荒漠河岸胡杨林生态系统能量分配及蒸散发

生态输水工程使得黑河下游地区荒漠河岸林的面积得到了恢复,为进一步巩固生态恢复的成果,非常有必要深入研究胡杨林生态系统的水热交换过程及其对环境因子和人类活动的响应机理。基于涡度相关技术,对2013-2016年荒漠河岸胡杨林生态系统的水热交换过程进行了研究,得出的主要结论如下：（1）生长季生态系统的能量消耗以潜热通量为主,波文比为0.21;非生长季则以感热通量为主,波文比为3.61;春季和秋季的灌水过程,使得胡杨生长前期和后期的潜热通量值较高,直接影响着胡杨林生态系统的能量分配。（2）灌水的时间改变了潜热通量和蒸散发的季节变化过程,而灌水的量决定着春季和秋季潜热通量和蒸散量的年际差异。（3）2014-2016年,生态系统的年蒸散量和生长季蒸散量平均分别为1092 mm和932 mm。荒漠河岸胡杨林生态系统的蒸散量主要受系统水分状况（灌水量）及植物生长状况的影响。     

水分梯度下胡杨荒漠河岸林种内竞争及空间格局变化特征

为查明塔里木河下游不同水分梯度下胡杨种内竞争以及空间分布格局的变化规律,在塔里木河下游阿拉干断面选取3条样带,每条样带内依照水分梯度布设3个样方,采用Hegyi单木竞争模型与点格局等分析方法,探究了水分梯度下胡杨林种内竞争及空间格局变化特征。结果表明：1)塔里木河下游胡杨的最适竞争范围为10m; 2)胡杨竞争指数与胸径服从幂函数关系(P<0.001),胡杨竞争指数随对象木胸径的增加而逐渐减小,当对象木胸径达到20cm以上时,其竞争指数逐渐稳定,且维持在较低水平;3)随水分梯度的降低,胡杨林分竞争指数呈下降趋势;4)在塔里木河下游,胡杨空间格局主要为聚集分布,随空间尺度的增加,胡杨逐渐趋向于随机分布;5)随水分梯度的降低,胡杨空间格局由聚集分布逐渐转变为随机分布。水分是决定极端干旱区荒漠植被空间分布与结构的主要因子;在胡杨林分管理中,应充分考虑胡杨的种内竞争、空间格局及其与水分梯度之间关系,为塔里木河下游胡杨林的保护与更新提供科学依据。     

Improved genome assembly provides new insights into genome evolution in a desert poplar (Populus euphratica)

Populus euphratica is well adapted to extreme desert environments and is an important model species for elucidating the mechanisms of abiotic stress resistance in trees. The current assembly of P. euphratica genome is highly fragmented with many gaps and errors, thereby impeding downstream applications. Here, we report an improved chromosome‐level reference genome of P. euphratica (v2.0) using single‐molecule sequencing and chromosome conformation capture (Hi‐C) technologies. Relative to the previous reference genome, our assembly represents a nearly 60‐fold improvement in contiguity, with a scaffold N50 size of 28.59 Mb. Using this genome, we have found that extensive expansion of Gypsy elements in P. euphratica led to its rapid increase in genome size compared to any other Salicaceae species studied to date, and potentially contributed to adaptive divergence driven by insertions near genes involved in stress tolerance. We also detected a wide range of unique structural rearrangements in P. euphratica, including 2,549 translocations, 454 inversions, 121 tandem and 14 segmental duplications. Several key genes likely to be involved in tolerance to abiotic stress were identified within these regions. This high‐quality genome represents a valuable resource for poplar breeding and genetic improvement in the future, as well as comparative genomic analysis with other Salicaceae species.     

Analysis of dominant factors influencing moisture change of broad-ovate leaves of <Emphasis Type="Italic">Populus euphratica</Emphasis> Oliv. in extremely arid region

We studied the dominant environmental factors that affect the gas-exchange characteristics and water potential (ψ) of broad-ovate leaves of Populus euphratica Oliv. in extreme arid area of Tarim River, China, and their correlation to water status of P. euphratica by analyzing on-field monitored meteorological data, soil moisture and salinity, P. euphratica leaf gas exchange and ψ, and revealed the indicative threshold of environmental factors for P. euphratica leaf water changes and growth. The results indicated that meteorological factors such as air relative humidity (RH), air temperature (T _air), etc. are the dominant factors. The threshold value of RH is (48.19 ± 1.06)% for P. euphratica growth, i.e. RH from 10.69% to 48.19% is suitable for P. euphratica growth in extremely arid region of Tarim River. This study provides a theoretical basis for reducing drought damage to P. euphratica and maintaining normal growth of P. euphratica by in-time watering.     

