塔干南缘骆驼刺植被水分关系的研究

对塔克拉玛干沙漠--绿洲过渡带骆驼刺(Alhagi sparsifolia Shap.)水分关系的研究表明:骆驼刺在夏季保持了正的膨压,一直较高较稳定的清晨水势说明植物水分恢复状况良好,植物得到了较好的水分供应;在7月,干旱胁迫造成的水分亏缺并未影响植株正常的蒸腾作用,因而干旱引起的水分胁迫并未威胁到植被的存在.骆驼刺对干旱胁迫的水分生理适应主要体现在叶水平上,表现为饱和枝条的渗透势(Πo)和膨压消失点的渗透势(Πp)的差值(ΔΠ)和相对含水量(RWC)在膨压消失点间更大的变化、渗透调节的产生、较高较稳定的饱和枝条水分与干物质之比(WCsat)和膨压消失点的相对含水量(RWCp),以及较低的共质体水在总水分中的相对含量(RWCsym).但形态学上的特征,主要表现为深而发达的根系和蒸腾面积的减少,才是骆驼刺适应极端干旱环境的主要途径.非定期的夏季一次性灌溉对地下水位很低地区的骆驼刺植被水分状况的恢复没有帮助.     

塔干南缘骆驼刺植被水分关系的研究

对塔克拉玛干沙漠———绿洲过渡带骆驼刺 (AlhagisparsifoliaShap .)水分关系的研究表明 :骆驼刺在夏季保持了正的膨压 ,一直较高较稳定的清晨水势说明植物水分恢复状况良好 ,植物得到了较好的水分供应 ;在 7月 ,干旱胁迫造成的水分亏缺并未影响植株正常的蒸腾作用 ,因而干旱引起的水分胁迫并未威胁到植被的存在。骆驼刺对干旱胁迫的水分生理适应主要体现在叶水平上 ,表现为饱和枝条的渗透势 (Πo)和膨压消失点的渗透势 (Πp)的差值 (ΔΠ)和相对含水量 (RWC)在膨压消失点间更大的变化、渗透调节的产生、较高较稳定的饱和枝条水分与干物质之比 (WCsat)和膨压消失点的相对含水量 (RWCp) ,以及较低的共质体水在总水分中的相对含量 (RWCsym)。但形态学上的特征 ,主要表现为深而发达的根系和蒸腾面积的减少 ,才是骆驼刺适应极端干旱环境的主要途径。非定期的夏季一次性灌溉对地下水位很低地区的骆驼刺植被水分状况的恢复没有帮助。     

沙漠-绿洲过渡带四种多年生植物水分关系特征

沙漠一绿洲过渡带地区植被的可持续性在防止绿洲沙漠化的过程中非常重要。对过渡带主要植物种骆驼刺(Alhagi sparsifolia Shap)、多枝柽柳(Tamarix ramosissima Lebed．)、胡杨(Populus euphratica Oliv．)和头状沙拐枣(Calligonum caputmedusae Schrenk．)水分关系的研究表明：4种植物的水分恢复状况良好,清晨水势一直较高,水分亏缺并不严重。渗透势和正午水势的降低幅度不大,变化比较平稳,更像是一种生长过程中的结果．植物的水分胁迫状况并不明显。4种植物的水势和渗透势都高于典型的荒漠植物,属于中生植物的范围。水分参数的变化显示在同样的环境节律下,四种植物在水分生理的变化特征上有一致性。一直很高的RWCp值表明植物不能适应剧烈的水分损失和较低的水分含量,植物需要稳定充足的水分供应来适应塔克拉玛干极端气候条件下的生长环境。植物对环境胁迫也有各自不同的生理适应特点,胡杨的△Ⅱ值大,能忍受较多的水分损失维持气孔的开放;骆驼刺的ψp值最高,水分亏缺的平衡与恢复效果明显;C4植物头状沙拐枣能维持较高的水势和渗透势,而盐土植物多枝柽柳能忍受水势的很大降低。夏季一次性灌溉对骆驼刺、多枝柽柳和胡杨水分状况的改善基本没有影响,对头状沙拐枣有一定的帮助。植物群落和地下水关系密切,过渡带地区地下水位稳定在植物可接触的范围内是保证植物长期存活的关键。4种植物对干旱胁迫的适应为躲避型。     

