Water stress development in kale leavesin situ and in water supplied cut leaves

The development of temporary water stress during the day-light hours, characterized by a decrease of the values of the water potential (?_w) and increase of the values of water saturation deficit (ΔW _sat) was found not only in the leaves of intact kale plants but also in cut leaves with their petioles immersed in water. These results indicate that the leaf resistance to water transport could not be supposed as negligible. The same decrease of ? _w was accompanied with the higher increase of ΔW _sat in cut leaves than in leavesin situ.     

Water potential,water saturation deficit and their relationship in leaves of different insertion levels

The water potential (Ψ _w ) and the water saturation deficit (δW _sat) in leaves of different insertion levels of potted kale plants were simultaneously measured. In non-wilting plantsδW _sat gradually decreased andΨ _w slightly increased from the upper to the lower leaves. During the wilting of the plants induced by decreasing of soil moistureΨw practically decreased paralelly in all the leaves but the same decrease ofΨ _w was connected with the lowest increase ofδW _sat in upper leaves and the highest increase ofδW _sat in lower leaves. Not only the values ofΨ _w andδW _sat but also their relationship varied considerably with the leaf insertion levels.     

Hydroreactivity of stomata in kale leaves of different insertion level as determined by analysis of transpiration curves

Values of the water saturation deficit (WSD) for hydroactive stomatal movements of kale leaves were estimated using the method of transpiration curve analysis. Stomata of young leaves started closing at WSD values of 5 to 6 per cent and were completely closed at 18 to 20 per cent WSD. During maturation and ageing of leaves these WSD values increased to 12.5 and 18 to 23 per cent respectively. Thus the stomatal reaction is more sensitive to changes in WSD in adult leaves than in young ones. After maturation is attained both values decrease. In apparently withering leaves the individual phases of transpiration curves can barely be distinguished, probably for the reason that even under optimal conditions their stomata remain half-closed and at high WSD values an incomplete closing of the aperture occurs. The injured cuticle of withering leaves affects the shape of the transpiration curve as well.     

Water balance of tissue segments from leaves of different insertion levels

Actual heterogeneity of indicators of water balance was studied on tissue segments from leaves ofBrassica oleracea L. v.acephala andNicotiana tabacum L. under controlled conditions. Maximal values of transpiration rate, water absorption rate, water transport rate and low values of WSD at the same time were observed at an initial WSD of 0% in segments from middle leaves and at an initial WSD of 20% mostly in segments from upper leaves. Although the properties of leaf tissue itself were probably the basic factors determining the actual heterogeneity of indicators of water balance, without connection with all other factors (e. g. various microclimates, supply of water) heterogeneity did not appear to a full degree.     

不同甘蔗品种叶片气孔对水分胁迫的响应

干旱是甘蔗面临最主要的环境胁迫之一,为了解不同甘蔗品种在干旱胁迫时的气孔响应,该研究以F172、GT21、YT93/159和 YL6四个抗旱性有显著差异的甘蔗品种为材料,采用桶栽,在伸长期进行四种不同程度的干旱胁迫(不浇水)处理：土壤持水量在①65％~70％为轻度干旱;②45％~50％为中度干旱;③25％~30％为重度干旱;④以土壤含水量为75％为对照(CK).检测不同品种不同处理甘蔗的叶片相对持水量变化,并利用扫描电镜技术观察甘蔗叶片下表皮气孔特性.结果表明：在干旱胁迫下,四个甘蔗品种叶片气孔导度急剧下降,重度干旱时耐旱性强的 F172和 GT21的气孔导度低于耐旱性弱的 YT93/159和 YL6的;复水后3 d,F172和 GT21的气孔导度上升至82．07和88．85 mmol·m-2·s-1,而 YT93/159和 YL6的仅有18．88和33．08 mmol·m-2·s-1.干旱还导致气孔下陷、闭合,气孔器的长、宽明显减小,且品种间气孔器长度变化差异显著;干旱胁迫下气孔密度增大,尤以耐旱性最强的 F172在重度干旱时达到显著差异.重度干旱时 F172与GT21的气孔闭合百分比是 YT93/159和 YL6近3~4倍.在水分胁迫下,叶片相对含水量降低,但 F172和GT21在重度干旱时仍可以保持相对较高的含水量,其它两个品种相对较低,尤以 YT93/159的最低.在复水后叶片含水量都有所恢复.这些研究结果表明不同甘蔗品种抗旱能力与叶片气孔特性和含水量密切相关.     

