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81.
Rouhollah Karimi Abdolhossein Rezaei Nejad Shahrokh Khanizadeh 《The Journal of Horticultural Science and Biotechnology》2016,91(4):386-395
The effects of exogenous application of abscisic acid (ABA) on anti-oxidant enzyme activities and photosynthetic capacity in ‘Sultana’ grapevine (Vitis vinifera L.) were investigated under cold stress. When vines had an average of 15 leaves, 0 (control), 50, 100, or 200 µM ABA was sprayed to run-off on all leaves of each plant. Twenty-four hours after foliar spraying with ABA, half (n = 5) of the water-only control vines and half (n = 5) of each group of ABA-treated plants were subjected to 4°C for 12 h, followed by a recovery period of 3 d under greenhouse conditions (25°/18°C day/night). The remaining plants in each treatment group were kept at 24°C. Cold stress increased H2O2 and malondialdehyde (MDA) concentrations in vine leaves, whereas all foliar ABA treatments significantly reduced their levels. Chilled plants showed marked increases in their total soluble protein contents in response to each ABA treatment. ABA significantly increased the activities of superoxide dismutase, peroxidase, catalase, and ascorbate peroxidase in cold-stressed grapevine leaves. In contrast, cold stress markedly decreased the rates of leaf photosynthesis (A) and evaporation (E), stomatal conductance (gs), and chlorophyll concentrations in leaves, but increased intercellular CO2 concentrations (Ci) in leaves. Treatment with all concentrations of ABA resulted in lower leaf A, E, and gs values, but higher Ci values at 24°C. However, following cold stress, ABA-treated vines showed higher leaf A, E, and gs values, but lower Ci values compared to control vines without ABA treatment. The application of 50–200 µM ABA allowed chilled vines to recover more quickly when re-exposed to normal temperatures, enabling the vines to resume their photosynthetic capacity more efficiently following cold stress. These results showed that, by stimulating anti-oxidant enzyme systems and alleviating cold-induced stomatal limitations, ABA reduced the inhibitory effect of cold stress on the rate of CO2 fixation in ‘Sultana’ grapevine plants. 相似文献
82.
稗草影响大豆根瘤固氮的机制研究之一——水分干扰机制 总被引:2,自引:0,他引:2
在全自控人工气候室内系统研究了稗草对大豆根瘤固氮的水分干扰机制。稗草在每盆3株的密度下使播后53-63淹水期间及淹水期后1天的大豆单株根瘤固氮速率平均分别比无草对照提高了16.6%和30.0%,在每盆10株的密度下分别使其比无草对照提高了34.2%和67.5%。在不淹水的情况下播后30-70天,稗草在每盆3株和10株的密度下使其所在处理的平均日蒸发蒸腾量分别比无草对照增加了23.8%和50%,削弱了水分对大豆植株的供应水平;而土壤水分供应水平从其田间持水量的80%降低到35%时,大豆根瘤的氧气传导速率从0.38cm/s下降到0.20cm/s,净光合速率从18.81mg/dm#+2/h降低到4.04mg/dm#+2/h,每盆10株稗草对大豆单株结瘤量及根瘤固氮酶活性的抑制率则分别从8.2%和17.8%升高到18.3%和19.6%,其对大豆单株根瘤固氮速率的抑制率也随之从21.5%上升到33.1%。证明通过干扰土壤水分供应水平,首先影响大豆植株的同化物产量及根瘤内的氧气供应,进而影响大豆植株的根瘤形成和根瘤固
氮酶的固氮活性,是稗草影响大豆根瘤固氮的主要机制之一。 相似文献
83.
李吉跃 《北京林业大学学报》1999,(3)
该文研究了多重复干旱循环对1年生北美短叶松和黑云杉苗木的气体交换速率及水分利用效率的影响.结果表明,多重复干旱循环对它们的气体交换(Cs,Pn,Tr)有显著影响(P<0.5),而对其水分利用效率(WUE)影响不大(P>0.1).尽管北美短叶松的气孔对轻度干旱胁迫不如黑云杉敏感,但是它对中度及严重干旱胁迫的敏感程度却高于黑云杉.在轻度及中度干旱胁迫下,北美短叶松的光合作用主要受非气孔因素的影响,而黑云杉则主要受气孔因素的影响.解除干旱胁迫后,黑云杉的气孔敏感性、光合能力及水分利用效率的恢复都要比北美短叶松更快.轻度的干旱胁迫锻炼可以帮助北美短叶松在更严重的干旱胁迫下保持固有而强劲的耐旱能力.然而,通过多重复干旱循环锻炼后,黑云杉在改善耐旱能力的强度方面大于北美短叶松. 相似文献
84.
