大气汞浓度升高对水稻叶片生理效应的影响研究

采用大田开顶式气室熏气实验,研究大气汞浓度升高对水稻叶片气体交换参数、脯氨酸、丙二醛的积累以及超氧化物歧化酶活性的影响。实验结果显示,水稻叶片净光合速率(Pn)和气孔导度(Gs)随大气汞浓度的升高均较对照略微下降,表明大气汞浓度的升高对水稻光合作用和气孔开放程度有一定影响;扬花期水稻胞间CO2浓度(Ci)随大气汞浓度的升高明显降低(P0.05)表明Pn的略微下降属于气孔限制,同时蒸腾速率(Tr)显著增加(P0.01)表明大气汞对水稻的蒸腾生理功能有一定的影响。乳熟期水稻叶片气体交换参数与大气汞浓度无显著差异(P0.05),且各指标均低于扬花期。水稻叶片脯氨酸(Pro)含量在拔节期随大气汞浓度的升高而显著增加(P0.05),扬花期先升高后下降,在45 ng·m-3时达到最大,成熟期无显著差异(P0.05);水稻叶片丙二醛(MDA)含量在拔节期先升高后下降,45 ng·m-3时达到最大,扬花期和成熟期均无显著差异(P0.05);水稻叶片超氧化物歧化酶(SOD)活性在拔节期先升高后下降,15 ng·m-3时达到最大,扬花期无显著差异(P0.05)。以上结果表明大气汞浓度的升高可以引起水稻叶片膜脂过氧化以及脯氨酸和丙二醛含量的积累,且随着体内Pro、MDA和SOD对大气汞胁迫的协同反应,水稻对逆境的适应能力增强,对汞胁迫产生了耐受性。     

No evidence that chronic nitrogen additions increase photosynthesis in mature sugar maple forests

Atmospheric nitrogen (N) deposition can increase forest growth. Because N deposition commonly increases foliar N concentrations, it is thought that this increase in forest growth is a consequence of enhanced leaf-level photosynthesis. However, tests of this mechanism have been infrequent, and increases in photosynthesis have not been consistently observed in mature forests subject to chronic N deposition. In four mature northern hardwood forests in the north-central United States, chronic N additions (30 kg N ha(-1) yr(-1) as NaNO3 for 14 years) have increased aboveground growth but have not affected canopy leaf biomass or leaf area index. In order to understand the mechanism behind the increases in growth, we hypothesized that the NO3(-) additions increased foliar N concentrations and leaf-level photosynthesis in the dominant species in these forests (sugar maple, Acer saccharum). The NO3(-) additions significantly increased foliar N. However, there was no significant difference between the ambient and +NO3(-) treatments in two seasons (2006-2007) of instantaneous measurements of photosynthesis from either canopy towers or excised branches. In measurements on excised branches, photosynthetic nitrogen use efficiency (micromol CO2 s(-1) g(-1) N) was significantly decreased (-13%) by NO3(-) additions. Furthermore, we found no consistent NO3(-) effect across all sites in either current foliage or leaf litter collected annually throughout the study (1993-2007) and analyzed for delta 13C and delta 18O, isotopes that can be used together to integrate changes in photosynthesis over time. We observed a small but significant NO3(-) effect on the average area and mass of individual leaves from the excised branches, but these differences varied by site and were countered by changes in leaf number. These photosynthesis and leaf area data together suggest that NO3(-) additions have not stimulated photosynthesis. There is no evidence that nutrient deficiencies have developed at these sites, so unlike other studies of photosynthesis in N-saturated forests, we cannot attribute the lack of a stimulation of photosynthesis to nutrient limitations. Rather than increases in C assimilation, the observed increases in aboveground growth at our study sites are more likely due to shifts in C allocation.     

