普洱季风常绿阔叶林次生演替中木本植物幼苗更新特征

以时空替代的方法,将针阔混交林、季风常绿阔叶林的次生林与成熟林等3个处于同一空间下的群落作为次生演替进程中的3个阶段,研究云南普洱地区次生演替过程中的木本植物幼苗更新特征,分析了次生演替过程中木本植物幼苗的物种组成、密度、高度级及与环境因子的相关性。结果表明:在8个共144 m2的幼苗样地中调查木本植物幼苗101种2014株,其中乔木幼苗是主要组成。随着次生演替的进行,木本植物幼苗、乔木与藤本幼苗密度逐渐增加,灌木幼苗密度无显著变化;藤本植物幼苗的物种丰富度随着次生演替进行而增加,乔木与灌木幼苗则无显著变化,成熟季风常绿阔叶林中木本植物幼苗Shannon-Wiener指数要显著小于针阔混交林与次生季风常绿阔叶林。次生与成熟季风常绿阔叶林木本植物幼苗多度随高度级增加而减少,针阔混交林则呈现偏峰曲线,幼苗密度均集中分布在高度20 cm以内,3个群落演替阶段木本植物幼苗物种丰富度随高度级增加呈现偏锋曲线。相似性系数反映出乔木和藤本幼苗的更新来源与群落的物种组成存在着紧密的联系。乔木幼苗密度分布与样地坡度之间存在着显著的负相关,灌木幼苗密度与土壤pH值之间存在着显著正相关。     

季风常绿阔叶林不同恢复阶段藤本植物的物种多样性比较

藤本植物是森林生态系统的重要组成部分,影响群落的恢复与演替。通过对云南普洱地区不同恢复阶段(恢复15a、恢复30a和原始林群落)季风常绿阔叶林群落的野外调查,分析了不同恢复阶段藤本植物的物种丰富度、密度、多度、径级分布、多样性指数及攀援方式,并探讨藤本植物与支持木的关系。结果表明:在0.81hm²的调查样地中,共发现DBH≥0.1cm的藤本植物1292株(分属34科51属64种)。原始林群落的藤本物种丰富度、密度(DBH＜1cm)、胸高断面积和平均胸高断面积都显著高于恢复阶段,原始林和恢复15a群落的密度(DBH≥1cm)、平均胸径和平均长度之间无显著差异,但都显著高于恢复30a。3种群落类型中藤本植物的物种组成和径级分布有显著差异,原始林中藤本植物物种更多,而且大径级(DBH≥10cm)的藤本植物仅出现在原始林及恢复30a的群落。单株藤本攀援的支持木在3种群落类型中均占多数,藤本植物与支持木的胸径存在显著的正相关(P＜0.001),原始林群落中DBH≥15cm的支持木更易被攀援,而恢复阶段则相反。茎缠绕藤本植物对原始林的负面影响要显著少于恢复15a及30a群落,而卷须类藤本植物也反映出原始林正处于一个动态变化的阶段,同时根攀缘和搭靠类藤本植物物种组成和多度变化可以反映出干扰后季风常绿阔叶林的恢复程度。森林砍伐是影响不同恢复阶段藤本植物的物种组成和分布的主要因素。     

云南普洱季风常绿阔叶林演替系列植物和土壤C、N、P化学计量特征

通过测定中国西南季风常绿阔叶林不同演替阶段(演替15a,演替30a及原始林)群落中植物叶片与土壤中C、N、P含量,探索了季风常绿阔叶林不同演替阶段群落C、N、P化学计量特征及其与物种丰富度及多度的相关性。结果表明:土壤及植物中全N、全P含量及土壤中C含量均为演替30a群落中最低,而植物中C含量在不同演替阶段群落间无显著性差异。在不同演替阶段共有种中,40%的物种N含量原始林中最高,40%的物种P含量演替15a群落中最高,而80%的物种C含量无显著性差异。土壤中C:N比在不同演替阶段间无显著变化,而N:P及C:P比则随演替呈减小趋势。植物中C:N及C:P比均为演替30a群落最高,而N:P比则随演替呈增加趋势。不同演替阶段共有种的C:N比中,40%的物种原始林中最低,40%的物种无差异,而C:P与N:P比中则均有60%物种无显著性差异,但70%物种在演替15a群落中N:P小于14,演替30a群落中50%物种N:P在14—16,原始林中则有80%物种N:P大于16。群落物种丰富度及个体多度均与C:N、N:P、C:P无显著的相关性,但植物中的N、P与土壤的N、P分别具有显著的线性正相关,说明土壤中N、P供应量影响植物体中的N、P含量。     

