Physiological responses and photo-protective mechanisms of two Rhododendron plants to natural sunlight after long term shading

AimsResponses of plants to increased irradiance are governed by two strategies: an increase in the utilization of absorbed light and photo-protective mechanisms. Varied physiological responses to increased irradiance were observed in plant species with differing adaptabilities to light regimes. This research aims to explore the physiological responses and photo-protective mechanisms of two Rhododendron plants to changes in light regimes. MethodsChlorophyll fluorescence parameters and rapid light curves were measured for leaves of R. hybrida (a shade-tolerant species) and R. simsii (a light-loving and shade-tolerant species) following exposure to sunlight for five days after growing in the shade for one year.Important findings Natural sunlight decreased the efficiency of photochemical reaction by reducing the fraction of incident light in photochemical energy utilization and decreased thermal dissipation through regulating energy dissipation in photosystem II (PSII) in the leaves of R. hybrida. As a result, natural sunlight induced the accumulation of excess excitation energy in PSII, and caused photo-inhibition and even photodamage in the leaves of R. hybrida, which was suddenly transferred from long-term shading to sun exposures. The acclimation capacity to changes of growth light regimes was stronger in R. simsii than in R. hybrida, due to a higher capability for photochemical reaction, thermal dissipation and cyclic electron flows around photosystem I in the leaves of R. simsii. Rhododendron simsii could utilize a high fraction of incident light in photochemistry and regulate energy dissipation in PSII to protect the photosynthetic apparatus under both shading and natural sunlight condition. Therefore, high light intensity under natural sunlight did not cause photo-inhibition in R. simsii.     

两种杜鹃花属植物对长期遮阴后全光照环境的生理响应及其光保护机制

植物通过提高光能利用能力和光保护途径以响应环境光强的增加, 但不同植物对环境光强增加的生理响应存在差异, 从而导致植物对光环境的适应性不一致。为探讨植物对光环境变化的生理响应及其适应机制, 该文以遮阴条件下培养1年的2种杜鹃属(Rhododendron)植物比利时杜鹃(R. hybrida)和杜鹃(R. simsii)为材料, 对其由遮阴后转入全光照下培养5天时的叶片叶绿素荧光参数及其快速光曲线变化进行了比较研究, 以期从叶片吸收光能分配和光保护机制的角度探讨这2种植物对光环境变化的适应机制。结果表明: 全光照降低了喜阴植物比利时杜鹃叶片的光化学反应和热耗散能力, 且其吸收光能分配于光化学反应和调节性能量耗散部分的比例减少, 导致光系统II反应中心过量激发能积累, 造成了叶片光抑制甚至光破坏。杜鹃作为耐阴喜光植物对光环境变化具有较强的适应性, 具有较高的光化学反应、热耗散和环式电子传递能力等内在生理特性; 在遮阴和全光照两种光环境下均能维持较高的吸收光能在光化学反应和调节性能量耗散部分的分配比例, 从而保护了光合机构的正常运行, 是其全光照强光未造成叶片光抑制的原因。     

遮阴对闽楠叶绿素含量和光合特性的影响

为探讨闽楠对不同光环境的光合适应机制,以2年生闽楠幼苗为材料,设置3个光照处理(全光照、遮光率50%和遮光率78%),适应6个月后,测定其叶绿素含量、气体交换和叶绿素荧光同步数据,研究不同光环境处理对闽楠叶片叶绿素含量、叶绿素荧光参数和光合特性的影响.结果表明: 3种光照处理下,闽楠叶片叶绿素a、叶绿素b、叶绿素(a+b)和类胡萝卜素含量大小次序为78%遮光率>50%遮光率>全光照,但不同光照处理对闽楠叶绿素a/b值没有显著影响.遮阴条件下,闽楠叶片光补偿点(LCP)降低,光饱和点(LSP)和表观量子效率(AQY)升高,说明遮阴条件下闽楠叶片对弱光和强光的利用能力均有所提高;最大净光合速率(P_{n max})、光下暗呼吸速率(R_d)和最大电子传递速率(J_max)均增大.在不同处理间,闽楠叶片净光合速率(P_n)、CO₂气孔导度(g_sc)、胞间CO₂浓度(C_i)和叶肉导度(g_m)均存在显著差异.P_n和g_m的大小顺序为: 78%遮光率>50%遮光率>全光照.78%遮光率处理下g_sc显著大于全光照.50%遮光率条件和78%遮光率条件下C_i均显著小于全光照.78%遮光率条件下PSⅡ实际光量子产量(F_v′/F_m′)、PSⅡ光化学效率(Φ_PSⅡ)和电子传递速率(J)均显著大于50%遮光率条件和全光照.由此可知,在遮阴条件下闽楠可以通过增加叶绿素含量、AQY、J、g_sc和g_m来增大光合能力.     

