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1.
李幸 《种子世界》2006,(8):35-35
拔节期到抽穗期是玉米旺盛生长期,茎叶增长速度决、增长量大,雌雄幼穗不断分化形成,需水量很大。抽穗开花期是需水临界期,需水量达到高峰,对水分的反应最敏感。灌浆期需要水为介质运输营养物质,需水量也较大。从拔节到灌浆期干旱会扰乱植株的正常生理代谢过程,使光合作用受抑制,合成产物量减少,而呼吸作用增强,加速物质的分解,消耗大于积累,造成营养缺乏。干旱导致萎蔫也会造成正在分化的幼穗或正在灌浆的籽粒的水分流向茎,而使幼穗分化和籽粒灌浆过程受阻,小花分化数目少。影响雄穗的抽出和雌穗的吐丝,延缓授粉,严重时会造成花粉、花丝丧失生活力,果穗上籽粒的数量减少,造成穗小、缺粒,甚至幼穗分化停止,形成空秆。  相似文献   

2.
低温对玉米光合作用、超氧物歧化酶活性和籽粒产量的影响   总被引:12,自引:0,他引:12  
张毅  顾慰连  戴俊英 《作物学报》1992,18(5):397-400
玉米在孕穗期和灌浆期,尤其是在孕穗期遇低温逆境会导致光合速率下降,光合有效叶面积降低,叶片和雌穗(或籽粒)超氧物歧化酶(SOD)活性下降、丙二醛含量剧增和相对电导率提高,造成低温冷害。孕穗期低温处理主要抑制了雌穗分化和发育,减少了穗粒数,灌浆期低温逆境主要影响了籽粒灌浆,致使百粒重下降,引起产量降低。  相似文献   

3.
玉米对涝害的反应以生育前期较敏感,三叶期、拔节期和雌穗小花分化期淹水3天使单株产量分别降低13.2%、16.2%和7.9%,而开花期和乳熟初期淹水3天则未造成减产.生育前期涝害首先抑制根系的生长和吸收活动,进而间接影响地上部器官的生长和干物质生产.但雌小花分化期和开花期淹水明显地促进了气生根的发生.  相似文献   

4.
水分胁迫对玉米生长发育及产量形成的影响研究   总被引:10,自引:3,他引:7  
采用人工控制水分的方法,研究玉米生长发育和产量形成对水分胁迫的响应。研究结果表明:干旱胁迫导致玉米生长发育缓慢和减产程度的大小,因胁迫时期、胁迫程度及持续时间而不同。干旱胁迫对株高的抑制作用:拔节孕穗期>抽雄吐丝期>苗期,其中苗期株高在复水后得到了超补偿。受水分胁迫影响穗重、穗粒重和穗粒数都呈减少的趋势,变化幅度为穗粒数>穗重>穗粒重,不同生育期干旱胁迫处理的减产幅度为抽雄吐丝期>拔节孕穗期>苗期。苗期、拔节孕穗期和抽穗开花期减产程度分别达到30%、70%和90%以上。  相似文献   

5.
为探明不同水分胁迫的时间和程度对水稻籽粒淀粉合成和产量的影响。以宜香优2115为试验材料,在2018-2019年分别在孕穗期、开花期、灌浆期进行轻度(-20±5)kPa、中度(-40±5)kPa、重度(-60±5)kPa水分胁迫处理,以淹水灌溉为对照(0 kPa, 1~3 cm水层),测定分析籽粒糖和淀粉含量、淀粉合成相关酶活性及产量。结果表明,在孕穗期、开花期、灌浆期,轻度水分胁迫使水稻籽粒中的可溶性糖和蔗糖含量降低,最大降幅分别为33.7%,14.3%,直链淀粉和总淀粉含量增加,最大增幅分别为2.4%,4.4%,中度和重度水分胁迫则反之;ADPG焦磷酸化酶(AGPase)、可溶性淀粉合成酶(SSS)、颗粒结合淀粉合成酶(GBSS)、淀粉分支酶(SBE)、淀粉去分支酶(DBE)活性随灌浆进程呈先升后降的趋势,轻度水分胁迫使灌浆中后期5种酶活性及峰值活性提高,而中度和重度水分胁迫则降低;结实率仅在灌浆期轻度水分胁迫下增加,增幅为3.1百分点,3个时期轻度水分胁迫使千粒质量均增加,最大增幅为3.7%,孕穗期水分胁迫不利于水稻产量的提高,灌浆期和开花期进行轻度水分胁迫使产量增加,增幅分别为0.8%,9.3%。因此,宜香优2115在开花期和灌浆期轻度水分胁迫可提高淀粉合成关键酶的活性,促进籽粒淀粉的合成和积累,进而提高产量,在增幅方面灌浆期大于开花期。  相似文献   