不同生育期玉米叶片光合特性及水分利用效率对水分胁迫的响应

利用大型移动防雨棚开展了玉米水分胁迫及复水试验,通过分析玉米叶片光合数据,揭示了不同生育期水分胁迫及复水对玉米光合特性及水分利用效率的影响。结果表明:水分胁迫导致玉米叶片整体光合速率、蒸腾速率和气孔导度下降以及光合速率日变化的峰值提前;水分胁迫后的玉米叶片蒸腾速率、光合速率和气孔导度为适应干旱缺水均较对照显著下降,从而提高了水分利用效率,缩小了与水分充足条件下玉米叶片的水分利用效率差值;在中度和重度水分胁迫条件下,玉米叶片的水分利用效率降幅低于光合速率、蒸腾速率和气孔导度的降幅, 有时甚至高于正常供水条件下的水分利用效率;适度的水分胁迫能提高玉米叶片的水分利用效率,从而增强叶片对水分的利用能力,抵御干旱的逆境;水分亏缺对玉米光合速率、蒸腾速率及水分利用效率的影响具有较明显滞后效应,干旱后复水,光合作用受抑制仍然持续;水分胁迫时间越长、胁迫程度越重,叶片的光合作用越呈不可逆性;拔节-吐丝期水分胁迫对玉米叶片光合作用的逆制比三叶-拔节期更难恢复。     

Salicylic acid decreases the levels of dehydrin-like proteins in Tibetan hulless barley leaves under water stress

The effects of salicylic acid (SA) on the accumulation of dehydrins in leaves of Tibetan hulless barley seedlings under water stress were investigated. The results indicated that SA decreased the levels of the four dehydrin-like proteins induced by water stress. The concentrations of these dehydrin-like proteins increased under water stress. However, their levels in SA-pretreated seedlings were always lower than in those receiving only water stress. Our results also indicated that the levels of dehydrin-like proteins decreased as the SA concentration increased. In SA-pretreated seedlings, electrolyte leakage, MDA and H2O2 content were rather higher than in seedlings receiving only water stress. By these results, we suggest that lower levels of dehydrin-like proteins in seedlings with SA treatment may be due to the greater accumulation of H2O2 induced by SA, which causes more oxidative injury under water stress.     

土壤水分胁迫对不同耐旱性春小麦品种叶片色素含量的影响

研究选用耐旱性强的“定西24”和“高原671”与耐旱性弱的“高原448”和“青春533”春小麦品种,在盆栽条件下比较了不同耐旱性品种在拔节后经不同程度水分胁迫后叶片的多种生理参数：叶片相对含水量、净光合速率、叶绿素a、叶绿素b、叶绿素总量和类胡萝卜素含量。结果表明：在土壤相对含水量75％、55％、40％和30％这4个等级上,这些生理指标均随土壤相对含水量的降低而下降,耐旱性强的品种降低慢,且降低幅度小。在水分胁迫下,4个品种叶片的叶绿素a、叶绿素b和叶绿素总量下降,证明此时光合器官的生理功能遭到破坏;在轻度水分胁迫下,耐旱性强的品种定西24和高原671叶片的类胡萝卜素含量上升;在严重水分胁迫下,4个品种的叶片类胡萝卜素含量明显下降,可能此时自由基积累超过了抗氧化剂的清除能力,从而使细胞受到损伤。根据本研究结果,可以将轻度水分胁迫下叶片类胡萝卜素含量升高作为春小麦品种耐旱性的选择指标之一。     