季风常绿阔叶林不同恢复阶段乔木优势种群生态位和种间联结

生态位和种间联结是群落动态研究的重要内容之一,物种间相互作用影响着群落的恢复和演替。本文在对云南普洱地区不同恢复阶段(恢复15年、恢复30年和原始林群落)季风常绿阔叶林群落的野外调查基础上,采用生态位宽度、生态位重叠、方差比率(VR)和基于2×2联列表的χ2检验、联结系数(AC)等方法,分析了不同恢复阶段各种群的变化趋势。结果表明:3种群落类型中物种的重要值与相对应的生态位宽度之间存在着显著的正相关,恢复15年群落有78.22%的种对之间的生态位重叠值在0.4～0.8,说明其群落优势物种存在较强的资源利用性竞争,而恢复30年和原始林群落结构则具有一定的稳定性,多数生态位宽度较大的物种之间的生态位重叠要大于生态位较小的物种,反映出优势物种具有较强的竞争能力;恢复15年和恢复30年群落物种间总体呈不显著正联结,原始林群落则呈不显著负联结;3种群落231种对中,绝大多数种对联结系数未达显著水平,种对间的独立性相对较强,群落中物种间正负联结对数占总种的比例随恢复进程而出现下降趋势。不同恢复阶段群落中联结系数与生态位重叠值之间存在显著正相关,生态位重叠值越大,其联结系数也越大。     

岷江冷杉林皆伐后次生群落结构和物种多样性的演替动态

为阐明岷江冷杉林皆伐后次生群落的演替过程,采用空间代替时间的方法,在川西米亚罗林区海拔3100—3600 m的阴坡选择岷江冷杉林皆伐后次生演替10、20、30、40和50a阶段的次生群落作为研究对象,对其群落结构和物种多样性的动态进行了研究。不同演替阶段的树木均呈显著聚集分布。按群落中优势种的重要值将该演替序列划分为3个类型:悬钩子-蔷薇灌丛、白桦阔叶林和桦木-岷江冷杉针阔混交林。随次生演替,乔木和灌木种的物种丰富度趋于增加,而草本种的物种丰富度趋于减少;乔木和灌木种的Shannon-Wiener多样性指数趋于增大,而草本的Shannon-Wiener多样性指数趋于减小;乔木、灌木和草本层的Pielou均匀度指数均趋于增大;乔木层的Simpson优势度指数趋于减小,灌木和草本层的Simpson优势度指数在演替0—40年阶段趋于增大,而在演替50a阶段趋于减小。在该演替序列中,乔木、灌木和草本层的物种组成均呈耐荫种替代非耐荫种的趋势。     

云南中南部季风常绿阔叶林恢复生态系统萌生特征

萌生是大范围干扰后物种维持的重要机制。通过对云南思茅地区皆伐后不同恢复阶段季风常绿阔叶林群落萌生状况的调查,探讨了不同恢复阶段群落物种萌生特征。结果表明:恢复15a群落共有萌生物种36种,而恢复30a群落有24种,老龄林有29种,萌生物种种类及多度所占比例随恢复时间的延长呈减少趋势。灌木科、属及种丰富度及其所占比例在恢复30a群落中最低,而乔木及总物种科、属及种丰富度、Shannon-Wiener指数及Simpson指数在3个不同恢复阶段群落之间均无显著性差异,但乔木及总物种科、属及种丰富度所占比例均为老龄林最低。恢复15a群落与30a群落间萌生相似性最高,而恢复15a群落与老龄林群落间萌生相似性最低。3个不同恢复阶段群落中物种萌生类型主要为根萌生,其次为干基萌生。不同萌生类型萌生物种丰富度及个体多度均为根萌生>干基萌生>干萌生>枝萌生。萌生物种生长特征中,除灌木平均高在恢复30a群落中最低外,乔木平均高及乔木和灌木平均胸径在3个恢复阶段群落中均无显著性差异。而在共有的萌生物种中,杯状栲(Castanopsis calathiformis)、短刺栲(Castanopsis echidnocarpa)和粗壮润楠(Machilus robusta)平均胸径和平均高均是恢复初期(15a)较高,红木荷(Schima wallichii)和山鸡椒(Litsea cubeba)则是在老龄林中较高。     

