微生物帮助烟草抗旱的机理及其应用

干旱是中国烟草种植业面临的较为严重的非生物胁迫.很多与植物共生或联合的根际微生物能帮助植物避旱和耐旱.微生物能通过菌丝吸水并转运到植物,通过产生植物激素或改变植物内源激素的平衡来促进根发育和伸长,或诱导叶片关闭气孔,促进根吸水和减少叶片散失水分来避旱.微生物能通过调整不同激素介导的信号通路,诱导植物产生系统抗逆性,促进植物细胞产生渗透保护剂、抗氧化物和活性氧清除剂而耐旱.微生物还能帮助植物吸收营养,以支持植物在干旱胁迫下的代谢和生长.本文关注丛枝菌根真菌、模式内生真菌印度梨形孢和根际促植物生长细菌帮助烟草和番茄等植物抗旱的机理,探讨如何在烟草育苗和栽培中应用有益微生物来帮助烟草抗旱.     

过表达胡杨XTH基因能够提高烟草抗旱性

胡杨是典型的抗旱树种。挖掘和鉴定胡杨的耐旱基因对于提高植物抗旱性具有重要意义。木葡聚糖内转糖苷酶/水解酶（XTH）是植物细胞壁重构过程中的关键酶,在植物逆境胁迫响应中发挥重要作用。我们前期已从胡杨叶片中克隆了PeXTH基因。本文利用Real-time PCR检测PeXTH基因在干旱胁迫下的表达水平。在此基础上,构建植物表达载体pMDC85-PeXTH,通过农杆菌介导法将PeXTH基因转入烟草,分析过表达PeXTH基因烟草的抗旱性。研究发现,胡杨叶片中PeXTH基因的表达受干旱胁迫诱导。干旱处理后,转PeXTH基因烟草的萌发率明显高于野生型烟草;与野生型植株相比,转基因植株的叶片失水速率明显降低。干旱胁迫下,转基因烟草的气孔开度仅为野生型烟草的51.2%～53.6%。结果表明,过表达PeXTH基因能够提高烟草的抗旱性。本研究丰富了对胡杨PeXTH基因功能的认识,为植物抗旱分子育种提供了重要的基因资源。     

沙冬青脱水素基因提高转基因紫花苜蓿的耐旱性

为鉴定转基因紫花苜蓿的耐旱能力,本研究以转基因紫花苜蓿T0代植株为材料,通过干旱胁迫,从转基因植株的表型、生理指标和分子水平等层面检测转基因植株的抗旱特性,试验表明,干旱胁迫后转基因苜蓿和对照的茎、叶片全部干枯,而复水后转基因苜蓿大部分恢复生长,对照几乎全部死亡。干旱胁迫后苜蓿叶片的Pro和MDA含量均随处理时间延长而逐渐增加,转基因植株叶片的Pro含量高于对照,而其MDA含量低于对照植株,且二者均达到了显著差异;转基因苜蓿的离体叶片失水率也明显低于对照。在20%PEG胁迫下,植株体内ProDH和P5CS基因的相对表达量都是先升后降,转基因植株和对照中ProDH和P5CS基因的表达量显著增加,且二者在转基因植株与对照间存在显著差异。这表明,在干旱胁迫条件下,由于AmDHN基因在紫花苜蓿中的过量表达,可能引起植株体内脯氨酸的大量积累,并进一步诱导脯氨酸合成相关基因的表达,最终引起植株抗旱性的提高,因此,推测转基因苜蓿的耐旱性比对照强。     

