Species diversity and its relation with soil factors under different site conditions in a desert-oasis ecotone

Vegetation and soil surveys were conducted under different site conditions in 2007-2011 to study species diversity using richness, evenness and diversity indices, in the middle portion of the Heihe River Basin. The relationship between species distribution and soil environmental factors was also studied by Canonical Correspondence Analysis （CCA）. Results show that vegetation coverage and species diversity were the highest in the interdune lowland, and the lowest in the mobile dime. Results of the Hill＇s index （di- versity ordering） shows that species diversity is reduced along decreasing soil water content, and the order of species diversity was interdune lowland, flat slope, fixed dune, semifixed dune and mobile dune. The influence degree of soil factors on vegetation dis- tribution was soil water content 〉 pH 〉 total K 〉 organic matter 〉 available N 〉 total N 〉 available K 〉 total P 〉 saline content 〉 available P. Soil water content and pH were important factors significantly affecting spatial distribution difference of vegetation, the environmental explanation was 98%.

Soil properties and herbaceous characteristics in an age sequence of Haloxylon ammodendron plantations in an oasis-desert ecotone of northwestern China

Haloxylon ammodendron, a typical desert shrub with C4 pathway of photosynthesis, possessing a strong ability to adapt to an extreme drought environment, has a rapid growth rate in sandy lands and is widely used in sand-fixing shelter-forest systems in oasis-desert ecotones. To assess the effects of H. ammodendron plantation on the soil, we measured soil properties and herbaceous characteristics along a nearly 40-year chronosequence after H. ammodendron was planted in shifting sand dunes in an oasis-desert ecotone. Results showed that silt and clay fractions increased significantly in the topsoil. The accumulation rates of soil organic carbon （SOC）, total nitrogen （TN） and total phosphorus （TP） were faster in the early stages （0-9 years） and slower in the late stages （9-39 years）. The soil pH and electrical conductivity （EC） were higher than those in the non-vegetation dunes. Moreover, the soil properties in the topsoil （0-5 cm） showed larger variation scope than those in the deeper soil layers （5-20 cm）. The significant relationships of the soil silt＋clay content with the chemical properties mainly appeared in the topsoil. The wind erosion susceptibility of the soil, evaluated by erodible fraction （EF）, decreased significantly with increasing H. ammodendron plantation age. Additionally, the annual pioneer herb, Agriophyllum squarrosum, was gradually substituted by the annual salt-tolerant herb, Bassia dasyphylla, with increasing plantation age. These results showed beneficial effects of H. ammodendron plantation on improving soil conditions. However, the dynamics of the herbaceous species also reminded us that the long- term effects of H. ammodendron plantation, especially on changes in vegetation composition, still need further evaluation.

Quantification of driving factors on NDVI in oasis-desert ecotone using geographical detector method

Within oasis-desert ecotone regions,the normalized difference vegetation index(NDVI)is an important parameter for evaluating the growth of vegetation.An accurate quantitative study between NDVI and environmental and anthropogenic factors is critical for understand the driving factors of vegetation growth in oasis-desert ecotone.In 2016,four periods Landsat 8 OLI_TIRS images,relevant climatological parameters data(air temperature,air relative humidity,wind velocity and accumulated temperature),land cover type data and soil data were selected as proxies.In order to quantify the explanatory power for NDVI spatial and temporal distribution in the southern edge of Dunhuang City and northern side of the Mingsha Mountain,the geographical detector model was used to explain the potential influences of factors versus the spatial distribution of NDVI,and each explanatory variable's relative importance can be calculated.The factor detector results disclose that the spatial distribution of NDVI is primarily dominated by land cover type.The risk detector results show that,high NDVI region is located within woodland.The mean value of NDVI displays an increase and then decrease trend with air temperature increase.With the increase of wind velocity and decrease of air relative humidity,the NDVI value shows a decrease trend.The interactive q values between the two factors are higher than any q value of separated factors.Results also indicate that the strongest interactive effects of NDVI are different in distinct seasons.Consequently,anthropogenic activity is more important than environmental factors on NDVI in oasis-desert ecotone.We also demonstrate that air relative humidity rather than air temperature have played a greater role in NDVI spatial distribution.

