不同牧压梯度下高寒草甸演替及植物物种多样性分异特征

通过对不同牧压梯度导致的4个相邻高寒草甸植物群落物种多样性的调查,探讨了放牧驱动下高寒草甸演替及植物物种多样性分异特征,以期为高寒草甸合理利用提供依据。结果表明:矮嵩草时期与小嵩草草毡表层开裂期的多样性指数D差异不显著,其他3个阶段间差异显著(P0.05);多样性指数H除禾草矮嵩草时期与小嵩草草毡表层开裂期,矮嵩草时期与小嵩草草毡表层加厚期差异不显著外,其他均差异显著(P0.05);均匀度指数除矮嵩草时期与小嵩草草毡表层加厚期差异不显著,其他3个时期差异均达到显著水平(P0.05);放牧明显改变了高寒草甸的主要建群种和优势种,伴随牧压强度增大,植物群落发生更替,莎草科重要值增大,禾本科重要值减小,草甸植物群落由禾草矮嵩草时期向矮嵩草时期、小嵩草草毡表层加厚期、小嵩草草毡表层开裂期演替。     

Development and ecology of bottomland hardwood sites

A basic knowledge of the origin, development, and ecology of bottomland hardwood sites is important for assessing harvesting impacts on those sites. This paper presents an overview of the geologic origin and development of hardwood sites, species-site relationships and the natural patterns of ecological succession on those sites, and the implications of that information for forest management. Bottomland hardwoods occur on floodplain sites primarily in the Atlantic and Gulf Coastal Plains. Past geologic events led to the formation of broad stream valleys in those areas because of the erodible, sedimentary geologic materials. Natural patterns of ecological succession on floodplain sites are influenced by autogenic and allogenic processes in that the sites may undergo constant change because of deposition. Three natural patterns of succession are recognized for floodplain sites of major river bottoms—those occurring on permanently flooded sites, those on low elevation wet sites, and those on higher elevation, better drained sites. Floristic composition and successional patterns are strongly influenced by the hydrologic events on the sites and particularly by rates and types of deposition.     

THE CHARACTERISTICS OF THE NUTRIENT CYCLING IN BIRCH STANDS WITH DIFFERENT AGE STAGES

SuccessionisthedynanucdeveloPInentofecosystemswhichcanbecharactetindbyenergyandndneralcyclings.Eachsuccessionstagehasitscharaceristicsofelementcycling.SomeschOlarshaveStatedbutbrieflawsofnutrienCyclinginsuccessionstagesI"3I.InthespaPer,thenutrientcyclingcharacterishcsofbirchsuccessionseriesinXiaokinganlingwerediscussed.SwrYAasAroarernoDSThestUdyareaislocatedinLiangshniNatUralReservesinthendddieofXiaox-ing'anlilg(l28"53,2o'rE,47olo'5O"N).Theclimat6belongstocontinentalmonsoonclimate,W…     

三种不同类型灌丛的结构特点及演替利用前景

在贵州省黔东南地区雷山、施秉、镇远三县调查了三种不同类型的灌丛，对样地内灌木树种和草本植物的种类、密度、覆盖度、水平及垂直分布等结构特点进行了分析．并对其演替及利用前景进行了评价。     

Comparison between old-growth stands and secondary stands regenerating after clear-felling in warm-temperate forests of Yakushima, southern Japan

In order to infer successional changes in structure, species composition and diversity of warm-temperate forest, we compared secondary stands regenerating after clear-felling (41–64-years old) with old-growth stands at altitudes between 300 and 800 m on Yakushima Island, southern Japan. Stem density and maximum stem diameter differed between secondary and old-growth stands, but basal area and aboveground biomass did not. At lower altitudes, the dominant species in old-growth stands with a strong sprouting capacity (Castanopsis cuspidata) also dominated secondary stands, and species composition of secondary and old-growth stands was similar. At higher altitudes, by contrast, the dominant species in old-growth stands (Distylium racemosum) had little sprouting capacity and was poorly represented in diverse secondary stands, which were dominated by Castanopsis or other less abundant species. Secondary stands had greater species diversity (Shannon–Wiener index) than old-growth stands, particularly at higher altitudes. This was due to greater species richness resulting from higher stem density per area, but not to greater evenness. We grouped the component species that share ecologically similar traits into four guilds (fagaceous, primary evergreen, secondary evergreen and deciduous species). Secondary stands were characterized by greater numbers of deciduous and secondary evergreen species. We concluded that different sprouting capacities of dominant species and different regeneration traits among guilds are responsible for the change in species composition and diversity during succession.     

Populus tremuloides Michx. postfire stand dynamics in the northern boreal-cordilleran ecoclimatic region of central Yukon Territory, Canada

