浙江天台山七子花等6种阔叶树光合生态特性

 对分布在浙江天台山的七子花(Heptacodium miconioides)等6种主要阔叶树的光合生理生态特性进行了研究,结果表明：1)夏季6种植物光合日进程均为“双峰”型,有明显的光合“午休”现象。日均净光合速率月变化呈“单峰”型,8月是一年的高峰期。日均和5～11月平均净光合速率最高的是东南石栎(Lithocarpus harlandii),最低的是天台阔叶槭(Acer amplum var. tientaiense）,七子花处于中下水平。2)相对常绿树种而言,七子花的光补偿点较高,光饱和点较低,对光     

千岛湖次生林优势种植物光合特性对不同光环境的响应

在林窗、林缘、林下3种自然光环境下,对千岛湖次生林优势种马尾松、苦槠、石栎和青冈栎在不同季节的光合作用日变化、光响应、CO2响应和叶绿素荧光参数进行比较,探讨优势种对光环境的适应及响应的差异,以期了解群落演替的内在机制.结果表明:在3种光环境下,马尾松、苦槠的日均净光合速率(Pn)为夏季最高,石栎、青冈栎为秋季最高.在林窗、林缘中,年均最大净光合速率(Amax)、光饱和点(LSP)、光补偿点(LCP)、暗呼吸速率(Rd)均为马尾松最高,苦槠次之,青冈栎和石栎最低;林下生境中,青冈栎的年均Amax、表观量子效率(AQY)最高,其次是石栎和苦槠,马尾松最低.3种生境中,马尾松的年均最大羧化速率(Vc max)、最大电子传递速率(Jmax)和磷酸丙糖利用率(TPU)均显著高于其他3种优势种.马尾松、苦槠4个季节的PSII最大光化学效率(Fv/Fm)均为林窗最高,石栎、青冈栎为林下最高;马尾松、苦槠的Fv/Fm最大值出现在夏季,石栎、青冈栎出现在秋季.马尾松、苦槠更适合生长于林窗等高光强生境中,而石栎、青冈栎在林下等低光强生境中生长较好.随着演替的进程,群落郁闭度增大,石栎和青冈栎将取代马尾松和苦槠成为群落演替顶极阶段的优势种.     

香果树实生苗的光合特性及其与环境因子的关系

为确定香果树实生苗的适生环境并为其自然更新提出有针对性策略,研究了不同生境(冠下、冠缘、林窗和林缘)中2年生香果树实生苗的净光合速率、水分利用效率、叶绿素含量、苗高、基径、生物量等的变化及其与生态因子之间的关系.结果表明: 4种生境中的光合有效辐射最大值为50～1380 μmol·m^-2·s^-1,冠下和冠缘中香果树实生苗的净光合速率日变化呈单峰型,而林窗和林缘实生苗的净光合速率日变化呈双峰型;香果树实生苗为耐阴植物,但耐阴能力较弱,其功能叶的光饱和点、补偿点和暗呼吸在4种生境中大小顺序为: 林缘>林窗>冠缘>冠下,表观量子效率的变化规律与之相反;林窗和冠缘2种生境中香果树实生苗的适应能力较强,叶片的蒸腾速率、气孔导度、水分利用效率和净光合速率较高;林窗中香果树实生苗叶片的叶绿素含量较低,但实生苗的生长速度最快,生物量最大;香果树实生苗的净光合速率与光合有效辐射和气孔导度呈显著正相关.对于冠下生境,需降低林冠层密度,增加透光率,以利于香果树实生苗的光合作用;对于林缘生境,则需要增加植被盖度,降低光照强度,以利于其快速生长.     