6.
玉米雌穗分化与籽粒发育及败育的关系   总被引:8,自引:2,他引:6  
以郑单958 (ZD958)和登海661 (DH661)为试材,比较研究了4.5、7.5、10.5万株hm-2三个种植密度下,雌穗分化与籽粒发育及败育的关系。结果表明,密度对玉米雌穗原基开始分化的时间无影响(不同密度下,穗原基均在播后28~29 d左右开始分化),对吐丝期分化的小花总数影响很小。但是高密度推迟了雌穗的分化进程,增加了败育花和未受精花的数目,导致正常成熟小花数目的降低。与低密度相比,高密度下DH661正常小花数减少了100.0个,ZD958减少了76.4个。高密度加大了雌雄穗吐丝开花间隔,降低了吐丝植株的比例(DH661吐丝植株占93.64%;ZD958的占81.80%),推迟了吐丝时间,使单株吐丝量减少,散粉持续时间缩短,导致败育增加。正常受精的小花在灌浆期也会发生籽粒败育,尤其是在花后10 d左右败育严重。相关分析表明,玉米最终的穗粒数与开花期以及花后10 d、20 d的冠层底部透光率相关性显著,花败育率与开花前冠层底部透光率显著负相关。  相似文献   

7.
在全球气候变化背景下,生育期内光照不足已成为制约玉米产量提高的主要因素之一,增加了全球粮食生产和营养安全的风险。本文从光合性能、养分吸收特性、籽粒形成与灌浆特性等方面系统总结了弱光胁迫影响玉米产量形成的生理机制。弱光降低了叶片捕光能力,基质和基粒类囊体结构解体,相关酶活性降低,光系统受到损伤,碳同化能力降低,进而抑制根系发育,影响根系形态和功能,不利于养分吸收和代谢。由于营养供应不足,雌、雄穗发育受阻,花粉和花丝的形态功能受到影响,导致小花受精率低,穗粒数降低。弱光条件下,胚乳细胞数量——“库”容量降低,胚乳传递细胞结构和功能受到影响,内源激素平衡被打破,蔗糖-淀粉代谢相关酶活性下降,茎节维管束数目和面积减少,物质转运和转化能力降低,导致淀粉充实状态差,粒重降低。因此,为缓解弱光胁迫对玉米产量形成的影响,亟须创建系统评估耐阴品种的指标,利用现代育种技术加快培育出高光效耐阴新品种,采取增施氮肥、去除顶部叶、喷施生长调节剂和叶面肥等栽培措施提高产量。未来研究需要注重根冠协调,深入探讨弱光胁迫的作用机理,为玉米抗逆增产关键技术的创建提供理论依据。  相似文献   

8.
了解植物对高温胁迫反应的分子机制对提高作物的耐高温特性具有重要意义。本文综述了植物响应高温胁迫的分子机理,以及高温胁迫对玉米生长的影响,并以豫北一个玉米试验点河南省辉县市气象资料为例,说明应重点关注高温胁迫对玉米穗分化期、开花期和灌浆期造成的影响。  相似文献   