Postfire vegetation development among 8–185-year-old stand was assessed based on 100 relevés from the northern boreal-cordilleran ecoclimatic region (61–63°N) in the central Yukon Territory, Canada. Vegetation sampling included only stands thought to have originated from postfire Populus tremuloides Michx. regeneration that occurred on well drained and low gradient sites. Seven vegetation types were recognized based on cluster analysis and Kruskal–Wallis testing. Relevé ordination using Detrended Correspondence Analysis (70% explained variance) indicated six of the vegetation types represented a secondary successional chronosequence, based on their juxtaposition and a strong correlation of the primary axis with stand age (r = 0.89, P < 0.001). No correlation (P > 0.05) occurred between stand location and age. The youngest vegetation (8–11 years) had a moderate cover of P. tremuloides and Salix spp. up to 5 m tall, with a ground cover of Ceratodon purpureus (Hedw.) Brid. and Bryum caespiticium Hedw. This vegetation was expected to result in P. tremuloides, mixed P. tremuloides and Picea glauca (Moench) Voss, and P. glauca/Hylocomium splendens forest stands with increasing age, respectively. P. tremuloides//Calamagrostis purpurascens—Arctostaphylos uva-ursi stands formed the mid-seral vegetation. Along the chronosequence, total tree, P. tremuloides, shrub, and herb cover peaked 50–70 years after stand initiation; P. glauca cover, total and nonvascular species richness, and dominance concentration gradually increased (P < 0.001); vascular plant richness decreased; bryophytes had a U-shaped abundance pattern; and total plant cover was constant through time (125%). Richness totalled 113 species with averages of 13–18 per relevé. Coarse woody debris was most abundant (maxima 100–223 m³/ha) during the first 20 years of stand development then declined to <50 m³/ha. Successionally, a stem exclusion stage occurred (years 8–18), but with a delayed peak of 2–4 years and reduced densities (1.47 stems/m²) relative to southern boreal stands. No understory suppression, and therefore, no reinitiation stage occurred. Following stem exclusion, an accelerated canopy transition stage occurred relative to southern boreal forests due to early establishment rather than better height-growth rate of P. glauca relative to P. tremuloides. P. glauca tended to equal the cover of P. tremuloides 95–100 years after stand initiation. The oldest vegetation type in the chronosequence more closely resembled old-growth than a gap dynamic stage of development, possibly because of its youthful average age of 125 years. A modification was proposed for the canopy transition stage (Chen–Popadiouk stand development model) to account for the “forced” replacement of P. tremuloides by P. glauca. Differences in stand development were attributed to the cold northern climate.     

Research needs for restoring seasonal tropical forests in Thailand: accelerated natural regeneration

Accelerated natural regeneration (ANR) is a relatively cheap method of reforestation, which encourages natural establishment of indigenous trees and shrubs. It requires a low input of labour, but a high input of ecological information. In this paper, the knowledge required to predict and manipulate the natural regeneration of seasonal tropical forest is reviewed and areas in need of further research are identified. Regeneration will be influenced by five groups of potentially limiting factors; site resources (soil and microclimate); competition with weeds; site disturbance; occurrence of established woody plants or their propagules; seed dispersal by wild animals and birds. This paper considers each of these, their interactions with seasons, and each other. Collation of existing information on these topics, combined with the suggested further research, should facilitate the creation of tools that will enable practitioners to judge the regeneration potential of sites and to select the most appropriate ANR techniques.     

Characterization of nematode colonization and succession in disturbed soil using the Maturity Index

Nematode colonization and succession were studied over 60 weeks in field plots which had been disturbed by combinations of fumigation and manuring. It was expected that the Maturity Index, which is based on the composition of the nematode fauna, would decrease after disturbance, and subsequently increase with recovery and succession. The results showed that in all treatments, the initial colonization and growth were due to taxa scaled in colonizer-persister (c-p) group 1, resulting in a low Maturity Index. An increase in this index followed when these taxa were gradually replaced by c-p group 2 which thereafter remained the dominant group. C-p groups 3–5 developed only in the non-fumigated treatment. Manuring caused characteristic changes in the nematode fauna which could be described as a cycle, starting with an increase in enrichment opportunists (c-p 1), which were succeeded by general opportunists (c-p 2) which, in turn, were supplemented with persisters (c-p 3–5). It is expected that the same cycle will be observed as a result of other disturbances that cause temporary increase in food supply.     

Cut logs and high stumps of spruce, birch, aspen and oak - nine years of saproxylic fungi succession

Managed stands generally contain little coarse woody debris compared to natural forests. This study addresses the potential of retained cut wood to increase the amount of substrate available for a variety of saproxylic fungi.Fruit bodies of fungi were recorded from 270 cut high stumps and logs of spruce, birch, aspen and oak over nine years of initial succession. A total of 1565 occurrences of 148 species, seven of which were red-listed, were found. Numbers of species were significantly higher on logs than on stumps. Annual diversity peaked four to seven years after logging, sooner on logs than on stumps. Numbers of species were positively related to substrate diameter, but not to the level of shade/sun-exposure, while the presence of some individual species were significantly affected by one or both of these factors. Comparisons with data from the literature indicated no fundamental differences between fungal communities on cut wood and on naturally dead substrates. We conclude that cut wood left on site, especially logs, may mimic dead wood from trees that die swiftly from natural causes and support diverse fungal communities, both in shaded stands and in open logging sites. Substrates generated by slow self-thinning processes in natural forests however, are probably difficult to mimic in managed stands.     

石河子绿洲农业生态系统演替规律初探

研究分析玛纳斯河流域石河子绿洲农业生态系统演替规律结果表明,随着技术投入和市场的开放,绿洲农业生产力呈正向演替,而与之相应的生态环境部分呈逆向演替。人类活动是绿洲演替(正向或逆向)的根本动因,而绿洲所处的环境条件是加速其演替进程的关键,其中水资源时空分布及利用格局是主导因素。玛纳斯河流域农业生态系统良性演替需建立在绿洲资源要素时空优化配置及其协调开发利用上。