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我们以抗冷性不同的玉米幼苗(1—4级,抗冷性递减)为材料,研究了其线粒体ATP酶在11℃、24℃的活力、温度变化时其活化能(Ea)的突变温度以及线粒体膜脂脂肪酸组成。结果表明在11℃条件下,ATP酶活力随品种抗冷性增加而增强;酶活化能折,点温度随品种抗个性增加而降低,脂肪酸的不饱和指数随品种抗个性增加而增大。这说明膜脂不饱和度控制着ATP酶的活力,Ea的折点温度受膜流动性的影响并与品种抗冷性有关,我们认为ATP酶Ea的折点温度可作为玉米幼苗抗个性生化指标。另外通过玉米幼苗抗冷性锻炼表明:ATP酶Ea折点温度没变化,说明幼苗抗冷潜力很小。 相似文献
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低温胁迫对青椒苗期和花期脱落酸含量的影响 总被引:9,自引:2,他引:7
以抗冷性较强和较弱的6个青椒品种为试材,分析青椒品种苗期和花期在8,12,15和25℃温度处理下叶片脱落酸的含量变化。结果表明,无论是在苗期还是花期,脱落酸含量均随处理温度下降而上升,且其含量变化在8和12℃时与青椒抗冷性呈显著或极显著正相关 相似文献
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以22个不同番茄品种为材料,在温度8℃/5℃(昼/夜)、光照强度4000lx处理5d后,以温度25℃/15℃(昼/夜)为对照进行抗冷性鉴定。分析探讨了番茄幼苗的相对电导率、丙二醛、VC含量及过氧化氢酶活性(CAT)4个生理指标的变化及其与抗冷性的关系,筛选出了抗冷性较强的番茄品种。 相似文献
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低温对青椒幼苗过氧化物酶和超氧物歧化酶活性的影响 总被引:10,自引:1,他引:9
以抗冷性较强的Little Friend、湘研7号、中椒3号和抗冷性较弱的中椒4号、茄门和牟农1号6个青椒品种为试材,分析测定了青椒幼苗在8,12,15和25℃的不同温度处理下过氧化物酶(POD)和超氧物歧化酶(SOD)的活性变化。结果表明,8和12℃处理温度下,POD活性变化在不同抗冷性品种间差异显著,并与品种抗冷性呈显著或极显著的正相关;SOD活性在所有温度处理下变化不大,但随处理温度的降低,有缓慢增加的趋势。 相似文献
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低温对辣椒幼苗膜脂过氧化和保护酶系统变化的影响 总被引:47,自引:1,他引:47
在低温胁迫下,对两种耐冷性不同的辣椒品种幼苗的质膜透性,MDA含量和保护酶活性变化进行比较研究,结果表明,随温度降低,两个品种质膜透性和MDA含量增大,CAT活性降低,SOD和POD活性增高.其中质膜透性与MDA含量、SOD和POD活性变化呈正相关,与CAT活性变化呈负相关.随着低温持续时间延长,两个品种质膜透性和MDA含量增大;SOD和CAT活性降低,POD活性增高.耐冷性强的西杂7号能维持较高的保护酶活性,质膜透性小,MDA含量低;而耐冷性弱的哈椒1号则相反.在5℃低温下处理1天,以上测定项目均可作为辣椒耐冷性苗期鉴定指标. 相似文献
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低温对不同抗冷性玉米幼苗H_2O_2及其清除酶类的影响 总被引:4,自引:0,他引:4
在低温时,抗冷性不同的两个玉米品种的 H_2O_2含量升高,过氧化氢酶,过氧化物酶活性下降,同工酶数增加,且前三个指标的变化都是不抗冷品种大于抗冷品种,这说明,这三个指标可以作为玉米幼苗抗冷性的指标。从试验结果可知,低温处理到第四天 H_2O_2含量、过氧化氢酶活性又恢复到对照水平;并在低温胁迫时,如上指标的变化幅度苗期要大于芽期。这说明,玉米幼苗对低温胁迫具有适应力,其冷害敏感性苗期大于芽期。低温胁迫时,两品种过氧化物同工酶数都有增加,且只发生在特定的区带,这个结果支持这样的观点即植物抗冷性只与同工酶的一定类型有关。 相似文献
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[目的]探索花粉萌发率与苦瓜植株耐冷性的关系,为筛选强耐冷性苦瓜品种提供参考.[方法]在9、12、15、18和25℃温度条件下,将10个苦瓜材料的花粉在培养基中培养,调查花粉萌发率,筛选可区别苦瓜材料的适宜温度.利用筛选的温度对不同苦瓜材料花粉萌发进行测定,同时苗期进行10℃冷害指数测定,分析两者的相关性.[结果]15℃可作为区别不同材料花粉萌发率的适宜温度.根据不同苦瓜材料在15℃下花粉萌发率和10℃低温处理的冷害指数差异显著性,均可将参试苦瓜材料分为3个耐冷类型,两者反映的苦瓜耐低温性能基本一致.15℃苦瓜花粉低温萌发率与植株冷害指数间呈显著负相关,相关系数为-0.8646.[结论]花粉低温萌发率可作为苦瓜品种耐冷性的鉴定指标. 相似文献
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《延边大学农学学报》2020,(1)
以15份省内外优质水稻种质为试验材料,进行了低温胁迫下水稻发芽期、芽期耐冷性鉴定,从中挑选出5个耐冷性较强的品种进行苗期、分蘖期、减数分裂期、灌浆结实期保护酶活性的差异比较。结果表明:龙稻18、九稻68、通禾66、吉粳511在发芽期耐冷性较强,上育397、吉粳809在芽期耐冷性较强。不同品种在不同生育时期抗氧化酶活性表现不同,其中,吉粳511在苗期和灌浆结实期酶活性较高,通育266在分蘖期和灌浆结实期酶活性较高,龙稻18在减数分裂期酶活性较高;各试验品种的酶活性随生育进程整体表现出先升后降的趋势。 相似文献
