西双版纳热带雨林下砂仁拔除后的生态恢复研究

种植砂仁 (Amomumvillosum)对西双版纳热带雨林植物多样性的影响引起了人们的关注。通过西双版纳热带雨林下种植的砂仁拔除后的生态恢复两年的研究工作 ,结果表明砂仁排除后 :1 )林下植物数量显著增加 ,超过同等类型的没种过砂仁的原始热带雨林 ;植物种类、物种多样性和均匀度都有大幅度增加 ,与原始热带雨林差别不大 ;群落组成成分仍向着热带雨林演替 ,优势种不明显 ,其中 ,草本和蕨类植物增加显著 ;2 )林下植物生长速率在旱季与原始林差别不大 ,但在雨季可有较快生长 ;生物量在两年内可达到 (636 .1± 43 .4)g·m- 2 ,超过原始林 ,特别是草本和蕨类植物生长较快 ;3)土壤含水量得到提高 ,与原始林相比差异不显著 ,并且 ,涵养水源的能力有所增加 ;深层土壤有机质的含量增加显著 ,速效磷含量需要更长时间的植被恢复才能有所提高 ,速效钾受淋洗作用的影响 ,地表有大量损失。文中最后讨论指出 ,热带林下砂仁实现斑块式的轮歇种植是协调保护与发展的较好方法 ,这在偏远少数民族地区有着较好的可行性。     

Exploring the limiting causes of fruit production in the tropical tree Ipomoea wolcottiana Rose (Convolvulaceae)

Path analysis was used to evaluate a group of variables related to fruit production in the tropical tree Ipomoea wolcottiana (Convolvulaceae). The variables were tree size (trunk diameter), available phosphorus in the soil, floral phenotypic sex expression (i.e. gynoecium biomass allocation), flower production, fruits initiated, and length of the corolla and diameter of its opening. The path model explained 79.9% of the total variation, and the production of mature fruits was related in large part by the number of fruits initiated and by phenotypic sex expression. In turn, fruits initiated were related to corolla tube diameter and to a lesser extent to corolla tube length. The model could explain a low percentage of the variation (18.5%) of the number of fruits initiated, but once a fruit was initiated it had a high probability of maturing. Phenotypic sex expression related negatively to the number of flowers produced and positively, to almost the same degree, to available phosphorus in the soil. Tree size had a positive effect on flower production but a negligible effect on fruits initiated and matured. Soil phosphorus affected positively, although weakly all variables. The relationships between tree size, number of flowers and phenotypic sex expression suggested that abundant flowering in this species functions more for pollen donation than its reception.     

The Potential of Tree Rings for the Study of Forest Succession in Southern Mexico

Studies of tropical secondary forest succession face strong limitations due to the slow pace of succession and the time-consuming task of monitoring processes. The occurrence of tree rings in secondary forest trees may help expand our knowledge on succession in these systems and may be useful for fallow dating in chronosequence studies. We examine here the potential of tree rings to study forest succession by sampling 70 species along chronosequences of dry and wet forests in southern Mexico. Based on wood anatomical features, we estimated that about 37 percent of the species presented distinct growth rings useful for ring studies. Overall, maximum number of rings matched well the interview-based fallow ages but, at some sites, trees had consistently higher numbers of rings, probably due to errors in fallow ages derived from interviews. Best fallow age estimations were obtained by examining rings in both pioneer and nonpioneer species. Reconstruction of species' establishment dates revealed that pioneer and nonpioneer species establish early during succession, and that species of both groups continue to recruit after many years. Our study clearly shows that tree ring analysis is a promising tool for studies on secondary forest succession in the tropics.     

Hyperspectral remote detection of niche partitioning among canopy trees driven by blowdown gap disturbances in the Central Amazon

