1.
Effectiveness of 6.5% Le-Tian-Te Ec for Control of Weeds in Soybean Fields
6.5%乐田特乳油防除大豆田杂草试验
2.
Field Trial Efficacy of 18.5% Gaohu EC on Soybean Field
18.5%高虎乳油防除大豆田杂草田间药效试验报告
3.
Cloransulam-methyl 84%WG Controlling Destructive Weeds in Soybean Field
84%氯酯磺草胺WG防除大豆田恶性杂草
4.
The Community Structure of Insect and Natural Enemies Control to Aphis in Soybean Fiel;
大豆田昆虫群落结构及天敌对蚜虫的调控功能
5.
Studies on Structure and Succession Rules of Arthropod Community in Soybean Field;
大豆田节肢动物群落结构及演替规律研究
6.
Studies on the Technique of Chemical Weed Control in Narrow Row Solid-Seeding Soybean Field;
窄行平作密植大豆田化学除草技术研究
7.
Study on Safety Aspects and Performance of Herbicides on the Summer Soybean;
除草剂在夏大豆田的安全性及药效研究
8.
Distribution of Plant-Parasitic Nematodes in Soybean Fields under Different Soil Type and Latitude
不同土壤类型和纬度大豆田植物线虫分布特征
9.
Predominant natural enemy insects in soybean field in northeast China
东北地区大豆田天敌昆虫优势种类分析
10.
Effects of Different Tillage Methods on Weed Emergence in Summer Soybean Field
不同耕作方式对夏播大豆田间杂草发生的影响
11.
Preliminary Report on Population Structure and Vertical Distribution of Soil Nematodes under Continuous Cropping Soybean Field
连作大豆田土壤线虫的种群结构和垂直分布
12.
Practice on weed control of spring soybean field by 25% fomesafen Ap
25%氟磺胺草醚水剂(新型)防除春大豆田杂草示范
13.
Barn yard grass( Echinochloa crus-galli) and day flower( Commelinacommunis) were the most abundant weeds.
其中前7种相对多度达20以上,可视为当地大豆田的优势杂草。
14.
Simulation of Farmland Soybean Productivity in Typical Region of Black Soil;
典型黑土区农田大豆生产力模拟研究
15.
Influence of Herbicides on Soybean Rhizosphere Soil Microorganism and Enzyme Activity;
豆田除草剂对大豆根际土壤微生物及酶活性的影响
16.
The Study on Weeds Control Threshold and Competition between Soybean and Weeds;
豆田主要杂草与大豆的竞争作用及防除阈值的研究
17.
A machine sizes the peas after they came from the fields.
有一种机器把从田里收来的豆子依大小分开。
18.
The Effect of Symbiotic Nitrogen Fixation of Gene Engineering Rhizobium Strains in Soybean in the Field
大豆基因工程根瘤菌田间结瘤和共生固氮效应