晋西黄土丘陵区若干树种水分生理及抗旱性量化研究

１９９６年林木生长季节（５－１０月）野外条件下测定了１２个树种的Ｐ－Ｖ曲线水分参数。研究了水分参数的季节变化及与林木抗旱性的关系。提出树种在水分胁迫条件下以水分参数Ψ＾ｓａｔｉ和Ψｔｌｐｉ所定义的渗透调节能力。并研究了树的这种渗透调节能力的季节变化规律及与环境因素的关系。应用数量分析的方法对林木的抗旱性予以综合评价。     

土壤干旱对黄土高原乡土树种水分代谢与渗透调节物质的影响

以黄土高原4个乡土树种的幼苗为试验材料,采用盆栽方式模拟土壤干旱环境,研究土壤干旱对不同树种水分代谢与渗透调节物质的影响。结果表明,大叶细裂槭、虎榛子叶水势、叶片含水量下降迅速,叶片离体保水能力降幅明显;白刺花、辽东栎则表现为叶水势、叶片含水量缓慢下降,组织相对含水量在中度胁迫下略有上升。白刺花在不同水分处理条件下离体叶片保水力明显高于其它树种。1个树种可溶性糖含量随土壤干旱程度加剧明显增加,可溶性蛋白质含量在树种之间变化较为复杂,无明显规律性。K^ 离子含量和游离脯氨酸含量在中度水分胁迫下均有不同程度升高。白刺花在土壤干旱进程中,可溶性蛋白质含量、K^ 离子含量和游离脯氨酸含量均明显高于其它树种。综合水分代谢和渗透调节物质来看,水分胁迫条件下,白刺花以保持高水势、减少组织水分散失和增加渗透调节物质来提高细胞原生质浓度,增强其抗旱性。     

长期水分胁迫对小麦生育中后期根叶渗透调节能力、渗透调节物质的影响

以 2个抗旱性强的和 2个抗旱性弱的小麦品种为材料 ,研究了中度及严重水分胁迫对根系及叶片渗透调节能力的影响。结果表明 :随着水分胁迫的加剧 ,叶片的渗透调节能力增强 ,但在籽粒迅速扩大的灌浆期 ,叶片的渗透调节能力下降。去穗处理明显地提高叶片的渗透调节能力。说明叶片渗透调节能力的高低与同化物的供应及分配有关。不同品种根系渗透调节能力与叶片基本一致 ,但根系的渗透调节能力低于叶片。开花、灌浆期根系的渗透调节能力大大降低 ,严重水分胁迫下根系的渗透调节能力低于中度水分胁迫。这一方面与同化物的供应有关 ,另一方面严重水分胁迫还会对根细胞造成损伤 ,对根系的渗透调节能力产生影响。渗透调节物质的变化趋势与渗透调节能力基本一致。叶片中 K+对渗透调节的贡献最大 ;其次是可溶性糖 ,6种渗透调节物质排列顺序为 K+>可溶性糖 >游离氨基酸 >Ca2 +>Mg2 +>Pro。根系中仍以 K+占绝大部分 ,但根系中 Ca2 +也是不可忽视的成分之一。     

胡杨、灰叶胡杨P-V曲线水分参数的初步研究

运用P-V技术初步研究了人工林胡杨、灰叶胡杨两个树种的水分参数差异,探讨了树种的抗旱性。结果表明灰叶胡杨的主要水分参数(ψ100、ψ0、ROWC、AWC、RWD、ε）明显低于胡杨,渗透调节能力和束缚水含量高于胡杨,表现对干旱环境具有较强的耐旱能力。综合评判表明灰叶胡杨对干旱的适应性较强。     

