沿中国东北样带 (NECT)分布的若干克隆植物与非克隆植物光合速率与水分利用效率的比较(英文)

比较了沿 1 6 70km长的中国东北样带 (NECT)分布的在繁殖习性上不同的植物功能型 ,克隆植物 (clonalplant)与非克隆植物 (non_clonalplant)的光合作用、蒸腾作用、气孔导度、水分利用效率。所测定的 2 1 8种植物中有1 1 5种属于克隆植物。对于灌木和草本植物功能型而言 ,净光合速率 (Pn)和水分利用效率 (WUE)在样带东西两端较低 ,在样带中间较高 ;蒸腾速率在温带荒漠植物分布的西端出现升高的趋势。在森林乔木、森林灌木、森林草本、草甸草原灌木、草甸草原草本、典型草原灌木、典型草原草本、荒漠草原灌木、荒漠草原草本等不同功能型的植物中 ,典型草原灌木和草本植物的光合生理指标较高。在相同的生长环境中 ,克隆植物比非克隆植物表现出较高的Pn 以及其他生理指标。克隆植物的光合速率、蒸腾速率、气孔导度、水分利用效率分别比非克隆植物高出 2 2 %、1 5 %、2 3%和 1 4 %。这种现象表明克隆植物在CO2 、光能和水分资源利用能力上优于非克隆植物     

28种园林植物对大气CO2浓度增加的生理生态反应

通过对28种园林植物在不同CO2浓度水平下的气体交换参数的观测,分析了净光合速率、气孔导度、蒸腾速率和水分利用效率等生理生态指标的变化趋势与规律.结果表明,所测植物净光合速率和水分利用效率随CO2浓度升高而线性增加,但不同植物种类对高CO2浓度的反应存在较大差异.气孔导度和蒸腾速率与CO2浓度呈线性负相关关系.当CO2浓度倍增(350～700 μmol·mol-1)时,28种园林植物净光合速率平均提高31.2%,气孔导度降低16.5%,蒸腾速率下降11.7%,而水分利用效率则提高了49.2%.不同光合途径的植物净光合速率和水分利用效率受CO2浓度增加的影响程度为C3植物较大,C4植物较小, CAM植物介于两者之间.对不同生活型植物而言,影响程度则为草本C3植物较大,乔木C3植物较小,灌木C3植物居于两者之间.     

重庆石灰岩地区十大功劳光合特性动态变化和对CO2的响应研究

运用开放式气体交换C I-310便携式光合作用测定系统,研究了重庆石灰岩地区适生灌木十大功劳(Maho-nia fortunei)光合特性的动态变化和对CO2的响应。结果表明:十大功劳的净光合速率和气孔导度的日变化为双峰曲线,蒸腾速率的日变化为单峰曲线,净光合速率出现了光合午休现象,主要由非气孔因素影响,水分利用效率的日变化呈“L”型。在季节变化中净光合速率、蒸腾速率和气孔导度都呈现双峰曲线,而水分利用效率呈现“W”型。气体交换的日动态和季节动态变化是与植物生存的气候环境相适应的,在石灰岩地区表现出低光合低蒸腾和高水分利用效率的节水特性。净光合速率随着CO2浓度的升高而表现出升高趋势,其CO2补偿点为90μmol.mol-1左右,羧化效率为0.0125,较低的羧化效率是十大功劳净光合速率较低的一个原因。     

黍气体交换对异质养分环境的反应

 比较了异质养分环境中黍(Panicum miliaceum)叶片气体交换和光合养分利用效率。异质养分环境显著影响黍叶片气体交换;繁殖前期叶片光合速率、蒸腾速率、气孔导度和水分利用效率随环境中总养分水平变化的趋势与种子成熟期恰好相反;光合速率、蒸腾速率和气孔导度与叶氮含量成显著相关,而与叶磷含量和叶钾含量无显著相关;光合磷利用效率和光合钾利用效率受异质养分环境的显著影响,而光合氮利用效率对异质养分环境无显著反应。     