Desert vegetation distribution and species-environment relationships in an oasis-desert ecotone of northwestern China

Environmental heterogeneity significantly affects the structure of ecological communities.Exploring vegetation distribution and its relationship with environmental factors is essential to understanding the abiotic mechanism(s)driving vegetation succession,especially in the ecologically fragile areas.In this study,based on the quantitative analysis of plant community and environmental factors in 68 plots at 10 different transects in the Minqin oasis-desert ecotone(ODE)of northwestern China,we investigated desert vegetation distribution and species-environment relationships using multivariate analysis.Two-way indicator species analysis(TWINSPAN),detrended correspondence analysis(DCA),and canonical correspondence analysis(CCA)methods were used.A total of 28 species,belonging to 27 genera in 8 families,were identified.Chenopodiaceae,Zygophyllaceae,Gramineae,and Leguminosae were the largest families.Annual and perennial herbs accounted for 28.60%of the total number of plants,while shrubs(42.90%)were the most dominant.Nitraria tangutorum was the constructive species of the desert plant community.We divided the 68 plots surveyed in this study into 7 community types,according to the results of TWINSPAN.The distribution of these 7 communities in the DCA ordination graph showed that species with a similar ecotype were clustered together.Results of CCA indicated that groundwater was the dominant factor influencing vegetation distribution,while distance between plot and oasis(Dis)and soil electrical conductivity(EC)were the local second-order factors.Our study suggests that optimizing the utilization of groundwater in oases is key to controlling the degradation of desert vegetation.The favorable topographic conditions of sand dunes should be fully utilized for vegetal dune stabilization,and the influence of soil salinity on the selection of afforestation tree species should be considered.

Effects of an oasis protective system on aeolian sediment deposition:a case study from Gelintan oasis,southeastern edge of the Tengger Desert,China

Desert-oasis ecotones are boundary areas between oases and desert ecosystems.Large efforts to control sediment and stabilize these boundaries depend on understanding sedimentary processes,especially aeolian transport and deposition.Previous studies on aeolian sediment deposition have focused primarily on a single land surface type or a single engineering approach.Few studies have considered deposition in a multi-layer oasis protective system.A complete oasis protective system consists of an outer bare sand area,a sand barrier zone,a shrub and herbaceous plant zone,and a farmland shelter zone.This study used sedimentary analysis to quantify grain-size characteristics in samples from the four land surfaces under different types of weather conditions in the Gelintan oasis of the Tengger Desert,the fourth largest desert in China.The results showed that aeolian sediment deposition decreased from the outer bare sand area through the oasis protective system and into the interior.The four land surface types showed significant differences in deposition volume(P<0.05).Deposited sediment showed gradual decrease in dominant grain-size from sand to silt,but sediment deposited during dust weather contained a larger coarse-grained fraction.From the outer desert to the inner oasis,transport mechanisms shifted from saltation(sand)to suspension(silt and smaller)in non-dust weather.During dust weather,deposition primarily occurs from near-surface aeolian sand transport with saltation.Sediment sorting decreased from exterior to interior zones of the protective system while skewness and kurtosis showed no significant change(P<0.05).These results can help inform strategies for stabilizing and protecting desert-oasis ecotones in this region and other localities.

