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玉米在不同水分条件下开花相关性状的QTL分析 总被引:1,自引:0,他引:1
Drought is one of the most important factors influencing maize yield.QTL analysis for related traits under water stress will facilitate the understanding of genetic mechanisms of drought tolerance and provide the basis of marker-assisted selection.The present study conducted QTL analysis of flowering-related traits including days to tasseling,days to silking,days to anthesis and anthesis to silking interval(ASI) under different water regimes in Xinjiang and Beijing,using 139 F2∶3 families of A188×91 Huang 15.Totally 26 QTL were found to be associated with the flowering-related traits under normal water conditions,with the range of LOD of 2.62-8.40 and the range of phenotypic variance explained of 9.1%-43.2%.A QTL located near the marker"bnlg1176" on chromosome 8 controlled days to tasseling,days to silking and days to anthesis.Meanwhile,six QTL were found to be associated with the flowering-related traits under drought stress,with the range of LOD of 2.6-5.6 and the range of phenotypic variance explained of 9.5%-58.0%.A QTL also located near the marker "bnlg1176" on chromosome 8 controlled days to tasseling and days to silking,which could explain 16.6% and 20.5% of phenotypic variance.The genomic region near bnlg1176 on chromosome 8 is presumed to be an important region because eight QTL were found. 相似文献
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施氮模式对夏玉米产量和籽粒灌浆的影响 总被引:10,自引:1,他引:9
为进一步明确夏玉米在基肥和拔节期施肥的基础上增施吐丝肥的增产机理,于2011年在中国农业大学吴桥试验站布置了田间试验。共设置4种施氮模式:即模式Ⅰ,施氮量90 kg·hm-2(播前90 kg·hm-2);模式Ⅱ,施氮量190 kg·hm-2(播前150 kg·hm-2+拔节40 kg·hm-2);模式Ⅲ,施氮量250 kg·hm-2(播前90 kg·hm-2+拔节160kg·hm-2);模式Ⅳ,施氮量300 kg·hm-2(播前50 kg·hm-2+拔节150 kg·hm-2+吐丝100 kg·hm-2)。本研究对比分析了不同施氮模式对夏玉米产量和籽粒灌浆的影响。结果表明,在施基肥和拔节肥的基础上,再追施吐丝肥,与不施吐丝肥的模式相比,其吐丝后11~20 d、21~30 d、31~40 d内,每天增加的枯叶数分别减少0.01~0.02片、0.01~0.05片、0.02~0.04片;吐丝后穗位叶SPAD值的峰值有所提高,灌浆中后期SPAD值下降延缓;模式Ⅳ与模式Ⅲ相比灌浆速率峰值提高8.5%,籽粒体积得到显著提高。夏玉米吐丝后籽粒的吸氮量显著提高(模式Ⅳ籽粒吸氮峰值分别是模式Ⅰ、Ⅱ、Ⅲ的1.65倍、1.45倍、1.31倍),氮收获指数增加2.5~13.3个百分点,穗粒数增加。与穗粒数相比,吐丝期增施氮肥(模式Ⅳ)对千粒重的促进更显著,可改善夏玉米产量因子和部分穗部性状,与模式Ⅰ、Ⅱ、Ⅲ相比,分别增产200 kg·hm-2、300 kg·hm-2、400 kg·hm-2。夏玉米增施吐丝肥可以延缓吐丝后光合面积下降,从而为籽粒灌浆提供较多的源,最终提高粒重和产量。 相似文献
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夏玉米花丝生长发育动态的研究 总被引:2,自引:0,他引:2
以不同穗型的玉米品种为材料,对玉米花丝生长发育动态进行研究.结果表明,花丝的发生首先开始于果穗中下部,其次是基部和中部,顶部花丝出现最晚;花丝出现集中在开始出现后的最初两天.吐丝后第三天生长速率最大.中下部花丝最先抽出苞叶,其次是基部和中部,顶部最晚.前两天的吐丝总量超过50%,尤以第二天吐丝百分率最高.衰亡过程也开始于中下部,基部和中部其次,顶部最晚;每一根花丝从基部开始衰亡,然后向顶部逐渐推移.果穗短粗型的品种花丝发育比较集中、吐丝较快;果穗细长型的品种花丝发育较缓慢,吐丝期延长,发育较晚的顶部花丝不易吐出苞叶。 相似文献
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利用中单909(ZD909)与安农591(AN591)两个夏玉米主栽品种,调查雌穗基、中、顶部花丝伸长动态与叶片和穗轴关系特征。结果表明,雌穗基、中部花丝比顶部花丝先发育、先吐丝、先脱落。当有效积温达到900℃·d时,基、中部花丝开始发育,穗轴发育到最终长度的10%;当有效积温达到1 000℃·d时,基、中部花丝发育到最终长度的70%、60%并开始吐丝,穗轴发育到最终长度的50%左右,吐丝期前后花丝发育长度占总长度的65%以上,是决定花丝伸出苞叶的关键时期;当有效积温达到1 100℃·d时,花丝发育完全并脱落,穗轴发育到最终长度的80%以上。ZD909和AN591两个品种上述关系表现出了一致性。随后运用Logistic模型对花丝与穗轴动态伸长进行拟合,量化了花丝和穗轴发育进程。本文精确描述了花丝与穗轴伸长特征,该研究结果可以应用到对花丝与穗轴伸长发育的模拟上。 相似文献
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