喀斯特森林不同演替阶段植物群落物种多样性、功能性状、化学计量及其关联

探讨森林植物群落物种多样性、功能性状与化学计量特征及其内在关联,有助于构建结构-性状-功能的研究脉络,深入理解生态系统的过程与功能,为群落结构优化配置和调控提供科学依据。以贵州喀斯特高原峡谷区森林草灌、灌木、灌乔和乔木4个演替阶段的植物群落为对象,通过群落学调查和植物功能性状、生态化学计量测度,研究其物种多样性、功能性状和化学计量特征及其互作关系。结果表明:(1)乔木阶段的Shannon-Wiener指数与Pielou均匀度指数均为最高,依次达8.62、2.41,表明伴随着群落演替,物种分布的均匀程度增加。(2)植物群落物种多样性指数之间仅Margalef丰富度指数与Simpson优势度指数未呈显著相关(-0.644),其余均为显著或极显著相关关系,表明物种多样性指数之间存在较强的促进或抑制作用。(3)叶片厚度与其余指标,以及群落物种多样性指数与功能性状、化学计量之间均未呈显著相关,比叶面积(SLA)仅与土壤N∶P呈显著正相关(0.742),表明群落物种多样性、功能性状和生态化学计量特征之间的相关性较弱。(4)SLA为灌木阶段的272.13 cm2/g为最大,δ13C值在演替后期略高,草灌、灌木阶段倾向于受N、P共同限制,说明随演替进展,植物的适应策略和资源利用对策等均发生了一定的调整,表明植物和环境之间存在较强的协变关系。(5)该区森林培育时,应构建完整的乔木、灌木和草本层片,提高生态系统对养分矿化、转化和循环等的自调控能力。     

祁连山北坡自然恢复林地灌木层物种多样性及种间关联动态

采用空间代替时间的原则,选择7个主要自然演替群落序列,用多项指标对灌木层物种多样性进行了测度,同时采用2 ×2列联表,通过方差比率法和x2检验对不同演替阶段群落灌木层物种总体关联性和主要优势种的种间联结性进行了分析.结果表明:灌木层Gleason指数、Simpson指数和Shannon-Wiener指数在针阔混交林阶段相对较高,而均匀度指数在银露梅灌丛群落最高,生态优势度指数则在青海云杉林阶段最高;灌木植物间的正负联结比除山杨白桦混交林＞1外,其他群落都＜1,反映了演替序列上群落灌木层各物种间的关系以竞争为主;随着群落的演替,灌木层绝大多数种对间的关系逐渐由关联不显著-显著或极显著关联-无关联或关联不显著的方向转变;总体关联性由恢复初期灌丛群落的负关联-阳生性阔叶纯林的负关联-阳生性阔叶混交林的正关联-针阔叶混交林的负关联-中生性针叶林的正关联变化.演替序列上灌木层物种多样性和种间关系的变化,可能与群落结构分层导致的生态位分离与重叠有关.     

山东蒙山植物多样性及其海拔梯度格局

2007年7月和2008年7月,采用典型取样法,沿海拔梯度对蒙山自然植被进行调查,发现区域地带性植被为麻栎(Quercus acutissima)林,主要植被类型为麻栎群落、赤松(Pinus densiflora)群落、油松(Pinus tabuliformis)群落、日本落叶松(Larix kaempferi)群落、黑松(Pinus thunbergii)群落和刺槐-麻栎(Robinia pseudoacacia-Q.acutissima)群落,麻栎群落略占优势,已具备继续向温带落叶阔叶林演替的条件基础.蒙山各层次植物物种丰富度呈现出草本层>灌木层>乔木层特征,Shannon-Wiener多样性指数和Simpson多样性指数整体规律为灌木层>草本层>乔木层.以蒙山森林群落不同层次的各种物种多样性指数和森林群落总体重要值为测度指标,均判断蒙山植被演替正处于亚顶极群落阶段.蒙山植物多样性沿海拔梯度呈现出近似中海拔高的单峰格局,这除受温度、湿度、人为干扰与面积外,蒙山植被亚顶极群落演替现状与所调查区域仅有800 m的海拔梯度也是重要影响因素.     