A new technology of modulated Chl a fluorescence image: In vivo measurement of the PSII maximum photochemical efficiency and its heterogeneity within leaves

The spatial photosynthetic heterogeneity within leaves is an important prerequisite for the studies on the photosynthetic model, the mechanism(s) of photoinhibition and light protection, etc. However, currently the in vivo measurement of the spatial photosynthetic heterogeneity within leaves is difficult. The present study improved the device assembled by Vogelmann & Evans (2002), thereby acquired the photosystem II (PSII) maximum photochemical efficiency (F_v/F_m) images within leaves. Finally, these images were processed and data of F_v/F_m and its spatial variations could be obtained, with the aid of MATLAB software. Based on the innovative technique, an investigation of the effects of strong light on the F_v/F_m and its spatial heterogeneity within leaves has been carried out. It was found that F_v/F_m within leaves was not homogonous. Strong light led to a general decrease of F_v/F_m (PSII photoinhibition) across leaf section, and the palisade tissue close to the epidermis layer had high tolerance to photoinhibition. Compared with control, short-term photoinhibition caused a larger spatial variation of F_v/F_m within leaves, which may be related to the chloroplast-avoidance response induced by high-fluence. On the contrary, long-term light inhibition led to a smaller spatial variation of F_v/F_m within leaves, indicating such mechanism is no longer effective. Compared to other types of chlorophyll fluoremeter, the device in the present study can in vivo obtain the panoramic picture of F_v/F_m within leaves, providing a powerful tool for the studies on the mechanism(s) attributed to the spatial heterogeneity of photosynthetic capacity of leaf, which is critical for the understanding on several hot spots in the research field of photosynthesis.     

Effects of wind erosion and sand burial on water relations and photosynthesis in Alhagi sparsifolia in the southern edge of the Taklimakan Desert

塔克拉玛干沙漠南缘风沙活动十分频繁, 风蚀和沙埋是该地区自然植被生长发育的重要影响因子。该文以塔克拉玛干沙漠南缘策勒绿洲-沙漠过渡带为研究区, 以该区域主要建群种植物骆驼刺(Alhagi sparsifolia)为研究对象, 对一次强沙尘天气过后沙丘表面5种不同风蚀沙埋状况的骆驼刺植物进行标定(包括10 cm风蚀、5 cm风蚀、不蚀不积、10 cm沙埋、30 cm沙埋), 天晴后测定其叶水势、叶片含水量、光合参数和叶绿素荧光等参数, 分析研究自然环境条件下风蚀和沙埋对骆驼刺水分和光合作用的影响。结果表明: (1)风蚀显著降低了骆驼刺叶水势和叶片含水量, 进而导致植物气孔导度降低, 并引起植物光合速率和蒸腾速率的下降。风蚀的植物水分利用效率低于沙埋, 特别是在10 cm风蚀深度明显降低。 (2)沙埋增加了骆驼刺的叶水势、叶片含水量和气孔导度, 并引起植物光合速率和蒸腾速率的上升, 水分利用效率也得到提升。(3)风蚀条件下骆驼刺所受胁迫增加, 但可以通过增加活性反应中心的数量和光化学效率来抵消胁迫造成的不利影响。沙埋条件下骆驼刺受胁迫减轻, 反应中心吸收的光能和用于光化学反应的能量随着沙埋程度增加而减小, 这是骆驼刺适应风沙环境的一种生存策略。(4)与5 cm风蚀以及10 cm沙埋相比, 10 cm风蚀显著抑制骆驼刺的生长, 30 cm沙埋则会显著促进骆驼刺的生长。     

