不同生境中辽东栎的构型差异

辽东栎具有很强的萌生能力,在东灵山区,存在于多种林分中,对生活在落叶阔叶混交林和次生落叶阔叶灌丛中辽东栎植株的构型进行了比较统计分析,结果表明不同生境中的辽东栎构型具有较大差异。具体表现在：（１）混交林中的辽东栎个体多生活在林隙中,同灌丛中的个体相比,树冠窄小,枝倾角较大,第一枝级枝条（上层）较长,但分枝率较小,叶面积指数较低;（２）枝,叶的方位角,叶倾角（上层）在不同生境中发生显著变化。因此,叶     

不同生境栓皮栎天然更新幼苗植冠构型分析

栓皮栎存在于秦岭南坡的多种林分中,生活在不同生境中的个体往往形成不同的树冠形态和构型特征。为了说明不同生境条件下栓皮栎幼苗的植冠构型变化,采用典型抽样法,对秦岭南坡3种生境中(林冠下、林隙、林缘)的栓皮栎天然更新幼苗的侧枝、叶片特征及其空间分布进行了调查分析,结果表明:3种不同生境中栓皮栎幼苗植冠形态发生了明显的可塑性变化,(1)林冠下的幼苗明显为开阔型树冠,林隙和林缘处的幼苗树冠相对紧密;(2)幼苗的1级侧枝密度与分枝角度在3种生境下均差异显著(P0.05);从Ⅰ到Ⅳ层,林冠下幼苗的分枝角度在冠层内变化幅度不到5°,而林缘处幼苗的分枝角度变化高达40°;发生5个以上1级侧枝的概率以林冠下最大,为0.6;(3)从林缘、林隙到林冠下,幼苗的叶长、叶宽、单叶面积、叶面积指数逐渐降低,数量叶密度和比叶面积则逐渐增大,与其它两种生境相比,林冠下幼苗的叶片逐渐向树冠上层集中,且以更高序的侧枝为主要着生枝条;(4)林隙中栓皮栎幼苗的树高、地径明显优于林缘和林冠下,缩短了苗木进入主林层的时间,林隙对栓皮栎种群更新有利。在今后栓皮栎林的经营中,可以通过适当间伐来增加林隙数量,为森林更新和结构的优化的提供有利条件。     

北京东灵山区两种生境条件下辽东栎幼苗补充与建立的比较

 北京东灵山区的人工油松（Pinus tabulaeformis）林中常常混生有萌生的辽东栎（Quercus wutaishanica）种群。局部地带辽东栎与油松形成混交林,在山脊及山坡上部一些特殊生境辽东栎甚至取代油松林成为优势种。为了探讨北京东灵山区辽东栎林的天然更新机制及辽东栎幼苗在人工油松林中的天然更新,在油松人工林的林下和林缘两种生境条件下将辽东栎种子播种于2 cm深的土中,对辽东栎幼苗的补充和建立进行了对照试验。结果显示,在辽东栎结实丰年,两种生境条件下播种后辽东栎种子丢失差异并不显著,而辽东栎幼苗补充和建立方面的差异极显著。由于森林动物特别是啮齿类动物的活动对辽东栎幼苗建立的影响具有二重性：消耗种子与促进萌发,本试验特别关注辽东栎幼苗子叶丢失现象及其丢失后果。由于辽东栎种子萌根较早,在幼苗出土前其粗大的主根长达10～20 cm,并已初步形成根系,表明已有相当比例的营养物质从子叶转移到根部。因此当幼苗出土后如果仅仅只是子叶的丢失对辽东栎幼苗的成活和生长均无明显的影响。通过研究发现辽东栎幼苗期子叶丢失有3种形式：1）仅丢失子叶,幼苗其它部位未受伤害,多发生在林缘生境中,占发芽坚果的29.69%;2）整个幼苗连根被拖出地面,多发生在林下生境,占62.43%;3）在子叶与根颈的连接处主干被咬断,林缘为50.88%,显著高于林下的8.41%。但只有后两种形式才导致幼苗死亡。导致这些现象的原因是由于林缘土壤腐殖质含量低,比较干燥,土质较坚实,以及幼苗出土前坚果主根生长得较长等缘故,当幼苗遭受动物捕食时不会轻易地被拖出地面,拖走的往往仅仅是子叶。至生长季节结束,林缘样方辽东栎幼苗的成活率接近20%,茎干平均高度7.94 cm,芽数11.24·株-1,叶片平均干重为81.14 mg·株-1,且几乎全部由丢失子叶的幼苗所构成;而林下样方辽东栎幼苗的成活率不足2%,茎干平均高度4.74 cm,芽数7.52·株-1,叶片平均干重仅为42.27 mg·株-1,以未丢失子叶的幼苗为主。试验结果表明,林缘及类似林缘的环境条件更有利于辽东栎的实生更新。     