秦岭南坡松栎林群落演替过程中物种组成及多样性动态分析

为揭示秦岭南坡植物群落演替与物种多样性之间的复杂关系,采用空间代替时间的方法在秦岭南坡油松林、松栎混交林和锐齿栎林群落典型分布区域设置45个样地进行了群落学调查,统计分析了油松林→松栎混交林→锐齿栎林这一演替序列过程中草、灌、乔3层的物种组成和α物种多样性动态。结果表明:(1)秦岭南坡油松林、松栎混交林和锐齿栎林3种群落共有维管植物312种,隶属于73科183属,其中草本植物136种,灌木(含木质藤本)98种,乔木78种;油松林群落包含52科117属190种,松栎混交林群落含有60科95属129种,锐齿栎林群落则为50科109属178种。(2)沿油松林→松栎混交林→锐齿栎林群落演替序列,草本层物种均匀度和物种多样性显著降低,物种丰富度呈"V"形变化趋势;灌木层物种丰富度、均匀度以及物种多样性均无显著差异;乔木层物种多样性呈明显的单峰型变化,其中松栎混交林群落物种多样性指数最高。研究表明,秦岭南坡松栎林群落物种多样性随演替进展总体上呈现单峰型变化,与中期物种多样性假说一致;物种多样性可能仅仅是群落稳定的一个基础或前提条件。     

Species-area relationship at different succession stages of monsoon evergreen broad-leaved forest in south subtropical area of Yunnan Province

Based on the investigation data of monsoon evergreen broad-leaved forest at its different succession stages (primary, CP; 15 years of succession, CF; and 30 years of succession, CT) in Pu' er of Yunnan Province, this paper studied the species-area relationship of this forest at each succession stage. It was found that in the communities at each succession stage, the number of total species, trees, shrubs, and lianas had a significant correlation with sampling area, with the area explained over 94% of the total variation. The Z value of the total species (0.334) and trees (0.394) was the lowest at CT, whereas that of shrubs (0.437) and lianas (0.326) was the lowest at CF. No significant differences were observed in the intercepts of the species-area curve of total species, trees, shrubs, and lianas among different succession stages, but the coefficient of determination (R2) of the species-area curve of total species and lianas was the highest at CP. The richness of trees and shrubs at CF explained 99.9% of the variance of Z value, but the richness of total species, trees, shrubs, and lianas at CP and CT had no significant correlations with the Z value.     

Changes in plant species diversity along a chronosequence of vegetation restoration in the humid evergreen broad-leaved forest in the Rainy Zone of West China

Plant species diversity has been recognized as one of the vital attributes for assessing vegetation restoration. Changes in the diversity may be related to different stages of succession. In this study, 54 sites of humid, evergreen, broad-leaved forest were selected in the Rainy Zone of West China. A chronosequence of the sites was used to study the successive patterns of the diversity in the forest that had undergone natural regeneration for 5 to 350 years and to test the hypothesis that the diversity is maximized in mid-succession. Data were collected simultaneously at different stages of succession, and four α-diversity indices (species richness, Margalef index, Shannon-Wiener index, Pielou Evenness index) and two β-diversity indices (Whittaker index, Sørensen’s index) were calculated for each stratum in each plot. A total of 394 vascular plant species were recorded. From the β-diversity indices, the forest succession may be divided into the early-successional stage (before 50 years), mid-successional stage (from 50 to 300 years), and late-successional stage (after 300 years). In this community, the species diversity and richness were found to be the greatest at the mid-successional stage, followed by the late- and early-successional stages. The results of regression analysis indicated that the richness and Margalef index peaked around the 175th and 165th year, respectively. Shannon-Wiener index values also appeared to follow an approximately humped pattern of succession and were maximal around the 100th year. However, the species evenness did not show any significant relationship with successional age. Our results demonstrate (1) forest restoration is a long-term process and the formation of climax forest requires at least 300 years and (2) the forest has a strong capacity for restoration. Our results also suggest Lindera limprichitii and Machilus pingii as ideal tree species for afforestation because of their wide niche.     