在长白山站以开顶箱方式对4 年生长白松连续4 个生长季进行CO2 处理,包括700 和500 μmolmol-1 高浓度CO2,以及接受空气CO2的对照箱和不扣箱的裸露地条件(约350 μmolmol-1 CO2),通过测定气孔导度(gs),ci/ca比及气孔数量等指标评价气孔对高浓度CO2的响应。气孔导度及ci/ca比的转换实验表明,在各自生长CO2下和在相同测定CO2 下进行比较时,生长在高浓度CO2 下植株的气孔导度要高于空气CO2 下对照组植株的气孔导度(除700 μmol mol-1 CO2 下的植株在生长CO2 浓度下及在350 μmol mol-1 CO2 下测定时的气孔导度低于裸地植株外)。在各自生长CO2浓度下测定时,高浓度CO2下植株的ci/ca比低于对照组植株,但在相同测定CO2浓度下比较时,却是高浓度CO2下植株的ci/ca高于对照组植株的ci/ca比。高浓度CO2下植株与对照组植株在每单位长度气孔数量上无明显差异,但高浓度CO2通过降低气孔线数使长白松当年生针叶的总气孔数量降低,并且改变了气孔在针叶上、下表面的分配模式。表4 参18。 相似文献
85.
N. Katerji J.W. van Hoorn A. Hamdy F. Karam M. Mastrorilli 《Agricultural Water Management》1996,30(3):237-249
Maize and sunflower were grown in tanks filled with loam and clay, and were irrigated with water of three different levels of salinity. Predawn leaf-water potential and stomatal conductance were used as parameters for water stress. The predawn leaf-water potential of maize was higher than that of sunflower, but the effect of salinity and soil texture on the predawn leaf-water potential was the same for both crops. The stomatal conductance of sunflower was much higher and more severely affected by salinity and soil texture than the stomatal conductance of maize.
Although salinity had a more serious effect on the development of leaf area and canopy dry matter of sunflower, its effect on evapotranspiration and grain yield was the same for both crops. Soil texture had a stronger effect on the development of leaf area and canopy dry matter of sunflower, which also appeared in the evapotranspiration and grain yield, indicating that sunflower is more sensitive to drought than maize. 相似文献
86.
Trunk diameter fluctuations (TDFs) have been suggested as an irrigation-scheduling tool for several fruit trees, but the works in olive trees has not obtained successful results with any of the indicators (maximum daily shrinkage (MDS) and trunk growth rate (TGR)) that are calculated from the daily TDF curves. No studies of olive trees have ever used reference trees to reduce the influence of the environment, as in work for other fruit trees. In this work, we compare different continuous and discrete water status measurements in a drought cycle. We suggest the calculation of a new and related indicator (DTGR), the difference between the TGR of stressed trees, and the TGR of reference trees. Negative DTGR values always indicate water stress conditions. The current work describes the variations of this new indicator (DTGR) in relation to water stress, and compares DTRG to the midday stem water potential, maximum leaf conductance and to the MDS. The midday stem water potential and the maximum leaf conductance describe the stress cycle clearer than the trunk diameter fluctuation indicators. No significant differences were found in the values of MDS between stressed and reference trees. On the other hand, the DTGR pattern values were near that of the stem water potential, though positive values were recorded in some dates during the water stress cycle. These variations indicate that DTGR is not a cumulative water stress indicators, as is water potential. Therefore, according to our data, water potential is a better indicator than the TDF parameters when no deficit irrigation scheduling is performed in olive trees. DTGR seems to be a good indicator of water stress from a threshold value around −1.4 MPa in olive trees. In addition, higher variability of DTGR than stem water potential may also be reduced with the increase in the number of sensors. 相似文献
87.
Nadzariah Kamarul Zaman Mohd Yusoff Abdullah Sariam Othman Nadzirah Kamarul Zaman 《水稻科学》2018,25(2):82-93
Aerobic rice technology is still new in Malaysia, and information regarding MARDI Aerob 1 (MA1), the first local aerobic rice variety, is still lacking. Therefore, comparative studies were carried out to determine the physiological performance of aerobic rice variety MA1 and lowland rice variety MR253 under water stress given at the panicle initiation, flowering and ripening stages. This experiment was arranged in a randomized complete block design. Stomatal conductance (gs), chlorophyll a fluorescence (Fv/Fm), leaf relative water content (leaf RWC), and soil moisture content (SMC) as well as yield component parameters such as panicle number, grain yield and 100-grain weight were measured. Results revealed that gs and leaf RWC for both varieties decreased with depletion of SMC. The correlation study between the physiological parameters and SMC indicated that Fv/Fm was not affected by water stress, regardless of varieties. The yield components (panicle number, grain yield and 100-grain weight) for both varieties greatly decreased when water stress was imposed at the panicle initiation stage. This study showed that the panicle initiation period was the most sensitive stage to water stress that contributed to a substantial reduction in yield for both varieties. Under the aerobic condition (control), MR253 produced higher panicle number, 100-grain weight and yield than MA1. Although MR253 is bred for lowland, it is well adapted to aerobic condition. 相似文献
88.