濒危植物南川升麻光合生理生态的初步研究

 本文研究了南川升麻在林缘、林窗和林下3种生境中的光合特性和光合、呼吸日进程。结果表明,在3种生境下光补偿点无显著差异,在20μmol·m-1·s-2左右,而光饱合点则有较大差异。在3种生境下的光合日变化曲线均为单峰曲线,无“午休”现象,光合峰值是林缘>林窗>林下。影响光合日进程的最主要的生态因子为光合有效辐射强度;光合最适温度较低。呼吸日进程在3种生境下没有显著差异,与温度日变化基本一致。     

濒危植物长叶榧的光合生理生态特性

利用Li-6400 XT便携式光合作用仪对林窗、林缘、林下3种生境中的长叶榧(Torreya ackii)在春、夏、秋、冬4个季节里的光合生理生态指标进行测定,探讨3种生境中长叶榧光合能力的季节变化及其对不同光环境的响应,分析其濒危机制,为长叶榧的迁地保护和种群的繁衍复壮提供理论依据。结果显示:(1)林窗、林缘的长叶榧净光合速率(Pn)日变化在夏季呈"双峰"曲线,其它3个季节均呈"单峰"曲线;林下的Pn日变化在4个季节均呈"单峰"曲线。(2)3种生境中最大净光合速率(Pnmax)、光饱和点(LSP)、表观量子效率(AQY)、最大羧化速率(Vcmax)、最大电子传递速率(Jmax)、磷酸丙糖利用率(TPU)均为夏季最高,使得夏季有较强的光合作用能力,但夏季林窗、林缘的长叶榧出现光合"午休"现象,光补偿点(LCP)、暗呼吸速率(Rd)也较高,使得夏季林窗生境的长叶榧日均Pn明显低于于秋季,林缘的日均Pn与秋季差异不显著。(3)4个季节的日均Pn、Pnmax、LSP、Vcmax、Jma、TPU均为林窗最高,林窗与林下差异显著,表明长叶榧具有阳性植物的特点,适宜生长在光照较强的林窗生境。(4)在生长旺盛的夏、秋季,长叶榧的LSP比伴生物种低,LCP比伴生物种高,对光适应的生态幅度较窄;与伴生物种相比,长叶榧的Pn较低,光合能力较弱,在激烈的种间竞争中处于不利地位,可能成为其濒危的一个重要原因。     

浙江天台山七子花群落主要植物种类的光合特性

对分布在浙江天台山的七子花群落主要植物种类的光合生理生态特性进行了研究。结果表明：夏季,位于群落冠层上层、林窗、林缘的七子花及主要伴生植物叶片的光合日进程均呈“双峰“曲线,有明显的光合“午休“现象。而位于冠层中、下层以及林下的七子花、草本植物,其光合日进程曲线平缓。从冠层上层到下层,七子花叶片的日均净光合速率（Pn）呈下降趋势。林窗、林缘的七子花小树叶片日均Pn比林下大,冠层上层的七子花中树叶片与林窗、林缘的小树叶片日均Pn差异不显著。七子花在不同生境中与伴生植物相比,日均Pn较低,光合能力较弱。同一植株七子花冠层上层叶片叶绿素含量最低,下层次之,中层最高。阴生草本植物在弱光下仍有很高的叶绿素含量。植物叶片的光合能力大小与叶绿素含量高低不呈正相关。相对常绿树种而言,七子花光补偿点较高、光饱和点较低,对光适应的生态幅度较窄。     

上海新江湾地区废弃地低干扰植物群落优势树种的光合生理生态特征

以上海市杨浦区原废弃地(新江湾地区)半自然群落的主要优势树种为对象,测定不同生活型植株在夏季不同生境下叶片的光合特性,从光合生理生态角度分析低干扰条件下上海城市废弃地的植物群落次生演替过程的特点,并结合环境因子分析并预测植物群落结构的动态变化。结果表明:(1)冠层树种光合作用日变化曲线呈双峰型,林窗树种呈单峰型,而林下树种呈不规则变化,体现出亚热带地区植物在夏季典型气候下的"光合午休"现象,而生境特点同时也影响植物光利用对策。(2)冠层成年树以落叶树种刺槐和朴树的日均净光合速率最高,且具有较高的光饱和点;在林下生境中,以强耐阴灌木植物胡颓子的日均净光合速率最高,其次为常绿树种香樟和女贞的幼树和幼苗,而林下落叶树种日均净光合速率均较低。(3)影响冠层树种的净光合速率因子中,生态因子是第一主成分,而对于林窗树种,第一主成分则是生理因子。(4)由于阳性落叶树种具有更高效的光合效率,能迅速占领上层空间,新江湾区域人为低干扰植物群落的演替早期均以扩散能力较强的先锋性树种为主;乔木群落形成后,林下更新苗则以光适应范围较宽的香樟、女贞为主,同时,上层落叶树种大规模自然衰退使得香樟和女贞逐步替代落叶树种。     

