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排序方式: 共有441条查询结果,搜索用时 15 毫秒
1.
Corrigendum to Wagner et al.: Natural soil microbes alter flowering phenology and the intensity of selection on flowering time in a wild Arabidopsis relative 下载免费PDF全文
2.
Amal Aboul-Nasr 《Mycorrhiza》1995,6(1):61-64
Seeds of Tagetes erecta and Zinnia elegans were planted in soil inoculated with the vesicular-arbuscular mycorrhizal fungus Glomus etunicatum. This procedure produced positive effects on both Tagetes and Zinnia compared with the control: faster flowering and an increased number of flowers. Shoot height, shoot and root dry weights
and percentage infected root length were also measured. The reactions of these plants to mycorrhizal infection were shown
to be independent of changes in the phosphorus, potassium and sodium contents of the plants.
Accepted: 1 August 1995 相似文献
3.
Modelling the genetic architecture of flowering time control in barley through nested association mapping 总被引:1,自引:0,他引:1
Andreas Maurer Vera Draba Yong Jiang Florian Schnaithmann Rajiv Sharma Erika Schumann Benjamin Kilian Jochen Christoph Reif Klaus Pillen 《BMC genomics》2015,16(1):290
Background
Barley, globally the fourth most important cereal, provides food and beverages for humans and feed for animal husbandry. Maximizing grain yield under varying climate conditions largely depends on the optimal timing of flowering. Therefore, regulation of flowering time is of extraordinary importance to meet future food and feed demands. We developed the first barley nested association mapping (NAM) population, HEB-25, by crossing 25 wild barleys with one elite barley cultivar, and used it to dissect the genetic architecture of flowering time.Results
Upon cultivation of 1,420 lines in multi-field trials and applying a genome-wide association study, eight major quantitative trait loci (QTL) were identified as main determinants to control flowering time in barley. These QTL accounted for 64% of the cross-validated proportion of explained genotypic variance (pG). The strongest single QTL effect corresponded to the known photoperiod response gene Ppd-H1. After sequencing the causative part of Ppd-H1, we differentiated twelve haplotypes in HEB-25, whereof the strongest exotic haplotype accelerated flowering time by 11 days compared to the elite barley haplotype. Applying a whole genome prediction model including main effects and epistatic interactions allowed predicting flowering time with an unmatched accuracy of 77% of cross-validated pG.Conclusions
The elaborated causal models represent a fundamental step to explain flowering time in barley. In addition, our study confirms that the exotic biodiversity present in HEB-25 is a valuable toolbox to dissect the genetic architecture of important agronomic traits and to replenish the elite barley breeding pool with favorable, trait-improving exotic alleles.4.
Few observations have been made on temporal changes in the siring success of flowers in the male stage. In this study, we
estimated both male and female contributions to fitness for 21 plants of protandrous andromonoeciosHeracleum lanatum with differing dates of first flowering. The results of multiple regression analysis showed that total male fitness significantly
increases with the advance of the first-flowering date but does not depend upon plant size, whereas female fitness increases
with plant size but does not depend upon the first-flowering date. We also showed that the earlier-flowering plants have more
late-blooming male flowers in their secondary umbels. Based on these results, we suggest that polymorphism of the early- and
late-bloomers may be maintained by frequency-dependent selection through temporally changing male reproductive success. 相似文献
5.
6.
Kole C. Thormann C.E. Karlsson B.H. Palta J.P. Gaffney P. Yandell B. Osborn T.C. 《Molecular breeding : new strategies in plant improvement》2002,9(3):201-210
Winter survival is an important characteristic of oilseedBrassica that is seeded in the fall in northern climates,and it may be affected by genetic variation for other cold-regulated traits,such as freezing tolerance and vernalization responsive flowering time. Weanalyzed immortalized populations of oilseed Brassica rapa(recombinant inbred lines) and B. napus (double haploidlines) derived from crosses of annual and biennial types in order to comparethe map positions and effects of quantitative trait loci controlling wintersurvival, nonacclimated and acclimated freezing tolerances, and flowering time.The B. napus population was evaluated in multiple winters,and six of the 16 total significant QTL for winter survival were detected inmore than one winter. Correspondence in the map positions of QTL controllingdifferent traits within species provided evidence that some alleles causinggreater acclimated freezing tolerance and later flowering time also contributedto increased winter survival. Correspondence in the map positions of QTLbetween species provided evidence for allelic variation at homologous loci inB. rapa and B. napus. The potentialrole of some candidate genes in regulating these traits is discussed. 相似文献
7.
8.
独花兰野生种群研究——开花与营养体状态的关系 总被引:5,自引:0,他引:5
对安徽省天堂寨自然保护区独花兰野生种群的花果期节律和营养体状态研究表明 ,开花植株占观察样本的 3 7 5 %,个体是否开花与假鳞茎数目、地下茎总体积和叶面积呈极显著相关关系。绝大多数开花个体具有 3个假鳞茎且其总体积通常达 8cm3,叶面积达 3 3cm2 。个体较大的植株开花持续期较长。花葶在花果期具有不同的生长时相 :开花期中止生长 ,幼果期呈逻辑斯谛型生长。面对日益增长的人类采掘风险 ,独花兰开花与大型植株的关联可能是其生活史中影响种群生存的脆弱点之一。 相似文献
9.
环境因素对薇甘菊开花结实影响初探 总被引:15,自引:0,他引:15
2001—2002年度在广东东莞市选取不同的自然小生境,研究土壤肥力、土壤水分和生境郁闭度对薇甘菊(Mikania micrantha H.B.K)开花结实的影响,结果表明:土壤肥力较高,花数较多,花期较长,结实率较高,种子千粒重较大;但土壤肥力过高,虽然种子千粒重大,花期长,但花数少,结实率低。在开阔的生境中,薇甘菊花数多,花期长;在林荫处花期短,花数少,但种子千粒重反而有所升高;植株在郁闭度为10%-20%的生境中结实率最高,高于20%或低于10%结实率均有所降低,过强或过弱的光照均不利于结实。土壤湿度虽然对种子千粒重无明显影响,但对薇甘菊花数、花期和结实率的影响显著,土壤湿度大,花数多,结实率高,花期长。在自然生境中,三种因素的影响既相对独立又相互制约。 相似文献
10.
水稻在抽穗开花期对高温胁迫非常敏感,通过挖掘耐热资源,培育耐热水稻品种是应对高温热害最有效的方式。前期研究发现,地方稻资源D43在花期连续高温条件下能保持较高的结实率。本研究在大田和人工气候室不同高温处理下,分析了D43的开花时间与耐热性之间的相互关系。结果表明,高温能够使水稻的开花时间提前,D43表现出稳定的早花时特性,高温胁迫下的开花时间集中在8∶30~10∶00;在开花时间段恒定高温胁迫下,D43的结实率较低;但在大田高温和人工气候室模拟高温胁迫下,D43的开花时间避开了日高温段,从而表现出较高的结实率;花器官形态性状包括花药开裂率、柱头上的花粉附着数、花粉萌发数与结实率之间呈显著正相关,因此可用于评价水稻的花期耐热性。 相似文献