绿洲前沿地区多枝柽柳水分关系的特征及灌溉的影响

 对塔克拉玛干沙漠南缘策勒绿洲前沿地区多枝柽柳（Tamarix ramosissima）进行了研究,生长季节和灌溉前后水分关系的特征表明：多枝柽柳在生长季节保持了较高较稳定的清晨水势,植物能够平衡白天水分损失造成的水分亏缺,水分恢复状况良好。环境气候变化对渗透势等水分参数的影响不及植物水分恢复状况对它们的影响。除了个别数据,多枝柽柳水势和渗透势的降低幅度很小,更像是生长过程的结果,植物水分胁迫的特征并不明显。对比水分生理上对干旱胁迫的适应——渗透势的迅速降低和质外体水含量的增加,膨压消失点相对含水量(RWCp)和渗透势差值(ΔΠ)等参数显示的生理特征表明,植物更加依靠稳定充足的水分供应来适应生长环境中极端的高水压差和与此相应的高大气蒸发要求。与此适应,植物和地下水发生了联系,并且一次性灌溉对植物水分状况的恢复基本没有帮助,保持地下水位稳定在根系的可吸收范围内成为保护绿洲前沿多枝柽柳长期存在的关键。多枝柽柳的水分特征属于中生植物的范畴,对极端环境的适应属于躲避的类型。     

新疆策勒绿洲外围四种多年生植物的水分生理特征

对新疆策勒绿洲外围多年生植物胡杨、柽柳、沙拐枣和骆驼刺的水分生理特性进行了试验研究.结果表明：4种植物在生长季内没有受到严重的水分胁迫,灌溉对植物水分生理指标变化的影响不显著(P＞0.05).4种植物水分生理特性的季节变化各不相同.其中,骆驼刺的清晨水势和日均茎流量最高,但其平均水分利用效率最低;沙拐枣的平均水分利用效率最高,而且其清晨水势与日均茎流量的变化最为稳定,季节变幅不大;柽柳的清晨水势最低,具有较好的环境适应性;胡杨水分生理指标的季节变化相对平稳.在新疆策勒绿洲外围的极端干旱环境中,4种植物通过深根系和地下水相连接,并利用地下水来维持其生存与生长.     

翅果油树幼苗抗旱性

通过盆栽试验,研究不同土壤水分条件下翅果油树（Elaeagnus mollis）幼苗的生长、叶水分和丙二醛含量等各项生理指标的变化。结果表明,轻、中度干旱（30％～35％、45％～50％）胁迫时叶片含水量和叶绿素含量下降幅度较小,水势较高,丙二醛含量较低,翅果油树幼苗能保汪基本的生长,表现出耐旱植物的生理特征;在重度干旱胁迫（20％～25％）条件下,叶含水量和叶绿素含量下降较显著,水势最低,丙二醛含量最高,植株矮小,颜色发黄,表明翅果油树幼苗受到干旱伤害严重,不能正常生长。     

