Self-organization of tropical seasonal rain forest in southwest China

How to measure development of ecosystems is both a theoretical and practical question in ecology. Species richness and biomass accumulation are familiar figures of merit, but they cannot be instant watched. Self-organization is a tacit character. However, methods to measure the degree of self-organization of ecosystem are problematic. To this end Lin et al. (2009) have devised indicators of energy capture and dissipation so that self-organization defined via maximum energy dissipation can be quantified easily. Here the method is used to analyze long-term data (2004-2006) of a tropical seasonal rain forest included in the ChinaFLUX program. Three years of average self-organization values were clearly separated by seasonal variation. Reflection and long wave radiation are the main two pathways of energy loss. For tropical seasonal rain forest studied, long wave radiation contributed most to energy loss, and was negatively correlated with energy capture ability (Rn/DR). The nocturnal difference between canopy and air temperatures had a strong negative correlation with the long wave radiation loss ratio. However, the long wave radiation loss ratio was slightly lower than the reflection loss ratio in rainy season, when values were very low. Precipitation and wind had significant impact on energy dissipation ability in the hot dry season, but the correlation coefficients between precipitation and wind with thermal response numbers (TRNs) were very low. The results indicated that the self-organization estimation system based on “maximum energy dissipation theory” is applicable for tropical forest.     

海南岛甘什岭低地次生雨林土壤有机碳及影响因素

热带雨林是世界上最复杂的森林生态系统,在全球碳循环中发挥着重要作用。热带低地次生雨林是受人类干扰较为严重的雨林类型,而关于其土壤有机碳库的研究甚少。以海南岛甘什岭热带低地次生雨林为研究对象,通过野外调查采样与室内分析相结合等方法,研究了经人为采伐干扰后自然更新恢复形成的3种林分类型(Ⅰ为较大采伐强度下恢复的灌丛与低矮乔木,Ⅱ为经中等采伐强度恢复成林分密度较大的次生雨林,Ⅲ为因交通条件不便,受采伐干扰较小的次生雨林)的土壤有机碳含量、碳密度的垂直分布特征及其影响因素,旨在为热带低地次生雨林恢复与土壤固碳能力研究提供科学依据。研究结果表明:(1)3种类型低地次生雨林的土壤有机碳含量均随土层深度的增加而降低,垂直分布特征为0—20 cm土层有机碳含量最高(3.07—4.49 g·kg^?1),在类型Ⅲ的变异系数最大为5.60%;(2)土壤有机碳密度的分布特征与有机碳含量基本一致,0—100 cm土层土壤有机碳密度为4.14—6.42 kg·m^?2,仅为全国平均水平的50.8%;(3)土壤有机碳与土壤全氮、碱解氮、有效磷均呈极显著正相关性(P<0.01),与林分凋落物厚度和物种丰富度呈显著正相关性(P<0.05)。热带雨林特有的水热条件、物种丰富度、土壤质地和极度缺磷现象的综合作用是形成其土壤有机碳积累特征的主要因素,加强受干扰破坏热带雨林的保护与修复,有助于土壤有机碳的积累。     

Value of Small Patches in the Conservation of Plant-Species Diversity in Highly Fragmented Rainforest

Abstract:  We evaluated the importance of small (<5 ha) forest patches for the conservation of regional plant diversity in the tropical rainforest of Los Tuxtlas, Mexico. We analyzed the density of plant species (number of species per 0.1 ha) in 45 forest patches of different sizes (1–700 ha) in 3 landscapes with different deforestation levels (4, 11, and 24% forest cover). Most of the 364 species sampled (360 species, 99%) were native to the region, and only 4 (1%) were human-introduced species. Species density in the smallest patches was high and variable; the highest (84 species) and lowest (23 species) number of species were recorded in patches of up to 1.8 ha. Despite the small size of these patches, they contained diverse communities of native plants, including endangered and economically important species. The relationship between species density and area was significantly different among the landscapes, with a significant positive slope only in the landscape with the highest deforestation level. This indicates that species density in a patch of a given size may vary among landscapes that have different deforestation levels. Therefore, the conservation value of a patch depends on the total forest cover remaining in the landscape. Our findings revealed, however, that a great portion of regional plant diversity was located in very small forest patches (<5 ha), most of the species were restricted to only a few patches (41% of the species sampled were distributed in only 1–2 patches, and almost 70% were distributed in 5 patches) and each landscape conserved a unique plant assemblage. The conservation and restoration of small patches is therefore necessary to effectively preserve the plant diversity of this strongly deforested and unique Neotropical region.     