美国海滨桤木和薄叶桤木水分生理特性的比较

采取盆栽、人工控水的方式, 研究并比较了美国本土海滨桤木(Alnus maritima)和薄叶桤木(A. incana)的气孔导度(G_s)、叶片水势(ψ_leaf)以及渗透调节能力对土壤水分条件的响应, 以探讨引起两种桤木生态分布差异巨大的生理生态原因。结果表明: 1)正常水分条件下, 海滨桤木的G_s低于薄叶桤木, 其与大气温度、相对湿度和水蒸气亏缺等气象因子的相关性低于薄叶桤木; 干旱胁迫下, 海滨桤木的G_s对其自身ψ_leaf下降信号的敏感度低于薄叶桤木; 复水后, 其G_s恢复更为缓慢。2)正常水分条件下, 海滨桤木的ψ_leaf高于薄叶桤木, 且引起气孔关闭的ψ_leaf临界值较高; 干旱胁迫下, 海滨桤木的ψ_leaf下降幅度高于薄叶桤木。3)正常水分条件下, 海滨桤木和薄叶桤木的渗透调节能力无显著差异; 干旱胁迫下, 尽管两种桤木均表现出饱和状态渗透势(ψ_s^sat)下降、膨压与水势关系的最大变化率降低、初始失膨点渗透势(ψ_s^tlp)增加、细胞渗透调节能力范围(ψ_s^sat-ψ_s^tlp, Dψ_s)减小的趋势, 但与薄叶桤木相比, 海滨桤木的ψ_s^tlp较高, Dψ_s较小。从以上生理生态指标可以看出, 较高的叶片水势、较低的气孔调节能力、干旱下较低的渗透调节能力是造成海滨桤木分布范围狭小的重要原因。     

油松Ｐ—Ｙ曲线主要水分参数随季节和种源的变化

借助P—V曲线,研究了油松主要水分参数(包括饱和含水时的最大渗透势φ8sat、初始质壁分离时的渗透势φ8tlp、渗透水相对含量Ftl p,和相对含水量RWCtlp,以及质外体水相对含量AWC)随季节和种源的变化。结果表明,油松P—V曲线主要水分参数是随生长发育阶段和环境条件的改变而发生变化的。其中φ8sat、φ8tlp、Ftl p和RWCtlp值在夏季生长高峰期达到最高,以后逐渐降低,到严冬季节达到一年中的最低水平,随春季来临又将升高。而AWC值表现了与此相反的季节变化趋势。油松林木主要水分参数随季节发生的变化,与林木的抗寒锻炼过程表现了很大的一致性。油松不同种源水分参数上的差异亦很明显,表现最典型的是在冬季。根据水分参数所计算的综合指标表明,在油松不同气候生态型中,抗旱性强弱的顺序是,东北型、中部型、东部型、西南型、西北型、中西型、南部型。     

低水势下冬小麦胚芽鞘长度与叶片的渗透调节能力及大田产量关系的研究

本文以７个抗旱性不同的冬小麦品种（系）为材料,研究了低水势下芽鞘长度与大田干旱条件下叶片的渗透调节能力及大田产量的关系。结果表明：低水势下芽鞘长度与叶片的渗透调节能力及产量有极为密切的关系。为冬小麦抗旱鉴定及抗旱个体筛选提供了一个良好的指标。     

植物的渗透调节与其它生理过程的关系及其在作物改良中的应用

水分胁迫下,植物细胞中溶质主动积累,渗透势降低,从而产生渗透调节（oxmoticadjustment,OA）现象。渗透调节的主要功能在于维持膨压,继而影响其它一些生理生化过程[30,41]。本文讨论植物在水分胁迫下产生渗透调节的生理基础,渗透调节的意义及其在作物改良中的应用前景。互渗透调节的意义1．互渗透调节与抗旱性的关系在水分胁迫下,小麦的渗调能力与抗旱性成正相关。这是Morgan在1977年的试验结果。Flower等‘”‘也观察到抗旱的高粱品种比不抗旱品种能在更低的叶水势下使膨压得到维持。从理论上讲,渗调能力高有利于植物抗旱,但由…     