Cuticle lipids on heteromorphic leaves of Populus euphratica Oliv. growing in riparian habitats differing in available soil moisture

Populus euphratica is an important native tree found in arid regions from North Africa and South Europe to China, and is known to tolerate many forms of environmental stress, including drought. We describe cuticle waxes, cutin and cuticle permeability for the heteromorphic leaves of P. euphratica growing in two riparian habitats that differ in available soil moisture. Scanning electron microscopy revealed variation in epicuticular wax crystallization associated with leaf type and site. P. euphratica leaves are dominated by cuticular wax alkanes, primary‐alcohols and fatty acids. The major cutin monomers were 10,16‐diOH C_16:0 acids. Broad‐ovate leaves (associated with adult phase growth) produced 1.3‐ and 1.6‐fold more waxes, and 2.1‐ and 0.9‐fold more cutin monomers, than lanceolate leaves (associated with juvenile phase growth) at the wetter site and drier site, respectively. The alkane‐synthesis‐associated ECERIFERUM1 (CER1), as well as ABC transporter‐ and elongase‐associated genes, were expressed at much higher levels at the drier than wetter sites, indicating their potential function in elevating leaf cuticle lipids in the dry site conditions. Higher cuticle lipid amounts were closely associated with lower cuticle permeability (both chlorophyll efflux and water loss). Our results implicate cuticle lipids as among the xeromorphic traits associated with P. euphratica adult‐phase broad‐ovate leaves. Results here provide useful information for protecting natural populations of P. euphratica and their associated ecosystems, and shed new light on the functional interaction of cuticle and leaf heterophylly in adaptation to more arid, limited‐moisture environments.     

Belowground inter‐ramet water transport capacity in Populus euphratica,a Central Asian desert phreatophyte

• Populus euphratica Oliv. is a widespread phreatophytic tree species that forms riparian forests in (hyper‐)arid regions of Central Asia. Its recruitment strongly relies on vegetative propagation from ‘root suckers’ that emerge from underground root spacers. The water transport through the spacers, although decisive for emerging ramets, has only rarely been quantified, but is crucial for the vegetative regeneration of the forests.
• In root spacers with different diameters collected from a mature poplar forest in northwest China, we calculated the hydraulic conductivity (k_c) from anatomical investigations on the basis of a modified Hagen‐Poiseuille equation and measured it (k_m) with a perfusion solution in the laboratory. The k_m values were compared with the water use by young and mature P. euphratica trees determined in previous studies.
• We obtained a significant correlation between k_m and k_c (which, however, was higher by at least one order of magnitude). Due to the extensive occurrence of tyloses, particularly in older conduits and thicker spacers, and because the conduit area did not increase with spacer diameter, neither k_c nor k_m increased with an increase in spacer diameter. The water supply through the spacers would be sufficient to meet the water demand even of mature trees.
• Our results provide a mechanistic explanation for the observed occurrence of P. euphratica clones across large areas and, provided that they are also valid for stands with larger distances to the water table, for the sustained growth and vegetative reproduction of P. euphratica stands growing at larger distances from the groundwater.

     