The Value of Primary, Secondary, and Plantation Forests for a Neotropical Herpetofauna

Abstract:  Plantation forests and second-growth forests are becoming dominant components of many tropical forest landscapes. Yet there is little information available concerning the consequences of different forestry options for biodiversity conservation in the tropics. We sampled the leaf-litter herpetofauna of primary, secondary, and Eucalyptus plantation forests in the Jari River area of northeastern Brazilian Amazonia. We used four complementary sampling techniques, combined samples from 2 consecutive years, and collected 1739 leaf-litter amphibians (23 species) and 1937 lizards (30 species). We analyzed the data for differences among forest types regarding patterns of alpha and beta diversity, species-abundance distributions, and community structure. Primary rainforest harbored significantly more species, but supported a similar abundance of amphibians and lizards compared with adjacent areas of second-growth forest or plantations. Plantation forests were dominated by wide-ranging habitat generalists. Secondary forest faunas contained a number of species characteristic of primary forest habitat. Amphibian communities in secondary forests and Eucalyptus plantations formed a nested subset of primary forest species, whereas the species composition of the lizard community in plantations was distinct, and was dominated by open-area species. Although plantation forests are relatively impoverished, naturally regenerating forests can help mitigate some negative effects of deforestation for herpetofauna. Nevertheless, secondary forest does not provide a substitute for primary forest, and in the absence of further evidence from older successional stands, we caution against the optimistic claim that natural forest regeneration in abandoned lands will provide refuge for the many species that are currently threatened by deforestation .     

广东南部电白小良试验站4种森林群落结构的对比研究

通过对小良试验站不同类型、不同林龄的３种人工林群落（群落Ｂ：桉林；群落Ｃ：松桉混交林；群落Ｄ：阔叶混交林）与当地自然次生热带季雨林（乡土林）相比较，从群落结构的角度探讨人工恢复热带森林的可行性．结果表明：从桉林到松桉混交林到阔叶混交林，３种人工林群落的组成结构和空间结构向着复杂性和稳定性方向发展，并逐渐向地带性自然次生林方向演替；群落的相似性研究也表明，阔叶混交林是３种人工林中与乡土林最为相似．因此，对于极度退化的热带丘陵台地区，在一定工程和生物措施基础上，用先锋绿化树种造林成功后，及时用多层多种的阔叶混交林改造原有先锋林，可以加速人工林向地带性植被类型演替．     

33 a生福建柏人工林群落能量的研究

在福建三明对33 a生福建柏和杉木群落能量的研究结果表明福建柏群落和杉木群落干重热值和去灰分热值均以树叶最高,最低的为草本叶和茎或草本根;两个群落不同层次干重热值和去灰分热值的大小均为乔木层>林褥层>灌木层>草本层;两个群落乔木层干重热值和去灰分热值均以干皮最低. 两个群落不同组分灰分含量差异悬殊,最高的均为草本叶和茎,最低的均为干材. 福建柏的干重热值、去灰分热值、灰分含量均高于杉木,表明福建柏生成单位重量生物量的能量耗费比杉木多. 福建柏群落的能量现存量、年净增量、年归还量(通过凋落物)、年净固定量分别是杉木群落的0.97倍、1.65倍、1.15倍和1.36倍. 福建柏群落的太阳能转化效率为1.42%,而杉木群落为1.04%. 林下植被虽然能量现存量仅占群落的很小一部分,但在能量流动中占有重要地位,林下植被的能量流动速率比乔木层大得多,这对维持和提高地力较为有利. 33 a生福建柏群落仍然具有较大的能量年净增量,轮伐期应比杉木长;具有较高的能量流动速率,地力维护的能力也较强,是优良的造林树种. 福建柏经营密度应适当降低,发育群落林下植被以改良地力. 表5 参12     