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据杭州27年的气象资料、生产实践以及自然和人工控温条件下的耐冷性试验,籼稻苗期耐冷性鉴定的适宜处理条件为3叶期于10℃(昼)/6℃(夜)低温下连续处理7天或6叶期在同样温度下连续处理5天,并以秧苗卷叶程度确定其耐冷性。64份早籼品种的耐冷性表明,同一品种,3叶期和6叶期的耐冷性存在显著差异,一般6叶期弱于3叶期。根据不同叶龄期的耐冷性强弱,供试品种主要可以分为3强6强、3强6弱、3弱6强、3弱6弱4种类型。圭陆矮8号、矮南早39、早丰收等耐冷性较强,可用于早籼的耐冷性育种。 相似文献
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东乡野生稻苗期根系耐冷性生理生化特性 总被引:4,自引:0,他引:4
利用沙培法,研究了耐冷性不同的东乡野生稻和水稻品种幼苗在不同低温胁迫下根系活力、CAT活性、POD活性及MDA含量等根系生理活性的变化规律。结果表明:不同耐冷性水稻品种在3叶1心期经过3d的不同低温胁迫后,其根系生理活性发生了显著变化。强耐冷东乡野生稻和东野1号的根系活力、CAT活性和POD活性都随着低温胁迫的加剧而呈现先降后升再降的趋势;冷敏感的2个籼稻品种的根系活力和CAT活性则一直呈下降趋势,POD活性却先升后降;4个水稻品种的MDA含量都随着低温胁迫的加剧而加幅上升,但2个冷敏感品种的增幅更大。另外,常温或轻微低温胁迫下,冷敏感品种的CAT活性和POD活性不一定比强耐冷品种低。因此,认为低温胁迫下根系活力和根系MDA含量的相对大小可作为耐冷性生理鉴定指标。 相似文献
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【目的】对广西双季稻区早稻品种芽期和幼苗期耐低温淹水能力进行评价,为广西稻区直播早稻品种选择供参考。【方法】以25个水稻品种为试验材料,基于人工模拟低温环境,设低温淹水[日均温5 ℃(12 h光照+12 h黑暗),发芽盒水层深度5 cm]和对照[日均温5 ℃(12 h光照+12 h黑暗),发芽盒水层深度3 mm]2个处理,对供试品种已催芽的种子培养处理10 d,处理结束后,恢复到28 ℃条件下继续培养10 d,使种子恢复生长。测定成苗率、根长、根数、苗高、单株鲜重、地上部鲜重和根鲜重,通过隶属函数值分析和相关分析,对其耐低温淹水能力进行综合评价和筛选。【结果】25个水稻品种的成苗率胁迫系数存在明显差异,变幅为0~1.00,平均胁迫系数为0.935。各指标胁迫系数的相关分析结果表明,成苗率与单株地上部鲜重呈显著正相关(P< 0.05,下同),与其他性状也呈正相关,但相关性未达显著水平(P> 0.05)。苗高与根长、地上部分鲜重和根鲜重呈极显著正相关(P< 0.01),与根数和株鲜重呈显著正相关。根据隶属函数值将供试品种的耐低温淹水胁迫能力分为强、中、弱3种类型,其中耐性强的品种有9个,分别为桂育12号、五山丝苗、优质农家种2号、桂育9号、金丝苗、象州香米、河西丰占、Y两优1号和桂育11号;与耐性弱和耐性中的水稻品种比较,耐性强的水稻品种在根长、根数、根鲜重和苗高上有明显优势。与对照相比,低温淹水胁迫下,幼苗的根长、根数、苗高、单株鲜重、地上部鲜重和根鲜重均有所降低,其中根长降幅最大,达19.0%,其次是根鲜重和根数,降幅分别为18.2%和16.3%。【结论】成苗率、根系指标(根长、根数和根鲜重)和苗高可作为直播早稻耐低温淹水逆境胁迫的关键筛选指标。桂育12号等9个品种可直接用于广西直播稻生产上,也可为水稻耐低温淹水机理研究及培育适合机直播的水稻品种提供材料。 相似文献
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The roots of figleaf gourd (Cucurbita ficifolia, as rootstock) could improve the resistance of cucumber plants (Cucumis sativus L. cv. Jinyan 4, as scion) to low temperature. In this experiment, the root activity and photosynthetic activity of photosystems in the own-rooted and grafted-cucumber plants were studied at chilling temperature (4℃) under low irradiance (100 μmol m^2 s^-1 PFD). Compared with dark adaptation seedlings, the chlorophyll a fluorescence transient curve and the oxidizable P700 (P700+) of both the own-rooted and grafted seedlings decreased, and PS2 and PS1 of the own-rooted seedling leaves were more inhibited than that of grafted ones at the end of chilling stress. The reduced triphenyltetrazolium chloride (TTC), which was used to reflect the root activity, kept stable in grafted seedling roots at the end of chilling