1) genotypic difference
基因型差异
1.
Primary study of genotypic differences in nitrogen nutrition in tobacco germplasms;
烟草氮素营养的基因型差异初探
2.
Research progress on genotypic difference in potassium nutrition of rice;
水稻钾营养基因型差异研究进展
3.
Characteristics and genotypic difference of silicon accumulation and distribution in rice;
水稻的硅素积累与分配特性及其基因型差异
2) genotype difference
基因型差异
1.
Genotype difference and combing ability of barley anther culture response were investigated by the way of circulated partial diallel crossing.
用轮回式部分双列杂交法对大麦花药离体培养力进行基因型差异及配合力分析。
2.
Field experiments were conducted at Jiangxi Agricultural University to study the genotype difference of seed nitrogen content in 412 indica rice,63 japonica rice,and 82 indica hybrid rice varieties.
采用田间试验研究了421个常规籼稻、63个常规粳稻和82个籼型杂交稻品种种子含氮量的基因型差异。
3.
The plant nutrition genotype difference has already become an important field in research of plant nutrition.
植物基因型差异已成为植物营养学研究的一个重要领域。
3) Genotypic variation
基因型差异
1.
A sand culture experiment and a hydroponic culture experiment were conducted to study genotypic variation of rice in utilization of sparingly soluble phosphates (Al-P and Fe-P) and its relationship with mobilization characteristic of root exudation.
通过砂培和溶液培养试验,研究了水稻利用难溶性磷酸盐(Al-P和Fe-P)的基因型差异及其与根系分泌物活化特性的关系。
2.
However, genotypic variation in root morphological characteristics of common bean (Phaseolus vulgaris L.
菜豆根形态特性对低磷有效性的适应性反应具有显著的基因型差异。
3.
The field plot experiments were conducted to study on genotypic variation and physiological mechanism of 10 summer maize varieties that is typical in local agricultural production in water and nitrogen use efficiency by analyzi.
供试玉米品种间在生物学产量和籽粒产量上均存在显著的基因型差异,且不同基因型对氮肥的敏感性不同。
4) genotypic differences
基因型差异
1.
Studies on the genotypic differences and its physiological characteristics of rice responses to different Zn 2+ activities。;
水稻对不同Zn~(2+)活度反应的基因型差异及其生理特性的研究
2.
saccharata Sturt) released recently in China were used in this study to evaluate their genotypic differences in nitrogen(N) uptake and N utilization efficiency(NUE) under the same N fertilization condition.
以近年来育成的22个甜玉米品种为材料,在同一供氮水平下对其氮素吸收利用的基因型差异进行了研究。
3.
In order to understand the regularity of nitrogen(N)distribution and translocation and their effects on N absorption and utilization,explain the genotypic differences of N distribution and translocation and their effects on the yield formation,31 waxy corn(Zea mays L.
为了解糯玉米氮素分配转移规律及其与氮素吸收利用的关系,揭示氮素分配转移的基因型差异及其对产量形成的作用,本文在同一氮素供应水平下研究了31个糯玉米品种的氮素分配转移特性。
5) genotype variation
基因型差异
1.
Field experiment was conducted in order to investigate the response of silicon accumulation and distribution of 15 rice cultivars(conventional Japonica) to different N levels(0 kg/ha,150 kg/ha,225 kg/ha,300 kg/ha as urea) and genotype variations.
以15个常规粳稻品种为材料,设置0、150、2253、00 kg/hm2四种氮素水平,研究水稻硅素积累与分配对氮素的反应及其基因型差异。
6) Differential genotype
差异基因型
补充资料:基因型与表型
丹麦遗传学家W.L.约翰森于1911年提出的两个遗传学名词。基因型又称遗传型,指生物的全部遗传物质(基因)组成。 但一般只表示个别或少数基因位点上的等位基因的组成。表型指生物体个别或少数性状以至全部性状的表现。基因型是生物体在适当环境条件下发育表型的内因;表型则是基因型和环境条件共同作用的结果。能遗传的是基因型,不是表型。环境因素是基因型得以发育其表型的必要条件。例如玉米中的"日光红"性状,茎秆、叶鞘以及苞叶在受日光照射后能表现红色,不带该基因的玉米品种则呈绿色。如把"日光红"玉米植株一部分遮光,则遮光部分就不表现红色。日光是表现玉米"日光红"性状的必要条件;但日光不能使普通玉米基因型的茎叶表现为红色,因为它们的基因型不同。有时由于等位基因间或非等位基因间相互作用的影响,不同的基因型可以表现相同的表型。如两株同开红花的豌豆,一株的自交子代全开红花,而另一株的自交子代则出现3/4开红花和1/4开白花的分离,说明它们具有不同的基因型。相反,相同的基因型也可由于基因型对环境影响有不同的反应而发育成不同的表型。基因型的这种反应特性是生物体在长期进化过程中逐渐形成的,有利于适应不同的环境条件。育种主要是选择优良的基因型,因此要善于通过表型的考察鉴定其基因型。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条