沿中国东北样带（NECT）分布的若干克隆植物与非克隆植物光合速率与水 …

比较了沿１６７０ｋｍ长的中国东北样带（ＮＥＣＴ）分布的在繁殖习性上不同的植物功能型,克隆植物（ｃｌｏｎａｌ ｐｌａｎｔ）与非克隆植物（ｎｏｎ－ｃｌｏｎａｌ ｐｌａｎｔ）的光合作用、蒸腾作用、气孔导度、水分利用效率。所测定的２１８种植物中有１１５种属于克隆植物。对于灌木和草本植物功能型而言,净光合速率（Ｐｎ）和水分利用效率（ＷＵＥ）在样带东西两端较低,在样带中间较高;蒸腾速率在温带荒漠植物分布的西端     

沙埋对沙米幼苗生长、存活及光合蒸腾特性的影响

沙米(Agriophyllum squarrosum)是藜科沙蓬属1年生沙生植物,广泛分布于我国各主要沙漠和沙地中。为了解沙埋对沙米生长、存活和光合蒸腾特性影响,2010-2011年在科尔沁沙地研究了不同沙埋深度下沙米幼苗高度、存活率、光合速率、蒸腾速率、气孔导度和水分利用效率的变化,结果表明:沙米具有极强的耐沙埋能力。埋深为株高25%时,沙米幼苗存活率和株高显著增加,埋深为株高50%-100%时,其株高和存活率虽有下降,但与非沙埋对照差异不显著。当沙埋深度超过株高后,其株高和存活率急剧下降,但沙埋达到株高266%时仍然有部分幼苗存活。沙埋第5天,随着沙埋深度的增加,沙米幼苗的光合速率缓慢下降,蒸腾速率、气孔导度和水分利用效率均呈波动式变化。随着沙埋时间的延长,和对照相比,沙米幼苗的光合速率、蒸腾速率和气孔导度均随沙埋深度增加而大幅度下降,但水分利用效率仍呈波动式变化。沙埋第15天时其光合速率、蒸腾速率、气孔导度和水分利用效率分别较非沙埋对照下降了86.7%、89.0%、90.0%和4.2%。相关分析表明,沙米幼苗的存活率和高生长与其光合速率、蒸腾速率、气孔导度变化呈显著正相关,而其光合速率、蒸腾速率、气孔导度之间也呈显著正相关,但与水分利用效率的相关性未达到显著水平。沙埋胁迫下沙米幼苗存活率下降和生长抑制不仅源于沙埋造成幼苗顶土困难和光合面积减少,光合速率、蒸腾速率和气孔导度下降也是重要原因。     

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。     

截干对杉木种子园老龄化母树光合特性的影响

为探究截干与否对杉木老龄化母树光合特性的影响,以杉木种子园老龄化截干与未截干母树为试验对象使用LI 6400XT便携式光合测定系统对其净光合速率(Pn)、气孔导度(Gs)、蒸腾速率(Tr)和水分利用效率进行了比较研究。结果表明:与未截干母树相比,截干可极显著提高母树净光合速率、气孔导度、蒸腾速率以及水分利用效率,其中净光合速率提高了0.3~5.6倍,叶片气孔导度提高了0.4~2.7倍,蒸腾速率提高了0.2~2.1倍,水分利用效率提高了0.02~2.6倍。枝条朝向对光合特性有显著影响,总体表现为东面枝叶的净光合速率、叶片气孔导度和蒸腾速率大于南面和西面。     

不同程度的水分胁迫对中间锦鸡儿幼苗气体交换特征的影响

为探讨未来降水减少对内蒙古皇甫川流域人工栽培主要灌木树种中间锦鸡儿气体交换特征的影响 ,特设计正常降雨水平、偏旱、干旱和极端干旱 4种水分处理水平 ,进行人工模拟水分胁迫实验。结果表明 ,不同的水分处理显著影响土壤含水量、土壤温度、净光合速率、气孔导度、蒸腾速率、资源利用效率和叶片水势。适度的水分胁迫 (干旱环境 )能够提高中间锦鸡儿的水分利用效率和抗旱性 ,同时也降低了净光合速率与蒸腾速率。随水分胁迫的增强 ,中间锦鸡儿的净光合速率日变化曲线逐渐从典型的单峰型转变成双峰型 ,出现光合“午睡”现象。根据 Farquhar和 Sharkey提出的判别标准 ,干旱和极端干旱下光合“午睡”的原因分别以气孔因素和非气孔因素 (叶肉细胞光合能力下降 )为主。中间锦鸡儿通过自身的生理调节以抵抗干旱 ,是其能够适应干旱环境、历经 3a大旱而幸存下来的重要原因     