stress, while it decreased noticeably in the own-rooted seedling roots. These results implied that the root system activity of the grafted seedling roots was higher than that of the own-rooted ones. Superoxide dismutase (SOD) activity was higher in both the grafted seedling roots and leaves than that in own-rooted seedlings at both room temperature and chilling temperature. Upon exposure to chilling stress, the malondialdehyde (MDA) content, which reflects the degree of lipid peroxidation, increased markedly in the own-rooted seedling roots and leaves and kept stable in the grafted-cucumber seedlings. 相似文献
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XU Sheng-chun LI Yong-ping HU Jin GUAN Ya-jing MA Wen-guang ZHENG Yun-ye ZHU Shui-jin 《中国农业科学(英文版)》2010,9(11):1594-1601
Chilling is one of the major abiotic stresses limiting yield and quality of many important crops. For better understanding of chilling stress responses in tobacco (Nicotiana tabacum), growth rate and antioxidant enzymes of seedlings in 2 tobacco cultivars, viz., MSk326 (chilling sensitive variety) and Honghuadajinyuan (HHDJY, chilling tolerant variety) at chilling temperature (5℃) were studied. The results showed that the relative growth rate in chilling period to that in recovery period was significantly higher in roots than that in shoots for both cultivars, suggesting that shoots growth was more easily affected by chilling stress. Chilling stress increased peroxidase (POD) activity and reduced superoxide dismutase (SOD) activity in shoots of HHDJY, and catalase (CAT) activity was little affected. In the roots of HHDJY, chilling stress increased SOD and CAT activities, and had little effect on POD activity. For MSk326, chilling treatment increased SOD activity in shoots and declined CAT activity in roots. MDA concentration in both varieties was increased under the chilling stress, while it was decreased after seedlings were recovered growth for 4 d at normal temperature (25℃). It showed that tobacco seedlings might have the capacity of recovering from chilling injury for a short term, The relationship between the growth rate and antioxidant enzyme activity was analyzed by stepwise regression. It was found that there was a close relationship between relative growth rate of tobacco seedlings and CAT activity under chilling stress condition and regression equations containing CAT could be used in predicting seedling growth rate of tobacco under chilling stress condition. 相似文献