Advanced recruitment and neutral processes play important roles in determining tree species composition in tropical forest canopy gaps, with few gaps experiencing clear secondary successional processes. However, most studies are limited to the relatively limited spatial scales provided by forest inventory plots, and investigations over the entire range of gap size are needed to better understand how ecological processes vary with tree mortality events. This study employed a landscape approach to test the hypothesis that tree species composition and forest structural attributes differ between large blowdown gaps and relatively undisturbed primary forest. Spectral mixture analysis on hyperspectral satellite imagery was employed to direct field sampling to widely distributed sites, and blowdown plots were compared with undisturbed primary forest plots. Tree species composition and forest structural attributes differed markedly between gap and non-gap sites, providing evidence of niche partitioning in response to disturbance across the region. Large gaps were dominated by classic Neotropical pioneer genera such as Cecropia and Vismia, and average tree size was significantly smaller. Mean wood density of trees recovering in large gaps (0.55 g cm⁻³) was significantly lower than in primary forest plots (0.71 g cm⁻³), a difference similar to that found when comparing less dynamic (i.e., tree recruitment, growth, and mortality) Central Amazon forests with more dynamic Western Amazon forests. Based on results, we hypothesize that the importance of neutral processes weaken, and niche processes strengthen, in determining community assembly along a gradient in gap size and tree mortality intensity. Over evolutionary time scales, pervasive dispersal among colonizers could result in the loss of tree diversity in the pioneer guild through competitive exclusion. Results also underscore the importance of considering disturbance processes across the landscape when addressing forest carbon balance.     

“Too low” δO of paleo-meteoric, low latitude, water; do paleo-tropical cyclones explain it?

Isotopic analysis of rock samples showed anomalously ¹⁸O-depleted reconstructed isotopic composition of paleo-meteoric water over southern Israel between the Late Cretaceous and the Early Miocene, with δ¹⁸O_W as low as −14‰ [SMOW]. This range is significantly “lighter” than the expected values for rain at the relevant paleo-latitudes (~ 8^°N to 25^°N). It is similar or lighter than areas with meteoric water at the present climate, in which rainfall contribution from tropical cyclone (TC) is significant. Rainfall from TCs is ¹⁸O-depleted because of the recirculation of the vapor into repeated precipitation or distillation cycles. A paleo-geographic reconstruction of the region shows that throughout the period there was a warm ocean to the east and southeast of the relevant area. Thus, TCs formed over the ocean and made landfall on the coastline at a distance of 300 to 400 km to the east. The reconstructed composition of the rainwater implies dominance of TCs at these times. Furthermore, the combination of warmer seas and lighter rainwater than at present suggests that the TCs were more dominant than in the most TC-prone coastal areas at the present climate. The results of the present study suggest that climate during the relevant time periods was very different from the present, with TC activity similar or exceeding the most TC prone locations in the world at the present climate. This might also hint that warmer sea waters in the geological past were conducive to greater TC activity than in the present climate. Answering this question requires additional research.     

Managing genetic variation in tropical trees: linking knowledge with action in agroforestry ecosystems for improved conservation and enhanced livelihoods

Tree species in agroforestry ecosystems contribute to the livelihoods of rural communities and play an important role in the conservation of biodiversity. Unless agroforestry landscapes are productive, however, farmers will not maintain or enhance the range and quality of tree species in them, and both income opportunities and biodiversity will be lost. Productivity depends on both tree species diversity and genetic (intra-specific) variation, but research on the latter has until recently not received the recognition it deserves. Worse, when knowledge on tree genetic variation in agroforestry systems has become available, it has not generally been linked in any systematic way with management, indicating a disjunction between research and field-level practice. In this essay, we attempt to bridge this gap by considering three questions: why is genetic diversity important in tree species? What is our current state of knowledge about intra-specific variation in trees in agroforestry systems? And, finally, what practical interventions are possible to support the conservation of this diversity in agricultural landscapes, while enhancing farmers’ livelihoods? A wide genetic base in agroforestry trees is essential to prevent inbreeding depression and allow adaptation to changing environmental conditions and to altering markets for tree products. Recent evidence shows, however, that many species are subject to poor germplasm collection practice, occur at low densities in farmland, and are found in highly aggregated distributions, all of which observations raise concerns about productivity and sustainability. A range of germplasm-access based interventions is necessary to improve current management, including the enhancement of community seed- and seedling-exchange networks, and the development of locally based tree domestication activities. Equally necessary, but more difficult to address, is the development of markets that support genetic diversity in tropical tree species; we discuss approaches by which this may be undertaken.     