Carbon assimilation characteristics of plants in oasis-desert ecotone and their response to CO_2 enrichment

Six species of more than 20-year-old desert woody plants in the oasis-desert ecotone were selected for study. The results showed that: (1) in different growing seasons δ13C values of assimilating organ varied between -14‰ and -16‰ for Haloxylon ammodendron (HA),-14‰-15‰ for Calligonum mongolicum (CM) and-25‰- -28‰ for Caragana korshinskii(CK), Nitraria sphaerocarpa (NS) and Hedysarum scoparium (HS). (2) The net photosynthetic rate (Pn) of HA and CM was significantly higher than those of the other species. With the decrease in Pn for the six species, their intercellular CO2 concentration increased, but stomatal limitation value decreased under the intensive light. At the same time, the photochemical efficiency of PS II dropped to different degrees. (3) The CO2 enrichment experiment demonstrated that, Pn of HA and CM increased to different extent under 450 umol/mol, but their Pn reduced or approximated to the current condition under 650 umol/mol. Under 450 umol/mol the efficiency for solar energy utilization of CK and HS significantly reduced and under 650 umol/mol their respiration rate exceeded photosynthesis rate. It can be concluded that HA and CM have some function of pathway for C4, but the other three species have the function for C3. The decline in their Pn is mainly caused by non-stomatal factors. HA, CM, CKand HS exhibited photoinhibition, which disappeared in a short time. This is a kind of positive readjustment to adapting to the desert environment. HA and CM can adapt to the high CO2 environment, but CK and HS cannot. With the rise in atmospheric CO2 concentration and climate warming, the latter two species in the oasis-desert ecotone may be gradually degraded or even disappear.

乌兰布和荒漠绿洲过渡带白刺灌丛沙堆防风效应风洞模拟

灌丛沙堆作为荒漠绿洲过渡带广泛存在的生物地貌类型,其在不同演化阶段和植被盖度下的风速分布及防风效应对土壤风蚀灾害控制具有重要意义。为揭示灌丛沙堆演化阶段及植被盖度对周围风场结构特征及防风效应指标的影响规律,该研究以乌兰布和沙漠荒漠绿洲过渡带单个和两个白刺(Nitraria tangutorum)灌丛沙堆为对象,利用风洞模拟试验测定其在4个不同演化阶段(雏形阶段、发育阶段、稳定阶段、活化阶段)和3种不同植被盖度(0、40%及70%)工况下竖直和水平面的风速分布,探讨演化阶段及植被盖度对相对速率、防风效能等防风效应指标的影响。研究发现,不同演化阶段的白刺灌丛沙堆在0~0.8H(H为灌丛沙堆高度)高度范围内、距沙堆中心-H~5H水平范围内风速有显著变化;对比坡前减速区、上方加速区、两侧急流区和后方减速区的风速变化发现,白刺灌丛沙堆在后方减速区的风速变化最为显著,处于稳定阶段的灌丛沙堆在植被盖度为70%时的风速最大可减少90%;不同演化阶段中,稳定阶段灌丛沙堆对风速的削减更为显著,防风效能较大,而处于雏形阶段的灌丛沙堆的防风能力相对较弱;在两个平行于风向排列的灌丛沙堆的相互影响下,沙堆之间丘间低地的防风效能比单个灌丛沙堆有所提高,且第二个灌丛沙堆下游区域的防风效能略小于两个灌丛沙堆间的丘间低地;各演化阶段单个和两个灌丛沙堆周围的防风效能均随植被盖度增大而增大。该研究结果可为乌兰布和荒漠绿洲过渡带土壤风蚀防治提供参考。

吉兰泰荒漠绿洲过渡带不同生境植被多样性与土壤养分特征研究

以吉兰泰荒漠绿洲过渡带的植被和土壤为研究对象,采用野外调查与室内试验相结合的方法,研究了不同生境植被群落多样性和土壤养分特征,以期为该地区植被恢复重建提供参考依据。结果表明:1)研究区群落多样性水平较低,且Shannon-Wiener多样性指数、Simpson优势度指数、Margalef丰富度指数和Pielou均匀度指数均表现为固定沙地>半固定沙地>盐碱滩地>流动沙地。2)研究区土壤粒径主要以中砂与细砂为主,其含量分别介于35.13%~40.23%和46.02%~56.59%。3)4种生境平均土壤有机碳(SOC)、有效氮(AN)、有效磷(AP)和有效钾(AK)含量分别介于3.12~8.32 g·kg^(-1)、2.70~5.86 mg·kg^(-1)、2.50~4.85 mg·kg^(-1)和476.86~690.87 mg·kg^(-1),土壤养分含量随着沙地固定逐渐增加。4)土壤SOC和AN含量与Shannon-Wiener多样性指数、Simpson优势度指数、Margalef丰富度指数和植被盖度呈极显著正相关。