不同郁闭度对野外回归的梓叶槭幼树形态和生理特征的影响

濒危植物野外回归是扩大极小种群野生植物种群的有效途径。适宜的回归生境是物种生长的必要条件, 研究植物的生理生态特征对不同野外回归生境的适应性, 是科学评价濒危物种种群回归生境适宜性的关键指标。本文以野外回归的极小种群野生植物梓叶槭(Acer catalpifolium)为研究对象, 探讨了无遮荫、林缘、林隙以及林下(郁闭度由小到大) 4种不同光照条件对梓叶槭幼树的形态特征、光合特征、类黄酮指数及叶绿素含量等的影响。结果表明: (1)随着郁闭度的增大, 梓叶槭幼树的基径、冠幅以及新生枝条数量产生差异, 均呈现先增大后减小的趋势; (2)在林缘生境中, 梓叶槭幼树的单叶面积及单叶质量均最大, 比叶面积随着郁闭度的增大而增大; (3)随着郁闭度的增大, 梓叶槭叶片胞间CO₂浓度、蒸腾速率及气孔导度均呈现先减小后增大的趋势, 叶绿素含量呈现上升趋势, 类黄酮指数则呈现先增大后减小的趋势。综上可知, 林缘适宜的光照条件更适合梓叶槭野外回归。这一结果可为梓叶槭以及其他极小种群野生植物的回归生境适宜性的探索研究提供借鉴。     

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。     

天然次生林三种不同生境刺五加丁香苷和总黄酮含量的研究

采用高效液相和分光光度的方法对天然次生林林内、林隙和林缘三种不同生境下刺五加(Acanthopanax senticosus)主要次生代谢产物丁香苷和总黄酮的含量差异进行了研究。结果表明:不同生境条件下,刺五加不同部位丁香苷的含量不同。生境的变化对枝中丁香苷的含量影响最大,林内生境枝中丁香苷的含量最低,林隙生境较高,林缘生境最高。而茎基部丁香苷的含量规律为林内生境最高,林隙生境次之,林缘生境最低。三种不同生境中根和根茎丁香苷含量的变化没有明显的规律性。刺五加全株均含有黄酮类物质,其中叶和花中黄酮的含量较高。其总黄酮含量受环境的影响较大,在林内生境,刺五加叶、花和果中总黄酮的含量最低,林隙生境有所提高,而林缘生境中含量最高。叶片总黄酮含量与叶面积指数呈负相关,叶面积指数越大,叶片中总黄酮的含量越低。对于刺五加的枝、茎干、根和根茎而言, 1~3年枝总黄酮在各个生境之间没有显著的差异;而茎干中总黄酮的含量表现为林内生境显著的高于林隙生境和林缘生境,后两者没有明显的差异;与茎干不同,林内生境根和根茎中总黄酮的含量最低,林隙和林缘的较高。     