9.
陶志强  闫鹏  张学鹏 《作物杂志》2021,37(4):73-166
为探讨随时代发展我国玉米品种在更替过程中植株光合特征对灌浆期高温胁迫的适应性,选用3个不同年代的玉米主栽品种白单4号(1960s)、中单2号(1980s)和郑单958(2000s),设置2个播种期(2018年4月15日和4月25日)形成2个灌浆期高温胁迫处理,比较2种便携式光合分析仪(SPAD-502叶绿素仪和SunScan植物冠层分析仪)测定灌浆期穗位叶叶绿素相对含量(SPAD)、群体叶面积指数(LAI)和群体基部光合有效辐射(PAR)等光合特征的差异,对基于籽粒产量计算得到的耐热指数(STI)与SPAD、LAI和基部PAR进行相关性分析。结果表明,玉米品种随着时代的发展,遭受灌浆期高温胁迫后,产量逐渐提高、产量降幅逐渐减少、STI逐渐提高;单株玉米穗位叶的SPAD值和群体LAI的降幅逐渐减少,群体基部PAR的增幅逐渐减少;STI与SPAD值、LAI的降幅、基部PAR的增幅均达显著负相关(P<0.05)。综合研究结果可知,玉米品种随着时代的发展增强了自身对灌浆期高温的适应能力,当遭受灌浆期高温胁迫时,能够保持较高的单株叶片光合能力、群体光合有效辐射的截获和利用能力,进而提供充足的光合同化物,满足产量形成的需要。  相似文献   

10.
通过筛选抗旱玉米品种和抗旱评价指标,进而对其进行生理生化研究,最终实现干旱半干旱地区玉米抗旱节水,是研究玉米高产高效的重要课题。采用盆栽试验方法,选用辽宁省近几年最新选育的12个玉米杂交种,在水分胁迫条件下,对苗期、抽雄吐丝期和灌浆期玉米形态和光合生理等性状特征进行了研究和分析,找出了不同时期水分胁迫下光合抗旱指数与产量抗旱指数的相关性,筛选出了抗旱性较强的玉米品种。结果如下:苗期水分胁迫缩短了58%供试品种抽雄至散粉期时间,延长了83%供试品种的ASI,而铁研120在水分胁迫处理后ASI比对照短,且和其他品种相比,该品种苗期叶片叶绿素含量较高。相关分析表明,灌浆期水分胁迫处理,光合抗旱指数与产量均呈正相关关系,其中,蒸腾速率抗旱指数与产量抗旱指数相关性较强。不同水分胁迫时期的产量抗旱等级划分结果显示,铁研120和铁研58综合抗旱性较强,在苗期、抽雄吐丝期和灌浆期受到水分胁迫,在籽粒成熟期均能获得较高产量。  相似文献   

11.
There is a lack of studies that have investigated grain yield, its components and photosynthesis in late stages of wheat growth, giving us insufficient understanding of how these factors interact to contribute to yield during this period. As a result, three field experiments were carried out examining 20 winter wheat genotypes of diverse origins under irrigated, terminal drought and dryland conditions in the southern Idaho. Our objective was to evaluate the interaction between post‐anthesis physiological traits, especially leaf‐level photosynthetic capacity, senescence and yield components on grain yield in different moisture regimes. Genotype differences were found in leaf‐level photosynthesis and senescence, canopy temperature depression, grain yield and yield components in each water regime. Grain yield was closely associated with traits related to grain numbers. In all three moisture regimes, positive correlations were observed between grain yield and photosynthesis that were dependent on the timing or physiological growth stage of the photosynthetic measurement: highly significant correlations were found in the mid‐ and late grain filling stages, but no correlations at anthesis. Consistent with these findings, flag leaf senescence at the late grain filling stage was negatively correlated with grain yield and photosynthetic rate (under terminal drought and dryland conditions). These findings provided evidence that grain yield was sink‐limited until the final stages of growth, at which time sustained photosynthesis and delayed senescence were critical in filling grain. Because the trends were consistent in moisture sufficient and deficient conditions, the results suggest that late‐season photosynthesis and delayed leaf senescence are driven by the size of the reproductive carbon sink, which was largely governed by factors affecting grain numbers.  相似文献   