干旱胁迫下胡杨光合光响应过程模拟与模型比较

以塔里木干旱荒漠区2年生胡杨幼苗为试材,盆栽模拟荒漠生境5种水分梯度,利用Li-6400便携式光合作用系统测定胡杨在干旱胁迫下光合作用的光响应过程,并采用4种光响应模型对其进行拟合与比较,以期优选出适用于干旱荒漠环境的光响应模型,阐明胡杨光合作用对干旱胁迫的响应规律与适应机制。结果表明:胡杨净光合速率(P_n)随干旱胁迫加剧呈下降趋势,同一光强(PAR)下P_n降幅增大。中度干旱胁迫以下(土壤相对含水量,RSWC45%)胡杨在高PAR下仍能维持相对较高P_n,光抑制程度轻;直角双曲线、非直角双曲线和指数模型均可较好地模拟P_n-PAR响应过程,但最大净光合速率(P_(nmax))、光饱和点(LSP)拟合值与实测值差异极显著(P0.01)。中度干旱胁迫以上(RSWC45%)胡杨P_n随PAR升高而显著下降,LSP与P_(nmax)极显著降低,光抑制现象明显;仅直角双曲线修正模型拟合的胡杨光响应过程、光响应参数与实际情况较吻合。4种模型模拟效果顺序:直角双曲线修正模型指数模型非直角双曲线模型直角双曲线模型。4种光响应模型对干旱胁迫具有不同的适应性,直角双曲线修正模型适用于各种水分条件,尤其适用于干旱荒漠生境,其它3种模型适用于水分条件较好的生境。光响应特征参数对干旱胁迫的响应阈值不同。随干旱胁迫加剧,胡杨表观量子效率(AQY)、P_n、LSP与P_(nmax)持续降低,严重干旱胁迫下暗呼吸速率(R_d)、LCP反而明显增大。RSWC45%胡杨仍能保持较高的AQY、P_(nmax)、LSP,RSWC45%其P_(nmax)、LSP显著降低,干旱胁迫显著抑制了胡杨光合进程和光强耐受范围,降低了光合效率,严重干旱胁迫严重影响胡杨苗木的正常生长和光合作用。干旱荒漠环境下,胡杨采取缩窄光照生态幅、降低光能利用率和减少呼吸消耗来积极抵御荒漠干旱逆境伤害的生态对策。因此,从极端干旱荒漠区种群保护与植被恢复角度来看,胡杨林土壤水分应维持在RSWC 50%左右,符合干旱缺水地区植物生长和高效用水的管理原则。     

Two highly validated SSR multiplexes (8‐plex) for Euphrates' poplar,Populus euphratica (Salicaceae)

Multiplex PCR amplification of microsatellites has significantly increased the throughput and decreased the costs of genotyping. We have developed two highly polymorphic microsatellite multiplexes for Populus euphratica, the only tree species found in desert regions of Western China and adjacent Central Asian countries. The first of these multiplex kits comprises an eight‐Plex of genomic SSRs (gSSRs) obtained from published databases. The second comprises an eight‐plex of newly designed EST‐SSRs (eSSRs) based on expressed sequence tags for P. euphratica. Both kits were tested on a sample of 170 individuals from four populations. The gSSRs exhibited slightly more polymorphism than the eSSRs. The new multiplex protocols yielded consistent results in the hands of multiple researchers, demonstrating their robustness. The 16 loci used in the kits exhibited a high transferability rate (82.0%) in eight other poplar species belonging to five different sections of the genus. Both kits should therefore be useful for further investigations of population genetics in P. euphratica and related species. Our results indicate that it is essential to follow recently established recommendations when developing microsatellite markers, including verifying the amplification efficiency, detecting null alleles and carefully measuring error rates.     

Growth and water relations of Tamarix ramosissima and Populus euphratica on Taklamakan desert dunes in relation to depth to a permanent water table

The hypothesis that water relations and growth of phreatophytic Tamarix ramosissima Ledeb. and Populus euphratica Oliv. on dunes of varying height in an extremely arid Chinese desert depend on vertical distance to a permanent water table was tested. Shoot diameter growth of P. euphratica was inversely correlated with groundwater depth (GD) of 7 to 23 m (adj. R² = 0.69, P = 0.025); growth of T. ramosissima varied independent of GD between 5 and 24 m (P = 0.385). Pre‐dawn (pd) and midday (md) water potentials were lower in T. ramosissima (minimum pd ?1.25 MPa, md ?3.6 MPa at 24 m GD) than in P. euphratica (minimum pd ?0.9 MPa, md ?3.05 MPa at 23 m GD) and did not indicate physiologically significant drought stress for either species. Midday water potentials of P. euphratica closely corresponded to GD throughout the growing season, but those of T. ramosissima did not. In both species, stomatal conductance was significantly correlated with leaf water potential (P. euphratica: adj. R² = 0.84, P < 0.0001; T. ramosissima: adj. R² = 0.64, P = 0.011) and with leaf‐specific hydraulic conductance (P. euphratica: adj. R² = 0.79, P = 0.001; T. ramosissima: adj. R² = 0.56, P = 0.019); the three variables decreased with increasing GD in P. euphratica. Stomatal conductance of P. euphratica was more strongly reduced (> 50% between ?2 and ?3 MPa) in response to decreasing leaf water potential than that of T. ramosissima (30% between ?2 and ?3 MPa). Tolerance of lower leaf water potentials due to higher concentrations of leaf osmotically active substances partially explains why leaf conductance, and probably leaf carbon gain and growth, of T. ramosissima was less severely affected by GD. Additionally, the complex below‐ground structure of large clonal T. ramosissima shrub systems probably introduces variability into the assumed relationship of xylem path length with GD.     