不同生境朝鲜淫羊藿生长与光合特征

选择朝鲜淫羊藿野外生存的林缘、林窗和林下3种生境,研究朝鲜淫羊藿形态特征、光合特征、叶绿素含量、生物量积累及分配对不同光环境的响应。结果表明,朝鲜淫羊藿株高、茎径、总叶面积等形态指标随光照强度减弱明显减小,各生境间差异显著。随光照强度降低,朝鲜淫羊藿的净光合速率、水分利用效率、气孔限制值、叶绿素a/b降低,而胞间CO2浓度、光能利用效率、叶绿素b和总叶绿素含量增加。各器官生物量积累随光照强度减弱而降低,各生境间差异极显著,其中,林缘地上生物量是林窗的1.6倍,林下的3.1倍。生物量分配方面,叶生物量比、叶面积比率、比叶面积随光照强度减弱而增加,根状茎生物量比和根冠比降低,林缘、林窗与林下差异极显著;林下、林缘、林窗朝鲜淫羊藿地上部分生物量比分别为0.733、0.659、0.664,林下朝鲜淫羊藿与林缘、林窗存在不同的光利用策略和生存策略。朝鲜淫羊藿作为极易遭受利用和生境破坏威胁的物种,宜在适度荫闭的林缘和疏林下开展野生抚育或仿生态栽培。     

落叶阔叶树种蒙古栎(Quercus mongolica)对林缘不同光环境光能和水分的利用

由于砍伐、林火等形成的林缘是典型的生态过渡区,并以高生物多样性和快速变化的光环境为最显著特征。研究植物在林缘附近不同光环境下对光能和水分的利用特征有利于在个体层次揭示林木更新、森林群落动态的生理生态学基础,具有重要意义。蒙古栎是长白山地区落叶阔叶林及阔叶红松林中的常见阳性树种。通过对长白山白桦林林缘及附近蒙古栎的野外观测研究,结果表明:①林冠对林缘光照等的影响随距离林缘远近的不同而不同。林缘及附近区域的光环境存在巨大差异,温度和水分条件等也有显著变化。②蒙古栎光合的日进程为单峰型,净光合速率的高峰值达20μmolCO2·m-2·s-1,未见明显午休;林外蒙古栎的净光合速率及日光合总量均大于(或远大于)林缘和林内的净光合速率及日光合总量,表明蒙古栎在林外强光下生长最快;此外,对低光的高效利用显示蒙古栎可在林内低光环境正常生长。③蒙古栎在不同光环境下蒸腾速率的日进程为单峰型,林外最高可达近8mmolH2O·m-2·s-1。虽然蒙古栎在林外的蒸腾速率、日蒸腾量及水分利用率均较高,但与林内弱光环境相比,水分利用率增加的趋势略有降低,这是蒙古栎对林外强光环境的一种适应。④蒙古栎叶片的气孔导度随光照的增加而增大,这有利于植物在强光下增加净光合速率和蒸腾速率,有利于植物在强光下快速生长。另外,蒙古栎的叶片胞间CO2浓度从早至晚呈增加趋势;随日PAR总量的增加,蒙古栎的叶片胞间CO2浓度呈降低趋势。弱光环境下胞间CO2浓度的增加,有利于植物固定CO2、增加对光能和水分的利用效率。     

大田威廉斯香蕉叶片光合特性研究

用Li-6400型便携式光合作用测定系统研究大田威廉斯香蕉叶片光合日变化、光响应曲线和CO₂响应曲线,运用非直角双曲线模型并结合SPSS软件的非线性回归估算其光合作用参数。结果表明,香蕉叶片光合日进程呈单峰曲线,没有明显的午休现象,最大净光合速率出现在10:20左右;光饱和点与光补偿点分别为778.19和61.09μmol/m²·s,表观量子效率为0.0414;CO₂饱和点与补偿点分别为608.97和72.13μmol/mol,羧化效率为0.094。此外,对影响香蕉光合速率的主要环境因子分析表明,在土壤供水充分的条件下,限制光合速率的因子是光合有效辐射而非气孔导度。     