油松P-V曲线主要水分参数随季节和种源的变化

借助P-V曲线,研究了油松主要水分参数(包括饱和含水时的最大渗透势φ_(?)~(sat)、初始质壁分离时的渗透势φ_(?)(tlp)、渗透水相对含量F_(tlp),和相对含水量RWC_(tlp)以及质外体水相对含量AWC)随季节和种源的变化。结果表明,油松P-V曲线主要水分参数是随生长发育阶段和环境条件的改变而发生变化的。其中φ_(?)~(sat)φ_(?)(tlP) F_(tlp),和RWC_(tlp)值在夏季生长高峰期达到最高,以后逐渐降低,到严冬季节达到一年中的最低水平,随春季来临又将升高。而AWC值表现了与此相反的季节变化趋势。油松林木主要水分参数随季节发生的变化,与林木的抗寒锻炼过程表现了很大的一致性。油松不同种源水分参数上的差异亦很明显,表现最典型的是在冬季。根据水分参数所计算的综合指标表明,在油松不同气候生态型中,抗旱性强弱的顺序是,东北型、中部型、东部型、西南型、西北型、中西型、南部型。     

长叶红砂主要水分参数随季节和生境的变化

运用压力容积(PV)技术,研究了4种盐分生境下长叶红砂饱和含水量时最大渗透势(Ψ_s^sat) 、初始质壁分离时的渗透势(Ψ_s^tlp)、初始质壁分离时渗透水相对含量(ROWC^tlp)、初始质壁分离时的相对含水量(RWC^tlp)、质外体水的相对含量(AWC) 、束缚水与自由水的比值(V_a/V_o) ,以及饱和含水量时最大渗透势与初始质壁分离时的渗透势之差(ΔP)的季节变化.结果表明：长叶红砂的主要水分参数Ψ_s^sat、Ψ_s^tlp值为5月＞7月＞9月,AWC、V_a/V_o 和ΔP值表现为5月＜7月＜9月.说明长叶红砂在季节变化中历经了逆境锻炼,其耐水分亏缺能力随5、7、9月逐渐递增,这与植物的生长发育节律相吻合;与其他荒漠旱生植物相比,长叶红砂的Ψ_s^sat和Ψ_s^tlp值非常低,具有很强的忍耐高渗压和维持低水势的能力.以3个月份4种不同生境所测水分参数值为基础,运用模糊数学隶属函数法对不同生境长叶红砂耐水分亏缺能力进行综合评价,得出重盐土＞非盐渍土＞盐渍土.     

黄土区树种抗旱性指数的研究

根据ＰＶ曲线主要水分参数测定数据,进行了黄土区６个乔,灌木树种抗旱性季节变化趋势和树种间抗旱性指数排序分析,结果表明,树种抗旱性指数在生长季（５－１０月）呈具有阶段降低的持续增大趋势,仅在雨季中后期（即树木年第２４生长高峰期）略有减小,在年生长季土壤严重干旱阶段,树种的抗旱性指数大小排序为：海红〉河北杨〉柠条〉小叶杨〉北京杨〉刺槐。     

毛乌素沙地油松的水分关系参数随不同土壤基质的变化

 毛乌素沙地作为一个生态过渡带对环境波动及人为干扰十分敏感,植树造林对于防治沙漠化具有重要意义。为了有效地防风固沙,近些年在这里成功地营建了油松林带。但是,由于缺水,油松的生长经常受到严重制约。而且,这种制约由于土壤基质的差异性而得到加剧,因为土壤基质的差异会导致水分可利用性的不同。因此,很有必要研究生长于不同基质条件下的油松的生理特征。本文选取生长在典型沙丘及梁地(白垩纪及侏罗纪砂岩)上的油松,研究了其蒸腾作用,叶水势及抗旱性特征。主要结果为：1)在春季少雨季节,梁地油松比沙丘油松经历着更严重的干旱,因此,在春季的林带管理中应特别注意梁地油松的树情,并根据植物水分状况适当灌水。2)由于沙丘土壤的保水性差,即使在夏秋雨季也不能有效保持水分,因此,沙丘油松林带应注意密度控制。3)本研究所测得的油松叶子的初始质壁分离点的渗透势可作为油松在不同土壤条件和不同季节受干旱胁迫伤害的参考临界值,也可以指示油松对灌水的需求。     

