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91.
92.
为研究水分胁迫对小麦幼苗部分农艺性状的影响,分析这些性状与干旱胁迫的关系。以‘青麦6号’和‘烟农24’杂交形成的F2:3群体为材料,采用主基因+多基因混合遗传模型对其进行遗传分析。水、旱2种条件下,根长和根鲜重均为1对加性-显性效应主基因模型;茎鲜重、茎干重、根干重、根茎鲜重比和根茎干重比的最适遗传模型不同。干旱胁迫条件下,茎鲜重主基因遗传率为37%,茎干重、根长、根鲜重、根干重、根茎鲜重比及根茎干重比主基因遗传率分别是51%、81%、74%、56%、50%、68%。茎鲜重、茎干重、根干重等性状,尽管检测到主基因,但在水旱条件下遗传模型不同,可进一步研究其遗传规律。 相似文献
93.
基于生物量的冬小麦穗部主要形态参数模型 总被引:1,自引:0,他引:1
冬小麦穗部形态结构模型是功能–结构小麦模型的重要研究内容。以济麦22、泰农18和鲁原502为材料,于2013—2014和2014—2015年度开展了品种和施氮试验。结合2013—2014年数据,分析穗部主要形态参数与器官生物量的定量关系及形态参数间的内在联系,构建了冬小麦穗部主要形态结构模型。经2014—2015年小麦生长数据检验,除穗长模型精度略低外,穗宽、穗厚、颖壳长、颖壳宽、颖壳厚、籽粒长、籽粒宽和籽粒厚模型精度均较高,所建模型可较好模拟不同品种与施氮水平冬小麦穗部主要形态结构。 相似文献
94.
滨麦(Leymus mollis)是小麦的三级基因源,具有改良小麦所需的许多优良性状。为了将滨麦中的优异基因导入到普通小麦中,通过远缘杂交获得小麦-滨麦异附加系、异代换系、易位系,以选自普通小麦7182与滨麦衍生后代M42(2n=54)F_6代的株系M11005-1-2-7-10-1-1(M11005A)为供试材料,对其进行了形态学、细胞学、原位杂交、分子标记、抗病性等综合鉴定。细胞学观察结果显示,M11005A有44条染色体且配对良好,可以稳定遗传。原位杂交及分子标记结果表明,M11005A含有42条普通小麦染色体和1对来自滨麦Lm#3Ns的染色体,并且用Oligo-pTa535探针得到了Lm#3Ns的FISH核型;筛选出6个EST及8个PLUG特异分子标记可以用来鉴定Lm#3Ns染色体,其中只有1个EST和4个PLUG标记可以同时在M11005A中扩增出滨麦和华山新麦草的条带,说明滨麦的Lm#3Ns染色体与华山新麦草的3Ns基因组之间存在差异。M11005A的穗长、穗型、小穗数、千粒重与亲本7182无显著差异,但分蘖数较7182显著增加,株高显著降低。抗条锈病鉴定结果显示,苗期M11005A对条锈菌生理小种CYR29和CYR34表现高抗,对CYR32表现高感,成株期对CYR32和CYR33混合小种表现高抗,推测滨麦的Lm#3Ns染色体携带对CYR29和CYR34小种的抗性基因,又携带了成株期对CYR32和CYR33的抗性基因。因此,M11005A可以作为抗源应用于小麦的条锈病抗性改良中。 相似文献
95.
真核翻译延伸因子(eukaryotic translation elongation factor,eEFs)是一种重要的多功能调控蛋白,eEF1β是eEF1的组成部分,在蛋白质生物合成过程中发挥着重要的作用。本文通过RT-PCR扩增克隆小麦(Triticum aestivum L.)的eEF1β基因,并命名为TaeEF1β。氨基酸同源性分析发现,TaeEF1β具有高度保守性,且其保守结构域位于137~226 aa处。qRT-PCR结果表明,中国小麦花叶病毒(Chinese wheat mosaic virus,CWMV)侵染小麦植株后,可以诱导TaeEF1β基因转录水平的上调表达。另外,本文也进一步分析了TaeEF1β基因在小麦根、茎、叶的表达水平和CWMV侵染不同时间点的表达情况。 相似文献
96.