东灵山辽东栎林优势林木种群直径结构的研究

从山体下部到上部调查了北京东灵山辽东栎林一个长364 m的样带,对优势林木种群的直径结构,按山体的上部、中部、下部三个不同部位进行统计。选定乔木层优势种群辽东栎、大叶白蜡、五角枫、棘皮桦和灌木层优势种群二色胡枝子、六道木、照山白、柔毛绣线菊为研究对象,结合生物学特性分析了8种乔灌木种群的直径结构,及其沿环境梯度的动态趋势。在乔木层,棘皮桦在山体中部和下部的亚种群幼苗幼树株数少,个体生长不良,密度极低种群呈衰退趋势。其余3个物种种群的幼苗幼树数量多,种群密度较高。辽东栎种群从山体下部到上部的直径结构合理呈稳定状态。大叶白蜡和五角枫种群随海拔升高在数量、密度等方面呈现相互替代的现象。在灌木层,除过照山白种群,二色胡枝子、六道木和柔毛绣线菊3个种群的幼苗株数丰富,直径结构合理。从整体上看,如果对辽东栎林群落不加人为的干扰和破坏,辽东栎林群落将进一步向成熟林方向发展。     

黄土丘陵区主要林分生物量及营养元素生物循环特征

以黄土丘陵区子午岭为研究区域 ,用标准木法和收获法对暖温带森林优势群落辽东栎林、油松林及刺槐人工林的生物量、营养元素生物循环量及循环特征进行了研究。结果表明 :黄土丘陵区子午岭油松林、辽东栎林和刺槐人工林 3林分总生物量为 :86 .2 4 7、12 9.0 0 5 t/ hm2和 14 4 .795 t/ hm2 ,乔木层生物量分别为 :85 .2 2 3、12 6 .989t/ hm2和 14 2 .4 88t/ hm2 ,随群落针阔树种转化替代 ,群落总生物量呈现明显的增加趋势。年均生长量为 3.2 75～ 5 .6 99t/ hm2。生物量和年生长量排序为刺槐人工林 >辽东栎林 >油松林。 3林分林下植被层生物量、凋落物贮量表现为刺槐林 >辽东栎林 >油松林 ,林下植被层生物量的差异主要是由林分郁闭度和林下凋落物的不同引起的 ;刺槐林和辽东栎林林下植被层发达的根系和较高的凋落物量有利于提高土壤肥力、保持水土。同化器官的各种元素含量高于其它器官 ,茎中营养元素的含量最低。乔木层营养元素积累量分别为 :0 .74 5、1.378t/ hm2和 1.80 5 t/ hm2 。不同林分不同营养元素的积累量差别较大。因采伐而引起的 3林分林地养分流失量分别达 6 5 .4 5 %、5 3.76 %和 2 5 .1%。 3林分林下植被层和凋落物层的营养元素积累量排序为 :刺槐林 >辽东栎林 >油松林。凋落物营养元素贮     

林冠环境对润楠幼苗构型和生物量分配的影响

植物幼苗早期适应对策对种群的更新具有决定性的作用。润楠(Machilus nanmu)是国家Ⅱ级保护植物,是重庆缙云山常绿阔叶林优势乔木树种之一。研究润楠幼苗的适应对策对于维持种群更新和保护常绿阔叶林生物多样性具有重要意义。本研究采集了重庆缙云山常绿阔叶林中不同林冠环境(林窗/林下)下不同年龄阶段(阶段1: 1～3年;阶段2: 4～6年;阶段3: 7～9年)的润楠幼苗,从构型和生物量分配角度研究其早期适应对策的时间动态及其对异质生境的响应。结果表明: 林窗中润楠幼苗的茎构型各指标(除枝倾角)和叶倾角在阶段2和阶段3显著大于林下,根构型各指标(除根直径)和叶面积在阶段1和阶段2显著大于林下;而林窗中润楠幼苗的比叶面积在3个阶段均显著小于林下。不同林冠环境和年龄阶段的生物量分配均以叶为主,但林窗中润楠幼苗从阶段2开始增加了茎的生物量分配,减少了根的生物量分配,林下润楠幼苗根的生物量分配则无显著变化。润楠幼苗各器官的协调性随生境条件不同产生适应性进化,即林窗中润楠幼苗的根与叶之间显著相关,且此相关关系随年龄增大由正到负;林下润楠幼苗的根和茎呈显著正相关,根和叶之间无显著相关。不同林冠环境下润楠幼苗枝干重与枝长的标准化主轴回归(SMA)方程斜率仅在阶段3差异显著,而叶、根生物量与构型间的SMA方程斜率的差异均不显著;大部分生物量与构型间的SMA方程截距在阶段2差异显著。     