臭氧污染胁迫对农作物生长与产量的影响

对国内外近地层大气的臭氧污染现状进行讨论，综述臭氧对农作物生长的影响。作物受O3伤害最典型的症状为叶片上散布棕色或黄褐色的细密点状斑、坏死斑。在O3的胁迫下，作物呼吸作用增强，光合作用受抑制。O3对叶片膜保护系统、气孔开度、氮代谢、糖类、脂类和其它物质的代谢也有影响。O3对农作物产生危害的同时，也往往导致农作物产量下降。     

不同植物叶片臭氧伤害症状及其生理响应机制的差异

快速发展的城市化和工业化引起近地层臭氧浓度不断升高,对城市绿化植物具有很大的毒性伤害。选择城市常见的景观植物万寿菊、矮牵牛及圆叶牵牛为供试植物,利用开顶式气室,研究了不同植物臭氧伤害症状及其生理响应机制的差异。结果表明:1)臭氧暴露后,供试植物叶片均出现了不同程度的臭氧伤害,或叶脉间黄化(万寿菊和矮牵牛),或出现白色斑点(圆叶牵牛),且随臭氧浓度升高其黄化程度加剧,白色斑点亦扩张形成白色斑块,最终叶片从症状形成的地方开始干枯。2)臭氧暴露加剧了供试植物叶片膜脂过氧化程度,但对可溶性蛋白含量没有显著影响,说明植物生长后期臭氧暴露并没有造成蛋白质退化进而引起植物抗臭氧胁迫能力的下降。3)臭氧暴露后万寿菊叶片茉莉酸含量降低,矮牵牛叶片水杨酸含量显著升高,而圆叶牵牛既有水杨酸含量的升高又有茉莉酸含量的降低,说明不同植物对臭氧伤害的激素响应是不一致的,茉莉酸保护能力减弱引起了臭氧对万寿菊叶片伤害,水杨酸过度累积造成了矮牵牛叶片的臭氧直接伤害,而圆叶牵牛的臭氧伤害则是2种原因都可能存在。因此,在大气臭氧浓度尚不能有效控制的情况下,明确不同植物臭氧伤害形成的激素响应,以采取针对性保护措施维持其最大生态效益。     

模拟增温对川西北高寒草甸两种典型植物生长和光合特征的影响

在野外自然条件下采用开顶式生长室(OTC)模拟增温的方法,研究了增温对川西北高寒草甸两种典型植物--单子叶草本植物发草(Deschampsia caespitosa)和双子叶草本植物遏蓝荣(Thlaspi arvense)生长和光合特征的影响.结果表明,增温有利于发草地上生物量的增加,其光响应曲线明显高于对照处理,净光合速率(P_n)、蒸腾速率(T_r)、气孔导度(C_s)、最大净光合速率(P_(max))、暗呼吸速率(R_d)、表观量子效率(AQY)和光饱和点(LSP)显著高于对照处理,而光补偿点(LCP)却显著低于对照处理,并且最大光能转化效率(F_v/F_m)、光合量子产量(Yield)、光化学猝灭系数(q_p)和非光化学猝灭系数(q_N)与对照处理相比,都显著增加;增温后遏蓝菜的单株生物量积累显著下降,其光响应曲线也明显低于对照处理,P_n、T_r、C_s、P_(max)、R_d、AQY和LSP显著低于对照处理,F_v/F_m、Yield和q_p在增温后显著减少,而q_N却显著增加.图5表3参25     

Growth, yield and photosynthesis of Panicum maximum and Stylosanthes hamata under elevated CO2

Plant height, biomass production, assimilatory functions and chlorophyll accumulation of Panicum maximum and Stylosanthes hamata in intercropping systems was influenced significantly under elevated CO2 (600 +/- 50 ppm) in open top chambers (OTCs). The plant height increased by 32.0 and 49.0% over the control in P. maximum and S. hamata respectively in intercropping system under elevated CO2 over open field grown crops (Ca). P. maximum and S. hamata produced 67 and 85% higher fresh and dry biomass respectively under elevated CO2. Rates of photosynthesis and stomatal conductance increased in both the crop species in intercropping systems under elevated CO2. The canopy photosynthesis (photosynthesis x leaf area index) of these crop species increased significantly under elevated CO2 over the open grown crops. The chlorophyll a and b accumulation were also higher in the leaves of both the crop species as grown in OTC with elevated CO2. The increased chlorophyll content, leaf area index and canopy photosynthesis led to higher growth and biomass production in these crop species under elevated CO2. The total carbon sequestration in crop biomass and soils during the three years was 21.53 Mg C/ha under elevated CO2. The data revealed that P. maximum and S. hamata intercropping system is the potential as a sink for the increasing level of CO2 in the atmosphere in the semi-arid tropics.     