不同土壤水盐条件下多枝柽柳(Tamarix ramosissima)对胡杨(Populus euphratica)幼苗的影响

目前胡杨更新困难,种群处于退化阶段,而与其生态位高度重叠的多枝柽柳却在扩张。为探讨多枝柽柳对胡杨生长的影响,本研究设置了3个水平的水分、盐分梯度,对胡杨进行了单种和混种的盆栽控制实验,通过测定胡杨幼苗的生长和存活状况,分析不同水、盐梯度下多枝柽柳如何影响胡杨生长。结果表明：（1）多枝柽柳伴生降低当年生胡杨幼苗的存活率,随着水分条件改善,胡杨存活率提高,而盐分对存活率没有显著的影响。（2）水分、盐分和伴生模式几个因子对胡杨的生长特征的影响存在显著的交互作用（P<0.05）。各水盐条件下,多枝柽柳会不同程度降低胡杨幼苗的株高、主根长和地上地下生物量,而根冠比增大。混种条件下,胡杨幼苗对水盐的响应更为敏感。（3）相对竞争强度对水盐环境有明显的响应（P<0.05）,随水分条件改善,地上、地下相对竞争强度降低。多枝柽柳对胡杨的生长产生不良影响的机制是通过快速消耗土壤的水分,从而导致胡杨幼苗水分亏缺。土壤水分条件是胡杨和多枝柽柳幼苗共存的关键因素,在水分供给不足的情况下,对水分偏好的差异导致胡杨无法通过实生苗进行有效的更新从而加剧胡杨种群的衰退,而多枝柽柳更为耐旱的特性使其逐步占据河岸的生境。我们的研究结果强调了两个树种对环境因子的适应性差异决定了河岸带植被发育过程中植物-土壤的相互作用导致胡杨在演替过程中表现出的衰退现象。     

PeCHYR1, a ubiquitin E3 ligase from Populus euphratica,enhances drought tolerance via ABA‐induced stomatal closure by ROS production in Populus

Drought, a primary abiotic stress, seriously affects plant growth and productivity. Stomata play a vital role in regulating gas exchange and drought adaptation. However, limited knowledge exists of the molecular mechanisms underlying stomatal movement in trees. Here, PeCHYR1, a ubiquitin E3 ligase, was isolated from Populus euphratica, a model of stress adaptation in forest trees. PeCHYR1 was preferentially expressed in young leaves and was significantly induced by ABA (abscisic acid) and dehydration treatments. To study the potential biological functions of PeCHYR1, transgenic poplar 84K (Populus alba × Populus glandulosa) plants overexpressing PeCHYR1 were generated. PeCHYR1 overexpression significantly enhanced H₂O₂ production and reduced stomatal aperture. Transgenic lines exhibited increased sensitivity to exogenous ABA and greater drought tolerance than that of WT (wild‐type) controls. Moreover, up‐regulation of PeCHYR1 promoted stomatal closure and decreased transpiration, resulting in strongly elevated WUE (water use efficiency). When exposed to drought stress, transgenic poplar maintained higher photosynthetic activity and biomass accumulation. Taken together, these results suggest that PeCHYR1 plays a crucial role in enhancing drought tolerance via ABA‐induced stomatal closure caused by hydrogen peroxide (H₂O₂) production in transgenic poplar plants.     

胡杨叶片及韧皮部内生细菌多样性及生物学功能分析

[目的]通过分析胡杨叶片及树干内生细菌群落多样性、结构特征及生物学功能,探究内生细菌与宿主胡杨的互作机制.[方法]利用Illumina MiSeq高通量测序技术,对采集自新疆喀什地区胡杨林的3组胡杨树叶和3组树干样本的内生细菌进行Alpha、Beta多样性分析、群落组成分析以及通过比对代谢数据库进行群落功能预测,并对样...     

Species‐specific microsatellite markers to monitor gene flow between exotic poplars and their natural relatives in eastern North America

Species‐specific microsatellite markers were obtained for the unambiguous recognition of five poplar species of ecological and commercial importance to eastern North America: the native species Populus balsamifera and Populus deltoides, the exotic species Populus maximowiczii, Populus nigra, Populus trichocarpa and their interspecific hybrids. Forty‐four of 71 tested primer pairs amplified simple sequence repeat (SSR) loci for all five taxa. Six of these loci showed non‐overlapping allelic diversity between species, including fixed differences. Together, they were useful to identify unambiguously the five taxa and to validate parental contributions in a group of hybrid progeny. These markers will be invaluable to detect gene flow from plantations of exotic poplar into adjacent stands of native species and between the two potentially hybridizing native species P. balsamifera and P. deltoides.     