塔克拉玛干沙漠公路防护林苗木对干旱胁迫的水分生理响应

以塔克拉玛干沙漠公路防护林的乔木状沙拐枣(Calligonum arborescens)、多枝柽柳(Tamarix ramosis-sima)和梭梭(Haloxylon ammodendron)2年生苗木为材料,采用盆栽试验,设置10d(处理Ⅰ)、20d(处理Ⅱ)和40d(处理Ⅲ)的自然干旱胁迫周期,探讨其不同干旱处理下的水分生理特征及其耐旱性。结果表明:(1)3种苗木的水势均随着干旱胁迫程度增强而降低,水势最大降幅均在第2个干旱处理周期内,在第3个干旱处理周期内水势有较大回升,且以乔木状沙拐枣水势最高,梭梭水势最低。(2)乔木状沙拐枣的PV水分参数均随着干旱胁迫强度的增强而降低,其渗透势在第3个干旱周期内开始回升,而初始质壁分离的相对含水量(RWCtlp)一直呈降低趋势,质外体水分含量(AWC)呈现出"降-升-降"的波动状态。乔木状沙拐枣的耐旱能力随着干旱胁迫程度的增强变化不明显,它主要通过减少水分散失适应干旱环境。(3)多枝柽柳的PV水分参数在处理Ⅰ和处理Ⅱ之间差别很小,处理Ⅲ第60天就枯亡;其Ψsat和Ψtlp在第1个干旱周期降低,第2个干旱周期开始回升,而其AWC随胁迫时间在不断增大;多枝柽柳的耐旱能力随着干旱的增强急剧降低,耐旱性最差,它主要通过增加水分散失适应干旱环境。(4)梭梭的Ψsat和Ψtlp在处理Ⅱ、Ⅲ之间非常接近,且都低于处理Ⅰ,RWCtlp与AWC随着干旱强度增强而增大,同期处理Ⅱ和Ⅲ的AWC都高于处理Ⅰ。梭梭的耐旱能力随着干旱的增强不断增强,它通过增加体内水分含量,减少水分散失应对干旱胁迫。(5)3种植物的耐旱能力强弱为:梭梭>乔木状沙拐枣>多枝柽柳,所以梭梭最适合做沙漠防护林树种。     

花生幼苗对重复干旱胁迫的生理响应

防雨棚内设盆栽试验,设置对照(Control,75%田间持水量)、干旱胁迫(D,35%)、重复干旱胁迫(D_D,35%)3个处理,探讨花生幼苗对预干旱胁迫的适应和记忆响应,分析预干旱对缓解重复干旱胁迫危害的生理作用。结果表明,与干旱胁迫处理相比,重复干旱胁迫提高了叶片的相对含水量,减少脯氨酸的积累,降低MDA和O·_2~-含量;抗氧化酶SOD、CAT活性降低,其中POD活性降低最为明显,并在复水后恢复到与对照相同水平或低于对照。与正常水分的对照相比,干旱胁迫显著降低叶片光合速率(P_N)、最大光合势能(P_C)、最大光量子产量(Y_Q),但重复干旱处理在重复干旱胁迫时期和复水后P_N、P_C和Y_Q均高于干旱处理。预干旱胁迫导致光合和气孔导度滞后面积、滞后率(H_P和H_g)增加,经过预干旱胁迫后,重复干旱显著降低光合和气孔导度滞后面积和滞后率。预干旱胁迫提高植株在重复干旱胁迫下叶片含水量,减轻重复干旱对植株造成的生理伤害,在光合作用上提高对重复干旱的抵御能力,并在复水后快速恢复到正常水分条件下植株生长水平,减少干旱对植株的不利影响。因此,预干旱胁迫促使花生幼苗具备适应或可记忆初始胁迫的能力,重复干旱胁迫时表现更为迅速和强烈的生理防御和快速的生理恢复机制。     

不同水分胁迫对刺槐生理的影响

本文以二年生刺槐为供试材料,探讨水分胁迫对其生理的影响,为园林绿地中刺槐的灌溉提供理论指导.结果表明,水淹和干旱胁迫明显影响刺槐的生长.水淹11 d后,qP值、ETR值、Fv'/Fm'值和净光合速率的明显下降,qN值上升,19 d后植株死亡.中度干旱胁迫(土壤含水量在8%～15%之间)对植株生长有一定影响,表现为净光合速率的下降和qN值上升等;干旱胁迫(土壤含水量低于10%)严重抑制植株的生长,表现为qN值上升,而qP、ETR、Fv'/Fm'和净光合速率下降,处理19 d后干旱组植株死亡.轻度干旱(土壤含水量在15%～25%之间)适宜植物生长,表现为3次测定的qP、ETR、Fv'/Fm'、Fv/Fm和净光合速率都较高且稳定.土壤含水量日变化在15%～25%以内受轻度干旱胁迫是园林中刺槐的最佳灌溉方式,既不影响景观效果,同时也能节约灌溉用水.     