辽东栎林林隙特征及其对群落更新的影响

通过对黄土高原马栏林区辽东栎(Ouercus liaotungensis)林林隙的定量研究,发现其林隙大小以20～40和40～60 m2的中小林隙居多,林隙的年龄结构以中期和后期数量居多,林隙形成方式以枯立和干基折断占总数的70.31%,林隙形成木多为1～3个,说明该地区辽东栎林隙多为自然干扰形成,林隙边缘木中辽东栎的株数占绝大多数.在林隙中,不同生活史阶段的辽东栎多度对林隙环境因子的响应不同.幼苗多度与林隙面积和边缘木高度间存在极显著相关关系(R2=0.429,P＜0.01),幼树多度与散射光的强度有极显著相关关系(R2=0.286,P＜0.01),而成树多度与林隙环境因子的关系并不明显,但与林隙内幼树的多度有显著的相关关系(R2=0.175,P＜0.05).     

不同生境下濒危植物膝柄木幼树的生态适应性

膝柄木是我国极度濒危植物,也是广西滨海过渡带天然植被的重要组成树种.为了解光因子对膝柄木天然更新的限制影响,该文对林缘、林窗、林下三种不同光照生境下膝柄木幼树的生理和生长指标的年际变化特征进行了研究.结果表明:(1)光合有效辐射不足影响了膝柄木幼树的生长.林下幼树的地径、株高和叶面积增长量显著降低,而生长于光照充足林缘...     

秦岭南坡林窗大小对栓皮栎实生苗构型的影响

以秦岭南坡栓皮栎天然次生林间伐后形成的不同大小林窗实生苗为材料,采用典型抽样法调查林窗大小对栓皮栎实生苗枝系构型、叶片特征及其垂直分布的影响.结果表明: 林窗大小显著影响了栓皮栎实生苗的地径、树冠面积,林窗大小与地径呈显著正相关,与树冠面积呈显著负相关;林窗大小对实生苗苗高、冠长、树冠率均无显著影响;实生苗总体分枝率、逐步分枝率、枝径比均表现为大林窗>中林窗>小林窗>林下,不同林窗大小实生苗一级枝在垂直方向上主要分布于干的中、上部,直径较大的一级枝主要分布在中下部,一级枝倾角均随苗高的增高呈先增加后降低的趋势;随着林窗面积的增大,实生苗的叶长、叶宽和单叶面积逐渐〖JP2〗下降,平均单株叶数、相对高度上的总叶数增加,叶长宽比在不同大小林窗下均保持稳定,相对叶数均在干的中上部分布较多,叶面积指数与相对叶总数的变化一致;中林窗实生苗地径与大林窗无显著差异,但苗高较高,利于栓皮栎种群更新及培育优质干材.在栓皮栎林经营管理过程中,需确定合适的间伐强度增加中林窗数量,促进栓皮栎实生苗更新以及培育优质干材.     

Functional correlates of leaf demographic response to gap release in saplings of a shade-tolerant tree,<Emphasis Type="Italic"> Elateriospermum tapos</Emphasis>

