卧龙自然保护区亚高山暗针叶林树种更新研究

在卧龙亚高山暗针叶林中选取有代表性的18个林窗斑块以及对照的林下样方进行群落学调查,记录乔木树种和灌木树种的相关数量特征。按照树种在林窗内外的重要值差异结合树种本身生态学特性将群落中出现的乔木层树种划分为先锋组和耐荫组两类生态种组。林窗内外乔木树种的组成明显不同,两类生态种组树种幼苗在林窗与林下环境中的更新表现出差别,这与树种本身的生态学特性以及所处林窗的环境有关,同时亚高山暗针叶林中灌木层优势种小径竹的生长对树种更新方式也产生一定的影响。     

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。     

哀牢山中山湿性常绿阔叶林林窗更新研究

对云南哀牢山中山湿性常绿阔叶林林窗更新状况的调查结果表明,林内优势树种在林窗阶段不占优势,其在林窗内的重要值显著低于成熟林分;林窗内外的乔木幼苗在组成上存在较大差异,林窗内的幼苗多样性(H=2．73,D=0．89)高于林冠下(H=2．25,D=0．82),二者的Jaccard相似系数只有0．6．许多树种的幼苗只出现在林窗内;林窗内的乔木幼苗密度(38636株·hm²)远远高于林冠下(17323株·hm²)．林窗内和林冠下的乔木幼苗(H≤50cm)均以高度为11～20cm幼苗的在数量上占优势,但林窗内高度超过20cm的幼苗比例明显高于林冠下;林窗大小对乔木幼苗更新有重要影响,不同树种的幼苗密度高峰出现在不同大小级别的林窗内．     

后河自然保护区珍稀濒危植物群落乔木层结构特征

对1hm^2固定样地内的亚热带常绿落叶阔叶混交林乔木层树种的胸径级结构和高度级结构以及按径经对乔木树种多样性和均匀度进行了研究。结果显示;群落内乔木树种数和个体数堕落有径级和高度级增加呈下降趋势。树种数和个体数之间存在显著正相关关系。胸径面积之和随胸径级增加呈波动状态,而随高度级的增加呈先升后降的变化。群落的多相关性一指数和均匀度指数都较高,群落内优势种明显,各种的多度差异较小,群落结构较为稳定,其中珍稀植物在各个胸径级和高度级内的树种数和个体数都较高,群落的更新良好。幼苗补充充足,珍稀树种幼苗丰富度和多度较高。     

茂兰喀斯特常绿落叶阔叶混交林群落组成和优势种更新类型

为探讨茂兰喀斯特森林群落结构和优势种更新机制,对茂兰自然保护区常绿落叶阔叶混交林群落进行了调查。结果表明,群落中有木本植物37科58属70种,以樟科、蔷薇科、无患子科和漆树科为主。常绿树种41种,占总种数的58.6%;落叶树种29种,占总种数的41.4%,这体现了喀斯特常绿落叶阔叶混交林的群落学性质。群落的优势乔木树种有轮叶木姜子(Litseaverticillata)、青冈栎(Cyclobalanopsisglauca)、狭叶润楠(Machilusrehderi)和翅荚香槐(Cladrastisplatycarpa)等。灌木优势种有皱叶海桐(Pittosporumcrispulum)、裂果卫矛(Euonymusdielsianus)、革叶铁榄(Sinosideroxylonwightianum)和南天竹(Nandina domestica)等。优势种种群结构有5种类型:单峰型,如樱桃(Cerasus pseudocerasus)、南酸枣(Choerospondias axillaris)等阳性乔木,为林窗更新种,随林窗的郁闭将衰退消失;逆J字型,如轮叶木姜子、香港四照花(Dendrobenthamia hongkongensis)、皱叶海桐等耐荫性强的常绿阔叶树种,更新能力较强,为顶极群落优势种;间歇型,如青冈栎、狭叶润楠、齿叶黄皮(Clausena dunniana)等树种,群落中的个体多集中在小径级阶段,能长期存在于群落中;L字型,如桂皮(Cinnamomumtamala)、梓叶槭(Acer catalpifolium)、革叶铁榄等;单柱型,如石岩枫(Mallotus repandus)、南天竹等常绿灌木树种,个体集中于幼苗、幼树阶段,为顶极群落亚乔木层和灌木层的主要组成种。因此,这表明调查区域的植物群落处于相对稳定的顶极阶段。     

宝华山主要植被类型土壤种子库初探

落叶常绿阔叶混交比和落叶阔叶林的土壤种子库分别有４９种和３３种植物,其中,前者有草本４２种,灌木３种,乔木４种,密度为２５５粒／ｍ＾２,后者有草本２９种,灌木１种,乔木３种,密度为１４５粒／ｍ＾２,两植被类型的土壤种子库组成与其现存地上植被的组成相似性极小。落叶常绿阔叶混交林林窗的土壤种子库有３３个种,密度为４１３粒／ｍ＾２,与非林窗区域的土壤种子库组成仅有５３．１％的相似性。     