不同水分条件对头状沙拐枣幼苗形态特征及生物量的影响

地处塔克拉玛干沙漠南缘的荒漠-绿洲过渡带常年平均降水量仅为35 mm左右,而在2010年,该地区却发生了偶发性强降水.对于多年生植物来说,如何去适应这种短期强降水,我们都不得而知.在此背景下,我们对该地区头状沙拐枣幼苗的形态特征和生长特点等进行了定位试验研究.结果表明:在头状沙拐枣幼苗期,水分条件与其株高、冠幅、基径、根深等形态特征指标以及种群密度呈正相关;增加根冠比是沙拐枣幼苗适应干旱的有效策略;在7、8月,根冠比随水分条件的减少而增加,它们在生长初期把更多生物量分配到地上用以竞争光照资源,生长后期把更多生物量分配到根系用以探索地下空间资源;沙拐枣幼苗能随水分改变而自我调节生长比例来适应环境,不同水分条件下其株高-基径生长均属于典型的异速生长关系.这些结果在一定程度上反映了不同水分条件下头状沙拐枣幼苗生长规律,可为塔克拉玛干沙漠南缘地区植被恢复提供理论依据.     

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。     

The effect of water status and season on the incorporation of 14CO2 and [14C]-acetate into resin and rubber fractions in guayule

The effects of drought stress and season on both allocation of photosynthates to stems and leaves and potential for stem rubber synthesis were studied in guayule ( Parthenium argentatum Gray USDA line 11604). Two-year-old plants grown under field conditions in the Negev desert of Israel were subjected to different irrigation regimes, and water status was assessed by measuring the relative water content (RWC). Undetached plant tips were exposed to a 1 h pulse of ¹⁴CO₂, followed by a 24 h chase. ¹⁴C fixed and translocated to different plants parts and notably ¹⁴C incorporation into rubber and resin fractions was determined. The potential of detached branch slices to incorporate [¹⁴C]-acetate into rubber was also studied. A higher percentage of fixed ¹⁴C was translocated from shoot tips in winter (28–30%) than in summer (15–18%). The percentage of [¹⁴C]-acctate incorporated into the rubber fraction by stem slices was maximal in winter (20%) and minimal in summer (3–5%) in both cases in the absence of drought stress. In summer the translocation of photosynthates into stems was inversely related to plant RWC, dropping from 18% three days after irrigation to 3% 14 days later, and the potential of stems to synthesise rubber was high under drought conditions and low in well irrigated plants.     

遮阴对骆驼刺叶性状和水分生理的影响

以塔克拉玛干沙漠南缘荒漠绿洲过渡带优势种骆驼刺为试验材料,研究正常光照(NL)、中度遮阴(MS)和重度遮阴(SS)3种不同遮阴环境对骆驼刺(Alhagi sparsifoliashap.)叶厚、单叶面积、比叶面积、比叶质量等叶性状参数和相对含水量、水势、失水速率、气孔导度、蒸腾速率以及水分利用效率等水分生理参数的影响。结果显示:随着光照强度的降低,骆驼刺的叶片厚度(LT)、比叶质量(LMA)、净光合速率(Pn)、气孔导度(Gs)、蒸腾速率(Tr)和水分利用效率(WUE)明显降低,而单叶面积(LA)、比叶面积(SLA)、相对含水量(RWC)、失水速率(RWL)和水势(WP)明显升高;各叶性状参数与水分生理参数之间均有极显著的相关性。说明:骆驼刺在遮阴环境下,其叶性状特征主要通过单叶面积和单叶干物质积累的变化来响应遮阴环境;其水分生理特征主要是牺牲对水分胁迫具有较好抗逆性的水分生理特征并通过气孔调节和更多的水分消耗用于维持一定的光合能力来响应遮阴环境。叶性状与水分生理参数相关性分析表明,遮阴环境下骆驼刺叶性状变化主要通过影响RWL、WP、Tr和WUE进而影响其水分生理特征的变化。因此,建议可利用遮阴措施对极端干旱区荒漠植物骆驼刺进行植被恢复,但其遮光度应设置在70%—80%自然光之间。     

Life on the edge – to which degree does phreatic water sustain vegetation in the periphery of the Taklamakan Desert?