Geoffrey M NDEGWA 《干旱区科学》2016,8(4):618-631
Provision of woodfuel is an important ecosystem service of dry forests and woodlands.However,charcoal production through selective logging of preferred hardwood species has the potential to alter the physiognomic composition of the residual or re-growth woodlands and may lead to their deterioration and degradation.This study,conducted through forest inventory in Mutomo District in Kenya,assessed the impact of charcoal production on unprotected dry woodlands in terms of tree density,targeted species basal area,species richness,evenness and Shannon diversity.The parameters of the disturbed woodlands were evaluated for significant differences with those of the neighbouring protected Tsavo East National Park,which served as a reference for an ecologically undisturbed ecosystem.By evaluating a consequence of tree harvesting for charcoal production,this study confirmed the overall significant differences between the protected and unprotected woodlands in all the tested parameters.To confirm if the differences in the land-covers of the woodlands had any influence on their degradation,all mentioned parameters were compared between the four differentiated classes and their respective control plots in the protected areas.At the "land-cover level",the statistically significant difference in the basal area of tree species preferred for charcoal production between the protected and unprotected open trees confirms that the class with a high density of large mature trees is the prime target of charcoal producers.In addition,there seems to be a general trend of lower values of tree species richness,evenness and Shannon diversity for the unprotected woodlands subjected to charcoal production.On the other hand,the disturbed woodlands display the potential to recover through their comparably high saplings density.The findings make an important contribution to the discourse on the impact of charcoal production in dry woodlands,a topic that is highly controversial among researchers. 相似文献
89.
This study investigated trade-offs between parameters determining water use efficiency of wheat under elevated CO2 in contrasting growing seasons and a semi-arid environment. We also evaluated whether previously reported negative relationships between nutrient content and transpiration efficiency among wheat genotypes will be maintained under elevated CO2 conditions. Two cultivars of wheat (Triticum aestivum L.), Scout and Yitpi, purportedly differing in water use efficiency related traits (e.g. transpiration efficiency) but with common genetic backgrounds were studied in a high yielding, high rainfall (2013), and in a low yielding, very dry growing season (2014) under Free-Air CO2 Enrichment (FACE, CO2 concentration of approximately 550 μmol mol−1) and ambient (approximately 390 μmol mol−1) CO2. Gas exchange measurements were collected diurnally between stem elongation and anthesis. Aboveground biomass and nutrient content (sum of Ca, K, S, P, Cu, Fe, Zn, Mn and Mg) were determined at anthesis. Yield, yield components and harvest index were measured at physiological maturity. Cultivar Scout showed transiently greater transpiration efficiency (measured by gas exchange) over cultivar Yitpi under both ambient and elevated CO2 conditions, mainly expressed in the high yielding but not in the low yielding season. Nutrient content was on average 13% greater for the lower transpiration efficiency cultivar Yitpi than the cultivar with higher transpiration efficiency (Scout) in the high yielding season across both CO2 concentrations. Elevated CO2 stimulated grain yield to a greater extent in the high yielding season than in the low yielding season where increased aboveground biomass earlier in the season did not translate into fertile tillers in cultivar Yitpi. Yield increased 27 and 33% in the high yielding and 0 and 19% in the low yielding season for cultivars Yitpi and Scout, respectively. Intraspecific variation in CO2 responsiveness related mechanisms of grain yield were observed. These results suggest CO2-driven trade-offs between traits governing water use efficiency are related to both growing season and intraspecific variations, and under very dry finishes, the trade-offs may even reverse. The negative relationship between nutrient content and transpiration efficiency among wheat genotypes will be maintained under elevated CO2 conditions. 相似文献
90.
黄瓜气孔导度、水力导度的环境响应及其调控蒸腾效应 总被引:2,自引:0,他引:2
以营养生长期温室黄瓜为研究对象,通过四元二次正交旋转组合设计,分析稳态流条件下土壤相对含水率、空气温度、空气湿度和光合有效辐射对气孔导度、土壤植物系统总水力导度的影响及其调控蒸腾效应。结果表明,4个环境因子对气孔导度、总水力导度均有正效应,对其影响最大的环境因子分别是空气湿度、空气温度;土壤相对含水率与光合有效辐射、空气温度与空气湿度对气孔导度和总水力导度存在明显的交互作用;空气湿度对气孔导度、总水力导度的单因子效应为开口向上的抛物线函数,其他环境因子的单因子效应皆趋近于线性递增函数;各因子的边际效应分析表明,空气湿度是气孔导度的主要调控途径,除光合有效辐射外,其他因子均可有效调控总水力导度。采用通径分析方法研究了环境因子、气孔导度、总水力导度调控蒸腾效应,结果表明,空气温度、光合有效辐射和气孔导度均主要通过增强总水力导度对蒸腾作用产生间接正效应,其次是对蒸腾作用的直接正效应;土壤相对含水率主要通过增强总水力导度和气孔导度对蒸腾作用产生间接正效应;空气湿度的直接影响为负效应,但其主要影响途径为通过增强总水力导度和气孔导度对蒸腾作用的正效应;气孔导度与总水力导度响应环境因子变化并相互作用,协同调控蒸腾作用。 相似文献