三峡大老岭地区主要木本植物分布的地形格局

基于对三峡大老岭地区山地森林群落的深入调查,选择样方乔本层重要值大于１．００的１９０种木本植物,依次根据生活型和植物在群落中的地位分成常绿针叶树种,常绿阔叶树种、落叶阔叶的建群树种、伴生种和珍稀树种共６组,采用ＤＣＣＡ排序分析各组植物种在复合地形梯度上的空间格局特征;然后分别统计常绿或落叶的乔木或藻木４组物种沿具体海拔高度的整体分布特征,研究反映了６个生态种组之间在山地地形上鲜明的格局差异,并显示     

黄土高原马栏林区主要森林群落物种多样性研究

应用丰富度指数(S)、多样性指数(H1)、优势度指数(D)和均匀度指数(Js)对子午岭马栏林区的主要森林群落物种多样性进行了研究。结果表明:41个样地共记录草本151种,灌木111种,乔木33种。马栏林区森林植物群落其总体多样性是混交林>纯林>人工林;不同森林群落各层的物种多样性基本都表现为灌木层>草本层>乔木层;物种多样性乔木层以油松(Pinus tabulaeformis) 辽东栎(Quercus liaotungensis)混交林和落叶阔叶混交林较高,灌木层以油松 白桦(Betula platyphylla)混交林、白桦林和天然油松林多样性较高;草本层则是人工刺槐 (Robinia pseudoacacia)林、白桦林和山杨(Populus davidiana)林多样性较高。人工刺槐林和人工油松林在乔木层和灌木层多样性指数都较低。物种均匀度乔木层是落叶阔叶混交林最高,人工油松林和人工刺槐林最低;灌木层各群落的均匀度较为接近;草本层则表现为人工刺槐林均匀度最高,混交林最低。β多样性分析显示人工刺槐林与其它森林群落相异性较大,而辽东栎林、天然油松林和油松 白桦混交林均与油松 辽东栎混交林的相异性较小。研究表明多树种营造混交林可以增加群落的多样性,建造具有较高物种多样性的群落应种植混交林取代单一物种的人工纯林,在选择树种时应优先考虑乡土树种。     

后河自然保护区珍稀植物群落主要树种6年动态变化

用每木定位监测方法分析了后河自然保护区常绿落叶阔叶混交林1 hm2固定样地主要乔木树种6年的（2001～2007年）动态变化。样地主要分布有14种普通树种和5种珍稀树种。对这19个树种胸径≥5 cm的林木动态进行分析。2001年,样地有998株主要树种,到2007年,其中100株死亡,样地中新增81株更新幼树。19个主要树种基盖度从19.56 m2/hm2增加到20.14 m2/hm2,群落的径级结构没有明显变化,中等径级个体死亡率最高,且死亡植株在小尺度上聚集分布,较大尺度上随机分布,更新幼树几乎在所有尺度聚集分布,活树和死树在所有尺度空间正关联,活树和更新幼树在大部分尺度负关联。稀有濒危植物能长期稳定地在群落中存在,表明干扰、种内和种间竞争共同影响着群落的发展,群落处于动态平衡状态。     

后河自然保护区常绿落叶阔叶混交林群落学特征研究

研究了后河国家级自然保护区常绿落叶阔叶混交林的区系特点、群落学特征。结果表明 :后河国家级自然保护区常绿落叶阔叶混交林群落物种丰富 ,有 110科 2 88属 5 34种 ,科的分布型以热带类型为主 ,属的分布型温带类型占优势 ,反映该群落区系以温带为主的亚热带区系特点 ;该混交林主要由以单叶、中型叶及非全缘叶为主的常绿、落叶阔叶高位芽植物组成 ,群落层次分明 ,从上至下 ,落叶阔叶树种所占比例逐渐减少 ,常绿阔叶树种比例逐渐增加 ;除两低海拔样地外 ,多样性变化幅度较小 ,各样地的物种多样性指数变化趋势基本一致。     

海南霸王岭热带山地雨林林隙更新规律的研究

通过对海南岛霸王岭自然保护区原始热带山地雨林中林隙和非林隙林分的调查,分析了海南岛热带山财雨林中主要树种在林隙内外的数量特征、树各对林隙的更新反应和树种多样性的变化规律。结果表明：（１）不同树林隙内和非隙林分中出现的频度、密度和显著度不同,从而表现出其重要值的不同,根据不同树种在林隙内外重要值位序的差异大小,将海南热带山地雨林中树各划分为７种类型：即（１）只出现于林隙中,（２）只出现于非林隙林分中     