Assemblages of wood-inhabiting fungi along the gradients of succession and naturalness in boreal pine-dominated forests in Fennoscandia

In boreal forests, the level of naturalness and the stage of succession explain most of the variation in forest structure within a particular forest type. Thus, these two factors should also have a major effect on species assemblages in forests, at least on species groups associated with wood. The present study is the first attempt to analyze empirically the simultaneous effects of forest succession and naturalness on wood-inhabiting fungi, a taxonomic group of special ecological importance. The study area was situated in eastern Finland, middle boreal zone. A total of 41 study plots were established in Pinus sylvestris forests representing three levels of forest naturalness: natural, seminatural and intensively managed forests. Five stages of succession were distinguished according to the age of the dominating tree layer (<10, 40, 70, 110, and >150 yr old), except in managed forests where only four stages were available. A total of 5328 records of 195 species of fungi were made. The first, open stage of succession was clearly the most species-rich period of succession in all levels of forest naturalness. In natural and seminatural forests, the first stage of succession was also very distinctive in its fungal composition, and thus of special value in protecting biodiversity in boreal forests. In the succession following the first stage, the level of naturalness had more effect on assemblages of fungi than did the stage of succession. Intensive forest management affects threatened species particularly. In conclusion, natural young stages of succession should also be included in the network of boreal forest reserves.     

青藏高原东缘海螺沟冰川退缩区植被原生演替的氮磷动态

在青藏高原东缘海螺沟冰川退缩区植被原生演替序列的典型地段依次设置7个采样点(冰川退缩0、10、30、40、50、80和127年),测定各演替阶段表层土壤与植被各层氮(N)、磷(P)含量及生态系统生物量,分析不同演替阶段N、P养分的积累与循环特征。结果表明:乔木层叶、枝、根的N、P含量随演替下降,而干的N、P含量在演替末期较高,凋落物与土壤O层N、P含量的变化趋势与乔木层叶和枝一致。生态系统的N、P贮量均随演替逐渐增加,演替初期生态系统N的积累主要依靠植被层,演替末期尤其是植被层形成顶极群落以后,土壤成为生态系统中最主要的N库;植被层的P贮量在冰川退缩后的80年样地超过了表层土壤。生态系统N、P养分的积累速率在演替中期较快,且表现为表层土壤＞乔木层＞林下植被层;演替中期阔叶林阶段N、P养分的循环系数高于演替末期的针叶林阶段,而利用效率则低于针叶林阶段。可见,针叶树种养分循环低但利用率高的机制有利于同其他物种竞争,从而最终形成顶极群落。     

Changes in Forest Structure and Species Composition during Secondary Forest Succession in the Bolivian Amazon1

Changes in forest structure and species diversity throughout secondary succession were studied using a chronosequence at two sites in the Bolivian Amazon. Secondary forests ranging in age from 2 to 40 years as well as mature forests were included, making a total of 14 stands. Fifty plants per forest layer (understory, subcanopy, and canopy) were sampled using the transect of variable area technique. Mean and maximum height, total stem density, basal area, and species number were calculated at the stand level. Species diversity was calculated for each stand and for each combination of forest layer and stand. A correspondence analysis was performed, and the relationship between relative abundance of the species and stand age was modeled using a set of hierarchical models. Canopy height and basal area increased with stand age, indicating that secondary forests rapidly attain a forest structure similar in many respects to mature forests. A total of 250 species were recorded of which ca 50 percent made up 87 percent of the sampled individuals. Species diversity increased with stand age and varied among the forest layers, with the lowest diversity in the canopy. The results of the correspondence analysis indicated that species composition varies with stand age, forest layer, and site. The species composition of mature forests recovered at different rates in the different forest layers, being the slowest in the canopy layer. Species showed different patterns of abundance in relation to stand age, supporting the current model of succession.     

