- 更多网络例句与作物育种相关的网络例句 [注:此内容来源于网络,仅供参考]
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The information will be useful for the development of apomixis technology and therefore has important implications for crops breeding.
本研究结果可作为建立无融合生殖生物科技之本土基础资料,并提供禾草作物育种时选材之依据。
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Therefore, the use of apomixis also holds great promise as an essential tool for plants sustainable agricultural production and economic crops improvement in the 21 century.
无融合生殖在作物育种上之贡献为能迅速稳定杂种优势并降低杂交种子的生产成本,得以在 21 世纪应用无融合生殖於农业和经济作物改良。
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Apomixis provides a unique opportunity to fix and utilize hybrid vigor. A number of research programs around the world have tried to use apomixis as an important plant-breeding tool.
无融合生殖是指不经过雌雄配子融合而产生种子的一种特殊生殖方式,能使基因型的杂合性得以保持,从而可以固定杂种优势,对作物育种具有极其重要的意义。
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This study will provide landrace germ plasm for crop breeding, biotechnology research and development of agricultural production in Gansu Province.
结论]该研究为甘肃省作物育种、生物技术研究及农业生产的发展提供优异的地方小麦种质。
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Using the heterosis is one of the important ways in breeding cultivars.
利用杂种优势是作物育种重要途径之一。
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Now, polyploid breeding is a commonly used method in crop breeding.
而多倍体育种是近代作物育种常采用的一种方法。
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The breeding staff has bred 4 varieties of wheat, triticale and beer barley respectively.
长期育种的实践表明,正确的育种策略和技术路线是麦类作物育种成功的生命线。
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This paper introduced the study on insect resistance, disease resistance, weedicide resistance, stress tolerance, improving quality, improving development, increasing photosynthesis and efficiency of azotification in crop breeding, and expatiated methods and benefits of gene engineering in improving crop variety.
从抗虫、抗病、抗除草剂、抗逆以及品质改良、改善发育状况、提高光合作用和固氮效率等方面论述了基因工程在作物育种中的具体应用和进展,阐述了基因工程改良作物品种的方法和优点。
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The other approach is to be elected monoclonal were threshing, planting, respectively, and lines of future generations to choose, compare, until the election of new varieties, said the plant selection, commonly used in self-pollinating crops or often cross-pollinated crop breeding.
另一做法是将当选单株分别脱粒,分别种植,然后对后代株系进行选择、比较,直至选出新品种,称单株选择,常用于自花授粉作物或常异花授粉作物育种。
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At present, genetic transformation technology point out the direction for the development of traditional plant breeding.
植物基因工程技术的发展为传统的作物育种指明了一个方向,遗传转化技术已经成为作物遗传改良的一个重要途径。
- 更多网络解释与作物育种相关的网络解释 [注:此内容来源于网络,仅供参考]
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breeding place:孳生地,繁殖场
breeding of plants 作物育种学 | breeding place 孳生地,繁殖场 | breeding plumage 婚羽
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plant breeding:植物育种
需要说明的是,即使在植物学领域,不同的学科或领域的重要期刊也不尽相同,以作物遗传育种为例,著名的国际期刊就有>(Theoretical and Applied Genetics,TAG)、>(Molecular Breeding)、>(Plant Breeding)、Euphytic
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plant breeding:作物育种[学]
plant genetics 作物遗传[学] | plant breeding 作物育种[学] | plant morphology 作物形态[学]
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brown stem rot:褐茎腐病
科学家和大豆育种者预计将在其研究中采用该材料以开发具有抗虫、抗病并能耐受环境影响的大豆新变种--其中包括导致大量减产的作物疾病,例如大豆包囊线虫、褐茎腐病 (brown stem rot)、枝枯病 (stem canker) 和大豆疫霉根腐病 (phytophtho
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hybrid cultivar:杂交种品种
杂交种品种( 杂交种品种(hybrid cultivar) ) 杂交种育种的两个基本程序.自交系育种; 杂交种育种的两个基本程序.自交系育种;杂交组合 4.现代作物育种发展动向的主要表现是什么?
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Plant genetics:作物遗传[学]
crop science 作物[科]学 | plant genetics 作物遗传[学] | plant breeding 作物育种[学]
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heterosis:杂种优势
在丰产育种方法中,成效最大的,当推异交作物杂种优势(heterosis)育种法. 本省双交种玉米台南5号的育成,即利用此法,单位面积产量最高可达5000公斤/公顷,对本省玉米增产贡献良多;新近更有台南11号双交玉米育成推广,当更有助于玉米产量的提高.
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Pomology:果樹
作物遗传育种 Plant Genetics and Breeding | 果树 Pomology | 动物营养与饲料加工 Animal Nutrition and Feed Processing
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breeding of cross-pollinated crops:异花授粉作物的育种
breeding nursery together ==> 集中育种圃 | breeding of cross-pollinated crops ==> 异花授粉作物的育种 | breeding of method ==> 繁育体系
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crop failure:作物失收;作物减产
crop breeding作物育种 | crop failure作物失收;作物减产 | crop rotation轮植;轮作;轮耕