Like animals that eat a certain plant and that plant relies on a certain fungus to help it get nutrients from soil and on a certain insect for pollination.
比如动物吃某种植物,而这种植物依靠某种真菌从土壤中获取营养,依靠某种昆虫来授粉。
We don't have insect problem, we don't have disease problems that linger in soil from one year to the next.
还没有害虫问题,不像土壤种植那样年复一年地出现疾病问题。
In exchange, they enrich the soil, pollinate flowers, and gobble up insect pests.
作为交换,他们丰富的土壤,花授粉,并吞噬害虫。
Global warming will bring about changes to insect populations, flooding and soil erosion.
全球变暖会引起一系列的变化,例如虫害、洪水、土壤侵蚀等。
Multiple cropping vegetable and rice can improve soil utilization rate reduce plant diseases and insect pests and prevent soil stalinization in protective field.
稻菜复种可以提高土地利用率、少蔬菜的病虫害、止保护地内土壤的盐渍化。
The objectives of this study were to investigate the effect of insect and soil water contents on phenolic compounds and nitrogen concentrations in leaves of Populus euphratica.
研究了不同土壤水分条件下虫害胁迫对胡杨叶片中酚类物质含量及氮含量的影响。
Sow directly in the ground, the plant diseases and insect pests that soil transmits is more, ground temperature is inferior, moisture and humidity are controlled not easily, affect gemmiparous rate.
直接播在地里,土壤传播的病虫害较多,地温较低,水分和湿度不易控制,影响发芽率。
Differences in soil and climate produce leaves that have specific characteristics and require different methods of fertilization, insect and disease management, harvesting and curing.
土壤和气候的不同、以及施肥、病虫害的管理、收获和调制方法的不同,生产出来的叶片有着不同的特性。
These were tree age, stand density, resin tapping, rainfall, temperature, clay soil, stone soil, soil depth, water logging, and other diseases and insect pests.
它们是树龄、林分密度、割脂、降雨量、温度、粘性土、石砾土、土层瘠薄、积水、病虫危害。
Multiple cropping vegetable and rice can improve soil utilization rate, reduce plant diseases and insect pests and prevent soil Stalinization in protective field.
稻菜复种可以提高土地利用率、减少蔬菜的病虫害、防止保护地内土壤的盐渍化。
The isolation of the rhizosphere soil microorganism of transgenic 741 poplar containing two insect-resistant genes was studied with the gradient dilute method.
应用稀释平皿分离法对转双价抗虫基因741杨的根际土壤微生物进行了分离研究。
To date, insect resistance has been provided by a gene from the soil bacterium Bacillus thuringiensis (Bt).
目前,抗虫害的特性是取自土壤中杆菌苏力菌(Bacillus s thuringiensis,下文简称Bt)的一个基因。
To date, insect resistance has been provided by a gene from the soil bacterium Bacillus thuringiensis (Bt).
目前,抗虫害的特性是取自土壤中杆菌苏力菌(Bacillus s thuringiensis,下文简称Bt)的一个基因。
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