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排序方式: 共有325条查询结果,搜索用时 31 毫秒
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2.
研究了叶面喷施抗蒸剂对盆栽苹果水分状态的影响。结果表明:抗旱剂一号(主要成分为黄腐酸)可明显降低树体蒸腾(最低时为对照的39.21%)、提高气孔阻力(最大时为对照的243.96%)和叶片水势(一般比对照提高0.2-0.4MPa、最大0.7MPa),并对叶温未产生明显的影响(变化一般小于1℃),有效作用期长达15d以上。在果树旱期喷施,可明显改善树体水分状态。腐殖酸效果不明显。 相似文献
3.
在果核硬化期和果实最后迅速生长期,对艳丰一号桃果实浸涂10倍和100倍的液体石蜡溶液,与果实未浸涂液体石蜡的对照相比,果实蒸腾强度分别降低了57.9%和41.4%,且源叶净光合效率(Pn)和气孔导度(Gs)降低而叶表面温度(Tl)升高,并在果实迅速生长期间,果实浸涂液体石蜡处理和对照之间存在显著性差异。进一步研究表明,无论是在果核硬化期还是在果实最后迅速生长期,当Gs小于0.2mol/m2·s时,Pn和Gs呈极显著直线正相关关系,且果实浸涂液体石蜡处理的源叶的Tl随Gs减小急剧升高。源叶Pn对Tl的响应均呈极显著抛物线相关关系,但同一Tl条件下,果实浸涂液体石蜡处理的Pn低于对照。因此认为,果实蒸腾强度可能通过作用叶片的Gs调节Tl进而对源叶的Pn进行调控,气孔开张度减小、Tl升高,可能是果实蒸腾强度减弱时调控Pn重要机制之一。 相似文献
4.
Fusheng Ma Shaozhong Kang Fusheng Li Jianhua Zhang Taisheng Du Xiaotao Hu Mixia Wang 《Agricultural Water Management》2007,90(3):190-196
The effects of water deficit in different fruit growth stages on the variation of stem sap flux of 6-year old greenhouse-grown pear-jujube trees were investigated. Treatments included sufficient water supply during the whole fruit-growing period (T1), mild water deficit during the flowering–fruit setting stage (T2), moderate water deficit during the fruit rapid growth stage (T3) and severe water deficit during the fruit maturing stage (T4). Results showed that significant compensation effect on stem sap flux after re-watering was observed in T2, but not in T3 and T4 stages. At the end of rapid growth stage, the diurnal variation of stomatal conductance generally had a similar trend as that of stem sap flux, but with a distinct midday depression from 12:00 to 14:00 p.m. In addition, a linear relationship between the relative available soil water content (RAWC) and the ratio of daily stem sap flux to that of sufficient water treatment was observed (R2 = 0.4489). 相似文献
5.
Gas exchange and chlorophyll fluorescence quenching analysis were carried out to investigate the diurnal variations in photosynthesis and light allocation in leaves of soybean. Leaf net CO2 assimilation rate showed a bimodal diurnal pattern and midday depression of CO2 assimilation was observed at 13:00 h. Depression in CO2 assimilation at midday was mostly attributed to non-stomatal limitation since the reduction in net CO2 assimilation rate was not followed by significant reductions in stomatal conductance and intracellular CO2 concentration. Midday depression in CO2 assimilation was found to be associated with reversible inactivation of photosystem II reaction centers and increases of antenna heat dissipation and photorespiration in response to the high light intensity. It is likely that PS II down-regulation, heat dissipation and photorespiration co-operated together to prevent the chloroplast from photodamage. 相似文献
6.
Although of considerable agronomic importance, our understanding of B toxicity mechanism in plants is still not completely understood, and remains an open question. Therefore, we investigated the effect of increasing levels of B (0, 10, 20 and 30 mg kg−1) on the growth, boron (B) concentrations, stomatal resistance, lipid peroxidation (MDA), membrane permeability (MP), lypoxygenase activity (LOX), proline (PRO) and H2O2 accumulation, and the activities of major antioxidant enzymes (superoxide dismutase, SOD; catalase, CAT and ascorbate peroxidase, APX) of grapevine (Vitis vinifera L. cv. Kalecik Karasi) grafted on 5BB rootstock (V. berlandieri × V. riparia) was investigated. Applied toxic levels of B significantly reduced leaf and root growth and increased the B concentration of the leaf, and stem, bark and root of rootstock. In the all B levels leaf tissues of grapevine accumulated more B than that of the other plant parts. In order to restrict excessive uptake of B, stomatal resistance of the leaves increased especially at high B treatments (20 and 30 mg kg−1). The concentrations of H2O2, MDA and membrane permeability were increased as the result of B toxicity while proline and the activity of lypoxygenase were decreased. Compared with control plants, the activities of SOD and CAT were increased by B treatments while the activity of APX was decreased. To our knowledge, this is the first report that B toxicity elevated the antioxidant enzymes to protect the membrane functions from reactive oxygen species (ROS) injury in grapevine and it was hoped that this study would provide a basis for developing strategies for reducing the risks associated with B toxicity. 相似文献
7.
