1.
Crop root growth and water uptake in maize/soybean strip intercropping
玉米/大豆间作条件下的作物根系生长及水分吸收
2.
Transport and Use of PAR and Water in Maize/Soybean Strip Intercropping System
玉米/大豆条带间作群体PAR和水分的传输与利用
3.
Effect of monoculture and intercropping on radiation use efficiency and yield of maize and soybean
单作和间作对玉米和大豆群体辐射利用率及产量的影响
4.
Effects of the Density、SCI and Sowing Dates on Yield and Quality of the Intercropping System with Maize and Soybean;
密度、带型与播差期对玉米间作大豆产量及品质的影响研究
5.
Effect of Inoculating Mycorrhizal and Rhizobium on Nitrogen Transferred in Soybean/maize Intercropping System
菌根真菌和根瘤菌对大豆/玉米种间氮素转移作用的研究
6.
Effect of Intercropping Patterns on Dry Matter Accumulation and Yield Components of Maize and Soybean
间作种植模式对玉米和大豆干物质积累与产量组成的影响
7.
Effect of Maize Sowing Time and Density on the Agronomic Characters and Yield of Soybean in Relay-planting System of Maize and Soybean
玉/豆套作模式下玉米播期与密度对大豆农艺性状及产量的影响
8.
Proton and Organic Acids Exudated by Faba Bean, Soybean and Maize and Their Significance in Interspecific Facilitation on Phosphorus Uptake by Intercropping;
蚕豆、大豆、玉米根系质子和有机酸分泌差异及其在间作磷营养中的意义
9.
Effects of Root Barriers on Nodulation of Faba Bean in Maize/Faba Bean,Wheat/Faba Bean and Barley/Faba Bean Intercropping Systems
玉米、小麦和大麦与蚕豆间作体系不同根系分隔方式对蚕豆结瘤的影响
10.
Effects of Rhizobium Inoculation on Nitrogen Nutrition in Fababean/Maize Intercropping System
接种根瘤菌对蚕豆/玉米间作系统氮营养的影响
11.
Corn or soybean are planted as a rotation crop after three years of cotton.
玉米和大豆是棉花种植3年后的轮作作物。
12.
THE RECIPROCITY AND NITROGEN TRANSFER IN INTER-CROPPING AND INTER-PLANTING SYSTEM OF "WHEAT/MAIZE/SOYBEAN"
“小麦/玉米/大豆”套作体系中不同作物间的相互作用及氮素的转移、吸收
13.
Effects of Interspecific Interactions and Nitrogen Fertilization Rates on the Agoronmic and Nodulation Characteristics of Intercropped Faba Bean
施氮对蚕豆/玉米间作系统蚕豆农艺性状及结瘤特性的影响
14.
Cotton is the main crop with 1,100 ha, and the rest is cultivated with corn or soybean.
1100公顷棉花是主要作物,其余种玉米或大豆。
15.
Model: The gain crops are : soybean , wheat , maize, rice and potatoes and so on .
答:粮食作物有:大豆、小麦、玉米、水稻、马铃薯等。
16.
Effects of Silicon and Potassium Fertilization on the Area of Multiple and Continuous Cropping for Wheat and Maize (Soybean)
小麦—玉米(大豆)复种连作区硅钾肥施用效果研究
17.
Preliminary results indicated that intercropping with P-efficient soybean genotypes could significantly improve maize growth and conserve soil fertility.
初步结果显示,用磷高效大豆基因型间作,可显著促进玉米生长和提高土壤肥力。
18.
EFFECTS OF RHIZOBIUM INOCULATION ON YIELD AND NODULATION IN FABABEAN/MAIZE INTERCROPPING SYSTEM
接种根瘤菌对蚕豆/玉米间作系统产量及结瘤作用的影响