大气CO2浓度升高和氮肥施用对三江平原湿地小叶章生物量及根冠比的影响

利用开顶箱薰气室（open—top chamber）试验装置,研究了不施氮（NN）、施常氮（MN,5g·m^2）和施高氮（HN,15g·m^2）3个氮素水平下大气CO2浓度升高对小叶章（Calamagrostis angustifolia）生物量和根冠比的影响。结果表明,大气CO2浓度升高对小叶章生物量的影响因生长期而异。大气CO2浓度升高对小叶章地上生物量的促进作用主要表现在生长前期,拔节期和抽穗期地上生物量较正常大气CO2浓度增加12．42％～22．60％,而腊熟期和成熟期仅增加3．11％～12．97％;大气CO2浓度升高对小叶章地下生物量的促进作用在生长后期表现明显,除拔节期外,小叶章地下生物量增加17．63％～42．20％。小叶章生物量和根冠比对大气CO2浓度的响应与供N水平有关。在HN水平下,大气CO2浓度升高使小叶章生物量和根冠比明显增加,在NN条件下促进作用则不显著。小叶章根冠比明显增加主要是地下生物量显著增长引起的。     

Laser Radiation Can Retard Leaf Senescence of Isatis Indigotica Seedlings Exposed to Elevated UV-B

以菘蓝(Isatis indigotica Fort)幼苗为实验材料,比较研究了He-Ne激光对增强UV-B(辐射强度:10.08kJ·m-2;照射时间8h·d-1;共照射8d)辐射损伤菘蓝叶片衰老的延缓作用.结果表明:与对照相比,UV-B辐射可导致环丁烷嘧啶二聚体(CPD)形成,显著降低蛋白酶、转氨酶、游离氨基酸、可溶性蛋白质含量,同时降低了叶绿素含量、气孔导度、水分利用率和生物量;而菘蓝幼苗经UV-B辐射处理后再用激光辐照(波长:633nm;功率密度:5.23mW·mm-2;束径:1.5mm;照射时间:5min·d-1),叶片中CPD含量显著降低,蛋白酶、转氨酶、游离氨基酸、可溶性蛋白质含量、叶绿素含量、气孔导度、水分利用率和生物量与单独UV-B处理组相比显著提高.上述结果表明激光辐照可以显著延缓UV-B损伤菘蓝叶片的衰老。     

Gas exchange in Paulownia species growing under different soil moisture conditions in the field

In order to evaluate their responses to drought, we determined the photosynthetic activity water potential, stomatal conductance, transpiration, water use efficiency photosynthetic photon flux density and leaf temperature of Paulownia imperialis, P. fortunei and P. elongata in three different soil moisture conditions in the field. Our results showed that P. imperialis had greater photosynthesis (8.86 micromol CO2 m(-2) s(-1)) and instantaneous water use efficiency (0.79 micromol CO2 mmol H2O(-1)) than either P. elongata (8.20 micromol CO2 m(-2) s(-1) and 0.71 micromol CO2 mmol H2O(-1)) or P. fortunei (3.26 micromol CO2 m(-2) s(-1) and 0.07 micromol CO2 mmol H2O(-1)). The rapid growth of Paulownia did not appear to be correlated with photosynthetic rates. Paulownia fortunei showed more transpiration (48.78 mmol H2O m(-2) s(-1)) and stomatal conductance (840 mmol m(-2) s(-1)) than P. imperialis (20 mmol H2O m(-2) s(-1) and 540 mmol m(-2) s(-1)) and P. elongata (20 mmol H2O m(-2) s(-1) and 410 mmol m(-2) s(-1)), which allowed these two Paulownia species to increase their tolerance to low soil moisture, and maintain higher water use efficiency under these conditions. According to our physiological gas exchange field tests, Paulownia imperialis does appear to be capable of successful growth in semiarid zones.     