Modeling the Effects of Anthropogenic Habitat Change on Savanna Snake Invasions into African Rainforest

Abstract:  We used a species-distribution modeling approach, ground-based climate data sets, and newly available remote-sensing data on vegetation from the MODIS and Quick Scatterometer sensors to investigate the combined effects of human-caused habitat alterations and climate on potential invasions of rainforest by 3 savanna snake species in Cameroon, Central Africa: the night adder (Causus maculatus) , olympic lined snake (Dromophis lineatus) , and African house snake (Lamprophis fuliginosus) . Models with contemporary climate variables and localities from native savanna habitats showed that the current climate in undisturbed rainforest was unsuitable for any of the snake species due to high precipitation. Limited availability of thermally suitable nest sites and mismatches between important life-history events and prey availability are a likely explanation for the predicted exclusion from undisturbed rainforest. Models with only MODIS-derived vegetation variables and savanna localities predicted invasion in disturbed areas within the rainforest zone, which suggests that human removal of forest cover creates suitable microhabitats that facilitate invasions into rainforest. Models with a combination of contemporary climate, MODIS- and Quick Scatterometer-derived vegetation variables, and forest and savanna localities predicted extensive invasion into rainforest caused by rainforest loss. In contrast, a projection of the present-day species-climate envelope on future climate suggested a reduction in invasion potential within the rainforest zone as a consequence of predicted increases in precipitation. These results emphasize that the combined responses of deforestation and climate change will likely be complex in tropical rainforest systems.     

Simulation modeling to understand how selective foraging by beaver can drive the structure and function of a willow community

Beaver–willow (Castor-Salix) communities are a unique and vital component of healthy wetlands throughout the Holarctic region. Beaver selectively forage willow to provide fresh food, stored winter food, and construction material. The effects of this complex foraging behavior on the structure and function of willow communities is poorly understood. Simulation modeling may help ecologists understand these complex interactions. In this study, a modified version of the SAVANNA ecosystem model was developed to better understand how beaver foraging affects the structure and function of a willow community in a simulated riparian ecosystem in Rocky Mountain National Park, Colorado (RMNP). The model represents willow in terms of plant and stem dynamics and beaver foraging in terms of the quantity and quality of stems cut to meet the energetic and life history requirements of beaver. Given a site where all stems were equally available, the model suggested a simulated beaver family of 2 adults, 2 yearlings, and 2 kits required a minimum of 4 ha of willow (containing about10 stems m⁻²) to persist in a steady-state condition. Beaver created a willow community where the annual net primary productivity (ANPP) was 2 times higher and plant architecture was more diverse than the willow community without beaver. Beaver foraging created a plant architecture dominated by medium size willow plants, which likely explains how beaver can increase ANPP. Long-term simulations suggested that woody biomass stabilized at similar values even though availability differed greatly at initial condition. Simulations also suggested that willow ANPP increased across a range of beaver densities until beaver became food limited. Thus, selective foraging by beaver increased productivity, decreased biomass, and increased structural heterogeneity in a simulated willow community.     