岩生植物雅安紫云菜对干旱及复水的生理响应

选择自然状态下生长在岩石边坡上的岩生植物雅安紫云菜为研究材料,通过人工控制土壤含水量的盆栽试验模拟自然界中的干湿交替现象,对雅安紫云菜中与其抗旱相关的叶绿素含量、膜质过氧化、渗透调节物质及抗氧化酶活性等11个生理生化指标进行了测定和分析,探讨雅安紫云菜对干旱胁迫的适应性及其生理机制。结果显示:(1)在干旱胁迫条件下,雅安紫云菜叶片具有较强的水分保持能力,叶绿素含量减少幅度较小,且复水后叶片相对含水量和叶绿素含量均能迅速恢复。(2)干旱胁迫9d后,叶片中超氧阴离子含量、过氧化氢含量以及丙二醛含量持续增加,同时抗氧化酶SOD和POD活性显著升高,而其叶片电解质外渗率、渗透调节物质可溶性糖含量和脯氨酸含量在干旱胁迫12d后开始大幅增加,复水后这些指标都恢复到接近对照水平。(3)在持续21d的干旱胁迫后,土壤含水量降低到4.26%,雅安紫云菜植株叶片呈现严重萎蔫,植株倒伏,但是复水后植株仍能较快恢复正常生长。研究表明,雅安紫云菜具有较强的渗透调节能力、酶促抗氧化活力以及叶片保水能力,从而表现出较强抗干旱能力,并且在恢复水分供应后能迅速恢复植物生长势,可以作为西南地区岩石边坡绿化的潜力景观植物。     

植物耐旱的分子基础及植物耐旱基因工程的研究进展

对植物耐旱的分子基础、干旱诱导基因的表达和作用以及植物抗旱基因工程研究的进展作一概述.     

Na+吸收对干旱导致的棉花叶片光合系统损伤的缓解作用

以盆栽棉花为材料,在植株高约20 cm时用不同浓度Na Cl溶液浇透后进行持续干旱处理。在干旱处理期间测定叶片叶绿素荧光参数、光合气体交换参数的变化以及植株水分状况和Na+含量,以分析土壤Na Cl施入引起的棉花Na+吸收和积累量的增加对干旱胁迫导致的叶片光合系统损伤的缓解作用及可能原因。结果表明,未用Na Cl处理的棉花植株,其叶片净光合速率随着干旱的延续而持续下降、光合机构在干旱处理后期出现了严重损伤;而Na Cl处理的棉花植株,其叶片净光合速率下降幅度明显小于未用Na Cl处理的,光合机构受损伤程度也较轻或无明显损伤。对各处理棉花植株Na+的吸收和水分状况的测定分析表明,Na Cl处理的植株,其叶片Na+积累显著增加、渗透势降低,细胞膨压显著高于未用Na Cl处理的植株。由此可见,在土壤浇灌Na Cl溶液后的持续干旱条件下,棉花植株吸收和积累Na+增加,降低了组织渗透势、维持了一定的细胞膨压,从而有效缓解了干旱胁迫对叶片光合机构的损伤。     

酸枣叶片结构可塑性对自然梯度干旱生境的适应特征

叶片是植物体暴露于环境中面积最大的器官,其最易感知环境变化而发生形态和结构上的改变。为探究植株叶片结构对不同生境的适应机理,研究以生长在烟台-石家庄-宁夏-新疆不同地域气候条件形成的自然梯度干旱环境中的酸枣为试验材料,应用植物显微技术研究酸枣叶片的结构的可塑性对不同自然梯度干旱环境的适应特征。结果表明:酸枣叶表皮着生有表皮毛,表皮细胞外覆有角质层与蜡质。叶肉为全栅型,栅栏组织发达,海绵组织退化,叶肉中有晶体及大量的分泌细胞。从烟台至新疆随生境梯度干旱加剧,酸枣叶片叶面积逐渐变小,叶片厚度依次增加,叶表皮角质层加厚,且上角质层厚度大于下角质层厚度;叶片上下表皮细胞长径及短径先增后降,栅栏组织总厚度和密度依次增大、层数减少,各层栅栏组织细胞的长径逐渐增加。叶脉薄壁细胞相对厚度逐渐减小,导管管径增大,晶体(草酸钙晶体)数增多。在梯度干旱环境中酸枣植株通过减小叶面积、提高栅栏组织密度、增加叶片及角质层厚度降低蒸腾作用,减少水分散失;通过增大导管管径提高水分利用率;通过增加晶体数量提高叶片机械性能,改变细胞的渗透势、提高吸水和保水能力。上述叶片结构的变化是酸枣植株长期对不同自然梯度干旱生境的适应特征。由此可知,叶片形态结构中叶面积、叶片厚度、角质层及叶肉组织(栅栏组织)随环境变化的可塑性较大。     