Questions: Do the vegetation‐specific patterns in the forelands of river oases of the Taklamakan Desert provide clues to the degree to which a vegetation type depends on unsaturated soil moisture, brought about by extensive floodings, or phreatic water? Location: Foreland of the Qira oasis on the southern rim of the Taklamakan Desert, Xinjiang Uygur Autonomous Region, China. Methods: A vegetation map was prepared using a SPOT satellite image and ground truthing. Measurements of soil water contents were obtained from a flooding experiment and transformed into water potentials. Sum excedance values were calculated as the percentage of days on which different thresholds of soil water potentials were transgressed. Groundwater depth was mapped by drilling 30 groundwater holes and extrapolating the distances to the whole study area. Results: The vegetation was characterized by only six dominant or codominant species: Alhagi sparsifolia, Karelinia caspia, Populus euphratica, Tamarix ramosissima, Calligonum caput‐medusae and Phragmites australis. The vegetation patterns encountered lacked any linear features typical of phreatophytes, thus not allowing direct conclusions on the type of the sustaining water sources. Soil water potentials never transgressed a threshold of pF 5 (?10 MPa) in horizons above the capillary fringe during periods without inundation, thus representing water not accessible for plants. Depth to the groundwater ranged between 2.3 and 17.5 m among plots and varied between 1.7 and 8.0 m within a plot owing to dune relief. The seven main vegetation types showed distinct niches of groundwater depths, corresponding to the observed concentric arrangement of vegetation types around the oasis. Conclusions: Inundation by flooding and unsaturated soil moisture are irrelevant for the foreland vegetation water supply. Although distances to the groundwater table can reach about 20 m, which is exceptionally large for phreatophytes, groundwater is the only water source for all vegetation types in the oasis foreland. In consequence, successful maintenance of oasis foreland vegetation will crucially depend on providing non‐declining ground water tables.     

岩溶石漠化地区几种生态恢复植物的生理生态学特征

选择石漠化地区树种任豆树、金银花和苦丁茶的植株为对象,测定其光响应曲线和光合、蒸腾、气孔导度的日变化,研究其光合、蒸腾、气孔导度与环境因子间的关系。在岩石裸露率高、地表水缺乏、白天温度极高的石漠化地区,对任豆和苦丁茶进行光响应模拟表明,两者的最大净光合速率分别为15.88μmol.m-2.s-1、4.58μmol.m-2.s-1。从气体交换特征日变化看出,这三种植物均有光合午休现象,任豆午休程度最弱而苦丁茶最强,光合与气孔导度均呈显著的正相关关系;通过对胞间CO2浓度Ci与气孔限制Ls关系分析,任豆和金银花的光合作用上午以气孔限制为主,下午有非气孔因素影响,而苦丁茶则以非气孔限制为主。任豆树具有较高的水分利用效率,金银花次之,而苦丁茶最小。通过综合分析,认为地表缺水并不是石漠化地区简单唯一的限制因子,高温胁迫也造成该区植物同化CO2减少的原因。根系的下扎能力也应是石漠化地区植物长期存活的关键。因此通过人工诱导构建石漠化地区植物群落时一定要考虑植物本身的根系遗传性状。     