玉米花生间作和磷肥对间作花生光合特性及产量的影响

揭示玉米(Zea mays)和花生(Arachis hypogaea)间作提高花生对弱光利用能力的光合特点及磷(P)肥效应, 对阐明间作花生适应弱光的光合机理和提高间作花生的产量具有重要意义。该试验于2011-2012年在河南科技大学试验农场分析了间作花生功能叶的叶绿素含量与构成、光响应曲线和CO₂响应曲线特点和荧光参数。结果表明: 与单作花生相比, 施P与不施P条件下玉米和花生间作显著(p < 0.01)提高了花生功能叶的叶绿素b含量, 降低了叶绿素a/b, 显著提高了光系统II最大光化学效率(F_v/F_m)、实际光化学效率(Φ_PSII)、光化学猝灭系数(q_P)、表观量子效率(AQY)和弱光时的光合速率, 显著降低了气孔导度、二磷酸核酮糖羧化酶羧化速率(V_cmax)、电子传递速率(J_max)和磷酸丙糖利用速率(TPU); 与不施P相比, 施P有利于提高间作花生功能叶的叶绿素含量, 显著提高了Φ_PSII、q_P、V_cmax、J_max和TPU, 说明间作花生通过提高功能叶的叶绿素b含量, 改变叶绿素构成, 提高了光系统II的F_v/F_m、Φ_PSII和q_P, 增强了对光能的捕获和转化能力, 提高了对弱光的利用能力, 而并非提高了对CO₂的羧化固定能力; 施P有利于提高间作花生对弱光的利用能力和产量, 土地当量比提高了6.2%-9.3%。     

光强对三七光合能力及能量分配的影响

通过研究生长于不同环境光强(29.8%、9.6%、5.0%、1.4%和0.2%全日照)下的2年生三七光合作用对光照强度、CO₂浓度、模拟光斑的响应及叶绿素荧光和能量分配特征,研究光照强度对阴生植物三七光合特征及光适应的影响.结果表明: 29.8%全日照(FL)下三七表观量子效率(AQY)、光系统Ⅱ(PSⅡ)潜在的量子效率(F_v/F_m)、PSⅡ潜在活性(F_v/F_o)较低,最大净光合速率(P_{n max})、最大电子传递速率(J_max)、实际光化学量子效率(F/F_m′)、电子传递速率(ETR)、光化学淬灭系数(q_P)和光能分配到光化学途径的比例(Φ_PSⅡ)较高,但非光化学淬灭系数(NPQ)并不是最高.9.6% FL和5.0% FL处理P_{n max}、光补偿点(LCP)、光饱和点(LSP)、暗呼吸速率(R_d)无显著差异,但它们的AQY、羧化效率(CE)、最大羧化速率(V_{c max})、F_v/F_m、F_v/F_o较高,NPQ也相对较高.生长环境光强低于5.0%FL时,P_{n max}、CE、V_{c max}、J_max、ETR、F/F_m′、q_P、NPQ和Φ_PSⅡ均随生长环境光强的降低呈下降趋势,而捕获的光能分配到荧光耗散的比例(Φ_f,D)逐渐增加.在500 μmol·m^-2·s^-1光斑诱导下,生长环境光强大于5.0%FL下的三七Φ_PSⅡ随诱导时间的延长缓慢增加,1.4%FL和0.2%FL下Φ_PSⅡ迅速达到饱和,且Φ_f,D迅速增加.三七在受到长期高光胁迫的环境下,通过适度的PSⅡ光抑制和保持较高光合电子传递速率,从而提高光能的利用来保护光合机构遭受不可修复的氧化伤害;适度的遮荫能够有效保持较高的非光化学热耗散能力;但过度遮荫会使其光合能力明显降低,捕获的光能更多地通过非光化学的途径耗散,且在接受到高光照射时较容易引发光氧化伤害.     

Effects of nitrogen addition on photosynthetic characteristics of Leymus chinensis in the temperate grassland of Nei Mongol,China

Aims The increased atmospheric nitrogen (N) deposition due to human activity and climate change greatly causes grassland ecosystems shifting from being naturally N-limited to N-eutrophic or N-saturated, and further affecting the growth of grass species. The aims of this study are: 1) to evaluate the effects of different N addition levels on morphology and photosynthetic characteristics of Leymus chinensis; 2) to determine the critical N level to facilitate L. chinensis growth.
Methods We conducted a different N addition levels experiment in dominant species in the temperate steppe of Nei Mongol. The aboveground biomass, morphological and leaf physiological traits, pigment contents, chlorophyll a fluorescence parameters and biochemical parameters of L. chinensis were investigated.
Important findings Our results showed that aboveground biomass first increased and then decreased with the increased N, having the highest values at the 10 g N·m^-2·a^?1 treatment, but the 25 g N·m^-2·a^?1 still significantly increased the aboveground biomass relative to 0 g N·m^-2·a^?1. Leymus chinensis accommodate low N situation through allocating less N to carboxylation system and decreasing leaf mass per area (LMA) in order to get more light energy. Moderate N addition captured more light energy through increasing total chlorophyll (Chl) contents and decreasing the ratio of Chl a/b. Moderate N addition increased LMA, carboxylation efficiency, maximum carboxylation rate (V_cmax), maximum electron transport rate (J_max) and decreased J_max/V_cmax, thus allocating more N to carboxylation system to enhance carboxylation capability. Moreover, the photochemical activity of PSII was increased through higher effective quantum yield of PSII photochemistry, electron transport rate and photochemical quenching coefficient. Excessive N addition had negative effects on physiological variables of L. chinensis due to lower carboxylation capability and photochemical activity of PSII, further leading to decreased net photosynthetic rate, whereas increased non-photochemical quenching coefficient and carotenoids played the role in the dissipation of excess excitation energy. Overall, moderate N addition facilitated the photosynthetic characteristics of dominant species, but excessive N addition inhibited photosynthetic characteristics. The most appropriate N addition for the growth of L. chinensis was 5-10 g N·m^-2·a^?1 in the temperate steppe of Nei Mongol, China.     