Photosynthetic Responses to Light Intensity in Intact Leaves of Some Coastal Desert and Tropical Rain Forest Plant Species in Atmospheres with Different CO2 Concentrations

The photosynthetic responses to light (A/light response) at different CO2 concentration levels were studied in five coastal desert plant species (two C4 species and three C3 species) and five tropical rain forest plant species (all C3' s) using LI-6400 Portable Photosynthesis System. The measurements were carried out in the Coastal Desert and Tropical Rain Forest mesocosms of Biosphere 2 located in Oracle, Arizona, USA. All the species measured had been growing in Biosphere 2 under very high CO2 concentrations (1500～4000 μmol · mol-1) for about four and half years. The authors measured A/light response curves in intact leaves of different species under a series of CO2 concentrations, 350 to 1500 μmol ~ mol-1. Except for the C4 grass, Panicurn maximum, the initial slopes and convexity (0) of A/light curves of all the species increased with the elevation of CO2 concentration. For most C3 species the light compensation points (LCP) and light saturation points (LSP) had increased when CO2 concentrations were elevated, especialy the LSPs. But for the C4 species, changes in LCPs and LSPs were small. In all the C3 species and the C4 shrub, Atriplesc canescens, the apparent maximum quantum yield of CO2 fixation (Φm, app) and maximum assimilation rate (Amax) increased under elevated CO2. But both Φmapp and Amax in Panicum maximum (C4) decreased. The Amax in Biosphere 2 increased by 127 % when CO2 concentration was doubled (from 375 to 750 μmol · mol-1), and C4 species by 39%. Such great enhancement could possibly be due to the fact that the plants had developed under very high CO2 concentration and large growth rooms in Biosphere 2.     

森林光环境对4种乔木幼树光合和光谱反射特性的影响

在林窗、林缘、林下3种自然光环境下,对吉林蛟河阔叶红松林常见树种拧筋槭、白牛槭、色木槭和红松的光合和光谱特性进行对比研究,以期从生理生态角度探讨它们对自然光环境的适应能力和响应机制。结果表明：4种乔木幼树叶片的光饱和点（LSP）和光补偿点（LCP）随着生长环境光强的下降而减小,林下各树种幼树LSP和LCP显著低于林窗内幼树（P<0.05）;除白牛槭外林下其他树种最大净光合效率（P_nmax）均显著小于林窗内幼树（P<0.05）;不同树种幼树表观量子效率（AQY）和暗呼吸速率（R_d）随光环境的变化并没有出现明显的变化规律,各环境间差异较小。除白牛槭外,其他树种幼树叶绿素归一化指数（Chl NDI）随环境光强的减少而增大,林下树种的光化学反射指数（PRI）普遍高于光条件更好环境下树种,说明林下幼树叶片叶绿素含量和光合速率大于其他光环境;各树种植物叶片水分指数（WI）在不同光环境之间存在显著差异,环境光强越大植物叶片WI越小,植物叶片水分浓度越小。林缘下3种槭属幼树结构不敏感植被光谱指数（SIPI）显著小于其他光环境（P<0.05）,说明林缘下幼树受到相对较小的环境胁迫。林窗内,红松具有最高的LCP、LSP、P_nmax、R_d和PRI,说明红松具有较高的光合潜力,更加适应高光生长环境,3种槭属中,白牛槭拥有最高的Chl NDI和PRI值,表现出较好的适应性,说明红松和白牛槭能在林窗环境内较好更新并逐步占据林冠层。     

Ecophysiological responses of Fagus sylvatica seedlings to changing light conditions. II. The interaction of light environment and soil fertility on seedling physiology