12.
种植密度、氮肥和水分胁迫对玉米产量形成的影响   总被引:21,自引:1,他引:20  
为阐明种植密度、氮肥和水分胁迫对不同玉米品种产量形成的影响,选用6个玉米品种,在两种密度(45 000株 hm-2和75 000株 hm-2)、两种施氮水平(纯氮112.5 kg hm-2和337.5 kg hm-2)和两种水分(前期干旱控水和正常灌水)处理下进行大田试验,调查玉米源库性状的主要生理参数和籽粒产量。结果表明,在环境压力较小时(低密度、高氮和正常灌水),玉米品种间籽粒产量、源性状(叶面积指数、穗位叶净光合速率和群体源供应能力)、库性状(群体库容量)、源库协调性状(群体库源比值、籽粒灌浆速率和收获指数)以及成熟期干物质积累量和吐丝期至成熟期干物质积累量差异较小,而逆境胁迫下(高密度、低氮和干旱),差异较大。环境压力较大时(高密度、低氮和干旱),叶面积指数、群体源供应能力、成熟期干物质积累量、吐丝期至成熟期干物质积累量、群体库容量和收获指数与籽粒产量呈显著或极显著正相关。由此说明,在玉米品种产量改良中要强化逆境人工选择,以适应自然选择,改善玉米品种逆境下的群体源库性状,增强吐丝期至成熟期叶片的光合生产效率,强源促库,提高逆境下的生产能力和适应性。  相似文献   

13.
超级稻叶片光合特性和根系生理性状与产量的关系   总被引:11,自引:0,他引:11  
付景  陈露  黄钻华  王志琴  杨建昌 《作物学报》2012,38(7):1264-1276
为阐明超级稻产量形成机理, 以4个超级稻品种[两优培九和II优084 (杂交籼稻)、淮稻9号和武粳15 (粳稻)]为材料, 2个高产品种[汕优63 (杂交籼稻)和扬辐粳8号(粳稻)]为对照, 观测了不同生育时期叶片光合性状和根系生理性状的变化特点。结果表明, 4个超级稻品种的平均总颖花量和产量较两个对照品种分别高出43.5%和16.1%, 但超级稻的结实率较对照品种低15.3个百分点。超级稻品种在生育前期叶片中叶绿素a含量、叶绿素b含量、总叶绿素含量、类胡萝卜素含量、光合速率、蒸腾速率、气孔导度和根系中单位干重根系活力、每株根系活力、总根系吸收面积、活跃吸收面积和比表面积均高于对照品种, 而在生育后期以上性状下降速率大于各自对照品种, 直至齐穗后20 d前以上性状指标均小于各自对照品种。说明超级稻强大的产量库容与其生育前中期较强的叶片光合能力和较好的根系生理性状密切相关, 生育后期叶片光合能力和根系生理活性下降快导致其结实率下降, 从而限制了其产量潜力的发挥。提高生育后期特别是结实后期根系生理活性是进一步提高超级稻产量的重要途径。  相似文献   

14.
The aim of the study was to investigate source‐sink relations of wheat under continuous heat stress and to identify bottle necks of yield formation. A pot experiment was conducted in two climatic chambers exposing wheat plants (Triticum aestivum L. cv. Thasos) either to day/night temperatures of 20/20°C (control conditions) or of 30/25°C (heat stress) during the whole vegetation period in the absence of plant water deficit. Plants were harvested at four phenological stages: three‐node stage (DC 33), start of flowering (DC 61), grain filling (DC 75) and maturity (DC 94). Heat stress shortened the development phases of the plants and caused a significant decrease in total above‐ground biomass between 19% and 41%. At grain filling and at maturity, the reductions in total shoot biomass mainly resulted from grain yield depressions by 77% and 58%, respectively. The ear number per plant was significantly higher under heat stress in comparison with the control, at maturity it was more than doubled. On the contrary, under heat stress, the kernel number per ear was strongly decreased by 83% and 75% during grain filling and at maturity, respectively. The decrease in individual kernel weight was 23% at maturity. Thus, the heat‐stressed plants were able to strongly increase the number of ear‐bearing tillers which were able to set only a small number of kernels, yet these kernels showed good grain filling. The harvest index (HI) of heat‐stressed plants was significantly reduced by 36% (control: HI = 50.1% ± 0.4, heat: HI = 32.2% ± 0.9***). The plants in the stress treatment adapted to the adverse conditions by less biomass production which presumably allowed a higher transpiration without an increase in total water consumption. Nevertheless, under heat stress, the water use efficiency (WUEgrain) was strongly decreased by 62% as a result of a small grain yield. In ears and grains, the sucrose, glucose and fructose concentrations were not significantly different between control and heat stress at start of flowering and during grain filling. Thus, the supply of assimilates was not restricted (no source limitation). Sink capacity was reduced by heat stress, as lesser and smaller kernels were produced than in the control. Concerning sink activity, the sink‐limiting step during kernel set is probably the active transport of hexoses across the plasma membrane into the developing kernels, which could also affect grain filling. This needs to be investigated in more detail in further studies.  相似文献   