五唇兰对PEG模拟的干旱胁迫响应研究

为了解干旱对五唇兰(Phalaenopsis pulcherrima)生长的影响,以聚乙二醇(PEG)溶液模拟干旱胁迫,对其叶片的光合色素、渗透调节物质和非结构碳水化合物(NSC)含量变化进行研究。结果表明,随着PEG浓度增加,五唇兰植株含水量和鲜质量逐渐下降,以PEG为13.75%～14.84%时最显著。PEG处理显著降低叶片的叶绿素a和b含量。随着植株含水量的降低,叶片可溶性蛋白、淀粉(St)含量均呈下降趋势,可溶性糖(SS)含量、NSC和SS/St均呈先升后降的趋势。因此,干旱胁迫会影响五唇兰植株的含水量和光合产物的积累;在较低程度干旱胁迫下,可溶性糖在抗旱响应中发挥主要作用;随着干旱胁迫程度加深,五唇兰的生理代谢受到严重影响。     

藜对干旱胁迫的生理生化反应

干旱是植物最易遭受的胁迫之一,每年由于干旱胁迫给农业造成损失几乎相当于其他所有环境因子胁迫所造成的损失的总和。通过人工控制水分模拟干旱来研究生长期的藜对干旱胁迫的生理生化反应,以期望为干旱农业的高效生产提供理论依据。以盆栽的藜为材料,用控制浇水的方法分对照、轻度胁迫、中度胁迫、重度胁迫4个组,研究了不同程度干旱胁迫对藜叶片的水分状况、渗透调节物质、活性氧代谢以及内生保护系统的影响。结果表明:在干旱胁迫下,藜叶片相对含水量(RW C)、自由水含量(FW C)下降,束缚水含量(BW C)上升;可溶性糖、脯氨酸、K 、C a2 含量增加,表现出藜对适度干旱有一定的适应性。但重度干旱胁迫,O2.产生速率和丙二醛(M DA)含量显著提高,导致膜损伤,质膜透性上升;超氧化物歧化酶(SOD)、过氧化物酶(POD)活性先上升,后下降;抗坏血酸(A SA)含量降低。过分干旱胁迫对藜会造成一定伤害。     

转ZjAPX基因拟南芥对NaCl、干旱胁迫的耐性研究

旨在探讨枣树抗坏血酸过氧化物酶基因ZjAPX在植物渗透胁迫中的作用。将ZjAPX基因转入到模式植物拟南芥,以野生型(WT)、转ZjAPX拟南芥株系T2为试材,进行不同浓度NaCl胁迫和干旱胁迫。结果表明,转基因株系的种子萌发、植株生长均优于野生型株系;荧光定量PCR检测转基因拟南芥植株在干旱和盐胁迫处理10 d后目的基因ZjAPX的表达量显著高于野生拟南芥,表明ZjAPX的高表达明显提高了植株的抗旱和耐盐性。     

三峡库区濒危植物疏花水柏枝的生理生化特性研究

对三峡库区特有濒危植物疏花水柏枝的光合作用、蒸腾作用、水势等生理特性以及丙二醛(MDA)、过氧化物酶(POD)和多酚氧化酶(PPO)活性等进行分析测定。结果显示,疏花水柏枝在水淹胁迫后,能快速地恢复其光合与蒸腾生理作用。植株在秋季和夏初的光合作用和蒸腾作用的日动态呈单峰曲线,最高值出现在中午。夏初的光合强度与蒸腾强度一般高于秋季,表明夏初是该物种的生长旺季。该物种10月份水势的日动态在-0.97～1.82MPa之间变动,水势与光合作用与蒸腾作用呈显著负相关。该物种虽是一种对水淹和干旱胁迫适应能力较强的物种,但土壤水分状况仍对植物的生长有较大影响。植株的生长发育阶段对疏花水柏枝的抗逆性有影响,在花前的抗逆性总体高于花后。还对疏花水柏枝的迁地保护提出了相应的建议。     