小麦幼苗中过氧化物歧化酶活性与幼苗脱水忍耐力相关性的研究

本文着重探讨当前国际上提出的一种植物抗旱机制的新理论——即生物自由基与植物保护酶系统间相互作用的理论。在水分逆境情况下,植物细胞内自由基产生和清除的平衡遭到破坏,过剩的自由基会伤害细胞膜系统。过氢化物歧化酶是氧自由基的清除剂,因此它的活性的高低应与植物的抗旱能力密切相关。以小麦幼苗为材料,采用光化学方法测定了过氧化物歧化酶活性,同时测定幼苗的脱水耐受力,发现在不同组织和器官中,在不同发育阶段的幼苗中,二者均存在有正相关性。此外,还测定了幼苗脱水前后过氧化物歧化酶活性的变化,发现酶活性在脱水处理时升高。我们推测小麦幼苗经受干旱的过程中,细胞内可能包含生物自由基的有害作用。     

δ13C of wood in growth-rings indicates cambial activity of drought-stressed trees of Eucalyptus globulus

1. Growth, density and δ¹³C of wood and leaf area were measured in two adjacent stands of 6 year-old Eucalyptus globulus growing in the 600–700 mm year^–1 rainfall region of south-western Australia. Study sites were identical except for differences in the availability of water owing to physical properties of soil profiles and location of sites within the landscape.
2. Abundance of ¹³C (expressed as δ¹³C) in wood of trees growing on the drought-prone site (– 24·8‰±1·4) was greater than in other trees (– 25·8‰±1·2, P <0·001) throughout the 6 years and, with further development, the δ¹³C signatures of wood may become useful indices of drought-susceptibility in plantations within a few years of establishment. The seasonal pattern of δ¹³C of wood appeared to reflect seasonal variation in water availability and duration of cambial activity.
3. Basic density of wood of trees growing on the more drought-prone site (496±14·0 kg m^–3) was reduced compared to other trees (554±5·3 kg m^–3, P <0·001). δ¹³C of wood across boundaries of growth-rings suggested that drought stopped cambial activity resulting in less production of late wood and less dense wood.
4. The stand growing on the drought-prone site had reduced growth, wood yield and leaf area but identical specific leaf area. Annual growth was correlated with the previous season's rainfall. Together, these results suggested that within the same evaporative climate, drought reduces growth primarily by reducing leaf area and that there is a lag between onset of drought and reduced productivity.     

季节性干旱对白皮乌口树(Tarenna depauperata Hutchins)水分状况、叶片光谱特征和荧光参数的影响

干热河谷稀树灌丛常绿植物能够忍受长达半年以上的季节性干旱胁迫,但对这些常绿植物响应干旱胁迫的生理生态机制研究很少。本研究以干热河谷稀树灌丛优势常绿植物白皮乌口树(Tarenna depauperata Hutchins)为研究对象,分别在雨季和干季测定其叶片的水势、压力-体积曲线、气体交换参数、叶片光谱特征以及叶绿素荧光和P700的光能分配。结果显示:受严重季节性干旱胁迫的影响,与雨季相比,干季的凌晨叶片水势(Ψpd)下降至-4.5 MPa,水分传导的叶比导率(KL)下降了49.5%,叶绿素反射指数(NDVI)下降了40.6%,花青素反射指数(ARI)上升至0.074(约为雨季的12.3倍),并且雨季和干季的叶片水势、水分传导效率、叶绿素含量和花青素含量均差异显著(P0.05)。与雨季相比,干旱导致光系统Ⅱ(PSⅡ)最大光化学量子效率(Fv/Fm)显著下降至0.72(P0.05),即PSⅡ发生光抑制,而光系统Ⅰ(PSⅠ)的活性(Pm)未发生明显变化;干季叶片的最大非光化学淬灭(NPQ)增加了31%,而激发的最大环式电子传递速率(CEF)下降了66%。表明长期干旱胁迫使CEF的激发受到强烈抑制,即光能捕获效率的降低和NPQ的增强促进了白皮乌口树在长期干旱胁迫下的光保护。     