民勤荒漠绿洲过渡带优势植物地上和地下生物量的估测模型(英文)

荒漠优势物种生物量的定量测量是荒漠土壤管理的重要依据。为精确估计民勤典型绿洲_荒漠过渡带中优势物种生物量,我们用随机选取的82个10m×10m的样方进行优势物种调查。结果显示试验地物种结构简单,而且总盖度仅为16.12%。选取5种荒漠优势物种(白刺(Nitraria tangutorum)、沙拐枣(Calligonum mongolicum)、梭梭(Haloxylon ammodendron)、沙蓬(Agriophyllum squarrosum)和盐生草(Halogetonar achnoideus)),利用全挖法测定其地上和地下生物量。用测定生物量80%的数据分析每一种植物地上和地下干、鲜生物量与其自身的形态参数地径、高度和冠幅之间的相关关系,再利用线性回归分析方法,以相关性显著的形态参数为自变量确定了预测试验地每一优势物种最适宜的地上及地下干、鲜生物量的回归模型。研究结果证实包括地茎(除白刺)和盖度为自变量的回归方程和5种优势荒漠植物的生物量拟合度很好,用测定生物量20%的数据对所有模型进行检验,证实所有生物量的估测模型能够精确预测优势荒漠物种生物量。

新疆阜康绿洲荒漠过渡带主要植物种的生态位分析

采用 Levins公式和王刚生态位重叠计测方法 ,对新疆阜康绿洲荒漠过渡带中的 7个植物种 ,分别从群落梯度和 3个单一生态因子 (土壤水分维 ,土壤盐分维 ,土壤酸碱度维 )上对其生态位分化进行了定量分析。结果如下 :1在群落梯度上 ,生态位大小依次为红砂 ( 0 .70 1 0 ) ,梭梭 ( 0 .6 4 34 ) ,角果藜 ( 0 .4 774 ) ,雾冰藜 ( 0 .374 5 ) ,盐爪爪 ( 0 .35 4 1 ) ,叉毛蓬( 0 .335 4 )和碱蓬 ( 0 .2 76 9) ;2红砂在土壤水分、土壤盐分、土壤酸碱度维上的生态位分别为 0 .5 2 74 ,0 .6 0 39和 0 .36 2 0 ,梭梭在这 3维上分别为 0 .332 0 ,0 .30 83和 0 .5 1 0 3,从生态位宽度看 ,红砂和梭梭处于优势种地位 ,其余为非优势种 ;3每个物种在群落梯度上的生态位宽度基本大于在上述 3个资源轴上的平均生态位 ;4红砂与梭梭在土壤盐分维上的生态位重叠最大 ( 0 .4 2 0 3) 。