Ecophysiological relevance of cuticular transpiration of deciduous and evergreen plants in relation to stomatal closure and leaf water potential

The water permeability of the leaves of three deciduous plants (Acer campestre, Fagus sylvatica, Quercus petraea) and two evergreen plants (Hedera helix, Ilex aquifolium) was analysed in order to assess its role as a mechanism of drought resistance. Cuticular permeances were determined by measurement of the water loss through adaxial, astomatous leaf surfaces. Minimum conductances after complete stomatal closure were obtained by leaf drying curves. The comparison of the water permeabilities determined with these two experimental systems revealed good agreement in the case of Acer, Fagus, Quercus, and Ilex. For Hedera the minimum conductance was 3-fold higher than the cuticular permeance indicating a significant contribution of residual stomatal transpiration. The leaf water potential was measured as a function of water content and analysed by pressure-volume curves. The influence of water potential as a component of the driving force for transpirational water loss was assessed in order to identify modifications of the cuticular barrier by the leaf water content. The ecophysiological meaning of the water relations parameters describing transpiration under drought conditions (cuticular transpiration, minimum transpiration, residual stomatal transpiration, effect of leaf water content on transpiration) and the water relations parameters derived from pressure-volume curves (osmotic potential at full saturation, turgor loss point, bulk modulus of elasticity) are discussed with regard to adaptations for drought resistance.     

渗透胁迫下水稻种子萌发特性及抗旱性鉴定指标研究

用聚乙二醇（PEG）-6000作为渗透剂模拟干旱胁迫,探讨在4种不同浓度的渗透胁迫下水稻种子的萌发特性,并确立间接评价水稻苗期抗旱性的萌发期鉴定指标。结果表明,高浓度渗透液对种子萌发的抑制作用明显大于低浓度,萌发率的干旱胁迫反应指数随渗透液浓度的降低和萌发进程而增加。在不同浓度的渗透胁迫处理中,20％浓度下萌发6d后的萌发率表现较大的变异幅度和变异系数以及较均衡的品种频率分布,较好地反映了水稻种质对渗透胁迫的不同反应,认为20％／6d条件较适合作为萌发率鉴定的渗透液模拟干旱胁迫;经反复干旱后的幼苗存活率与萌发胁迫指数和20％胁迫浓度下萌发8d后芽鞘长的干旱胁迫反应指数（DRI）表现极显著或显著正相关,认为萌发胁迫指数和芽鞘长的DRI可作为评价水稻苗期抗旱性的间接鉴定指标。     

Growth enhancement and antitranspirant activity following seed treatment with a derivative of 5-hydroxybenzimidazole (Ambiol) in four drought-stressed agricultural species

The biostimulating action of seed treatment with the synthetic antioxidant, Ambiol (2-methyl-4-Edimethylaminomethyl-5-hydroxybenzimidazole dihydrochloride) on subsequent growth and transpiration of seedlings was studied. To study growth and transpiration responses, seeds of four agricultural species, soybean ( Glycine max L.), rapeseed ( Brassica napus L.), winter wheat ( Trilicum aestivum L.) and corn ( Zea mays L.), were soaked in Ambiol for 24 h, using the following concentrations: 0, 0.01, 0.1, 1, 10 and 100 mg 1¹. The subsequent seedlings were subject to simulated soil drought, using computer-automated root misting chambers. The influence of Ambiot on transpiration rate under simulated air drought was studied by growing plants under low humidity in a controlled humidity chamber. Response to Ambiol varied, depending on its concentration, the species used and the environment. Compared to untreated plants, 10 mg 1-⁻¹ Ambiol reduced the mid-day transpiration rate and total daily water usage of soybean by approximately 25%. Under simulated soil drought in the root misting chamber, 10 and 100 mg 1-⁻¹ Ambiol increased growth of rapeseed and soybean by 25–45%, relative to the 0 mg 1-⁻¹ treatment, yielding plants comparable in size to the fully-irrigated controls. However, Ambiol failed to promote growth of two drought-stressed monocotyledons (corn and winter wheat). At 100 mg P. Ambiol inhibited growth of both well-watered wheat and rapeseed, although this inhibition was mitigated by drought.     