铜胁迫对高丹草和紫花苜蓿生长和光合特性的影响

以高丹草（Sorghum×S.sudanes）和紫花苜蓿（Medicago sativa L.）为试验材料,通过水培试验,研究了不同浓度Cu处理对两种牧草生长及光合特性的影响。试验结果显示,随着Cu处理浓度增加,两种牧草叶、茎、根生物量逐渐下降,并在100μmol.L-1 Cu2＋处理后达到显著水平。Cu胁迫导致两种牧草气孔导度、RuBP羧化酶的最大羧化效率、最大电子传递速率调控的RuBP再生的潜在速率和磷酸丙糖利用中有机磷的释放速率、以及叶绿素质量分数降低,最终导致净光合速率降低。Cu胁迫下,两种牧草二氧化碳饱和点和二氧化碳饱和点净光合速率降低,而二氧化碳补偿点却升高。另外,Cu处理还降低了两种牧草的蒸腾速率和日间呼吸速率。且在光合、蒸腾和呼吸作用参数的变化幅度上高丹草要大于紫花苜蓿。这些结果表明Cu胁迫抑制了两种牧草的生长、光合作用、蒸腾作用和呼吸作用,而且对高丹草的抑制作用要强于紫花苜蓿;Cu胁迫下光合作用的下降不仅与气孔导度的下降相关,而且与光反应和暗反应的受阻有关。这些研究结果可为筛选和培育耐Cu和富集Cu的牧草品种和用牧草修复铜污染水体及土壤提供依据。     

Effect of elevated CO2 on coarse-root biomass in Florida scrub detected by ground-penetrating radar

Growth and distribution of coarse roots in time and space represent a gap in our understanding of belowground ecology. Large roots may play a critical role in carbon sequestration belowground. Using ground-penetrating radar (GPR), we quantified coarse-root biomass from an open-top chamber experiment in a scrub-oak ecosystem at Kennedy Space Center, Florida, USA. GPR propagates electromagnetic waves directly into the soil and reflects a portion of the energy when a buried object is contacted. In our study, we utilized a 1500 MHz antenna to establish correlations between GPR signals and root biomass. A significant relationship was found between GPR signal reflectance and biomass (R2 = 0.68). This correlation was applied to multiple GPR scans taken from each open-top chamber (elevated and ambient CO2). Our results showed that plots receiving elevated CO2 had significantly (P = 0.049) greater coarse-root biomass compared to ambient plots, suggesting that coarse roots may play a large role in carbon sequestration in scrub-oak ecosystems. This nondestructive method holds much promise for rapid and repeatable quantification of coarse roots, which are currently the most elusive aspect of long-term belowground studies.     

Growth, biomass production and photosynthesis of Cenchrus ciliaris L. under Acacia tortilis (Forssk.) Hayne based silvopastoral systems in semi arid tropics