Empirical relationship between specific leaf area and thermal dissipation of Phragmites australis in salt marshes of Qinwangchuan

Aims The correlation between specific leaf area (SLA) and thermal dissipation reflects not only the accumulation and dissipation of plant photosynthesis, but also plants’ adaptation to their habitats and changing environment. The objective of this study is to examine the correlation between SLA and thermal dissipation of reed (Phragmites australis) under different soil moisture conditions and salt contents.Methods Our study site was located in the National Wetland Park in Qinwangchuan, Gansu Province, China. Our sampling site extends from the edge to the central of a salt marsh where the reed was the single dominant species. The study site was divided into three zones based on the distance from the water. Within each zone, six 2 m × 2 m sampling plots were randomly located to select six reed individuals in each plot (total = 18). Vegetation height, aboveground biomass, soil moisture, and soil electrical conductivity (EC) were measured, with the six reed individuals taken to the laboratory to measure leaf thickness. Leaf net photosynthetic rate (P_n), transpiration rate (T_r), and other parameters of the reeds were also measured in each plot prior to harvesting. Quantitative measures of chlorophyll fluorescence were taken after 30-min dark adaptation. Quadrat survey method was used to model the empirical relationship between the transpiration rate and leaf characteristics.Important findings Vegetation height and aboveground biomass increased with soil moisture content, but EC and photosynthetically active radiation decreased. Leaf area, T_r and P_n increased along the gradient, leaf thickness showed decreasing, but the increasing trend of SLA switched to a decreasing trend, while leaf dry mass presented an opposite trend. From plot I to III, the quantum yield of regulated energy dissipation (Y(NPQ)) and non-photochemical quenching decreased, the actual photochemical efficiency of PSII and photochemical quenching increased, and quantum yield of non-regulated energy dissipation increased before decreasing. There appeared a highly significant negative correlation (p < 0.01) between SLA and Y(NPQ) at plot I and III, and a less significant negative correlation (p < 0.05) at plot II. Along the soil moisture gradient, reed seemed using light effectively by changing leaf thermal dissipation through adjusting their leaf size and SLA—A potential self-protection mechanism in light of adapting the habitat.     

NaCl处理下两种引进红树的光合及抗氧化防御能力

在长期盐胁迫(28天, NaCl浓度从100 mmol·L^-1升至400 mmol·L^-1)下, 比较研究了引进的无瓣海桑(Sonneratia apetala)和拉关木(Laguncularia racemosa)幼苗叶片的气体交换、叶绿素含量、最大光化学效率(F_v/F_m)、O₂^-_· 产生速率以及抗氧化酶的活性, 探讨了两种红树幼苗光合、抗氧化防御能力的差异与耐盐性的关系。结果显示: NaCl处理没有明显地影响两种红树幼苗的生长, 表明盐生植物对盐环境的适应性, 但两种红树的生理反应对NaCl处理存在较大的差异。在实验的第28天(苗木的NaCl累计处理浓度递增到400 mmol·L^-1)时, 与对照相比, 无瓣海桑叶片的净光合速率、水分利用效率增加, 气孔导度、蒸腾速率和胞间CO₂浓度/大气CO₂浓度(C_i/C_a)相应降低; 然而, 拉关木叶的净光合速率、蒸腾速率和水分利用效率均回落到对照的水平, 而气孔导度和C_i/C_a均增加, 表明同样的NaCl浓度处理对拉关木叶的净光合速率影响大于无瓣海桑。在NaCl处理期间, 无瓣海桑F_v/F_m一直保持在0.8以上, 而拉关木的F_v/F_m为0.75以下, 说明无瓣海桑具有高于拉关木的潜在最大光合能力。在实验的第7天(NaCl浓度为100 mmol·L^-1)和14天(苗木的NaCl累计处理浓度递增到200 mmol·L^-1)时, 两种红树O₂^-_· 产生速率迅速增加, 在实验的第28天(苗木的NaCl累计处理浓度递增到400 mmol·L^-1)时, 无瓣海桑O₂^-_· 产生速率是对照的5.3倍, 差异极显著, 此时, 拉关木叶中O₂^-_· 产生速率已降低到低于对照的水平。盐处理诱导了两种红树叶中抗氧化酶(超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、抗坏血酸过氧化物酶(APX)、谷胱甘肽还原酶(GR)、过氧化物酶(POD))活性增加, 但拉关木增加的幅度大于无瓣海桑, 表明拉关木能响应盐胁迫并上调抗氧化酶活性, 降低盐诱导的膜脂过氧化, 提高耐盐的能力, 无瓣海桑通过提高水分利用效率来保持体内的水分, 同时, 保持PSII的最大光化学量子产量, 使得无瓣海桑在高盐处理时仍能保持高于对照水平的光合速率。     