半干旱黄土丘陵区沙棘和柠条水分利用与适应性特征比较

对半干旱黄土丘陵区坡地多年人工沙棘(Hippophae rhanvnoides)与柠条(Caragana korshinskii)林的土壤水分状况、生产力月动态以及光合生理和水势日变化特征进行比较．结果表明,沙棘与柠条深层土壤均存在不同程度的旱化现象,沙棘林在季节性土壤水分补偿深度和对深层低土壤水分的利用能力方面要强于柠条林．沙棘林的年度生产力大于柠条林．沙棘能够随着土壤水分条件的改善,而提高水分利用效率;柠条具有高光合特别是高蒸腾的光合生理特征,叶片水分利用效率较沙棘低．沙棘与柠条均兼具有御旱性与耐旱性,但沙棘对干旱的适应方式更积极主动．     

Genotypic variation between maize (Zea mays L.) single cross hybrids in response to drought stress

Effects of soil drought on growth and productivity of 16 single cross maize hybrids were investigated under field and greenhouse experiments. The Drought Susceptibility Index (DSI) was evaluated in a three year field experiment by the determination of grain loss in conditions of two soil moisture levels (drought and irrigated) and in a pot experiment by the effects of periodical soil drought on seedling dry matter. In the greenhouse experiment response to drought in maize genotypes was also evaluated by root to shoot dry mater ratio, transpiration productivity index, indexes of kernel germination and index of leaf injury by drought and heat temperature. The obtained values of DSI enabled the ranking of the tested genotypes with respect to their drought tolerance. The values of DSI obtained in the field experiment allow to divide the examined genotypes into three, and in the greenhouse experiment into two groups of drought susceptibility. The correlation coefficients between the DSI of maize hybrids in the field and the greenhouse experiments was high and statistically significant, being equal to 0.876. The ranking of hybrids drought tolerance, identified on the basis of field experiments was generally in agreement with the ranking established on the basis of the greenhouse experiment. In the greenhouse experiment statistically significant coefficients of correlation with DSI values in hybrids were obtained for the ratio of dry matter of overground parts to dry matter of roots, both for control and drought treatments, whereas in the estimation of the transpiration productivity coefficient and total dry matter the correlation coefficients were not statistically significant. In this study several laboratory tests were carried out for the drought tolerance of plants (kernel germination, leaf injury) on 4 drought resistant and 4 drought sensitive maize hybrids. Statistically significant correlation coefficients between DSI and the examined parameter of grain germination and leaf injury were obtained for the determination of promptness index (PI), seedling survival index (SS) and leaf injuries indexes (IDS, ITS) as a result of exposure to 14 days of soil drought, osmotic drought −0.9 MPa and exposure to high temperature 45 ° or 50 °C. The results of laboratory tests show that in maize the genetic variation in the degree of drought tolerance is better manifested under severe conditions of water deficit in the soil.     

Comparative Study on the Characteristics of Photosynthesis and Transpiration in Aneurolepidium chinense of Different Soil Types

The most striking difference in the characteristics of photosythesis and transpiration in Aneurolepidium chinense of different soil types was declined ratio of photosynthetic rate at light saturation point and maximum transpiration rate when the sufficient soil moisture became deficit. The declined range of photosynthesis in A. chinense of typical chestnut soil type was smaller than that of dark chestnut soil type and saline meadow soil type, but its declined range of transpiration was larger than that of the other two soil types. Therefore, using efficiency of solar energy and water of A. chinense of typical chestnut soil type was all higher at soil drought condition and adapitability itself to drought was stronger. These differences indicated that different edaphic ecotype of A. chinense can exist in natural condition.     