The growth, biomass production and photosynthesis of Cenchrus ciliaris was studied under the canopies of 17 yr old Acacia tortilis trees in semi arid tropical environment. On an average the full grown canopy of A. tortilis at the spacing of 4 x 4 m allowed 55% of total Photosynthetically Active Radiation (PAR) which in turn increased Relative Humidity (RH) and reduced under canopy temperature to -1.75 degrees C over the open air temperature. C. ciliaris attained higher height under the shade of A. tortilis. The tiller production and leaf area index decreased marginally under the shade of tree canopies as compared to the open grown grasses. C. ciliaris accumulated higher chlorophyll a and b under the shade of tree canopies indicating its shade adaptation potential. The assimilatory functions such as rate of photosynthesis, transpiration, stomatal conductance, photosynthetic water use efficiency (PN/TR) and carboxylation efficiency (PN/CINT) decreased under the tree canopies due to low availability of PAR. The total biomass production in term of fresh and dry weight decreased under the tree canopies. On average of 2 yr C. ciliaris had produced 12.78 t ha(-1) green and 3.72 -t ha(-1) dry biomass under the tree canopies of A. tortilis. The dry matter yield reduced to 38% under the tree canopies over the open grown grasses. The A. tortilis + C. ciliaris maintained higher soil moisture, organic carbon content and available N P K for sustainable biomass production for the longer period. The higher accumulation of crude protein, starch, sugar and nitrogen in leaves and stem of C. ciliaris indicates that this grass species also maintained its quality under A. tortilis based silvopastoral system. The photosynthesis and dry matter accumulation are closely associated with available PAR indicating that for sustainable production of this grass species in the silvopasture systems for longer period about 55% or more PAR is required.     

浮尘对冬小麦叶片光合作用及细胞膜透性的影响

我国是浮尘发生频繁的国家。浮尘作为一种灾害性天气不仅直接危害作物,而且通过减少直接辐射,减缓冰雪融化,减少河水流量,改变土壤性质等间接影响作物的生长发育。因此,深入研究浮尘对作物的影响具有重要意义。但目前,国内外的学者主要偏重研究人为粉尘和工业污染物对野生植物及绿化植物的影响,较少关注自然降尘对作物的影响;特别是在长期浮尘胁迫下冬小麦叶片的气孔导度、净光合速率、细胞质膜相对透性等生理指标的变化很少有研究。通过模拟降尘和盆栽试验,研究了拔节期和盛花期的降尘对冬小麦叶片温度（Tleaf）、叶绿素含量（Chl）、游离脯氨酸含量（Pro）、净光合速率（Pn）、气孔导度（Gs）、胞间CO2浓度（Ci）、细胞膜透性的影响（MP）。结果表明,降尘使拔节期和盛花期冬小麦的净光合速率分别下降52%和43.9%,差异均显著（P〈0.05）;降尘还增大细胞膜透性,破坏了冬小麦自身调节系统,使拔节期和盛花期的叶绿素含量分别下降14.4%和20.4%,达到极显著差异（P〈0.01）;降尘还使拔节期叶片的气孔导度下降到对照的26.9%（P〈0.05）,同时叶面温度升高,脯氨酸含量增加38.2%。     

Models for the physiological effects of short O3 exposures on plants

Some published effects of ozone on plant photosynthesis and evaporation are detailed, and attempts were made to develop explanatory models of increasing complexity. Stomatal regulation, which keeps the CO₂ concentration inside the lead constant, is assumed. The O₃ concentration inside the leaf is assumed to be neglible, so O₃ uptake, CO₂ uptake and stomatal conductance must be proportional. The suppression of photosynthesis is assumed to be proportional to the integrated effective O₃ uptake. For a first model, a differential equation is derived from these assumptions and a simple analytical solution is found. A second model includes a threshold O₃ flux. The repair process is discussed and three models are investigated with a constant repair rate, a repair rate dependent on the stage of injury, and with a repair rate dependent on the photosynthetic rate. A comparison of the analytical solutions of the appropriate differential equations with literature data shows that the model with repair dependent on photosytheesis is the most successful one, but a constant repair rate also gives a fair approximation. The model with repair dependent on photosynthesis implies the existence of a threshold level for the suppression of photosynthesis which separates reversible and irreversible O₃ effects. With the assumption of an inhomogeneous leaf a model to predict visible leaf injury is derived. The possible existence of a maximum leaf injury index for one exposure concentration is explained from the properties of the models. The restrictions and possible extensions of the models are discussed. The concept of a threshold O₃ flux and of a critical suppression of photosynthesis are shown to give possible explanations of antagonistic and synergistic effects of O₃, SO₂ and NO₂.     