15.
在新疆气候生态条件下,以不同叶型棉花品种为材料,设置不同土壤水分处理,采用人工减源疏库的方法,研究不同土壤水分条件下库源比变化对棉花产量形成的影响。结果表明,中叶型品种新陆早13号在中水(控制0~60 cm土壤相对含水量的下限为田间持水量的70%~75%)条件下,叶源轻度胁迫显著增强剩余叶片光合能力,但光合物质累积量及向生殖器官的分配率和单株结铃数、铃重均未发生明显变化,子棉产量与对照无明显差异;鸡脚叶型品种标杂A1在高水(控制0~60 cm土壤相对含水量的下限为田间持水量的85%~90%)条件下,库容轻度胁迫后叶片光合速率和光合物质累积量与对照无明显差异,但光合产物向蕾铃的分配加快,铃重增大,子棉产量有所增加;小叶型品种新陆早10号减源或疏库后子棉产量均显著低于对照。因此,依据不同类型棉花源库关系对土壤水分的响应不同,通过棉田水分管理对源库进行调节,建立合理的库源比,可进一步提高水分利用效率和棉花产量。  相似文献   

16.
为探讨不同施氮水平对水稻剑叶光合、籽粒灌浆特性和产量的影响。以生育期较短的‘新稻567’、‘新稻568’和‘新科稻31’为试验材料,在直播种植模式下,设置3个施氮水平0、255、300 kg/hm2,分别测定抽穗后剑叶光合速率、强弱势籽粒灌浆速率和产量等指标,研究氮肥调控水稻产量的生理机制。结果表明,随着施氮量的增加,3个品种产量均呈先增加后降低的趋势;高效叶面积率和粒叶比表现为中氮水平较高,高氮水平较低。灌浆期剑叶光合速率呈先增加后降低趋势,不同氮肥处理间基本表现为中氮处理高于高氮处理;强弱势籽粒灌浆速率在整个灌浆期内呈开口向下的抛物线趋势,不同氮肥处理间的差异在灌浆盛期至灌浆中后期较大,表现为无氮和中氮处理高于高氮处理,灌浆末期处理间差异较小。产量与灌浆期剑叶光合速率呈正相关关系,与强弱势籽粒灌浆速率在灌浆初期呈负相关在灌浆中后期呈正相关关系。适度的氮肥施用量有利于提高直播水稻高效叶面积率、粒叶比,增加剑叶光合速率、强弱势籽粒灌浆速率,从而促进水稻高产。  相似文献   