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New strategies to enhance growth and productivity of food crops in saline soils represent important research priorities. This study has investigated the role of certain priming techniques to induce salt tolerance of bread wheat. Wheat grains were soaked in 0.2 mm sodium nitroprusside as nitric oxide donor (redox priming), diluted sea water (halopriming) and the combination of both (redox halopriming). Grains were also soaked in distilled water (hydropriming); in addition, untreated grains were taken as control. Our results indicated that priming treatments significantly improved all growth traits and increased leaf pigments concentration as compared to the control. Priming treatments markedly enhanced membrane stability index, proline, total soluble sugars and K+ concentration with simultaneous decrease in the concentration of Na+ and malondialdehyde (MDA). Furthermore, yield and yield‐related traits such as plant height, spike length, total number of tillers, 1000‐grain weight, straw and grain yield considerably affected by priming treatments. Moreover, the grain yield of both genotypes was positively affected by redox halopriming treatment. However, the extent of enhancement was more prominent in Gemmiza‐9 (salt sensitive) than that in Sakha‐93 (salt‐tolerant). Overall, this study clearly indicated that redox halopriming treatment is a promising and handy technique to induce salinity tolerance of wheat genotypes. 相似文献
99.
Application of imidacloprid controlled-release granules to enhance the utilization rate and control wheat aphid on winter wheat 下载免费PDF全文
YUAN Wan-ling XU Bo RAN Gang-chao CHEN Hui-ping ZHAO Peng-yue HUANG Qi-liang 《农业科学学报》2020,19(12):3045-3053
During winter wheat production, aphids need to be controlled with pesticides for the entire growth period. Controlled-release technology has been regarded as an alternative method for the improvement of pesticide efficiency. This study investigated two types of imidacloprid controlled-release granule (CR-GR): 2% imidacloprid CR-GR and 0.2% imidacloprid pesticide-fertilizer controlled-release granule (PF-CR-GR) when wheat was sown in winter. The release performance, utilization rate, terminal residues in edible parts, control effect on aphids, and achieved winter wheat yield were evaluated for both laboratory experiments and field application. Imidacloprid PF-CR-GR released more quickly in aqueous medium than CR-GR because of its good water solubility. After CR-GR treatments, the concentrations in wheat roots and soil were similar throughout the entire sampling period, and the concentrations in shoots were about 10–20% of those in roots. Imidacloprid was better absorbed when CR-GR was used as root treatment, compared with foliar treatment. Field application showed that imidacloprid CR-GR and PF-CR-GR controlled aphids throughout the entire growth period of winter wheat and improved the wheat yield. These findings identified application of imidacloprid CR-GR and PF-CR-GR on winter wheat as an effective way to enhance the pesticide utilization rate and ensure adequate yield. This paper provides a theoretical basis for the scientific use of pesticides and guides scientific pesticide application. 相似文献
100.
Modelling Wheat Stomatal Resistance in Hourly Time Steps from Micrometeorological Variables and Soil Water Status 下载免费PDF全文
An accurate estimation of stomatal resistance (rS) also under drought stress conditions is of pivotal importance for any process‐based prediction of transpiration and the energy budget of real crop canopies and quantification of drought stress. A new model for rS was developed and parameterized for winter wheat using data from field experiments accounting for the influences of net radiation (RNet), air temperature (TAir) and vapour pressure deficit of the atmosphere (VPD) interacting with an average water potential in the rooted soil (ψRootedSoil). rS is simulated with a limiting factor approach as maximum of the metabolic (related to photosynthesis) and hydraulic (related to drought stress) acting influences assuming that, if drought stress occurs, it will dominate stomatal control: rS = max(rS(TAir), rS(RNet), rS(VPD, ψRootedSoil)). This transitional approach is suited to reproduce measured daily time courses of rS with a varying accuracy for the single measurement dates but performed satisfactorily for the whole data set (r2 = 0.63, RMSE = 59 s m?1, EF = 0.60). This new semi‐empiric approach calculates rS directly from external environmental conditions. Therefore, it can be easily implemented in existing model frameworks as link between operational crop growth models that use the concept of radiation use efficiency instead of mechanistic photosynthesis modelling and soil–vegetation–atmosphere transport models. 相似文献