茶树上游猎型蜘蛛功能团对景观低碳管理模式的反应

目前温室效应加剧、生物多样性减少以及农田环境污染加重等问题已成为关注的焦点。由于蜘蛛是环境变化的指示标志和农业生中的重要捕食性天敌。通过选择茶树上游猎型蜘蛛为研究对象,调查分析景观低碳管理模式茶园（JG）与习惯管理模式茶园（XG）对茶树上游猎型蜘蛛组成、结构以及群落数量特征的影响。结果表明：JG茶园茶树上游猎型蜘蛛种类较多,有8个科,18个种;XG茶园有6个科,13个种;优势种和丰盛种中,JG茶园个体数为375头、195头,比XG茶园分别提高1.16、0.33倍。JG与XG两类茶园的蜘蛛种群数量特征在年龄结构、性别比例方面存在显著差异（P＜0.001）;JG茶园雌蛛个体数为157头、雄蛛个体数为320头,是XG茶园的1.12和1.32倍;JG茶园成蛛与幼蛛个体数是XG茶园的1.25和0.87倍,成蛛比幼蛛高出46.32%,而XG茶园成蛛比幼蛛高出21.82%;JG茶园蜘蛛种群数量特征发生动态显著高于XG茶园（P＜0.05）。JG茶园蜘蛛多样性指数和丰富度指数比XG茶园增加16.46%和12.14%。主成分分析表明,第一、二主成分累计贡献率达50.47%, JG茶园位置明显接近光盔蛛科（Liocranidae）、圆颚蛛科（Corinnidae）、跳蛛科（Salticidae）和管巢蛛科（Clubionidae）等蜘蛛群落数量分布较多的方向偏移,而XG茶园则向盗蛛科（Pisauridae）和猫蛛科（Oxyopidae）等蜘蛛群落数量分布较少方向靠近。由此可知,茶园实行低碳管理,实行复合种植,有利于减少CO2气体排放,保护茶树上游猎型蜘蛛种类多样性,提高对害虫的自然控制能力,为茶园固碳增汇,茶叶产值提高打下了基础。     

半干旱区人工封育草场植物群落物种多样性与复杂性研究──以宁夏盐池为例

围栏封育促进植被恢复效果研究方法很多,其中通过研究植被的群落特征及物种多样性来阐述恢复状况仍是比较常用和有效的手段,但多样性测度对生物群落的自组织及有序性方面的特征描述欠缺,鉴于此,多样性与复杂性测度结合起来研究群落结构与功能显得更有意义。研究人工封育对植被恢复过程中群落的多样性与复杂性的影响,必然有助于揭示生态恢复过程机理。目前,利用多样性与复杂性测度相结合来对群落结构进行量化研究不多,用于对草原生态系统植物群落结构研究更少。本文通过样地调查,利用多样性和复杂性指数相结合定量研究半干旱区人工封育草场植物群落物种多样性、复杂性随封育年限的变化规律,并对比分析复杂性与物种多样性之间的相关性。结果表明,（1）老封育区、新封育区丰富度指数整体高于对照区,说明封育有利于物种丰富度的增加。但随封育时间的延长,封育区的优势种占据主要的资源空间,丰富度指数降低。长时间封育,草场植被丰富度将发生规律性波动变化,低峰值和高峰值出现频率均约为4~5年/次。老封育区、新封育区的SW、SP多样性指数值大部分也高于对照区,说明封育措施增加草场植被的多样性。物种多样性指数受降水影响显著,当降水量增加或减少时,多样性指数也相应出现增加或减少,但降水影响效应具有一定的滞后性。老封育区、新封育区均匀度变化比较平稳,且指数值高于对照区,说明封育有利于均匀度的增加。（2）老封育区、新封育区总复杂性指数、无序结构复杂性指数值大部分比对照区指数值高,且指数波动相对平稳,说明封育区群落结构比对照区稳定,更适合荒漠草原植被的生长,封育增加了群落总复杂性、无序结构复杂性。封育也提高群落有序结构复杂性,但?     