内蒙古浑善达克沙地97种植物的光合生理特征(英文)

 报告了内蒙古浑善达克沙地不同生境下97种不同科、属植物的光合速率、蒸腾速率和水分利用效率特征。结果表明：猪毛菜（Salsola collina）、沙米（Agriophyllum pungens）、黑沙蒿（Artemisia ordosica）、狗尾草（Setaria viridis）、柠条（Caragana microphylla）等具有C4光合碳同化途径或具固氮能力的植物种具有较高的光合能力,其净光合速率大于30 μmol CO2·m-2·s-1, 而大部分具C3途径和无固氮能力的植物种的净光合速率较低,为1.29～10 μmol CO2·m-2·s-1;71%的植物种蒸腾速率集中在2～10 mmol H2O·m-2·s-1。所选出的高光效植物种在当地植被恢复与重建过程中应有很高利用价值。C4植物种占所测植物种的1/5左右,主要分布于固定沙丘上,且随着生境土壤湿度的增大其与C3植物种的光合速率差异逐渐缩小。在3种生境条件下,灌木和草本植物的光合速率和蒸腾速率顺序为：低湿地> 滩地 > 固定沙丘(p<0.01),而乔木为固定沙丘>滩地 (p<0.01) 。不同功能型植物的气体交换特征随生境的不同而异, 在固定沙丘上, 草本的蒸腾速率最高,乔木的水分利用率最高,三者光合速率相差不大。     

Response of photosynthesis of different plant functional types to environmental changes along Northeast China Transect

Net photosynthesis (P_n), transpiration (E), stomatal conductance (g_s), internal CO₂ concentration (C_i), and water use efficiency (WUE) were examined on 215 species from eight plant functional types (PFTs) along a precipitation gradient in northeast China (the Northeast China Transect, or NECT). Among the eight PFTs, meadow steppe grasses had the highest rates of net photosynthesis and forest grasses the lowest and the following order of P_n was noted: meadow steppe grasses >typical steppe grasses >steppe shrubs >desert grasses >forest trees >forest shrubs >desert shrubs >forest grasses (P<0.05). Transpiration tended to be the highest in the steppe grasses and lowest in forest shrubs. Transpiration also decreased rapidly with the appearance of C₃ desert species at the desert end. The forest tree PFT had lower P_n, E, g_s than the steppe PFTs, whereas WUE values were somewhat greater in the forest tree PFT than the desert shrubs and grasses. Low C_i values along the steppe section (from 400 to 1100 km, east to west) indicated the presence of C₄ species. Of all the PFTs, only shrubs and herbs were noted at all points along the transect. No clear relationship between P_n, E, g_s, WUE of herb and shrub PFTs and annual precipitation was noted – low values were found at both the high and low precipitation ends of the transect. Highest values were noted when precipitation was intermediate. Received: 28 October 1998 / Accepted: 10 May 1999     

Traits of Chlorophyll Fluorescence in 99 Plant Species from the Sparse-Elm Grassland in Hunshandak Sandland

Sparse-elm grassland is the remarkable landscape of Hunshandak Sandland in Inner Mongolia Autonomic Region of China. Maximum quantum efficiency (F_v/F_m) of 99 native plant species (85 grasses, 11 shrubs, and 3 trees) of different plant functional Types (PFTs) distributed in fixed sand dune, lowland, and wetland was investigated. Deep-rooted plant species (tree, shrub, and perennial grass) had higher F_v/F_m values than the shallow-rooted species (annual grasses), suggesting that soil drought is the major environmental stress. Annual C₄ grasses had higher F_v/F_m values than annual C₃ or CAM ones, indicating that C₄ photosynthesis is more ecologically adaptive than CAM and C₃ grasses. According to the habitats with annual C₃ grass distribution, F_v/F_m values were in the order of fixed dune>lowland>wetland, suggesting that salt and pH value may enhance irradiance or heat stress for those distributed in pickled and watery habitats. Based on such characteristics, Ulmus pumila, Salix gordejevii, Caragana microphylla, Agriophyllum pungens, and Agropyron cristatum are recommended as ideal species for ecological restoration in degraded sand-land ecosystems.     