Effect of sodium metabisulphite on germination, growth and yield of Vigna sinensis, Savi

In the present study, the impact of sodium metabisulphite (Na2S2O5), a food preservative, on seed germination, growth and yield of Vigna sinensis, Savi has been evaluated. Observations clearly reveal the deleterious effect of Na2S2O5 on germination, stomatal development, stomatal index, chlorophyll content and yield. The shoot length exhibited a steady rise in length, while the biomass showed a gradual decrease with the increasing doses of Na2S2O5.     

EDU对臭氧胁迫下菠菜急性伤害症状和光合特性的影响

如何减轻近地层臭氧(O3)体积分数持续升高对作物的影响是污染生态学研究的热点之一。运用改进的开顶式气室(open-top chambers,OTCs)装置,对嘉兴尖叶、嘉兴圆叶和荷兰35三种菠菜(Spinacia oleracea L.)进行连续5 d,每天8 h的臭氧急性暴露处理,且在暴露前24 h喷施300 mg.L-1质量浓度抗氧化剂ethylenediurea(EDU),研究EDU对臭氧胁迫下菠菜急性伤害症状及光合特性的影响。结果表明:(1)菠菜暴露于高体积分数O3时,叶片出现失水干枯、坏死斑等急性伤害症状,光合色素含量、气体交换参数和光响应参数显著降低,且下降幅度和暴露体积分数呈正相关。(2)菠菜经EDU处理后,光合特性参数明显提高。对O3和EDU作双因子分析发现,随着臭氧体积分数升高,EDU对叶片气体交换参数的影响显著,而对其他参数的影响不明显。由此可见,尽管EDU的防护作用对高体积分数的O3胁迫是有限的,但喷施EDU仍能有效减轻O3对植物的伤害,这对缓解农田生态系统O3污染灾害有积极意义。     

Foliage profiles of individual trees determine competition,self-thinning,biomass and NPP of a Cryptomeria japonica forest stand: A simulation study based on a stand-scale process-based forest model

A simulation study was carried out to investigate simultaneously the effects of eco-physiological parameters on competitive asymmetry, self-thinning, stand biomass and NPP in a temperate forest using an atmosphere–vegetation dynamics interactive model (MINoSGI). In this study, we selected three eco-physiological relevant parameters as foliage profiles (i.e. vertical distribution of leaf area density) of individual trees (distribution pattern is described by the parameter η), biomass allocation pattern in individual tree growth (χ) and the maximum carboxylation velocity (V_max). The position of the maximal leaf area density shifts upward in the canopy with increasing η. For scenarios with η < 4 (foliage concentrated in the lowest canopy layer) or η > 12 (foliage concentrated in the uppermost canopy layer), a low degree of competitive asymmetry was produced. These scenarios resulted in the survival of subordinate trees due to a brighter lower canopy environment when η < 4 or the generation of spatially separated foliage profiles between dominant and subordinate trees when η > 12. In contrast, competition between trees was most asymmetric when 4 ≤ η ≤ 12 (vertically widespread foliage profile in the canopy), especially when η = 8. In such cases, vertically widespread foliage of dominant trees lowered the opportunity of light acquisition for subordinate trees and reduced their carbon gain. The resulting reduction in carbon gain of subordinate trees yielded a higher degree of competitive asymmetry and ultimately higher mortality of subordinate trees. It was also shown that 4 ≤ η ≤ 12 generated higher self-thinning speed, smaller accumulated NPP, litter-fall and potential stand biomass as compared with the scenarios with η < 4 or η > 12. In contrast, our simulation revealed small effects of χ or V_max on the above-mentioned variables as compared with those of η. In particular, it is notable that greater V_max would not produce greater potential stand biomass and accumulated NPP although it has been thought that physiological parameters relevant to photosynthesis such as V_max influence dynamic changes in forest stand biomass and NPP (e.g. the greater the V_max, the greater the NPP). Overall, it is suggested that foliage profiles rather than biomass allocation or maximum carboxylation velocity greatly govern forest dynamics, stand biomass, NPP and litter-fall.     