For a shade-tolerant SE Asian tropical tree, Elateriospermum tapos (Euphorbiaceae), we studied field-established saplings in gaps and the shaded understory to test the hypothesis that differences in leaf demography and leaf life span under contrasting light regimes should be functionally correlated with architecture, self-shading and nitrogen distribution within the sapling crown. Rates of leaf production and net leaf gain were greater for saplings in gaps than those in the understory. Median leaf life span was approximately 26 months in the gap saplings, while it was estimated to be greater than 38 months in the understory saplings. Consequently, gap saplings had a greater standing leaf number and experienced greater degrees of self-shading than understory saplings. Light availability at individual leaves, estimated by a combination of canopy photos and a three-dimensional architecture model, were negatively correlated with leaf age in gap saplings but not so in understory saplings. Leaf nitrogen content per unit area (N_area) was influenced more by light availability than by leaf age in the gap saplings. In contrast, in understory saplings, N_area was neither correlated with light availability nor with leaf age, and did not decrease significantly before 38 months in leaf age. We conclude that saplings of this shade-tolerant species apparently prolong their leaf life span in the shaded understory through slower rates of leaf production, lower standing number of leaves and lower degrees of self shading than in gap, and that the rate of decline of N_area with leaf age depends on architecture and self-shading regimes that respond to changes in light regimes.     

Response of clonal plasticity of Fargesia nitida to different canopy conditions of subalpine coniferous forest

The aim of this study is to explore the effects of canopy conditions on clump and culm numbers, and the morphological plasticity and biomass distribution patterns of the dwarf bamboo species Fargesia nitida. Specifically, we investigated the effects of canopy conditions on the growth and morphological characteristics of F. nitida, and the adaptive responses of F. nitida to different canopy conditions and its ecological senses. The results indicate that forest canopy had a significant effect on the genet density and culm number per clump, while it did not affect the ramet density. Clumps tended to be few and large in gaps and forest edge plots, and small under forest understory plots. The ramets showed an even distribution under the closed canopy, and cluster distribution under gaps and forest edge plots. The forest canopy had a significant effect on both the ramets’ biomass and biomass allocation. Favourable light conditions promoted ramet growth and biomass accumulation. Greater amounts of biomass in gaps and forest edge plots were shown by the higher number of culms per clump and the diameter of these culms. Under closed canopy, the bamboos increased their branching angle, leaf biomass allocation, specific leaf area and leaf area ratio to exploit more favourable light conditions in these locations. The spacer length, specific spacer length and spacer branching angles all showed significant differences between gaps and closed canopy conditions. The larger specific spacer length and spacer branching angle were beneficial for bamboo growth, scattering the ramets and exploiting more favourable light conditions. In summary, this study shows that to varying degrees, F. nitida exhibits both a wide ecological amplitude and high degree of morphological plasticity in response to differing forest canopy conditions. Moreover, the changes in plasticity enable the plants to optimize their light usage efficiency to promote growth and increase access to resources available in heterogeneous light environments. __________ Translated from Acta Ecologica Sinica, 2006, 26(12): 4019–4026 [译自: 生态学报]     

Comparison of the physiology, morphology, and leaf demography of tropical saplings with different crown shapes

Branch architecture, leaf photosynthetic traits, and leaf demography were investigated in saplings of two woody species, Homolanthus caloneurus and Macaranga rostulata, co-occurring in the understory of a tropical mountain forest. M. rostulata saplings have cylindrical crowns, whereas H. caloneurus saplings have flat crowns. Saplings of the two species were found not to differ in area-based photosynthetic traits and in average light conditions in the understory of the studied site, but they do differ in internode length, leaf emergence rate, leaf lifespan, and total leaf area. Displayed leaf area of H. caloneurus saplings, which have the more rapid leaf emergence, was smaller than that of M. rostulata saplings, which have a longer leaf lifespan and larger total leaf area, although M. rostulata saplings showed a higher degree of leaf overlap. Short leaf lifespan and consequent small total leaf area would be linked to leaf overlap avoidance in the densely packed flat H. caloneurus crown. In contrast, M. rostulata saplings maintained a large total leaf area by producing leaves with a long leaf lifespan. In these understory saplings with a different crown architecture, we observed two contrasting adaptation strategies to shade which are achieved by adjusting a suite of morphological and leaf demographic characters. Each understory species has a suite of morphological traits and leaf demography specific to its architecture, thus attaining leaf overlap avoidance or large total leaf area.     