Linking Populus euphratica Hydraulic Redistribution to Diversity Assembly in the Arid Desert Zone of Xinjiang,China

The hydraulic redistribution (HR) of deep-rooted plants significantly improves the survival of shallow-rooted shrubs and herbs in arid deserts, which subsequently maintain species diversity. This study was conducted in the Ebinur desert located in the western margin of the Gurbantonggut Desert. Isotope tracing, community investigation and comparison analysis were employed to validate the HR of Populus euphratica and to explore its effects on species richness and abundance. The results showed that, P. euphratica has HR. Shrubs and herbs that grew under the P. euphratica canopy (under community: UC) showed better growth than the ones growing outside (Outside community: OC), exhibiting significantly higher species richness and abundance in UC than OC (p<0.05) along the plant growing season. Species richness and abundance were significantly logarithmically correlated with the P. euphratica crown area in UC (R² = 0.51 and 0.84, p<0.001). In conclusion, P. euphratica HR significantly ameliorates the water conditions of the shallow soil, which then influences the diversity assembly in arid desert communities.     

Using the rapid A‐Ci response (RACiR) in the Li‐Cor 6400 to measure developmental gradients of photosynthetic capacity in poplar

The rapid A‐C_i response (RACiR) technique alleviates limitations of measuring photosynthetic capacity by reducing the time needed to determine the maximum carboxylation rate (V_cmax) and electron transport rate (J_max) in leaves. Photosynthetic capacity and its relationships with leaf development are important for understanding ecological and agricultural productivity; however, our current understanding is incomplete. Here, we show that RACiR can be used in previous generation gas exchange systems (i.e., the LI‐6400) and apply this method to rapidly investigate developmental gradients of photosynthetic capacity in poplar. We compared RACiR‐determined V_cmax and J_max as well as respiration and stomatal conductance (g_s) across four stages of leaf expansion in Populus deltoides and the poplar hybrid 717‐1B4 (Populus tremula × Populus alba). These physiological data were paired with leaf traits including nitrogen concentration, chlorophyll concentrations, and specific leaf area. Several traits displayed developmental trends that differed between the poplar species, demonstrating the utility of RACiR approaches to rapidly generate accurate measures of photosynthetic capacity. By using both new and old machines, we have shown how more investigators will be able to incorporate measurements of important photosynthetic traits in future studies and further our understanding of relationships between development and leaf‐level physiology.     

Growth and leaf gas exchange in Populus euphratica across soil water and salinity gradients

Soil water and salinity conditions of the riparian zones along the Tarim River, northwest China, have been undergoing alterations due to water use by human or climate change, which is expected to influence the riparian forest dominated by an old poplar, Populus euphratica. To evaluate the effects of such habitat alterations, we examined photosynthetic and growth performances of P. euphratica seedlings across experimental soil water and salinity gradients. Results indicated that seedlings were limited in their physiological performance, as evidenced by decreases in their height and biomass, and the maximal quantum yield of photosystem II (PSII) photochemistry (F_v/F_m), the effective quantum-use efficiency of PSII (F_v′/F_m′), and photochemical quenching (q_P) under mild (18% soil water content, SWC; 18.3 g kg^?1 soil salt content, SSC) and moderate (13% SWC, 22.5 g kg^?1 SSC) water or salinity stress. However, seedlings had higher root/shoot ratio (R/S), increased nonphotochemical quenching (NPQ), and water-use efficiency (WUE) relative to control under such conditions. Under severe (8% SWC, 27.9 g kg^?1 SSC) water or salinity stress, P. euphratica seedlings had only a fifth of biomass of those under control conditions. It was also associated with damaged PSII and decreases in WUE, the maximal net photosynthetic rate (P _Nmax), light-saturation point (LSP), and apparent quantum yield (_α). Our results suggested that the soil conditions, where P.euphratica seedlings could grow normally, were higher than ～ 13% for SWC, and lower than ～22.5 g kg^?1 for SSC, the values, within the seedlings could acclimate to water or salinity stress by adjusting their R/S ratio, improving WUE to limit water loss, and rising NPQ to dissipate excessive excitation energy. Once SWC was lower than 8% or SCC higher than ～28 g kg^?1, the seedlings suffered from the severe stress.     