紫茎泽兰入侵过程中生物群落的交互作用

生物入侵在全球范围内影响了生物群落的结构与功能,打破了群落内物种共存的生态格局,继而反馈性影响全球环境。该文就外来杂草紫茎泽兰入侵对生物群落之间交互作用的影响进行了分析。1）紫茎泽兰通过竞争排斥降低了土著植物群落的多样性,造成依赖于土著植物的节肢动物群落减少或丧失适宜的栖息环境。2）打破了土著植物与节肢动物之间相互依存的状态,并通过单优群落优势和强烈化感作用制约天敌昆虫的自然控制作用。3）通过改变地表生境和枯落物种类影响土壤动物群落。4）引起土壤微生物群落组成和功能的变化,改变土壤中可利用资源的形式和数量,影响并重塑了生物种间互作模式,并动态反馈于地面植物群落新格局的形成。分析指出：1）入侵过程中群落之间的交互作用通过多层次生态过程对群落结构与功能的生态改变发挥影响。2）入侵对生物群落的改变所产生的生态驱动反馈性作用于群落互作模式的重塑、群落和生态系统新格局的重建。同时,指出了生物入侵对群落影响的复杂性以及后续研究的方向。     

Mammal Diversity and Conservation in the Selva Lacandona, Chiapas, Mexico

The Selva Lacandona region of Chiapas, Mexico, has high biodiversity, represents the last large portion of tropical rainforest in México, and faces imminent destruction. Through fieldwork and literature searches I found a total of 112 mammal species (including 17 Middle-American endemics) on the Lacandona's 331,200 ha Montes Azules Biosphere Reserve. This inventory plus those from eight additional Neotropical localities show local mammal species richness in the Neotropics to be in the range of 70–116 species. Richness is primarily correlated with the amount of annual rainfall, but within rainforest areas species richness is probably not correlated with rainfall, latitude, altitude, or area size. Rather, above a certain limit of rainfall and below a critical level of latitude and altitude, mammal species richness seem to reach an asymptotic maximum. Areas covered with tropical rainforest and with a well-known, relatively intact fauna have about 112–116 mammal species. In the Montes Azules Reserve most mammals (57%) are bats. The most heavily occupied feeding guilds are frugivores/herbivores and insectivores/omnivores. Large species and carnivores appear most vulnerable to local extinction. Montes Azules (and thus the Selva Lacandona) is especially noteworthy because (1) it contains a greater proportion of species facing conservation problems than expected from a random draw of Mexican mammals; (2) it is probably the most diverse ecosystem in Mexico; (3) many species sustain their only Mexican populations in this area; and (4) it is the largest remnant of tropical rainforest in Mexico and is part of the largest expanse of that vegetation type in Central America.     

Latitudinal variation in local interactions and regional enrichment shape patterns of marine community diversity

While communities are shaped by both local interactions and enrichment from the regional species pool, we propose a hypothesis that the balance of these forces shifts with latitude, with regional enrichment dominating at high latitudes and local interactions dominating at low latitudes. To test this hypothesis, we conducted a latitudinal-scale experiment with marine epifaunal communities. In four regions of the North Atlantic Ocean and Caribbean Sea, we used mimics of ecosystem engineers to manipulate biogenic structural complexity. We iteratively evaluated diversity patterns of experimental communities up to one year after deployment. Additional data were also collected from one of our tropical sites 2.5 years after initial deployment. As hypothesized, we found a reciprocal latitudinal gradient in the effects of the structurally complex mimics and regional enrichment. In the tropics, local diversity was always higher in association with the mimics than in exposed areas that were more open to predation. This effect was consistent across two spatial scales and beyond the one-year timescale of the experiment. In temperate communities, no consistent effects of the mimics on diversity were observed. However, the proportion of species from the regional species pool that were present at the local scale increased from the tropics to the temperate zone, consistent with the hypothesis that higher-latitude communities may experience greater influence from the regional species pool than communities at low latitudes. This study represents the first large-scale experimental demonstration that suggests that the relative impact of local interactions and regional enrichment on community diversity may depend on latitude.     