根茎萌发与幼苗期的虉草水分生态幅

为揭示虉草根茎萌发和幼苗期的水分生态幅,该研究通过盆栽控制试验,设置8个水分梯度：(2±0.5)％、(10±0.5)％、(15±0.5)％、(20±0.5)％、(25±0.5)％、(30±0.5)％、(40±0.5)％(水分饱和)和淹水(2 cm),通过萌发率、各形态指标和生理指标对虉草水分生态幅进行了探讨。结果表明：(1)土壤水分含量过低和过高都会降低虉草根茎萌发率。(2)随土壤水分含量的增加,虉草幼苗株高和地上生物量都呈现先上升后下降的趋势,两者并呈指数函数关系y ＝0.2038e0.0486x(R2＝0.803)。(3)虉草通过调整自身结构特点,降低个体大小、减少叶片数量和叶面积来适应胁迫环境,土壤水分含量为10％~30％时虉草含水率能保持相对稳定的水平。虉草的光和色素( Chl a、Chl b、Car)和相对叶绿素( SPAD)含量均随土壤水分含量的增加呈现出先上升后下降的趋势,Chl a/b则相反,呈先下降后上升趋势。(4) Chl/Car各组之间差异不显著。综合上述研究,利用高斯模型分析得出虉草的水分生态幅为7.48％~52.20％,最适水分生态幅为18.99％~40.60％。     

不同土壤型羊草光合和蒸腾作用特性的比较研究

不同土壤型羊草（Ａｎｅｕｒｏｌｅｐｉｄｉｕｍ ｃｈｉｎｅｎｓｅ）的光合和蒸腾作用特性有所不同。当土壤由湿变干时,差异最为显著的是光饱和光合速率和最大蒸腾速率的降低率。典型栗钙土型比暗栗钙土型和盐化草甸土型羊草的光合速率下降幅度小;其蒸腾速率下降幅度比其他两种类型大。因此,典型栗钙土型羊草在土壤干旱条件下光能利用效率和水分利用效率均较高,对干旱的适应性较强。这些差异表明,在自然条件下,羊草可能存在着不同的土壤生态型     

Responses of a CAM Plant to Drought and Rainfall: Capacitance and Osmotic Pressure Influences on Water Movement

Daily and seasonal patterns in water flow and water potentialwere investigated for the Crassulacean acid metabolism succulentAgave deserti during an extended summer drought and for a periodfollowing rainfall. Field measurements of transpiration andof osmotic pressure changes over selected 24 h periods wereused as input variables for a computer model of water flow thatwas based on an electrical circuit analog of the whole plant.Parameters such as root resistance and tissue capacitance werealso varied to reflect the effects of changing plant or soilwater status. The model predicted internal water flow and waterpotential during the drought cycle and was used to assess therole of tissue osmotic properties in water uptake from the soiland in internal water redistribution. For plants under wet soil conditions, 55% of the night-timetranspiration was derived from water storage, this storage beingrecharged during the day. As drought progressed, transpirationand the nocturnal increase in osmotic pressure declined, althoughthe osmotic pressure itself increased. The difference in osmoticpressure between the water storage tissue and the chlorenchymacaused a net flow of water into the chlorenchyma after 3 weeksof drought, thereby increasing chlorenchyma turgor pressure.Simulations also indicated that a large increase in root resistancemust occur to prevent substantial water loss from the plantto the dry soil. After rainfall, recharge of plant water storagewas complete within one week, although full recovery in theamplitude of daily osmotic pressure variations took longer. Key words: Agave deserti, transpiration, water potential, water storage