授说,得益于这项研究的积极成果,中国带电栽培农场的面积正在以前所未有的速度增长,每年增加1000至1300公顷。
That means up to 40 percent growth in electro culture farming could be achieved within the next 12 months.
这意味着,在未来12个月内,中国带电栽培的增长率可达40%。
“Most recent investments have come from the private sector,” Liu said. “The business is taking off. We are supplying the technology and equipment to other countries including the Netherlands, United States, Australia and Malaysia.
【改革印记:“带电栽培”助力中国新农业革命】相关文章:
最新
2019-01-07
2019-01-07
2019-01-07
2019-01-07
2019-01-07
2019-01-05