Study on canopy disturbance regime and mechanism of tree species diversity maintenance in the lower subtropical evergreen broad-leaved forest,South China

ABSTRACT

The canopy disturbance, the gap environment, gap regeneration and maintenance of tree species diversity in the lower subtropical evergreen broad-leaved forest (LSEBF) of South China were studied in this paper. The most common manner of gap formation in the forest was by stem breakage. Most gaps were formed by two gap makers. The sizes of most expanded gaps (EG) and canopy gaps (CG) were in the range of 100 – 300 m² and 50 – 100 m², respectively. The ecological factors in gaps were analysed on the basis of contrasting measurement of the microclimatic regimes in gaps of different sizes and in non-gap stands. Tree species in the LSEBF were classified into 5 ecological species groups on the bases of their changes in order of importance values in gaps and in non-gap stands. Most of the species reached their peak of regeneration density around the gap sizes of 100 m² and 500 m². The curves of regeneration density vs. gap age for major species revealed two types. Regeneration densities of most species, and species diversity indices in gaps were greater than those in non-gap stands.     

神农架巴山冷杉群落更新特点及影响因素

采用样方法对神农架自然保护区巴山冷杉群落更新特性、环境因子对其更新的影响进行了研究.研究表明:(1)林窗更新是巴山冷杉群落重要的更新方式,以红桦为代表的阔叶树种和巴山冷杉等耐荫树种在林窗内外均存在更新差异;(2)巴山冷杉在林窗更新中具有最大优势,3a以下的巴山冷杉幼苗数量占45.7%,随着年龄的增加下降明显,7a以上的幼树数量只占6.3%;(3)用SPSS将影响巴山冷杉更新的四类环境因子进行主成分分析表明,林窗面积、坡向、林窗微环境、乔灌草盖度依次是影响巴山冷杉幼苗生长和分布的主要因子;(4)林窗微环境因子的相关分析表明,在不同的生活史阶段,更新影响因子重要性不同,光照水平和土壤水分分别对幼苗和幼树的生长具有显著影响;(5)坡向和密度的相关分析表明在北坡巴山冷杉更新幼苗数量丰富,灌草层是巴山冷杉更新过程的潜在障碍.     

长白山自然保护区阔叶红松林林隙更新的研究

通过对林隙及非林隙林分组成树种数量特征的对比分析,研究了长白山自然保护区阔叶红松林中主要树种对林隙的更新反应特点,阐述了林隙在阔叶红松林结构与多样性维持中的作用．随着林隙与非林隙的交替变化,红松和阔叶树以及主林层和中下层树种的相对优势（或重要性）亦呈现出交替变化的规律．林隙提高了阔叶红松林的物种丰富度,增加了其多样性,为不同特性物种的共存提供了可能,从而保持了阔叶红松林的整体稳定性．     

Phylogenetic Structure of Tree Species across Different Life Stages from Seedlings to Canopy Trees in a Subtropical Evergreen Broad-Leaved Forest

Investigating patterns of phylogenetic structure across different life stages of tree species in forests is crucial to understanding forest community assembly, and investigating forest gap influence on the phylogenetic structure of forest regeneration is necessary for understanding forest community assembly. Here, we examine the phylogenetic structure of tree species across life stages from seedlings to canopy trees, as well as forest gap influence on the phylogenetic structure of forest regeneration in a forest of the subtropical region in China. We investigate changes in phylogenetic relatedness (measured as NRI) of tree species from seedlings, saplings, treelets to canopy trees; we compare the phylogenetic turnover (measured as β_NRI) between canopy trees and seedlings in forest understory with that between canopy trees and seedlings in forest gaps. We found that phylogenetic relatedness generally increases from seedlings through saplings and treelets up to canopy trees, and that phylogenetic relatedness does not differ between seedlings in forest understory and those in forest gaps, but phylogenetic turnover between canopy trees and seedlings in forest understory is lower than that between canopy trees and seedlings in forest gaps. We conclude that tree species tend to be more closely related from seedling to canopy layers, and that forest gaps alter the seedling phylogenetic turnover of the studied forest. It is likely that the increasing trend of phylogenetic clustering as tree stem size increases observed in this subtropical forest is primarily driven by abiotic filtering processes, which select a set of closely related evergreen broad-leaved tree species whose regeneration has adapted to the closed canopy environments of the subtropical forest developed under the regional monsoon climate.     