Phytoplankton production: seasonal change in the oceanic eastern tropical Pacific

The suggestion that the annual cycle of plant production in tropical oceanic regions may be negligible or non-existent is examined, using data from a year-long cruise series in the eastern tropical Pacific. Results of analysis of variance show a highly significant seasonal effect. Average values of the seasonal cycle were found to range from 127 to 318 mg C/m²/day, a systematic two-fold variation over the year. Annual production was 75 g C/m²/year. Significant differences also were found between longitudes, and a slightly significant interaction occurred between season and longitude. Probable sources of the seasonal cycle include time variation of thermocline topography and variation of nutrient supply from local source areas such as the Costa Rica Dome, Gulf of Tehuantepec, Peru Current extension, and Equatorial Undercurrent domain.     

不同森林恢复类型对土壤生物学特性的影响

比较研究了南方红壤侵蚀区4种主要森林恢复类型下土壤中有机质、微生物结构与功能以及酶活性.结果表明,不同的森林恢复类型导致了土壤生物学性状的明显差异.4种森林类型的土壤生物学性状均比长期干扰下CK的高.人工林土壤生物学性状相对比天然次生林土壤差.整合上述指标的土壤生物学肥力指数分别为:天然次生林(0.752)、油茶林(0.611)、杉木林(0.422)、湿地松林(0.439)、对照(0.124).在森林恢复初期,采用自然恢复有效地提高了土壤生物学肥力.导致天然次生林土壤生物学活性相对较高的主要因素是较高的凋落物产量和质量、较高的根系生物量、较丰富的植物种类组成、较优越的土壤生态条件和快速的植物生长.在反映土壤生物学活性的指标选择方面,培养基平均颜色变化率(AWCD)、培养基丰富度和培养基Shannon-Wiener多样性指数与反映土壤生物学活性的大部分指标具有较好的相关关系,是反映土壤生物学活性的较好指标.图3表6参68     

Matter accumulation and energy expenditure in planktonic ecosystems at different trophic levels

Functional peculiarities of pelagic communities from temperate and tropical zones of the ocean have been investigated in terms of food-web interrelations and balance sheets of matter and energy of the major populations and ecological groupings. Ranging from temperate or epiplankton ecosystems to tropical oceanic or deepwater ones, as well as from upwelling zones to stable oceanic oligotrophic regions, the following regular changes in the communities' main functional indices have been established: (1) enlargement of the food spectrum, omnivorousness and predatory activity; (2) reduction of rations and rates of organic matter accumulation in the lower heterotrophic levels with simultaneous increase of energy expenditure; (3) increased trophic complexity and stability of communities. Epiplanktonic systems of low stability proved to be richer and commercially more profitable.     

Water budget and the consequent duration of canopy carbon gain in a teak plantation in a dry tropical region: Analysis using a soil–plant–air continuum multilayer model

A soil–plant–air continuum multilayer model was used to numerically simulate canopy net assimilation (A_n), evapotranspiration (ET), and soil moisture in a deciduous teak plantation in a dry tropical climate of northern Thailand to examine the influence of soil drought on A_n. The timings of leaf flush and the end of the canopy duration period (CDP) were also investigated from the perspective of the temporal positive carbon gain. Two numerical experiments with different seasonal patterns of leaf area index (LAI) were carried out using above-canopy hydrometeorological data as input data. The first experiment involved seasonally varying LAI estimated based on time-series of radiative transmittance through the canopy, and the second experiment applied an annually constant LAI. The first simulation captured the measured seasonal changes in soil surface moisture; the simulated transpiration agreed with seasonal changes in heat pulse velocity, corresponding to the water use of individual trees, and the simulated A_n became slightly negative. However, in the second simulation, A_n became negative in the dry season because the decline in stomatal conductance due to severe soil drought limited the assimilation, and the simultaneous increase in leaf temperature increased dark respiration. Thus, these experiments revealed that the leaflessness in the dry season is reasonable for carbon gain and emphasized the unfavorable soil water status for carbon gain in the dry season. Examining the duration of positive A_n (DPA) in the second simulation showed that the start of the longest DPA (LDPA) in a year approached the timing of leaf flush in the teak plantation after the spring equinox. On the other hand, the end appeared earlier than that of all CDPs. This result is consistent with the sap flow stopping earlier than the complete leaf fall, implying that the carbon assimilation period ends before the completion of defoliation. The model sensitivity analysis in the second simulation suggests that a smaller LAI and slower maximum rate of carboxylation likely extend the LDPA because soil water from the surface to rooting depth is maintained longer at levels adequate for carbon gain by decreased canopy transpiration. The experiments also suggest that lower soil hydraulic conductivity and deeper rooting depth can postpone the end of the LDPA by increasing soil water retention and the soil water capacity, respectively.     