17.
研究黄淮海地区不同灌溉水平下冬小麦产量的变化规律,对于识别干旱对冬小麦产量的影响和制定合理的节水灌溉措施具有指导意义。基于DSSAT作物模型,参考各生育阶段的水分亏缺量以及当地的灌溉习惯,制定模型输入的不同处理的灌溉量,模拟分析近30年黄淮海灌溉冬麦区4个典型站点冬小麦关键生育期不同灌溉水平下,产量及产量构成的相对变化规律,并且以典型处理为例,探讨2个关键生育阶段减产的累积概率。结果表明,拔节至抽穗期的水分胁迫对冬小麦的产量影响最大,产量相对变化主要由水分胁迫引起单位面积粒数的相对变化引起。在重度干旱条件下,拔节至抽穗期胁迫造成中等程度减产概率约为灌浆期胁迫的2倍(山东兖州点除外);在河北石家庄和天津点,轻度和重度减产主要由拔节至抽穗期胁迫引起,而在山东兖州和河南新乡点,拔节至抽穗期及灌浆期胁迫造成轻度减产概率差别不大,但灌浆期重度干旱导致一定概率的重度减产。因此,在黄淮海冬小麦灌区偏南部,不但要加强拔节至抽穗期的灌溉措施,还应该注重灌浆期的干旱风险。  相似文献   

18.
水分胁迫对花生不同器官非结构性碳水化合物含量的影响   总被引:1,自引:0,他引:1  
为探讨不同生育时期水分胁迫对花生不同器官非结构性碳水化合物(NSC)“库—源—流”间的变化动态,以‘花育20号’和‘花育27号’花生品种为试材,采用控制条件下的防雨棚池栽方法,研究了花生生长发育过程中不同生育时期水分胁迫下,非结构性碳水化合物(NSC)在花生叶片、茎、根和荚果等器官中的动态变化。结果表明,全生育期干旱胁迫使花生叶片、茎和根中可溶性总糖含量和淀粉均明显升高,但荚果中可溶性糖含量却明显降低。无论何生育时期受到干旱胁迫均使得叶片中可溶性糖含量峰值提前15天左右出现,“源”物质输出提前但输出量降低,叶片提前衰老。生育前期干旱胁迫使滞留在荚果中的NSC含量增加,结荚期后干旱胁迫反而利于荚果中NSC的转化。全生育期水分适宜处理叶片中NSC含量相对较低且变化较小。由此表明,干旱胁迫降低了NSC由源至库的运输和转化,使荚果“库”容量降低。  相似文献   

19.
The effects of panicle type and source‐sink relation on the variation in grain weight (GW) and quality within a panicle were investigated using four japonica (Oryza sativa L.) varieties differing in grain density and two source‐sink adjusting treatments. There were significant differences in GW and filling grain percentage (FGP) among superior and inferior grains for compact‐panicle varieties (Xiushui 994 and Xiushui 63), while not for loose‐panicle ones (Xiushui 11 and Chunjiang 15). The floret‐removal treatment significantly improved the development of inferior florets and reduced the differences in FGP and GW between superior and inferior grains for the compact‐panicle variety, while leaf‐deleting treatment reduced FGP and GW of both superior and inferior grains. For the loose‐panicle varieties, the two treatments had little effect. The difference in chalky grain percentage (CGP) and amylose content (AC) between the two kinds of florets was larger in compact‐panicle varieties than in loose‐panicle ones. Both floret‐removal and leaf‐deleting treatments caused the changes in CGP and AC of superior or inferior grains for compact‐panicle varieties, but not for loose‐panicle ones. The difference in starch content (SC) between superior and inferior grains was much larger for Xiushui 994 than for Xiushui 11, and the two varieties differed in the response of SC to the change of source‐sink relation. The differences in AGP‐glucose pyrophosphorylase (ADPG‐Ppase), starch branching enzyme (SBE) and soluble starch synthase (SSS) activities between the two kinds of grains were basically same for the two varieties, with superior being higher than inferior ones at early filling stage and smaller at later stage. In floret‐removal treatment, the activities of ADPG‐PPase, SSS, and SBE in superior grains of Xiushui 994 decreased at early filling stage and increased at middle or later stages. Meanwhile, the activities of SSS and SBE in both kinds of grains at early filling stage, and of ADPG‐PPase and granule‐bound starch synthase (GBSS) in inferior grains over the whole stage were increased. In leaf‐deleting treatment, the activities of ADPG‐PPase and SBE at early filling stage and GBSS at later filling stage were reduced in superior grains, while SSS activity at middle filling stage and SBE activity at later stage were increased.  相似文献   

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