自然状况下头状沙拐枣对水分条件变化的响应

 对塔克拉玛干沙漠南缘沙漠-绿洲过渡带前沿人工植被头状沙拐枣(Calligonum caput-medusae)水分关系的研究表明：头状沙拐枣在生长季节中一直保持着正的膨压,水分亏缺的发展并不严重,植被所受水分胁迫在正常范围内,因而在现存条件下干旱引起的水分胁迫不足以威胁植被的存在。在生长进程中,随着环境胁迫的加剧,头状沙拐枣依然维持了比较高的水势和渗透势,实验结果也显示植株体内可溶性物质(NsDM)的累积程度并没有升高,因而其生理过程仍然在比较宽松的环境中进行。相对含水量（RWCp）在生长季节一直保持很高的水平,这对植株保持体内水分防止水分过度损失有利。头状沙拐枣在干旱胁迫下表现出的这些生理特点说明,植物对干旱环境的生理适应类型属于抵抗型。在叶水平上植株对干旱胁迫的水分生理适应主要表现为质外体水比例的增高,细胞壁弹性的增加,持续较高的相对含水量（RWCp）以及灌水后RWCp和枝条水分比值（WCsat）的增加上。夏季的引洪灌溉有助于头状沙拐枣水分状况的恢复,并很可能是植被免于严重水分胁迫的原因之一。     

COMPARISON OF THE VEGETATION OF THREE LOUISIANA SWAMP SITES WITH DIFFERENT FLOODING REGIMES

Net primary productivity and community structure were studied at three adjacent swamp sites that were all once subject to seasonal flooding. Because of man-related activities one is now permanently flooded, and a second is managed on a summer-fall dry period and a winter-spring flooded period. In the permanently flooded area such flood-intolerant trees as green ash are dying while shrubs and aquatic plants are increasing. Competition among overstory trees is reduced, enhancing growth of existing baldcypress and water tupelo trees. Total areal production, however, is low (887 g/m²/yr) because of fewer trees. Productivity in the managed area is high (1,780 g/m²/yr). The baldcypress-water tupelo community is being replaced by a swamp maple-ash community typical of bottomlands. In the natural swamp forest, baldcypress and water tupelo have remained dominant. Canopy closure has limited understory and aquatic growth but has also increased competition among overstory trees, resulting in a slow increase in basal area. Productivity is about 1,166 g/m²/yr. It is suggested that the flooding regime is an important controlling factor in each of the areas.     

Deciduousness in tropical trees and its potential as indicator of climate change: A review