绿洲-荒漠交错带土壤水分变化特征初步研究

以甘肃省的民勤绿洲为例 ,选择土壤水分最为亏缺的 7月 ,对白刺 (Nitrariatangutorum)沙包不同迎风面 ,以及绿洲和荒漠交错地带的土壤水分进行了取样分析。结果表明 ,对于白刺沙包而言 ,其上层和深层土壤水分是迎风坡大于背风坡 ,中间层次 (4 0～ 80cm)则刚好相反。在绿洲与荒漠的交错带上 ,灌丛沙包与沙丘间低地水分变化有很大的不同 ,总体而言 ,丘间地水分含量大于灌丛沙包 ,但在距离绿洲 40 6m处 ,二者均出现一个土壤水分的最低值。在丘间地表层 ,水分变化是距离绿洲愈近 ,土壤含水量愈高 ;而深层土壤水分的变化趋势则刚好相反。在灌丛沙包上 ,其土壤水分大多在 1.5 %左右 ,远低于植物的萎蔫系数 ,故不能够满足植物生命活动之需 ;在绿洲至流动沙丘这一环境梯度带 ,其水分变化可以明显划分为 3个区间。基本规律是 ,愈靠近绿洲 ,土壤含水量也愈高 ;而随着与绿洲距离的逐渐拉大 ,其深层含水量增加、各土层之间的含水量差值也在逐步增大。在丘间地与灌丛沙包底部接触处的丘间地上层 ,存在一个 2 0cm厚度的高含水层 ,这一层次为灌丛植物在年内气候干旱期的生命维持提供着重要水源保证。

不同生态位计测方法在绿洲荒漠过渡带上的应用比较

In this paper,plant niche breadth and niche overlap were analyzed on oasis-desert ecotone in Fukang of Xinjiang,with 7 measurements.The results reveal that:the methods for measuring niche breadth such as Simpson,Shannon Wiener and Levins formula were all fit to plants on oasis desert ecotone,while Simpson,Shannon Wiener were better than Levins; niche overlap formula of Levins,Wang gang,Pianka were all suitable to reflect niche structure,But Wang-gang’s method was more rational than the others.The minimal spanning tree and polar ordination proved it fully.

绿洲-荒漠过渡带景观的植被与土壤特征要素的空间异质性分析

采用变异函数的理论和方法 ,通过空间异质性特征比较 ,研究了阜康绿洲 荒漠过渡带景观中的植被盖度和土壤环境因子的空间异质性、空间格局及其关系 .在此基础上 ,应用Kriging局部块段插值法 ,以三维图形显示出各个要素的空间分布格局 .结果表明 ,除土壤全盐量空间相关性较弱外 ,其他各要素具有中等程度以上的空间相关性 ,且空间变异主要发生在较小尺度上 .其中 ,植被盖度的空间异质性程度较高 ,在 3km的尺度内具有明显的空间格局 .从空间分布格局看 ,植被盖度、土壤表层含水量和土壤 pH值沿样带相邻点差异对比明显 ,高值区和低值区交错 .草本盖度与土壤表层含水量、土壤 pH间有相关关系 ,灌木平均盖度主要依靠深层次地下水维系 .灌木和草本盖度的块金值具有明显差异 ,可能因为二者要求不同的生态条件 。

绿洲-荒漠交错带环境特征初步研究

以甘肃省石羊河下游的民勤绿洲为例 ,对其绿洲外围与荒漠交错地带的植被和与植被关系密切的灌丛沙包特征进行了系统研究 .结果表明 ,由于生态交错带边缘效应的存在 ,植被盖度的变化呈现绿洲附近与交错带外围靠近流沙的地方较低 ,而位于流沙和绿洲之间的部分相应较高 .植被盖度较高的部位主要集中于自流动沙丘至绿洲外 6 0 0m处 ,而非紧靠近绿洲 .这与地下水自沙漠向绿洲方向运移有关 .在绿洲外缘 30 0～ 6 0 0m的范围内植被盖度出现下降 ,原因可能与绿洲荒漠交错带界外区的形成有关 ,说明研究区绿洲外 0～ 6 0 0m范围即是该区域绿洲界外区的存在区域 .灌丛沙包上的裸沙率以绿洲界外区为最大 ,大量沙包裸露 ,可致沙子的活动性增强 ,因此该地带是对绿洲土地造成沙质荒漠化的最大流沙来源 .