科尔沁沙地黄柳和小叶锦鸡儿茎流及蒸腾特征

利用Dynamax茎流测量系统、Li-6400光合作用仪和自动气象站分别对科尔沁沙地两种灌木树种黄柳和小叶锦鸡儿的液流变化、蒸腾速率及其周围的环境因子进行检测.研究结果表明：（1）黄柳、小叶锦鸡儿茎干液流通量密度日变化趋势基本相同,呈多峰曲线;液流启动时间分别为4：30、5：30,在13：00左右到达各自液流峰值,峰值大小为81.2～91.7mg/h、17.3～27.1mg/h,20：30降为最低,晚间均具有明显的液流活动现象.（2）灌木的茎流日变化曲线与蒸腾速率日变化曲线并不吻合,实验测得的叶片蒸腾速率不能同步反映茎干液流的动态变化特征;黄柳的叶片蒸腾速率和单枝蒸腾耗水量均大于小叶锦鸡儿,耐旱性相对较低.（3）黄柳、小叶锦鸡儿白天液流通量密度变化趋势与环境因子变化趋势相吻合.相关性分析表明,影响灌木液流变化的主要因子依次是太阳有效辐射、相对湿度、大气温度、风速、10cm和20cm土壤温度.     

Elevation-Related Variation in Leaf Stomatal Traits as a Function of Plant Functional Type: Evidence from Changbai Mountain,China

Understanding the variation in stomatal characteristics in relation to climatic gradients can reveal the adaptation strategies of plants, and help us to predict their responses to future climate changes. In this study, we investigated stomatal density (SD) and stomatal length (SL) in 150 plant species along an elevation gradient (540–2357 m) in Changbai Mountain, China, and explored the patterns and drivers of stomatal characteristics across species and plant functional types (PFTs: trees, shrubs, and herbs). The average values of SD and SL for all species combined were 156 mm^–2 and 35 µm, respectively. SD was higher in trees (224 mm^–2) than in shrubs (156 mm^–2) or herbs (124 mm^–2), and SL was largest in herbs (37 µm). SD was negatively correlated with SL in all species and PFTs (P<0.01). The relationship between stomatal characteristics and elevation differed among PFTs. In trees, SD decreased and SL increased with elevation; in shrubs and herbs, SD initially increased and then decreased. Elevation-related differences in SL were not significant. PFT explained 7.20–17.6% of the total variation in SD and SL; the contributions of CO₂ partial pressure (), precipitation, and soil water content (SWC) were weak (0.02–2.28%). Our findings suggest that elevation-related patterns of stomatal characteristics in leaves are primarily a function of PFT, and highlight the importance of differences among PFTs in modeling gas exchange in terrestrial ecosystems under global climate change.     

A Comparative Study on Photosynthesis and Water Use Efficiency Between Clonal and Non-clonal Plant Species Along the Northeast China Transect (NECT)

Net photosynthesis (P n), transpiration (E), stomatal conductance (g s) and water use efficiency (WUE) of more than 218 species belonging to two different reproductive functional types, i.e. clonal (115 species) and non-clonal species (103 species), along the 1 670 km Northeast China Transect (NECT) were analyzed. The results showed that P n and WUE appeared to be lower in the east and west ends of NECT, with peaks in the middle. Transpiration was found to be higher in the west end, where most temperate desert species were distributed. On the same site, most clonal species showed higher P n and related physiological variables than non-clonal species. For different growth forms over NECT, e.g. forest trees, shrubs and grasses, meadow steppe shrubs and grasses, typical steppe shrubs and grasses, the meadow steppe and typical steppe grasses, showed higher values of physiological variables than the forest or the desert species. But for the two reproductive plant functional types (PFTs), clonal species had higher physiological variables, with averages of 22%, 15%, 23% and 14% higher than the non-clonal ones for P n, E, gs, and WUE, respectively. Such differences indicated that clonal species might have advantages over non-clonal species in utilizing environmental resources such as light, CO2, and especially water.     

