| 1. | The long - season cultivation techniques of to
越冬长季节日光温室番茄高产栽培配套技术研究 |
| 2. | Experimental research on irrigation indexes of drip irrigation for tomato in greenhouse
温室番茄滴灌灌水指标试验研究 |
| 3. | Effects of fertilization levels on the growth and development of tomato in solar greenhouse
不同施肥水平对日光温室番茄生长发育的影响 |
| 4. | Effects of increasing potassium fertilizer dosage on the quality and yield of tomato in greenhouse
增施钾肥对日光温室番茄产量和品质的影响 |
| 5. | The model of the growing process of tomato is constructed based on rbf neural network
温室番茄的生长过程具有控制变量多、生长过程复杂等特点。 |
| 6. | Harmless technique for comprehensive prevention and control of root knot nematode on tomato in solar greenhouse
日光温室番茄根结线虫无公害综合防治技术 |
| 7. | Simulation results show that the model has better performance than those based on other method
仿真结果表明,该方法较其他方法更适合于温室番茄生长过程的建模。 |
| 8. | Effect of reducing the dosage of methyl bromide and covering virtually impermeable film on soil fumigation and tomato growth in greenhouse
少用甲基溴的土壤消毒效果及对温室番茄生长的影响 |
| 9. | The results show this system can diagnosis disease , pest and nutritional deficiency which are often violate tomato planted in greenhouse . this system basically achieves the design desire
系统运行结果显示,该系统能够对温室番茄常见的病、虫害和缺素进行识别和诊断,基本达到了设计的要求。 |
| 10. | We develop this system which aim at the above question for the first time , and give evidence to planters when they come to a decision on greenhouse management , ultimately improve the level of greenhouse management
本课题针对以上存在的问题,首次建立了温室番茄主要病虫害和缺素症诊断和咨询的专家系统,目的在于为温室经营者的栽培管理提供决策依据,以提高温室的管理水平。 |