绿洲-荒漠过渡带四种植物光合及生理特征的研究

绿洲-荒漠过渡带植被的恢复和更新在过渡带生态环境建设中具有重要意义。通过对多枝柽柳,梭梭,头状沙拐枣和沙枣的光合特性、水势(ψ)以及生理指标的研究,结果表明,1)4种植物光响应曲线变化趋势基本一致,均表现为净光合速率(A)随着光合有效辐射(PAR)的增大迅速增大,当PAR达到了植物的光饱和点之后,A出现下降的趋势;作为C4植物的头状沙拐枣和梭梭都具有较高的光饱和点(LSP)和光补偿点(LCP),体现出了C4植物特有的高光合的优势,而其他一些光合参数K,Amax,Rday的变化规律并不完全一致;2)4种植物中,梭梭具有较低的清晨和正午水势,说明梭梭主要依靠夜间水分恢复能力来应对干旱环境;清晨水势除头状沙拐枣和沙枣之间差异不显著外,其他植物种之间的差异均达到了极显著水平(P<0.01),正午水势除多枝柽柳和沙枣之间差异不显著,其他植物种之间的差异也都达到了极显著水平(P<0.01);3)4种植物中脯氨酸和可溶性糖的变化较为一致,头状沙拐枣均显著高于其他3种植物(P<0.05);而丙二醛含量最高的是沙枣,最低的为头状沙拐枣和梭梭,除头状沙拐枣和梭梭之间差异不显著之外,其他植物种之间的差异均达到显著水平(P<0.05);4)在相关分析的基础上运用平均隶属函数法对这4种植物进行抗旱性排序,结果表明,4种植物的抗旱性强弱顺序依次是梭梭>多枝柽柳>沙枣>头状沙拐枣。

新疆阜康地区植物群落物种多样性及其测度指标的比较

对新疆阜康绿洲荒漠过渡带植被 ,分别采用重要值、盖度、多度计测了 9种物种多样性指数 ,并进行了对比分析。结果表明 :1对新疆阜康绿洲荒漠过渡带植被类型 ,以重要值和盖度为测度指标优于以多度为指标计测群落多样性指数 ;2对 9个指数的主成分分析 (PCA)表明 ,3个多样性指数中 ,Shannon- Wiener指数受丰富度影响最大 ,其次是 Mc Intosh指数 。

柽柳(Tamarix spp.)和梭梭(Haloxylon ammodendron)的“肥岛”效应

灌丛"肥岛"是全球干旱生态系统中的普遍现象,其发生和发展对干旱灌木、草原生态系统的结构和功能都具有重要影响,但其物种效应容易得到忽视。对准噶尔盆地南缘柽柳(Tamarix spp.)和梭梭(Haloxylon ammodendron)这两种不同地表形态灌木的冠下、冠缘和灌丛间地3种生境的土壤进行了采样、分析,结果表明:(1)柽柳和梭梭都存在"肥岛"现象,主要表现在土壤表层,其土壤性状与"岛"外土壤的差异随土壤深度增加而减弱;(2)生物性限制土壤养分由"岛"内向外梯度递减,而非生物性限制土壤要素可能高于、也可能低于"岛"外土壤,或者两者无显著差异;(3)从"肥岛"的空间尺度来看,柽柳"肥岛"的水平范围可能超出了本身冠幅覆盖区,而梭梭"肥岛"要小于本身冠幅覆盖区,其深度亦小于柽柳"肥岛";(4)相对于不同土壤要素而言,即使是同一物种,其"肥岛"也具有不同的空间范围。总的来看,研究区灌丛"肥岛"的发育具有明显的物种效应,相对梭梭而言,柽柳"肥岛"发育更广、更深,养分聚集更明显,其原因主要是柽柳的半球型树冠更利于保护和捕获凋落物,而较多的凋落物输入与土壤结构和土壤养分间的正反馈机制使柽柳冠下加速的生物地球化学循环能达到更广、更深的范围。灌丛"肥岛"的发育是干旱景观中生物过程与物理过程交互作用的产物,全面揭示其形成机理,探讨其对干旱生态系统结构、功能与动态的影响,需要更系统的研究。