In tropical forests, deciduousness is an outcome of integrated effect of drought, tree characteristics and soil moisture conditions and thus it is a reliable indicator of seasonal drought experienced by different tree species. Variations in the deciduousness are associated with several ecophysiological characteristics, such as varying allocation pattern of metabolic products, resource capture and conservation, water relations and stem water storages, annual carbon sequestration, timing of reproductive event initiation, extent of separation of vegetative and reproductive events and leaf strategies, and it helps in maintenance of water balance and protection of tree organs during the seasonal drought. Tropical forests support mosaics of tree functional types showing marked differences in the duration of deciduousness (from leaf exchanging to >8 months deciduous), as a result of varying degree of water stress experienced by physiognomy, distribution and wood anatomy of tropical trees. Wide variations in deciduousness in the same species growing at different sites suggest the high sensitivity of tropical trees to small changes in growing habitat. In the present review we have explored the ecological significance of deciduousness in tropical trees with emphasis on: (a) inter- and intraspecies plasticity in deciduousness, (b) various capacity adaptations related with the duration of deciduousness, (c) relationship between tree stem water status and deciduousness, and (d) probable effect of impending climate change on tropical trees. An attempt has also been made to establish deciduousness as climate change indicator in the dry tropics. There is need to develop capabilities to detect and predict the impact of climate change on deciduousness through long-term phenological network in tropics. Remote sensing techniques can generate valuable ecological information such as leaf level drought response and phenological patterns. Deciduousness has the potential to emerge as an important focus for ecological research to address critical questions in global modeling, monitoring, and climate change.     

干旱胁迫下不同抗旱性小麦叶片内源激素含量的变化与抗旱力强弱的关系

以抗旱性强的小麦品种昌乐5号和抗旱性弱的鲁麦5号的幼苗为材料,研究了随着干旱胁迫的加剧,小麦叶片相对含水量、气孔导度和内源激素水平的变化．结果表明,叶片的气孔导度和细胞激动素与脱落酸含量的比值（CTKs/ABA）呈较强的线性正相关关系而与叶片RWC的相关关系较弱,说明气孔导度受CTKs/ABA调控,而不是受叶片RWC的调控．在不同强度的干旱胁迫下我们可以利用CTKs/ABA的变化判断品种抗旱性大小：①抗旱力强的小麦品种叶片的平均CTKs/ABA值较高,而弱者较低,说明强者内源促进型激素含量相对较高,从而在干旱胁迫下保持较高的生活力．②抗旱力强的小麦品种叶片CTKs/ABA与干旱处理天数呈二次负相关关系,而弱者是线性负相关关系,说明强者具有较强的抗逆缓冲能力．③抗旱力强的小麦品种成熟叶（第二叶）CTKs／ABA下降快,新叶（第三叶）下降慢,而弱者反之,说明抗旱性强者可能存在着较强的从成熟叶向新叶的物质运输从而具有自我保护性调节机制．     

Modelling of calcium handling in airway myocytes

Airway myocytes are the primary effectors of airway reactivity which modulates airway resistance and hence ventilation. Stimulation of airway myocytes results in an increase in the cytosolic Ca²⁺ concentration ([Ca²⁺]_i) and the subsequent activation of the contractile apparatus. Many contractile agonists, including acetylcholine, induce [Ca²⁺]_i increase via Ca²⁺ release from the sarcoplasmic reticulum through InsP₃ receptors. Several models have been developed to explain the characteristics of InsP₃-induced [Ca²⁺]_i responses, in particular Ca²⁺ oscillations. The article reviews the modelling of the major structures implicated in intracellular Ca²⁺ handling, i.e., InsP₃ receptors, SERCAs, mitochondria and Ca²⁺-binding cytosolic proteins. We developed theoretical models specifically dedicated to the airway myocyte which include the major mechanisms responsible for intracellular Ca²⁺ handling identified in these cells. These biocomputations pointed out the importance of the relative proportion of InsP₃ receptor isoforms and the respective role of the different mechanisms responsible for cytosolic Ca²⁺ clearance in the pattern of [Ca²⁺]_i variations. We have developed a theoretical model of membrane conductances that predicts the variations in membrane potential and extracellular Ca²⁺ influx. Stimulation of this model by simulated increase in [Ca²⁺]_i predicts membrane depolarisation, but not great enough to trigger a significant opening of voltage-dependant Ca²⁺ channels. This may explain why airway contraction induced by cholinergic stimulation does not greatly depend on extracellular calcium. The development of such models of airway myocytes is important for the understanding of the cellular mechanisms of airway reactivity and their possible modulation by pharmacological agents.