| 1. | Exploring on plant - type of super - high - yeild genotypes in wheat
小麦超高产基因型的株型结构问题 |
| 2. | When pedestrians have the walking signal , cars must yeild to them
行人有通行信号时,车辆必须让行。 |
| 3. | 12 allow to yeild for six hours
般土浆要预水化至少6小时。 |
| 4. | 12allow to yeild for six hours
般土浆要预水化至少6小时。 |
| 5. | The high yeild cultivation techniques of transplanting maize seedlings raised on plastic trays
玉米软盘育苗移栽高产栽培技术 |
| 6. | The individual plant yeild of hippophae rhamnoides cultivar was tested and the relation between the yield and rainfall was analysized
通过连续几年对沙棘品种单株产量的测试,结合历年的降雨量及主要月份降雨量,分析降雨量与沙棘品种单株产量的关系。 |
| 7. | Palram brings highly versatile solutions in structural envelopes for the world of agriculture , ranging from greenhouse coverings that allow yeild increase to long - term livestock cladding that is easy to install and maintain
产品范围从能提高产量的温室采光板,到易于安装和维护、寿命很长的牲畜棚盖板。 |
| 8. | Cl ; 100mm nacl ; 0 . 5mmol / l edta ; 4mol / l carbamide ; 0 . 2 % ( v / v ) tritonx - 100 ; 0 . 2 % doc ) , we got r hpf4 with the purity of 85 % . the yeild is 120mg recombinant protein per litre culture
Rhpf4纯度可达85以上。 rhpf4e透析的同时,采川立气氧化法,加以cu ‘至终浓度川” mol 1加速空气氧化,使rhpf4上确显折叠。 |
| 9. | In this paper , the problems of plant - type structure of super - high - yeild genotype in wheat were discussed from three aspects of plant - type structure in wheat , plant - type structure of super - high - yield genotype present and it , s improvement strategy
摘要从小麦的株型结构、目前超高产小麦基因型的株型结构和超高产基因型株型结构改良的策略3个方面,对小麦超高产基因型的株型结构问题进行了讨论。 |
| 10. | Through to analysis of main strait characteristic and productivity ability of the three kind of different types super - high - yeild genotype structure for the high density in loose with small leaf , short stem , big ear ; the middle density with middle leaf , high stem , big ear and the low density in compact with big leaf , shorter stalk , big ear , we think that the three kind of types above all have the super - high - yield ability , but the last ones , yield potential is highest
通过对小叶矮秆中大穗高密度松散型、中叶中高秆大穗中密度型和大叶中矮秆大穗紧凑低密度型3种不同类型超高产基因型株型结构的主要性状特征及生产能力分析认为,上述3种类型都具备超高产的产量能力,但小叶矮秆中大穗高密度松散型产量潜力最高。 |