绿洲荒漠过渡带夏季晴天地表辐射和能量平衡及小气候特征

利用张掖试验基地2006年6月24日至7月17日的加密观测资料,系统分析了夏季典型晴天张掖绿洲荒漠过渡带地表辐射收支和地表能量平衡特征及小气候特征。结果表明:夏季晴天绿洲荒漠过渡带总辐射值还是比较大的,并且净辐射值也很大,这说明绿洲荒漠过渡带地表具有比较充足的可利用热能,为加热大气和土壤提供了必要的热能条件。在地表能量分配中,晴天绿洲荒漠过渡区主要用于大气运动引起的感热交换,其次是土壤交换,用于水蒸发相变的能量相对较小。近地层空气温度和湿度的变化刚好相反。气温白天随高度的增加而递增,夜晚随高度的增加而递减。近地层大气温度变化要比地表温度缓慢。白天土壤辐射增温,越接近地表增温越快,夜间辐射冷却,地表温度下降最为明显。近地层水平风速在白天较大,夜间逐渐减小。在绿洲荒漠过渡带全天以上升气流为主,水平风速随高度增加明显递增。

黑河中游绿洲及绿洲—荒漠生态脆弱带土壤含水量空间分异研究

以黑河中游平川绿洲和六坝绿洲为例，对绿洲及绿洲-荒漠生态过渡带土壤含水量空间分异进行了分析研究。结果表明：在无灌溉条件下绿洲及绿洲-荒漠生态过渡带的土壤含水量水平分异明显，绿洲土壤含水量高于绿洲-荒漠生态过渡带和荒漠地区土壤含水量，并出现从绿洲到绿洲-荒漠过渡带和荒漠依次递减的趋势，主要受土壤性状、土壤水分水平运动和绿洲-荒漠局地大气环流影响；绿洲活动层土壤含水量垂直分异上表现为从表层向下逐渐增加，而过渡带和荒漠区活动层土壤含水量垂直分异则是表层和底层比20～30cm处低，可能与荒漠土壤凝结水的形成与运动有关。受绿洲地下水过度开采和绿洲边缘人类活动影响，在绿洲-荒漠过渡带形成了生态裂谷，对绿洲生态系统的安全构成威胁。

克里雅河流域荒漠-绿洲交错带3种不同生活型植物的光合特性

利用LI-6400光合仪测定新疆克里雅河流域荒漠-绿洲交错带自然生长的芦苇、柽柳、胡杨叶片的气体交换参数及环境影响因子,通过对比3种植物光合特性的差异及其与环境因子间的关系,探讨3种植物对荒漠环境的适应特性和机制。结果表明:(1)3种植物叶片Pn日变化均呈不对称的双峰曲线,"午休"现象明显,Pn日均值的大小依次为胡杨>芦苇>柽柳,种间差异不显著。(2)Tr、PAR和Gs与3种植物Pn的日变化存在极显著或显著的相关关系,其中影响芦苇Pn的主要因子是Tr、PAR和Gs,作用效应为Tr>Gs>PAR;影响柽柳Pn的主要因子是Tr、Gs,作用效应为Tr>Gs;影响胡杨Pn的主要因子是Tr。(3)3种植物的光合作用对光强和CO2的响应特征可用二次方程描述;光补偿点和饱和点均为柽柳>胡杨>芦苇;CO2补偿点为胡杨>柽柳>芦苇,饱和点为胡杨>芦苇>柽柳。(4)3种植物的表观量子效率在0.0341—0.0411 mol/mol之间,羧化效率在0.0480—0.0546 mol m-2s-1之间。综合比较表明,3种干旱区植物在自然条件下日均净光合速率、光能利用率和CO2同化能力差异不显著,气孔限制是光合"午休"现象产生的主要原因;影响3种植物光合作用的主导因子各不相同,但Tr与Pn间的关系较其它因子更为密切。