Diversity of understory plants in undisturbed and disturbed tropical lowland forests of Little Andaman Island, India

Species richness and density of understory plants were investigated in eight 1 ha plots, distributed one each in undisturbed and disturbed tropical evergreen, semi-evergreen, deciduous and littoral forests of Little Andaman island, India, which falls under one of the eight hottest hotspots of Biodiversity in the world viz. the Indo-Burma. One hundred 1 m⁻² quadrats were established in each 1 ha plot, in which all the understory plants (that include herbs, undershrubs, shrubs and herbaceous climbers) were enumerated. The total density of understory plants was 6,812 individuals (851 ha⁻¹) and species richness was 108 species, representing 104 genera and 50 families. Across the four forest types and eight study plots, the species richness ranged from 10 to 39 species ha⁻¹. All the disturbed sites harbored greater number of species than their undisturbed counterparts. Herbs dominated by species (63%) and density (4,259 individuals). The grass Eragrostis tenella (1,860 individuals; IVI 40), the invasive climber Mikania cordata (803; IVI 20) and the shrub Anaxagorea luzonensis (481; IVI 17.5) were the most abundant species. Poaceae, Asteraceae, Acanthaceae, Orchidaceae and Euphorbiaceae constituted the species-rich families represented by 6 species each. The species-area curves attained an asymptote at 0.8 ha level except in sites DD and DL, indicating 1 ha plot is not sufficient to capture all the understory species in disturbed forests. The alien weeds formed about one-fourth of the species richness (31 species; 28%) and density (1,926 individuals; 28.3%) in the study sites, indicating the extent of weed invasion and the attention required for effective conservation of the native biodiversity of the fragile island forest ecosystem.     

西双版纳不同海拔4种雨林幼苗的光合特性和生物量

在云南西双版纳勐仑(600 m,低海拔)、菜阳河(1 100 m,中海拔)和勐宋(1 600 m,高海拔),对热带季节雨林4种主要树种绒毛番龙眼(Pometio tomentosa)、云南玉蕊(Barringtonia macrostachya)、云南肉豆蔻(Myristica yunnanensis)和小叶红光树(Knema globularia)幼苗进行移栽试验,测定幼苗的光合作用和生物量.结果表明,高海拔七的低温使幼苗处于休眠或光系统受到不可恢复的破坏,光合作用几乎停止;4种幼苗的最大净光合速率及生物量均随海拔的增加而下降;低、中海拔上4种幼苗的净光合速率日变化曲线均表现为"双峰型",低海拔的第一个峰明显高于中海拔.除小叶红光树外,其它幼苗的根生物量分数均随海拔增高而增加.海拔升高,温度降低是限制幼苗光合特性、生物量积累的主要因子,也是某些幼苗在更高海拔雨林群落中消失的潜在原因.此外,幼苗的根生物量分数随海拔上升而增加是其对极限环境温度的一种重要适应特征.     

Rapid changes in plasticity across generations within an expanding cedar forest

We investigated the inter‐individual variation of phenotypic plasticity and its evolution across three generations within an expanding forest. Plasticity was assessed in situ from dendrochronological data as the response of radial growth to summer rainfall. A linear mixed model was used to account for spatial effects (environment and stand structure), temporal factors (stand dynamics) and the variation with age. Beyond these effects, our results reveal a significant inter‐individual variance of growth and plasticity within each generation. We also show that the mean values and variances of growth and plasticity changed significantly across generations, with different patterns for both traits. The possible environmental and genetic drivers of these changes are discussed. Contrasting with the trade‐off between stress tolerance and plasticity generally observed among populations, we detected a positive covariance at the individual level, which does not support the cost of plasticity hypothesis in this case.     

Tree species richness and composition 15 years after strip clear-cutting in the Peruvian Amazon

Although strip clear-cutting has a long history of use in the temperate zone, it was only recently introduced for timber extraction in tropical rain forests, where it is known as the Palcazú Forest Management System. In this system heterogeneous tropical forests are managed for native gap-dependent timber species by simulating gap dynamics through clear-cutting long, narrow strips every 40 years. As part of an assessment of the sustainability of this system, we evaluated the recovery of tree basal area, species richness, and composition after 15 years of regeneration on two strips (30 × 150 m) clear-cut in 1989 in Jenaro Herrera, Peru. Timber stocking and the effects of silvicultural thinning were assessed in both strips. The strips recovered 58–73% of their original basal area and 45–68% of their original tree species richness. Although both strips recovered more than 50% of their original composition, commercial species had lower basal areas and lower densities than in the forest before the clearing. Pioneer species with high basal areas remained dominant 15 years after the cutting. Silvicultural thinning in 1996 reduced the abundance of pioneer species in both strips, and increased the abundance of commercial species in one of the strips. Half of one strip was harvested by deferment-cut (only commercial trees >30 cm dbh and “other” species >5 cm dbh were cut); regeneration here had greater abundance of commercial species and lower abundance of pioneer species. The low stocking of commercial trees challenges the sustainability claims for this forest management system.