Spatial structure and regeneration of Tetramerista glabra in peat swamp rain forest in Indonesian Borneo

We examined the spatial structure and regeneration of Tetramerista glabra, a dominant canopy tree in peat swamp rain forest in Borneo (West Kalimantan, Indonesia). T. glabra has strong spatial structure that changes dramatically during the life cycle; seedlings were highly aggregated, saplings were random and trees were evenly distributed. Germination and seedling relative growth were highest within canopy gaps, but seedling densities were highest at gap edges. Concentration of seedlings in gap edges, rather than localized seed dispersal, was responsible for seedling patchiness. The slope of the relationship between relative growth rate and seedling height decreased from gap, to gap edge to understory habitats, suggesting that competition within the seedling layer is more important in gaps than in the understory. The processes that break down seedling aggregation, leading to over-dispersion of trees, must be density dependent, but remain unknown.     

亚高山暗针叶林不同林冠环境下华西箭竹的克隆可塑性

以亚高山暗针叶林3种林冠环境中以及暗针叶林林缘的华西箭竹（Fargesia nitida）为对象,对其无性系数量特征、无性系根茎特征、分株生物量以及分株形态特征进行了对比研究。结果表明：（1）林冠环境的差异导致了不同种群的基株密度和每基株分株数的显著差异,但林冠环境差异不影响分株密度。林冠郁闭度愈大,每基株分株数愈少,分株分布愈均匀。（2）不同林冠环境间。分株生物量、分株构件生物量和分株构件的生物量分配百分率均有显著差异。开敞的林冠环境有利于华西箭竹的生长和生物量积累。（3）随着林冠郁闭度的增加,华西箭竹通过增大分枝角度、叶生物量分配百分率、比叶面积和叶面积率以提高光能利用效率,有效适应弱光环境。（4）隔离者长度、隔离者直径和分枝强度在林缘和林窗环境中要显著大于林内环境;同级隔离者分枝角度随林冠郁闭度的增加而最大,其值在林下显著大于林窗和林缘,而异级隔离者分枝角度的变化则正好相反。研究表明,华西箭竹种群在不同的林冠环境中发生了明显的可塑性变化,这些可塑性变化是种群对林冠郁闭度差异的适应性反应的结果,有利于增强种群对环境中有限光资源的利用。     

Growth, Allocation and Water Relations of Shade-grownQuercus rubraL. Saplings Exposed to a Late-season Canopy Gap

For understory saplings to exploit canopy gaps successfully,carbon gain must increase in the gap environment. We predictedthat total biomass of shade-grown red oak saplings would increaseafter exposure to a late-season canopy gap, and that increasedwater and nutrient demand within the canopy gap would drivechanges in the allocation of this carbon. Shade-grown red oaksaplings acclimated to gaps by increasing biomass during theseason of gap formation and increasing the potential for carbongain in the following summer. Within-season carbon gain didnot result from greater production of leaf area, so it mostlikely arose from higher photosynthetic rates of existing shade-developedfoliage, which may be linked to accumulation of leaf nitrogen.During the season of gap formation, shade-gap plants increasedallocation to storage of total non-structural carbohydrates(TNC), and to root growth. The increase in TNC storage suggeststhat shade-developed saplings exposed to gaps were also primedfor fast growth and carbon gain in the following summer. Theincrease in root growth suggests that higher nutrient and waterdemand drove allocation shifts to enhance the capacity for nutrientand water uptake in the gap. Plant hydraulic conductivity (K_a)of shade-grown plants was limited upon exposure to the gap,possibly because of embolism formation resulting from the abruptincrease in water demand. Greater water potential gradientscompensated for limitations to K_a, allowing saplings to maintainhigh transpiration rates, suggesting that actual water uptakeof shade-gap plants was unaffected by gap exposure. Acclimation; canopy gaps; carbon allocation; hydraulic conductivity; nitrogen allocation; non-structural carbohydrates;Quercus rubra L.; red oak; stomatal conductance; transpiration; water-relations