There is little available information on the effects of temperature and CO2 enrichment on stomata anatomical characteristics of plants. Effect of these two microclimates was studied on five rose (Rosa spp.) cultivars, viz. ‘First Red’ (used as check), ‘Arjun’, ‘Raktima’, ‘Raktagandha’ and ‘Pusa Pitamber’. Budded, single-stemmed rose cultivars having five lateral buds were grown in controlled environment growth cabinets under enriched CO2 (1000 μmol mol−1) and optimum (28/18 °C, T0) or high (35/25 °C, T1) temperature for 50 days. All observations were made on the abaxial leaf surface. Significant increases in stomatal density (68.7%), index (29.6%) and epidermal cell density (37.3%) were recorded in plants grown at high temperature over control with CO2 enrichment. The cultivars responded differently in terms of length and width of guard cell and stoma (pore) under high temperature, however, the values averaged over treatments showed a significant reduction in these parameters. Further, number of stomata per leaf was higher (28.3%) in plants grown at high temperature, except First Red. A reduction in mean leaf area (26.7%) and dry mass (32.0%) was recorded at high rather than optimum temperature. The specific leaf area was maximum in Arjun (87%) while in First Red, a 14% reduction was noted at high temperature. 相似文献
8.
Scaevola aemula is a popular ornamental crop cultivated as a bedding plant or for hanging baskets. We characterized gas exchange properties of S. aemula ‘New Wonder’ in response to photosynthetically active radiation (PAR), carbon dioxide concentration, and leaf temperature. Net CO2 assimilation rate (A) was responsive to CO2, exhibiting a saturation when intercellular CO2 concentration (Ci) was greater than 600 μmol mol−1. Net CO2 assimilation rate and dark respiration rate (Rd) were 23.1 and 2.3 μmol m−2 s−1, respectively, at 25 °C and PAR = 1500 μmol m−2 s−1. Net CO2 assimilation rates were similar at leaf temperatures between 20 and 30 °C but significantly reduced at 15 °C. These gas exchange results were used to test the extendibility of a coupled gas exchange model previously developed for cut-roses. Utilizing the gas exchange data measured at 25 °C leaf temperature, several model parameters were independently determined for S. aemula. Model predictions were then compared with observations at different leaf temperatures. The model predicted the rates of net CO2 assimilation and transpiration of S. aemula reasonably well. Without additional calibration, the model was capable of predicting the temperature dependence of net CO2 assimilation and transpiration rates. Applying the model to predict the effects of supplemental lighting and CO2 enrichment on canopy photosynthesis and transpiration rates, we show that this model could be a useful tool for examining environmental control options for S. aemula production in the greenhouse. 相似文献
9.
蒸腾速率、阻力与叶内外水势和光强关系的研究 总被引:2,自引:0,他引:2
本文采用LI一1600稳态气孔计和压力室测定了杨柴的蒸腾速率、阻力、叶水势及其环境因子的日变化,分析结果表明:当0~2m土层内土壤平均水势在-0.04~-0.20MPa时,光照强度是影响杨柴等树木蒸腾速率的主要因子,它主要是通过影响蒸腾阻力所致。光照强度(Li)与蒸腾阻力(Dr)的关系符合方程Dr=aeb/Li。这样,根据光照强度对阻力的影响过程,把光照强度与蒸腾速率(Tr)的关系分成3个区段:①弱光照区,Tr=K/Dr;②过渡区,Tr=K·ψL-A/Dr;③光饱和区,Tr=a·ψL-A+b,其中a、b和K是系数。 相似文献
10.
Naoko?MikiEmail author Kosei?Otsuki Keiji?Sakamoto Takashi?Nishimoto Ken?Yoshikawa 《Journal of Forest Research》2003,8(3):153-161
To elucidate the differences in the leaf water relations of Pinus densiflora Sieb. et Zucc. growing in different soil moisture conditions, we examined the pressure-volume curve and the diurnal changes in the stomatal conductance, the transpiration rate, and the leaf water potential. The leaf water relations were compared using field-grown 40-year-old pine trees growing on the upper and lower parts of a slope. We also compared the leaf water relations of potted 4-year-old saplings growing at pF 4.2 and pF 1.8 soil moisture levels for almost 1 year. The values of the ratio of symplasmic water at turgor loss point to symplasmic water at saturated point (Vp/Vo) and bulk modulus of elasticity () of both the adult trees on the upper part of the slope and the potted saplings growing on pF 4.2 soil moisture were higher than those values of both the adult trees on the lower part of the slope and the potted saplings growing on pF 1.8 soil moisture, respectively. The field-grown adult tree and the potted saplings growing under long-term water stress tended to reduce their stomatal conductance in response to the acute soil drying. It is suggested that P. densiflora growing under long-term water stress rapidly closed its stomata in response to soil drying and avoided losing water, and could also rapidly absorb water with reducing water loss because of the decrease in the leaf pressure potential derived from the high values. 相似文献