The survival and growth of natural beech regeneration after canopy removal is variable and little is known about ecophysiological mechanisms of these responses. Biomass, nonstructural carbohydrate levels and nitrogen concentrations were measured in an Italian population of European beech seedlings. Seedlings were container-grown in two types of soil, organic and mineral, collected at the study site. The seedlings were grown under three light treatments: under full beech canopy (understory), exposed to full sun only during midday (gap) and under full sun (clearing). Leaf gas exchange and chlorophyll a fluorescence parameters were measured and then foliar analyses were conducted for chlorophyll, phenolic and tannin levels. Biomass and allocation were significantly affected by light and soil treatments. The clearing seedlings and those in organic soil were larger than seedlings in the other light treatments or soil type. Total nonstructural carbohydrate concentrations were lower in the understory seedlings and significant differences between soil types were present in the gap and clearing seedlings. Nitrogen concentrations were higher in the understory seedlings and those growing in the organic soil compared to the other treatments. Gas exchange rates were highest in clearing and the organic soil seedlings. Gap seedlings exhibited photosynthetic acclimation that allowed them to utilize high light of midday and any sunflecks during the morning and afternoon. Relative fluorescence was significantly influenced by both light treatment and soil type, with the highest values observed in the gap seedlings. Light response curves showed decreasing apparent maximum quantum efficiency from the understory to clearing, while maximum photosynthetic rate was highest in the gap seedlings. Chlorophyll concentration was highest in understory seedlings and those growing in organic soil and higher in seedlings growing in organic than in mineral soil. Both foliar tannin and phenolic levels were highest in clearing seedlings, and only tannin concentrations were affected by soil type. Understory seedlings had the highest mortality and insect herbivory; the latter was found to be inversely related to tannin concentration. Overall, growth and photosynthesis in beech seedlings responded positively to high light associated with small canopy gaps. Organic soil increased seedling size, particularly in the gap and clearing environments. We conclude that forest gaps are favorable for photosynthesis and growth of European beech seedlings.     

Flowering phenology and reproductive success of native shrub Berberis darwinii Hook. along different light environments

Studies evaluating flowering phenology and reproductive success are necessary when we want to direct a domestication project in a species with a potential productive value. We studied flowering phenology and reproductive success of Berberis darwinii growing under different light conditions in its native distribution area in the Andean Patagonian forests of Argentina. We test the hypothesis that plants grown under conditions of high-light availability exhibit advanced phenology and higher reproductive success than those grown under conditions of lower light availability. Phenology and reproductive success were determined in three contrasting light conditions at two forest sites, which were, canopy, gap and forest edge. Plants did not bloom under the forest canopy. Flowering and fruiting period lengths were similar in both sites and light conditions of gap and forest edge during spring and summer. Although gap plants had more racemes per shoot, racemes of edge plants had more flowers, fruits and a higher proportion of flowers producing ripe fruit. We show that B. darwinii reproduction studied in the Andean Patagonian forests is conditioned by the canopy openness. Regarding reproductive success, edge plants invest less resources in flower production than gap plants to have similar fruit production.     

热带季节雨林林窗辐射特征研究

利用不同季节热带季节雨林林窗、林内及旷地不同波长太阳辐射的实测资料,探讨了热带季节雨林林窗不同波长辐射特征。结果表明,热带季节雨林林窗中央和北侧林冠下的不同波长太阳辐射存在“突跃现象”,中午前后各辐射量值迅速达到最大后又急速下降;林窗内不同波长太阳辐射日总量值均大于林内,却小于旷地;林窗中央和北侧林冠下比较可见,在干热季、雨季和雨季后期,林窗中央的各辐射要素总量值高于北侧林冠下,但雾凉季时受浓雾和太阳高度以及方位的影响,各辐射要素总量值较北侧林冠下低;林窗中央的总辐射日总量在雨季太阳高度角最大时最高,雨季后期和干热季其次,雾凉季时最小;林窗中央和北侧林冠下的红外辐射及可见光在总辐射中所占份额随季节的变化而不同,充分显示了林窗辐射环境的异质性;与旷地和林内相比,林窗内各测点的红外辐射在总辐射中所占份额介于旷地和林内之间．高于旷地却低于林内;而可见光占总辐射的比值情况正好相反．另外,林窗可见光分配率的季节变化都大于红外辐射;热带季节雨林林窗育增加红外辐射、减少可见光的特征．     

Diversity of woody species in forest,treefall gaps,and edge in Kibale National Park,Uganda