CO2 and water vapour exchange through adaxial and abaxial surfaces of tobacco leaves of different insertion level

CO₂ uptake (P _N ) and water vapour efflux (E) through adaxial and abaxial surfaces were measured separately and the corresponding diffusive resistances for water vapour (r ₁) were calculated in leaves of different insertion levels during vegetative growth of tobacco plants. Relatively higher values of the abaxialP _N/E ratio in comparison with the adaxial one were found in agreement with relatively higherE _ad/E _ab coefficients and the distribution of the gas exchange in plants in all measurements carried out. Because of the more rapid decrease of theP _N rates as compared with theE rates theP _N/E ratios of both surfaces decreased gradually from young to old leaves. The decreasing values ofE _ad/E _ab andP _N,ab/P _N,ab coefficients showed thatr _1,ab increased with the age of the leaves more quickly thanr _1,ab.     

Effects of water stress on respiration in soybean leaves

The effect of water stress on respiration and mitochondrial electron transport has been studied in soybean (Glycine max) leaves, using the oxygen-isotope-fractionation technique. Treatments with three levels of water stress were applied by irrigation to replace 100%, 50%, and 0% of daily water use by transpiration. The levels of water stress were characterized in terms of light-saturated stomatal conductance (g(s)): well irrigated (g(s) > 0.2 mol H(2)O m(-2) s(-1)), mildly water stressed (g(s) between 0.1 and 0.2 mol H(2)O m(-2) s(-1)), and severely water stressed (g(s) < 0.1 mol H(2)O m(-2) s(-1)). Although net photosynthesis decreased by 40% and 70% under mild and severe water stress, respectively, the total respiratory oxygen uptake (V(t)) was not significantly different at any water-stress level. However, severe water stress caused a significant shift of electrons from the cytochrome to the alternative pathway. The electron partitioning through the alternative pathway increased from 10% to 12% under well-watered or mild water-stress conditions to near 40% under severe water stress. Consequently, the calculated rate of mitochondrial ATP synthesis decreased by 32% under severe water stress. Unlike many other stresses, water stress did not affect the levels of mitochondrial alternative oxidase protein. This suggests a biochemical regulation (other than protein synthesis) that causes this mitochondrial electron shift.     

Phosphatidylethanolamine in wheat and barley leaves under water stress

Phosphatidylethanolamine could not be detected in the leaves of less drought-tolerant varieties of wheat (S-308) and barley (BG-25) when the plants wer     

Effects of water stress on internal water relations of apple leaves

The capacity of apple ( Malus pumila Mill. cv. James Grieve and Golden Delicious) pot- and orchard-grown trees to adjust osmotically in response to drought was investigated. Stressed leaves exhibited alterations in the moisture release curves when compared to well hydrated control leaves. Results suggest that osmotic adjustment occurred in both field- and pot-grown trees. Water potential for zero turgor was lowered by 0.5 MPa in leaves of potted trees and by 1.1 MPa in leaves of field-grown trees as a result of stress treatments. A decrease in the osmotic potential was responsible for that adjustment allowing the leaf to maintain turgor at lower water potentials and relative water contents. The extent of adjustment was similar for both potted and orchard trees despite the difference in the rate of stress imposition and its intensity. Changes in the concentration of sugars apparently contributed to this adjustment.     

Effects of water stress on lipid metabolism in cotton leaves

After 2, 10 and 24 hr labelling with [1-¹⁴C] acetate, radioactivity incorporated into the lipids of cotton leaves is mainly found in phosphatidylcholine, phosphatidylglycerol and neutral lipids. Galactolipids are slowly synthesized and after 24 hr, account for only 10% of the total radioactivity. Under water stress, a marked decrease of precursor incorporation into leaf lipids occurs, particularly in phosphatidylcholine and galactolipids. Relative incorporation into neutral lipids, on the contrary, increases. Water deficits provoke an inhibition of the fatty acid desaturation, resulting in a sharp decrease of linoleic and linolenic acid biosynthesis. The decrease in unsaturated fatty acid biosynthesis occurs in all lipid classes, but is most pronounced in the galactolipid fractions. In the drought-resistant cotton variety (Mocosinho), the variations in lipid and fatty acid metabolism under water stress are less pronounced than in the drought-sensitive variety (Reba), and this attests a greater stability of the membrane system.     