Gap dynamics and regeneration strategies in <Emphasis Type="Italic">Juniperus-Laurus</Emphasis> forests of the Azores Islands

We asked the following questions regarding gap dynamics and regeneration strategies in Juniperus-Laurus forests: How important are gaps for the maintenance of tree diversity? What are the regeneration strategies of the tree species? Thirty canopy openings were randomly selected in the forest and in each the expanded gap area was delimited. Inside expanded gaps the distinction was made between gap and transition zone. In the 30 expanded gaps a plot, enclosing the gap and transition zone, was placed. In order to evaluate the differences in regeneration and size structure of tree species between forest and expanded gaps, 30 control plots were also delimited in the forest, near each expanded gap. In the 60 plots the number of seedlings, saplings, basal sprouts and adults of tree species were registered. Canopy height and width of adult individuals were also measured. The areas of the 30 gaps and expanded gaps were measured and the gap-maker identified. Juniperus-Laurus forests have a gap dynamic associated with small scale disturbances that cause the death, on average, of two trees, mainly of Juniperus brevifolia. Gap and expanded gap average dimensions are 8 and 25 m², respectively. Gaps are of major importance for the maintenance of tree diversity since they are fundamental for the regeneration of all species, with the exception of Ilex azorica. Three types of regeneration behaviour and five regeneration strategies were identified: (1) Juniperus brevifolia and Erica azorica are pioneer species that regenerate in gaps from seedlings recruited after gap formation. However, Juniperus brevifolia is a pioneer persistent species capable of maintaining it self in the forest due to a high longevity and biomass; (2) Laurus azorica and Frangula azorica are primary species that regenerate in gaps from seedlings or saplings recruited before gap formation but Laurus azorica is able to maintain it self in the forest through asexual regeneration thus being considered a primary persistent species; (3) Ilex azorica is a mature species that regenerates in the forest.     

The role of canopy gaps in the regeneration of coastal dune forest

In regenerating coastal dune forest, the canopy consists almost exclusively of a single species, Acacia karroo. When these trees die, they create large canopy gaps. If this promotes the persistence of pioneer species to the detriment of other forest species, then the end goal of a restored coastal dune forest may be unobtainable. We wished to ascertain whether tree species composition and richness differed significantly between canopy gaps and intact canopy, and across a gradient of gap sizes. In three known‐age regenerating coastal dune forest sites, we measured 146 gaps, the species responsible for gap creation, the species most likely to reach the canopy and the composition of adults, seedlings and saplings. We paired each gap with an adjacent plot of the same area that was entirely under intact canopy and sampled in the same way. Most species (15 of 23) had higher abundance in canopy gaps. The probability of self‐replacement was low for A. karroo even in the largest gaps. Despite this predominance of shade‐intolerant species, regenerating dune forest appears to be in the first phase of succession with ‘forest pioneers’ replacing the dominant canopy species. The nature of these species should lead to successful regeneration of dune forest.     

Nucleation-driven regeneration promotes post-fire recovery in a Chilean temperate forest

Nucleation is a successional process in which extant vegetation facilitates seed dispersal and recruitment of other individuals and species around focal points in the landscape, leading to ecosystem recovery. This is an important process in disturbed sites where regeneration is limited by abiotic conditions or restrictive seed dispersal. We investigated forest recovery in a large burned area of evergreen temperate rainforest in southern Chile subjected to seasonal soil waterlogging, and assessed the relevance of nucleation processes in overcoming biotic and physical barriers for tree species regeneration. We measured richness and abundance of woody species in relation to patch size, as well as abiotic factors such as light and soil moisture within and outside patches. We found higher tree regeneration in existing patches than in open areas. We recorded an increase of patch size over time, associated with the increase in number of individuals and tree species. Soils in open areas were waterlogged, especially in winter, while patches were not. Trees in patches also acted as perches, enhancing bird-mediated seed rain. Seeds of fleshy-fruited tree species arrived first at patches and seedlings were more frequent in smaller, younger patches, while the number of seedlings of trees with wind-dispersed seeds increased in larger, older patches. Our study shows that woody species seem incapable of recruiting in open and waterlogged soils and depend strongly on extant vegetation patches to establish. In this fire-disturbed evergreen temperate forest regeneration occurs via nucleation, where new individuals contribute to a centrifugal kind of patch growth.     

Size distribution and expansion of canopy gaps in a northern Appalachian spruce-fir forest

Canopy gap area/age distributions and growth mechanisms were examined in a virgin subalpine forest in the White Mountains, New Hampshire, USA. The gap area distribution was negative exponential in form. Whithin gap tree ages varied widely in response to stepwise gap expansion caused by windthrow of peripheral trees or death of standing mature Picea rubens at gap edges. As a consequence, the density of small gaps may have been underestimated and the density of large gaps overestimated. The estimates of canopy turnover time, 303 yr, and of patch birth rate on an area basis, 3.3×10^-3 ha new patches/ha land area/yr, were not affected by the gap expansion phenomenon. However, any estimate of patch birth rate as numbers of new patches formed per year would have been too low. Because of increasingly widespread Picea death, the patch area/age distribution of this forest may not currently be in steady-state.