If specialization influences species presence, then high tropical tree and shrub diversity should correspond with high environmental heterogeneity. Such heterogeneity may be found among different successional communities (i.e., canopy types). We explore species associations in three forest-dominated canopy types, forest, gap, and edge, in Kibale National Park, Uganda and determine environmental, soil and light, differences among canopy types. To determine the strength of differences among forested canopy types, they are also compared to grasslands. Tree and shrub density and species richness using rarefaction analysis were determined based on data from 24 small plots (5 × 5 m) in all four canopy types and 16 large plots (10 × 50 m) in forest and grassland canopy types. Environmental variables were determined along 10 (20 m) transects in the four canopy types. Using analysis of variance and principal components analysis, we demonstrate that forest and gap environments had similar soils, but forest had lower light levels than gap. We also found that grassland and edge were more similar to one another than to forest and gap, but differed in a number of important biotic and abiotic factors controlling soil water availability (e.g., edge had higher root length density of small roots < 2 mm diameter in the top 20 cm than grassland). Using principal components analysis to assess similarities in community composition, we demonstrate that gap and forest had indistinguishable communities and that edge was similar to but distinct from both communities. Complete species turnover only occurred between grassland and the three forested canopy types. Even though overall community composition was similar in the three forested canopy types, in analyses of individual species using randomization tests, many common species were most frequently found in only one canopy type; these patterns held across size classes. These results suggest that despite differences among environments, community composition was similar among forested canopy types, which are likely intergrading into one another. Interestingly, individual species are more frequently found in a single canopy type, indicating species specialization.     

落叶阔叶林内的光合作用和气孔传导率特征(英文)

本文根据Wang和BMdocchi(1989)最近提出的冠层辐射模型,进一步给出了一个模拟冠层光合作用速率和气孔传导率的模式.模式将冠层中每一层的叶面积分为向光叶、半影叶、和全遮荫叶三种,并分别计算其光合作用速率和气孔传导率。计算得到的光合速率廓线表明,在落叶阔叶林内,冠层下部的叶片常处于光照不足状态;半影效应使得透过林冠达于底部的辐射量增大,这对于林下植物的光合作用是有利的。 模式计算值与实测值之间的微弱差别应归因于纯辐射模型无法考虑湍流输送机制造成的CO_2传输和冠层底部耐荫性叶对于低光照的适应能力。     

Edge effects of forest gap in Pinus massoniana plantations on the ecological stoichiometry of Cinnamomum longepaniculatum

Aims Pinus massoniana is one of the major plantation tree species in the low hilly lands along the upper reaches of the Yangtze River Valley in China’s “Grain for Green” project. The objective of this study was to explore the edge effects of forest gap on the ecological stoichiometry of dominant tree species in a P. massoniana plantation forest.Methods We collected Cinnamomum longepaniculatum leaves in a 39-year-old P. massoniana plantation forest with seven forest gap sizes (G1: 100 m²; G2: 225 m²; G3: 400 m²; G4: 625 m²; G5: 900 m²; G6: 1 225 m²; G7: 1 600 m², and the control: closed canopy) located in Gao County, south Sichuan Province during different seasons. The contents of C, N and P in leaves were measured, and the effects of edges, seasons and their interaction on leaf C, N and P contents and C:N:P stoichiometry were evaluated.Important findings The leaf C content, C:N and C:P of C. longepaniculatum at the edge of forest gaps in different seasons were all significantly higher than those of understory plants in P. massoniana plantation. With increasing size of forest gaps, leaf C content and C:N ratio, C:P and N:P of C. longepaniculatum increased initially and then decreased with the maximum at medium size (400-900 m²). From spring to winter, leaf N and P contents of C. longepaniculatum increased after an obvious decrease; and the C:N and C:P increased first but then decreased. However, the inflection point all appeared in the summer. The nutrient utilization of C. longepaniculatum at the edge of forest gaps was more efficient in summer and autumn than in spring and winter, indicating significant edge effects. The results of principal component analysis (PCA) suggested that gap size, relative light intensity and monthly average air temperature were the main environmental factors affecting the stoichiometry of C. longepaniculatum at the different edge of forest gaps in the P. massoniana plantation. These results indicated that forest gap with size 625 m² had the highest organic matter storage and nutrient utilization efficiency in the edge areas in all seasons, and therefore had the most significant edge effect on leaf element stoichiometry.