川西米亚罗地区暗针叶林采伐迹地早期植被演替过程的研究

 A secondary succession of vegetation on clearcut sites was studied in Western Sichuan. The coverage and biomass of trees, shrubs and herbs at different stages of succession have been surveyed. The result showed that the coverage and biomass of trees and shrubs have changed greatly in the succession. After the forest was cut, raspberry’s (Rubus daeus) coverage was the greatest during the first 0–15 years, Red birch’s coverage was the greatest during 16–29 years, while the total coverage of other shrubs was greater than those of raspberry and red birch during 10–20 years.The following empirical formulas with good fitness have been used:Ctree=0.803+2.347t1/2 (r=0.88 p<0.01) Cshrub=l0.481 l0.392T+0.373T2 (r=0.87 p<0.01)Cherb=0.489+87.001/T (r=0.93 p<0.01) C: biomass, kilogram/ha T: time period, year According to the curves, the succession of vegetation can be divided into four stages: herb stage. 0—3 years; raspberry stage: 4—10 year; shrub and small broad-leaved forest stage: 11—20 years, and small broad–leaved forest stage: 21—29 years.     

大兴安岭森林火烧后不同演替阶段土壤细菌多样性动态

【目的】研究我国最大的林区之一——大兴安岭森林火烧后不同演替阶段土壤细菌多样性动态,为天然林保护工程对于生物多样性的影响增添新的认识。【方法】以空间替代时间的方法分析大兴安岭森林演替对于土壤细菌多样性动态的影响。大兴安岭森林火烧后典型的自然演替序列为火烧迹地(LG-BA)、灌丛(SHR)、白桦林(BP)、白桦落叶松混交林(BP-LG)、落叶松林(LG-OM)。在演替序列的每个典型样地上采集0-10 cm土样,采用Illumina Mi Seq高通量测序技术测定土壤细菌群落组成及其多样性。【结果】细菌操作分类单位(OTU)数量从少到多的顺序为火烧迹地落叶松白桦混交林灌丛落叶松林白桦林。随着森林演替,多样性指数Simpson先增高后降低;Shannon指数先增加后减少再增加;OTU的丰度变化比较平缓,表明物种变化较小。在各演替阶段中,土壤细菌种类主要有变形菌门(Proteobacteria)、酸杆菌门(Acidobacteria)、放线菌门(Actinobacteria)和浮霉菌门(Planctomycetes),4个门的种类含量随演替顺序都呈现先增加后减少的趋势。主成分分析表明不同演替阶段土壤细菌群落存在一定的差异性。冗余分析表明有机质(SOM)、全氮(TN)、全磷(TP)和p H对于土壤细菌群落变化有影响。【结论】随着森林演替,大兴安岭地区土壤细菌种类和生物多样性会发生变化,其变化与土壤化学成分和p H有关。     

天童常绿阔叶林五个演替阶段凋落物中的土壤动物群落

为探讨森林凋落物中土壤动物群落的结构特征以及土壤动物群落随植被演替而发生的变化 ,于 2 0 0 3年冬季 ,对浙江天童常绿阔叶林 5个演替阶段凋落物中的土壤动物群落 ,按代表不同分解阶段的新鲜凋落物层、腐叶层和腐殖土层进行了调查研究。共获得土壤动物 13381只 ,分别隶属于 2门 8纲 2 0目。优势类群为蜱螨目 (Arcarina)和弹尾目 (Collem bola) ,二者共占总数的 94 .2 4 % ,A/ C为 7.6 6 ;常见类群为双翅目 (Diptera)。研究结果表明 :(1)凋落物中的土壤动物群落存在明显的有别于真土层的垂直分布 ,类群数和个体数总体表现为向下递增的趋势。共有 19类、5 9.0 3%的土壤动物分布在底部腐殖土层 ,仅 8类、5 .35 %的土壤动物分布在新鲜凋落物层 ,其余共 8类分布在中间腐叶层。而且 ,不同类群在各演替阶段的分布表现出一定的差异 ;(2 )凋落物中土壤动物群落随植物群落的演替而发生明显的变化 :个体总数和类群总数在演替顶极阶段最高 ,其次为中期阶段 ,演替初期最低。但是 ,在目这一分类等级上 ,各演替阶段凋落物中土壤动物群落的主要类群基本一致 ,均为蜱螨目、弹尾目、双翅目和鳞翅目 (L epidoptera) ;(3)相似性分析表明 ,演替中期凋落物中土壤动物群落与顶极阶段最为相似 ;但它们的Shannon- Wiener多样性     