光系统II实际光化学量子效率对光的响应模型的比较

为了比较光系统II实际光化学量子效率(Φ_PSII)对光的响应机理模型(简称机理模型)、负指数模型和指数模型的优缺点, 用LI-6400-40B光合作用测定仪控制CO₂浓度和温度, 测量了剑叶金鸡菊(Coreopsis lanceolata)、黄荆(Vitex negundo)和大狼杷草(Bidens frondosa)的电子传递速率(ETR)对光的响应曲线(ETR-I)和Φ_PSII对光的响应曲线(Φ_PSII-I), 然后用这3个模型分别拟合了这些数据。拟合结果表明: 3个模型都可以较好地拟合这3种植物的ETR-I的响应数据和Φ_PSII-I的响应数据, 但由指数模型拟合ETR-I和Φ_PSII-I的响应数据得到相应的饱和光强(PAR_sat)和光系统II最大光能利用效率(F_v/F_m)之间存在显著差异, 且估算的饱和光强远低于实测值。由机理模型可知, Φ_PSII不仅与光强的函数有关, 还与植物的内禀特性有关, 即与天线色素分子的本征光能吸收截面、激子的传递效率、能级的简并度、光化学反应常数、热耗散常数和处于最低激发态的平均寿命等参数有关。此外, 由机理模型还可知, Φ_PSII随光强的增加而下降的原因是捕光色素分子的有效光能吸收截面随光强增加而降低。     

遮荫对七子花幼苗光合特性和非结构性碳水化合物含量的影响

为探讨不同光环境下濒危植物七子花（Heptacodium miconioides）的生长及适应规律,以2年生七子花幼苗为研究对象,设置全光照、60%遮荫和90%遮荫3种光照强度,研究不同光环境对七子花幼苗的光合特性和非结构性碳水化合物（NSC）含量的影响。结果表明：（1）3种光照处理下,七子花幼苗的净光合速率（P_n）日变化均呈“单峰型”曲线,P_n日均值为全光照>60%遮荫>90%遮荫,90%遮荫下水分利用效率（W_UE）日均值显著低于全光照和60%遮荫。（2）与全光照相比,60%遮荫下七子花幼苗的光补偿点（L_CP）和暗呼吸速率（R_d）显著下降,而光饱和点（L_SP）、最大净光合速率（P_nmax）、最大羧化速率（V_cmax）、最大电子传递速率（J_max）和磷酸丙糖利用率（T_PU）无显著差异;重度遮荫（90%遮荫）导致植株的P_nmax、L_SP、L_CP、R_d、V_cmax、J_max和T_PU显著降低。（3）七子花幼苗叶片的淀粉、可溶性糖和NSC含量在60%遮荫处理中最高,90%遮荫处理下则显著下降。植株的NSC含量与P_n、V_cmax、J_max和T_PU呈显著正相关关系。综上所述,七子花在幼苗期具有一定的喜光性和耐荫能力,适度遮荫下植株可通过降低L_CP、R_d来调整叶片的光合生理,维持较高的NSC含量,从而来提高对弱光的利用率和碳同化能力,但在生产育苗过程中过度遮荫不利于七子花幼苗的生长。     