Effect of water stress on proline catabolism in tobacco leaves

Proline-[¹⁴C] infiltrated into leaf disks of tobacco (Nicotiana tabacum cv BY-4) in the dark was converted to glutamic acid and then metabolized through the TCA cycle. A smaller amount of proline-[¹⁴C] was metabolized when the leaf disks were wilted than when turgid. During a 6 hr period following rehydration, disks converted a larger amount of proline-[¹⁴C] to oxidized products than when wilted, although the proline content of rehydrated disks had not declined. These results indicate that proline oxidation is inhibited by water stress.     

Phospholipid changes in wheat and barley leaves under water stress

Total phospholipid content of leaves of wheat and barley increased and phospholipid components changed under water stress. Notable among these were the absence of phosphatidyl serine in barley varieties, decrease in phosphatidyl glycerol content in a less drought-tolerant variety of wheat (S-308) and barley (BG-25), and appearance of phosphatidic acid in both crops. The phospholipid content and its components did not return to normal upon release of the stress by subsequent irrigations. Such observations are indicative of water stress effected alterations in membranes.     

黄瓜叶片光合电子传递对水分胁迫的响应

黄瓜叶片在水分胁迫下叶片相对含水量减少,类囊体室温吸收光谱的吸收峰降低,同时其NADP光还原活性、Ca^2 -ATPase活性也相应降低,全链电子传递明显受阻。类囊体膜蛋白电泳分析结果显示：类囊体膜色素蛋白复合体含量有不同程度的降低,其中PSⅡ色素蛋白复合体含量下降较多,试验结果表明水分胁迫通过限制光能的吸收,传递双及转换效率,抑制了光合电子传递过程。     

水分胁迫对小麦捕光色素蛋白复合物的影响

棉农４号春小麦幼苗（Ｔｒｉｔｉｃｕｍ ａｅｓｔｉｕｖｕｍ Ｌ．ｅｖ ．Ｍｉａｎｎｏｎｇ Ｎｏ．４）经一０．５ＭＰａ ＰＥＧ溶液渗透胁迫２４、４８和７２ｈ,使叶片分别受到轻蔗、中度和重度的水分胁迫。在渐进水分腔迫条件下,叶绿体类囊体膜中光系统Ⅱ捕光色素蛋白得合物（ＬＣＨ Ⅱ）的各组分含量发生了不同变化。对类囊体纱蛋白复合物进行的温和电泳结果显示,在轻度水分胁迫（２４ｈ）时,明轻度水分胁迫对其有诱导作     

Alterations in glycolipids of wheat and barley leaves under water stress

Glycolipids of leaves from water-stressed and stress-recovered wheat and barley plants were studied. A decrease in the content of total glycolipid, mon     

水分胁迫条件下枇杷若干生理指标的变化

随着水分胁迫程度的加强,枇杷叶片脯氨酸含量增加,可溶性蛋白质含量下降。轻度及中度水分胁迫均使枇杷叶片各细胞器H⁺-ATPase活性增强;严重水分胁迫时,细胞胞质H⁺-ATPase活性急剧下降到对照以下水平,而线粒体及叶绿体的H⁺-ATPase活性仍保持高于对照的水平。同一程度的水分胁迫条件下,长红3号叶片可溶性蛋白质含量降幅小于解放钟,而线粒体和叶绿体H⁺-ATPase活性增幅则大于解放钟,说明长红3号抵御干旱的能力比解放钟强。