岩溶石漠化治理优良先锋植物种类光合、蒸腾及水分利用效率的初步研究

针对西南岩溶石漠化地区干旱缺水的特点,采用Li-6400对其先锋树种任豆、金银花、狗骨木的光合、蒸腾及水分利用效率等特征进行分析,以揭示先锋树种利用水分生理生态学特征,从而提出植被恢复的对策。光响应模拟结果表明金银花和狗骨木符合Walker的非直线双曲线模型。蒸腾临界值狗骨木(幼树期)最小,金银花次之,任豆树较大,说明阳性树种任豆具有较大的蒸腾拉力,能够从土壤提取更多的水分,以减少岩溶石漠化地区强光引起的高温灼伤。任豆树、金银花、狗骨木具有同地带干性或沙漠优势植物的光合速率特征。任豆树有较耐受强光的能力,这与其在石漠化地区总是能够成为优势层片优势种的地位相符。三种植物光有效辐射与叶片蒸腾的呈极显著的线性关系;任豆树的蒸腾作用受气孔调节明显;狗骨木有较高的水分利用效率。上午9点左右和下午5∶00~6∶00是这些石漠化地区植物水分利用最高时间段。可以说这三种植物具有适应石漠化地区干旱和高温的生理生态学适应特征和避旱避高温策略,并保持旺盛的生物生产力。从植物固定碳水化合物效率并提高水分利用效率而言,三种植物套种,任豆树能够对藤灌植物适当遮荫,对加速狗骨木生长,提高金银花的产量将具有较好的效益。     

Further observations on the water relations ofProsopis tamarugo of the northern Atacama desert

Summary Prosopis tamarugo, a tree native to the Atacama desert of Chile apparently has unique water relations. It is proposed that in its native habitat, where there is essentially no precipitation, establishment occurs during the rare flooding periods, with water coming as runoff from the Andes. These plants subsequently exist as phreatophytes tapping the relatively shallow ground water. Although phreatophytic, the plants appears to come under increasing drought stress as the growing season progresses. Because of the very low water potentials of the salty surface soils, water evidently moves from the plant into the soil under certain conditions. This water may be reabsorbed subsequently and used by the plant as the water table capillary fringe is depleted toward the end of the leafy period.     

Water use by perennial plants in the transition zone between river oasis and desert in NW China

The study aimed at establishing the role of two possible water sources (inundation, ground water) for the water supply to the perennial plant species Alhagi sparsifolia, Calligonum caput-medusae, Populus euphratica and Tamarix ramosissima growing in the transition zone between a river oasis and the open desert at the southern fringe of the Taklamakan desert (Xinjiang province, NW China). The basic hypothesis was that inundations, which normally occur in summer when rivers from a nearby mountain range carry high water, contribute significantly to the plants’ water supply. When, in the first summer, inundations did not occur, four sites, each of which covered by a relatively dense stand of one species, were artificially flooded. Soil and plant water relations as well as meteorological variables were measured during two growing seasons. Water use efficiency of production (WUE_P) was calculated by relating biomass production, which was determined using allometric regressions, to water use.The effects of artificial flooding on the plant water relations were negligible. Water use was relatively high, especially in the A. sparsifolia and the P. euphratica stands and in a dense stand of T. ramosissima (up to approx. 500 kgH₂O m⁻² year⁻¹). Using the total above-ground biomass in the calculation, WUE_P was highest in C. caput-medusae and P. euphratica, and lowest, in A. sparsifolia. From soil and plant water relations, and against the background of the climate and the productivity of the vegetation, it is concluded that all perennial plants in the transition zone between oases and desert in that region must have sufficient access to ground water to ensure long-term survival. Management of ground water such that it remains continuously accessible to the perennial plants is a prerequisite for the conservation and sustainable use of the vegetation in the transition zone.     

不同环境条件下沙生植物的CO2气体交换研究

对腾格里沙坡头地区两种沙生植物：油蒿（ＡｒｔｅｍｉｓｉｓａｏｒｄｏｓｉｃａＫｒａｓｃｈ．）和柠条（ＣａｒａｇａｎａｋｏｒｓｈｉｎｓｋｉｉＫｏｍ）。在旱季和雨季时ＣＯ２气体交换特点及其动态变化进行了研究,结果表明：在干旱条件下,油蒿（Ａ）和柠条（Ｃ）的光合作用均受到严重影响,其光合率率日变化日出后（７：００－９：ａ．ｍ．）有一较小高峰外,基本处于很低水平。降水后,Ａ和Ｃ的光合作用均明显提高,但Ｐｎ