弱光胁迫影响夏玉米光合效率的生理机制初探

大田条件下, 以普通夏玉米(Zea mays) ‘泰玉2号’为材料, 于授粉后1-20天遮光55% (+S), 以大田自然光照条件下生长的玉米作为对照(-S), 研究了遮光及恢复过程中玉米植株的光合性能、叶绿体荧光参数、叶黄素循环以及光能分配的变化, 初步揭示夏玉米开花后弱光条件下光适应的生理机制, 为玉米高产稳产提供理论依据。结果表明, 遮光后玉米穗位叶叶绿素含量及可溶性蛋白含量均减少, RuBP羧化酶和PEP羧化酶活性显著降低, 导致穗位叶净光合速率(P_n)迅速下降, 光饱和点也明显降低; 恢复初期P_n迅速升高, 光合关键酶活性有所增强。遮光后植株的最大光化学效率(F_v/F_m)、实际光化学效率(Ф_PSII)显著降低, 非光化学淬灭(NPQ)则显著升高, 而恢复初期植株穗位叶Ф_PSII有所升高, 表明突然暴露在自然光下的光合电子传递速率明显加快, 这与其光合速率及光合酶活性的趋势保持一致; 遮光处理对穗位叶叶黄素循环库的大小(紫黄质+花药黄质+玉米黄质(V + A + Z))影响不显著, 但使叶黄素循环的脱环氧化状态(A + Z)/(V + A + Z)增加; 遮光后植株分配于光化学反应的光能明显减少, 天线耗散光能比率显著增加, 恢复过程中植株主要以过剩非光化学反应的形式耗散过剩的光能。遮光后及恢复初期, 玉米植株的PSII原初光化学活性明显下降, 限制了光合碳代谢的电子供应从而抑制了光合作用, 主要依赖叶黄素循环途径进行能量耗散, 而在光照转换后遮光的玉米叶片在适应自然光过程中的光保护机制不断完善, 光合能力逐渐得到 恢复。     

Effects of inoculation with arbuscular mycorrhizal fungi on photosynthetic physiology in females and males of Populus deltoides exposed to cadmium pollution

Aims Populus deltoides is an important plantation tree species in the middle and lower reaches of the Yangtze River and in Huai River Plain. The extensively cultivated varieties are consisted of both females and males of P. deltoides. The objective of this paper was to characterize the difference in cadmium (Cd) tolerance between the sexes and the effects of symbiosis with Rhizophagus intraradices on their Cd tolerance.
Methods The experiment was carried out under semi-controlled conditions in a natural light greenhouse, protected from rain. Rhizophagus intraradices was inoculated on roots of both females and males when transplanting to a sand culture substrate. After one month, half of cuttings were exposed to Cd pollution (10 mg·kg^-1). All cuttings were irrigated with sterile water to avoid infection by other microorganism. About three months later, the gas exchange rate, net photosynthesis rate (P_n)-intercellular CO₂ concentration (C_i) curve, chlorophyll fluorescence, osmotic adjustment and phytohormone content of both females and males of P. deltoides were measured.
Important findings Our main results are as follows: (1) when compared to the controls, decreases in P_n, stomatal conductance, C_i, transpiration rate, maximum photochemical efficiency of photosystem II (PSII), effective quantum yield of PSII, photo-chemical quenching coefficient, maximum rate of carboxylation of Rubisco, photosynthetically active radiation-saturated rate of electron transport and rate of triose phosphate utilization to a different degree in both sexes of P. deltoides under Cd pollution were found, and females exhibited a greater decrease in such parameters than males. Rhizophagus intraradices inoculation mitigated the toxic effect of Cd on such parameters to a different degree in females, not in males. (2) Under Cd pollution, there was an increase in proline content in both sexes when compared to the controls. A further increase in proline content occurred in females, not in males, when inoculated with R. intraradices. (3) When compared to the controls, there was a decrease in indoleacetic acid, but an increase in abscisic acid in leaves of both sexes when exposed to Cd pollution. The amplitude changed in both phytohormones in females was greater than that in males. Rhizophagus intraradices inoculation was helpful for recovery of phytohormone balance in females, which was not observed in males. Therefore, our results indicated that (1) there were a greater negative effect exerted by Cd pollution on gas exchange rate, carbon fixation capacity and phytohormone balance and a more impairment of photosynthetic apparatus in females when compared to males, showing a less tolerance to stress conditions in females; (2) Rhizophagus intraradices inoculation could enhance the osmotic adjustment capacity in females, thus mitigate the negative effect of Cd stress on ability of carbon fixation and phytohormone balance in females. However, such positive effects derived from R. intraradices symbiosis were not observed in males.     