Effect of different time of salt stress on growth and some physiological processes of <Emphasis Type="Italic">Avicennia marina</Emphasis> seedlings

Growth and physiological characters of Avicennia marina seedlings cultured under different levels of salinity were compared at 45 and 100 days after sowing. Based on the growth and physiological responses, the levels of salinity were grouped into two kinds, moderate (5–30‰) and extreme (40 and 50‰ as well as 0‰). Root and shoot length, leaf area, biomass of different organs, and net photosynthesis rate all showed a similar trend: the seedlings grew better at moderate levels of salinity but were adversely affected by extreme levels. Longer exposure (100 days) to salinity markedly enhanced the difference between the effects of the two levels on growth. By 45th day, the cotyledons had withered and fallen off. The concentration of ions (K⁺, Na⁺, Ca²⁺, Mg²⁺, Cl⁻) and ash content of the cotyledons were determined before sowing and 45 days later. Ion concentrations and ash content of cotyledons were markedly lower at 45 days—lower than the initial levels—in seedlings irrigated with water at 0‰ salinity level. This suggested that the poor growth of these seedlings at 100 days may be due to lack of ions provided by the cotyledons. The high ion concentrations in the cotyledons grown at moderate salinity levels suggest that these organs may function as ion sinks at this stage, reducing the concentration of ions and consequent toxicity caused by excessive concentrations. Root biomass was higher than shoot biomass 45 days after sowing, whereas after 100 days, shoot biomass was higher. At the early stage of growth (45 days), the rate of photosynthesis at lower levels of salinity (0–30‰) was limited mainly by stomatal closure but at higher levels of salinity (40–50‰), other factors came into play. Later, at 100 days, the causes of reduced photosynthetic rate were other than stomatal closure at both low and high levels of salinity. This indicates that photosynthesis is affected by prolonged exposure to salt stress—including that caused by 0‰ salinity, as shown by poor growth of the seedlings.     

水分条件对中山杉406光合特性的影响

采用室内盆栽方式,以两年生落羽杉属杂交树种＂中山杉406＂（Taxodium‘Zhongshanshan 406’）为试验材料,设置对照、渍水和淹水3种处理,研究了水分条件对中山杉406叶片的叶绿体色素、净光合速率（Pn）、蒸腾速率（Tr）、气孔导度（Gs）和胞间CO2摩尔分数（Ci）等光合特性的影响。结果表明,中山杉406的叶绿素a、叶绿素a＋b和类胡萝卜素质量分数随土壤水分增加而逐渐降低,但处理间均无显著差异。同样,不同处理间的Tr、Gs和Ci等光合参数无明显规律。光合-光强响应曲线表现出明显的光饱和限制。不同光强下,对照与淹水处理的中山杉406叶片净光合速率高于渍水处理,但处理间没有显著差异。而光饱和在对照处理显著（P〈0.05）高于渍水和淹水处理。在渍水和淹水下,中山杉406的光合特性没有发生明显变化,表明其具有良好的耐湿耐水特性,在湿地的恢复与构建方面有广阔的应用前景。     

附着生物对沉水植物伊乐藻生长的研究

以沉水植物伊乐藻(Elodea nuttalii(Plant.)ST.John.)为研究对象,室内利用原位湖水进行培养,通过测定伊乐藻的生物量、叶绿素质量分数、光合作用速率等指标,研究了附着生物量的增加对沉水植物伊乐藻的影响。结果表明,随着附着生物处理量的增加,伊乐藻的生物量、叶绿素质量分数以及光合作用速率随之下降,50d后,各处理的生物量与对照相比分别减少了约5%~15%,叶绿素质量分数以及光合作用速率下降了20%~43%、10%~36%。同时也分析了丝状藻对沉水植物伊乐藻的遮阴作用,初步推测附着生物对沉水植物伊乐藻的影响可能是由于附着生物的遮荫作用。研究的结果为揭示富营养化湖泊沉水植被衰退的机理提供了理论依据。