新疆叶尔羌河流域胡杨林时空格局特征

叶尔羌河流域胡杨林对保障我国新疆南疆地区生态安全有着重要的功能,到目前对该区胡杨林时空格局特征规律的研究极少。基于1995—2015年Landsat TM/OLI长时间序列遥感监测数据,通过土地利用程度变化指数、转移矩阵以及景观指数对叶尔羌河流域胡杨林时空格局变化进行动态监测与分析。结果表明:(1)胡杨林面积从1995年的1916.15 km~2减少到2015年的1652.25 km~2,面积减少了263.90 km~2。永安坝至夏河林场段,耕地向河道扩张,胡杨林转为耕地;而夏河林场至三河口段,水资源匮乏,胡杨林被迫向河道收缩,转为未利用地。(2)胡杨林动态度和空间动态度降低,而胡杨林变化状态指数、斑块密度、最大斑块指数和散布与并列指数增加,斑块结合度指数高,胡杨林空间分布逐渐集中、破碎度降低、连通性增加。流域景观要素连接性逐渐减弱,破碎化程度较高,优势度斑块类型比例逐渐下降,景观类型向复杂化方向发展。(3)1995—2005年胡杨林受气候变化和人类活动的干扰,胡杨林面积减少较快,景观格局变化剧烈,而2005—2015年胡杨林保护措施的实施、区域产业结构的调整以及生态安全输水区域的扩大等,胡杨林面积减少速度减缓,但形势仍较为严峻。在叶尔羌河流域合理利用水资源,统筹协调生活、生产和生态用水、强化水资源管理力度,以及调整产业结构、控制人口增长速度等是该区胡杨林生态系统恢复的有效手段和途径。研究可以为叶尔羌河流域生态系统恢复以及胡杨林保护提供参考。     

Stand structure and regeneration of <Emphasis Type="Italic">Populus euphratica</Emphasis> forest in the lower reaches of the Heihe River,NW China

Populus euphratica Oliv. is a main tree species that forms natural riparian forests in arid and semi-arid areas from Morocco to the Ordos Plateau. This study is designed to clarify the forest structure and dynamics of P. euphratica and to elucidate the ecological mechanisms sustaining riparian forests under unreliable environmental conditions. This study was conducted in a P. euphratica forest of the Ejina Oasis in Inner Mongolia, China, which is a hyperarid area. According to their tree size distribution, P. euphratica forests can be grouped into juvenile, mature, and overmatured stages. Almost all large P. euphratica showed dieback. The regeneration density on the forest floor shows a relation with the degree of height decrease due to dieback damage, as evaluated using the ratio of actual height to the maximum height estimated from the D–H relation. Therefore, after the mature stage, individual trees continue to grow while controlling their canopy size to adjust to changing environmental conditions in the overmatured stage. Our results suggest that P. euphratica growing under large fluctuations in groundwater levels exhibit a sophisticated regeneration system with canopy degradation.     

俄罗斯杨水培苗对硼胁迫的生长和生理响应

该研究采用水培试验,分析了俄罗斯杨(Populus russkii)对短期硼胁迫(1、5、10mmol/L硼酸)的生长和生理响应特征,探明其对硼胁迫的耐受范围,初步揭示其耐硼的生理基础。结果显示:(1)与对照相比,1mmol/L硼酸处理俄罗斯杨水培苗的生长情况更优,叶片光合色素含量和净光合速率显著上升,SOD和APX活性及抗坏血酸含量显著上调。(2)5mmol/L硼酸处理幼苗有轻微胁迫受害症状,叶片褪绿变黄,叶绿素b含量比对照显著上升,而Chla/Chlb比值显著下降,其SOD和APX活性显著上调。(3)10mmol/L硼酸处理幼苗表现出严重毒害症状,叶片发黄、茎尖和根尖生长受抑制;叶片PSⅡ原初光能转换效率(F_v/F_m)和Chla/Chlb比值比对照显著下降;其叶片MDA含量、POD活性、抗坏血酸含量以及游离脯氨酸和可溶性糖含量均比对照显著上升。研究表明,在不同浓度硼酸短期胁迫下,俄罗斯杨水培苗能通过上调抗氧化酶活性和抗氧化物质、渗透调节物质含量来有效清除体内胁迫产生的活性氧,减轻膜脂过氧化伤害,使其在低于5mmol/L硼酸胁迫环境下正常生长,表现出较强的耐硼性。