邻苯二甲酸二丁酯对绿色巴夫藻的生长毒性和干扰效应

采用批次培养的方法研究了邻苯二甲酸二丁酯(DBP)对绿色巴夫藻(Pavlova viridis)的生长毒性和干扰效应。实验设置了0 mg·L^-1、2.5 mg·L^-1、3.0 mg·L^-1、3.5 mg·L^-1、4.0 mg·L^-1、5.0 mg·L^-1和7.5 mg·L^-1 共7个质量浓度梯度的DBP暴露处理组,测定了绿色巴夫藻的细胞密度、光合色素含量、叶绿素荧光特性及丙二醛(MDA)含量等指标,试图揭示DBP对绿色巴夫藻的生态毒性影响规律及机制。结果表明:DBP暴露对绿色巴夫藻的生长具有显著抑制作用,高质量浓度(5.0 mg·L^-1和7.5 mg·L^-1)DBP暴露下绿色巴夫藻细胞10 d内全部死亡;随着DBP暴露质量浓度增加,藻细胞叶绿素a和类胡萝卜素含量均显著降低;DBP暴露使光系统Ⅱ(PSⅡ)的最大光能转化效率(F_v/F_m)、潜在光化学活性(F_v/F_o)、实际光能转化效率(Yield)和光合电子传递速率(ETR)等指标也显著降低;DBP暴露还能够使绿色巴夫藻的细胞MDA含量显著增加。该研究进一步证实了DBP污染物对微藻光系统和酶类生理生化过程的干扰作用。     

黑沙蒿光合能量分配组分在生长季的相对变化与调控机制

为了探明典型荒漠灌木优势物种黑沙蒿(俗名油蒿, Artemisia ordosica)光合过程能量中分配对环境波动的相对变化及其长期调节机制, 该研究于2018年4-10月在宁夏盐池毛乌素沙地, 同时使用MONITORING-PAM多通道荧光监测仪和LI-6400XT便携式光合测量仪对黑沙蒿叶片的最小荧光产量(F_o)、最大荧光产量(F_m)、稳态荧光产量(F_s)、光下最大荧光产量(F_m′)、净光合速率(P_n)、暗呼吸速率(R_d)、蒸腾速率(E)和叶片气孔导度(g_s)进行现场测定, 在实验室内计算比叶面积(SLA)、单位面积氮含量(N_area)、叶绿素含量(C_Chl)和叶绿素a/b (Chl a/b), 分析黑沙蒿光合过程能量分配中固碳耗能占比(Φ_A)、光呼吸耗能占比(Φ_PR)、调节性热耗散耗能占比(Φ_NPQ)和非调节性热耗散耗能占比(Φ_NO)与环境参数和叶性状参数之间的关系以及能量分配各组分之间的相对变化。结果表明, 光化学反应组分(Φ_A、Φ_PR)和热耗散组分(Φ_NPQ、Φ_NO)之间呈负相关竞争关系, 两组分内部呈正相关协同关系, E和Φ_A、Φ_PR正相关, 和Φ_NPQ、Φ_NO负相关。在低土壤含水量(SWC)和高饱和水汽压差(VPD)环境条件下, 黑沙蒿Φ_A、Φ_PR和SLA显著降低, Φ_NPQ和Φ_NO显著增加。研究认为, 在长期干旱或高蒸散条件下, 黑沙蒿通过降低SLA等途径避免水分的过度流失, 同时将部分过剩光能由光呼吸代谢途径转移到热耗散组分进行耗散。波动环境下黑沙蒿形态性状的变异和光合过程能量分配的长期调节机制, 反映了其利用形态与生理的协同可塑性对逆境的适应。     

不同光照强度下谢君魔芋的光合作用及能量分配特征

为了探讨喜阴植物谢君魔芋(Amorphophallus xiei)对不同光强的适应策略,测量和分析了不同透光率(高光,透光率100%;中光,透光率32.6%;低光,透光率5.98%)下谢君魔芋对光、CO₂、光斑的响应特征及响应过程中叶绿素a荧光和能量分配特征.结果表明: 随着生长光强的增大,谢君魔芋最大净光合速率(P_max)、暗呼吸速率、表观量子产额、羧化效率显著降低,光补偿点、CO₂补偿点显著升高.中光处理的谢君魔芋对光合诱导的响应更迅速(P<0.05);随着生长光强的增加,暗适应初始气孔导度(g_s-i)显著升高;完成光合诱导中最大净光合速率30%(t_30%P)、50%(t_50%P)和90%(t_90%P)所需的时间与g_s-i呈负相关.高光处理的植株PSⅡ实际光化学效率(ΔF/F_m′)、光化学猝灭(q_P)和电子传递速率(ETR)较高,且在光合诱导过程中所对应的非光化学猝灭(NPQ)值相对较高,而低光处理具有较高的反应中心激发能捕获效率(F_v′/F_m′).高光处理非光化学耗散途径比例(Ф_NPQ)较低,而低光处理Ф_NPQ则相对较高.表明喜阴植物谢君魔芋在中低光下生长时受到高光胁迫能够启动快速耗散机制来保护自身光合机构,长期处于高光环境则采用增加热耗散成本和形成淬灭复合物的策略在一定程度上应对高光胁迫,这可能是其不能很好适应高光环境的原因之一.     