The Community Dynamics of the Forest Secondary Succession in Heishiding Natural Reserve of Guangdong Province

Studying on the community structure, species composition and species diversities of the secondary succession of lower subtropical forest in Heishiding Natural Reserve, Guangdong Province, the following results were obtained. In 2 ~4 years of restored stage the seedlings of pioneer species, heliophytes and mesophytes occur simultaneously. In 10 years of restored stage pioneer species are superior as heliophytes maintain stable and mesophytes are being decreased. In the stage of mixed forest pioneer species are on the decreasing and heliopytes are on the increasing trend. In the stage of evergreen broad-leaved forest dominated by heliophytes pioneer species are being declined, heliophytes are dominant and mesophytes are being increased. In the stage of evergTeen broad-leaved forest dominated by mesophytes heliophytes are being declined and mesophytes are superior. The vertical structure, horizontal structure, the structure of species composition determine stability of communities in secondary succession process. The vertical structure of community is building up in the stage of restoration. The community is composed of the stands under the third class. The forest canopy is not stratified. The individual density is stable. From restored stage to mixed forest the vertical structure of community is diversified. There are the third and forth class stands in community. The tree layer is divided into three sub-layers. The individual density declines rapidly because of self-thinning. In the mixed forest the vertical stmcture is relatively stable. The abundance of the fifth class stands and area of breast height reach the first peak in the succession serial. The individual density increases rapidly. In stage of evergreen broad-leaved forest dominated by heliophytes, the vertical structure changes largely. The abundance of the fifth class and area of breast height decline rapidly, but the individual density changes slowly. In the stage of evergreen broad-leaved forest dominated by mesophytes, the vertical structure of community is stable and the composition of every stand class becomes more stable. The area of breast height is the biggest in the succession serial. When succession develops, the coverage of communities increases gradually but the turnover rate of species declines. The species composition tends to be stabilized. The diversity of species and community evenness increase gradually thus, the ecological dominance declines gradually.     

大兴安岭天然林不同演替阶段共优势种种群结构与动态

受林火干扰和采伐等因素的影响,大兴安岭原始林逐渐退化为次生林。本研究选择天然白桦纯林(先锋阶段)、天然白桦-兴安落叶松混交林(过渡阶段)和天然兴安落叶松纯林(顶极阶段)3种典型林分,各设置固定样地16块,采用种群年龄和树高结构、静态生命表、生存分析、动态指数及时间序列预测的方法量化分析共优势种(白桦、兴安落叶松)和乔木树种全体的变化规律,为天然兴安落叶松林的恢复和发展提供科学依据。结果表明:各阶段共优势种和乔木树种全体的幼龄数目均较多,种群具有较强的自我更新潜力,随着演替的进行,各龄级白桦株数逐渐减少,兴安落叶松株数逐渐增多。乔木树种全体和白桦在过渡阶段、兴安落叶松在先锋阶段的死亡率和消失率随龄级的增加逐渐升高,存活曲线为Deevey-Ⅰ型,生存分析结果显示,种群前期平稳,中期增长,后期衰退;在其他阶段死亡率呈小幅度波动,存活曲线均为Deevey-Ⅱ型,种群具有前期增长、中期衰退、后期稳定的特点。共优势种和乔木树种全体在3个演替阶段均为增长型,其中先锋阶段白桦、顶极阶段兴安落叶松和乔木树种全体对环境的敏感指数最小。时间序列预测结果表明,各阶段共优势种和乔木树种全体在未来一段时间内均会增长。在森林演替过程中,需加强对幼苗幼树的保护,对盖度大的林分进行疏伐,采取适当的人为措施以确保种群的更新。