浑善达克沙地四种生境中榆树天然更新幼苗发育的比较

对浑善达克沙地腹地风蚀低地、覆沙草地、平坦流动沙地和流动沙丘阴坡 4种类型生境中植物群落和榆树幼苗生长的比较研究结果表明 :(1)尽管单个样方内植物种数生境间没有差异 ,但群落总盖度覆沙草地的最低 ,流动沙丘阴坡上的居中 ,风蚀低地和流沙平地的最高。榆树幼苗的分盖度风蚀低地的最高 ,在流沙平地的次之 ,在覆沙草地的最低 ,流动沙丘阴坡的介于流沙平地和覆沙草地的中间 ,但与二者没有显著性差异 ;(2 )风蚀低洼地的幼苗生长的最好 ,平均高度、主根长度、叶片数和叶面积均显著大于生长在覆沙草地和流沙平地的幼苗的。生长在流动沙丘阴坡上幼苗的植株高度、叶片数目和叶面积介于它们之间 ,主根长度与风蚀低地的没有显著差异 ;(3)风蚀低洼地榆树幼苗根、茎、叶各部分生物量都明显地高于生长在其它 3种生境中幼苗的 ,流动沙丘阴坡上榆树幼苗的生物量还明显高于生长在覆沙草地和流沙平地上的 ,生长在覆沙草地和流沙平地的榆树幼苗的生物量基本上没有差异。该结果说明 ,榆树幼苗在风蚀低地生长最好 ,其次是在流动沙丘阴坡 ,这两种生境可能是浑善达克沙地榆树更新的主要地方。     

科尔沁沙地黄柳气孔导度和水分状况随季节和地形的变化特征①

黄柳叶片气孔导度在上午８时后即呈下降趋势,下表皮气孔导度大于上表皮。干旱季节上下表皮气孔日间开启程度不同,下表皮气孔受环境因子的影响较大;湿润季节则相同。不同季节气孔导度值不同,下表皮气孔对季节变化反应灵敏。不同季节黄柳体内水分状况参数值不同,在５、６月份抗旱性最强;沙丘不同部位各参数值亦不相同,在沙丘中部和丘脚抗旱性最强,而在丘顶水分状况最好。湿润的７月黄柳一日内各时刻的膨压值均大于０,说明经期     

科尔沁沙地黄柳气孔导度和水分状况随季节和地形的变化特征

黄柳叶片气孔导度在上午8时后即呈下降趋势,下表皮气孔导度大于上表皮。干旱季节上下表皮气孔日间开启程度不同,下表皮气孔受环境因子的影响较大;湿润季节则相同。不同季节气孔导度值不同,下表皮气孔对季节变化反应灵敏。不同季节黄柳体内水分状况参数值不同,在5、6月份抗旱性最强;沙丘不同部位各参数值亦不相同,在沙丘中部和丘脚抗旱性最强,而在丘顶水分状况最好。湿润的７月黄柳一日内各时刻的膨压值均大于0,说明虽然此期间水势随环境条件和气孔调节有所升降,但未影响植株的正常生长。     

Photosynthetic response of desert plants to small rainfall events in the Junggar Basin,northwest China

Small rainfall events (≤ 5 mm) have short intervals, but account for a large proportion of the annual rainfall frequency in arid lands. To explore possible strategies used by desert plants to utilize the small rainfall events, we investigated the photosynthetic responses of 28 species to 1 mm and 6 mm of simulated rainfall in the Junggar Basin, northwest China. The species were grouped into four plant functional types: short-life-cycle herbs, long-life-cycle herbs, non-phreatophyte shrubs, and phreatophyte shrubs. The results showed that the net photosynthetic rate, stomatal conductance, and transpiration rate increased in most of the herbs, but they responded differently to the rainfall treatments. However, the water-use efficiency did not significantly differ after 1 and 6 mm rainfall treatments in most of the shrubs. The maximum water absorption by leaves and the percentage increase of a leaf water content (LWC) were higher in the herbs than those in the shrubs. Plants with dense trichomes had the highest LWC. The results suggested that the desert plants benefited from the micro-environment humidity provided by the small rainfall events.