低夜温后不同光强对榕树叶片PSⅡ功能和光能分配的影响

研究了自然低夜温后全光照与遮荫对榕树叶片PSⅡ功能及光能分配的影响。结果表明低夜温后全光照条件下叶片吸收光能分配于光化学反应部分减少,而热耗散部分和反应中心过剩光能则增加,从而导致了PSⅡ功能的下降,遮荫条件下光能分配于光化学反应的程度增加．虽然用于热耗散的比例下降了,但反应中心过剩光能相对较少,从而有利于PSⅡ功能的恢复。     

甘肃小苏干湖盐沼湿地盐地风毛菊叶形态-光合生理特征对淹水的响应

盐沼湿地植物叶片功能性状对淹水的响应分析, 有助于探究植物叶片可塑性机制与光合生理特征间的内在关联性, 对深入理解盐沼湿地植物的生境抗逆性策略具有重要意义。根据小苏干湖湖水泛滥区静水持留时间长短分别设置: 轻度淹水区(静水持留30-90天)、中度淹水区(静水持留90-150天)、重度淹水区(静水持留150-210天) 3个试验样地, 以盐地风毛菊(Saussurea salsa)为研究对象, 研究了小苏干湖盐沼湿地盐地风毛菊叶片功能性状对淹水的响应。结果表明: 随着静水持留时间的增加, 轻度淹水区盐地风毛菊形态上采用小比叶面积(SLA)的肉质化小叶模式, 光合生理上具有高实际光合效率(Y(II))和低调节性能量耗散的量子产额(Y(NPQ))的协同变异; 重度淹水区盐地风毛菊形态和光合生理上则采用与轻度淹水区完全相反的协同变异策略; 在3个样地中, SLA与Y(II)、光化学淬灭(QP)和Y(NPQ)间均呈极显著相关关系; 叶绿素a含量和叶绿素b含量与调节性能量耗散的量子产额(Y(NO))均呈显著正相关关系。小苏干湖湖水泛滥区静水时空演变格局影响下, 盐地风毛菊种群通过改变叶面积、叶厚度和SLA等叶片形态特征, 适时调整叶片Y(II)和Y(NPQ)等光合生理特征, 实现植物叶片光合碳同化产物的收支平衡, 表现出对水盐异质性环境较强的耐受性, 反映了盐沼湿地植物在极端生存环境下的叶片可塑性和抗逆性机制。     

遮阴和藜竞争对黄顶菊光合荧光和生长特性的影响

为了防控黄顶菊进一步在国内蔓延,明确黄顶菊的生长机制迫在眉睫.本研究设不同遮阴程度(0、50%和80%)和种植方式(黄顶菊单种、藜单种、两者混种)共9个处理,研究遮阴和种植方式对两种植物出苗率、光合荧光和生长特性的影响.结果表明: 适度遮阴有利于黄顶菊出苗,但是出苗不整齐,这是造成黄顶菊入侵性强的一个重要因素.随着光照强度的增强,两种植物净光合速率(P_n)、光化学猝灭(q_P)、PSⅡ电子传递速率(ETR)、实际量子产量(Y)、非光化学猝灭(q_N)、水分利用效率(WUE)、茎生物量比(SMR)、冠宽(CW)和干物质积累量(DM)都增加,而比叶面积(SLA)降低;黄顶菊叶生物量比(LMR)显著增加,而藜不显著;黄顶菊DM增幅比藜的增幅高.80%遮阴下,藜P_n和DM都高于黄顶菊.自然光下,黄顶菊P_n、q_N、WUE和相对竞争强度(RCI)最高,混种黄顶菊CW、DM和混种藜P_n、Y显著低于相应的单种处理.黄顶菊的光饱和点(LSP)和光补偿点(LCP)均比藜高.因此,黄顶菊耐阴能力比藜弱,两种植物都是通过增加SLA和降低LMR来适应弱光;黄顶菊适应强光的能力大于藜,自然光下混种黄顶菊通过增加SMR和降低CW来提高竞争力.