Habitat complexity impacts persistence and species interactions in an intertidal whelk

Although experiments have shown that habitat structure may influence the distribution of species and species interactions, these effects are still not commonly integrated into studies of community dynamics. Since habitat structure often varies within and among communities, this may limit our understanding of how various factors influence communities. Here, we examined how mussel bed complexity (the presence and thickness of mussel layers) influenced the persistence of whelks (Nucella emarginata) and interactions with a top predator (ochre sea stars, Pisaster ochraceus) and prey (mussels, Mytilus californianus). Results from a mark?Crecapture experiment indicate that whelk recapture rates are higher in more complex habitats, and laboratory experiments demonstrate that habitat complexity affects whelk feeding, growth, and nonconsumptive interactions with a keystone predator. Habitat complexity therefore has direct effects on species and also may lead to trade-offs among feeding, refuge, and other factors, potentially influencing the distribution of whelks and the effects of both whelks and sea stars on intertidal communities. These results demonstrate that habitat structure may play an important role in intertidal communities and other habitats and should be further considered in the experimental design of future studies of community dynamics.     

松嫩草甸不同退化程度生境土壤磷素动态研究

对松嫩草甸不同退化程度生境的几种代表植物群落土壤磷素状况的研究表明,各群落相同土层的全磷含量没有显著的差异,说明土壤磷库具有较强的弹性,土壤退化落后于地上植物群落的退化.各群落土壤全磷的季节变化相似,均经历迅速累积,达到峰值后下降,之后又有一个缓慢积累的过程.羊草、寸草苔和碱茅群落全磷含量随土层的加深而减少,虎尾草群落土壤全磷聚集于10~20cm土层.随退化程度的加重,土壤速效磷含量增加,虎尾草群落土壤速效磷占全磷的比重最高(2.8%),表明退化生境植物群落对速效磷素的利用并不充分.各群落土壤微生物量磷含量均高于速效磷含量,其季节动态均为单峰曲线,峰值出现在8月.虎尾草群落土壤微生物量磷在10~20cm的土层最多,其他群落土壤微生物量磷在0~10cm土层的含量最多.灰色分析的结果表明,土壤速效磷的形成主要受到土壤养分,尤其是碳、氮养分的影响;而土壤温度、水分状况、酸碱状况和盐化程度等因素对土壤微生物量磷的影响较强.图2表3参26     

Effects of Local Disturbance of Tropical Forests on Frugivores and Seed Removal of a Small-Seeded Afrotropical Tree

Abstract:  Small-scale, local disturbance of tropical forests, for example from selective logging, is widespread, but its effects on biodiversity and ecosystem function have rarely been studied. In 3 East African tropical rainforests, we investigated the effect of different levels of local forest disturbance on the frugivore community and on tree visitation and fruit removal rates of the small-seeded tree Celtis durandii. We quantified birds and primates in little and heavily disturbed sites, distinguishing between forest specialists, forest generalists, and forest visitors. We quantified frugivorous tree visitors and seed removal rates of C. durandii trees in the same sites. Forest disturbance reduced the species richness and density of the frugivore community and of forest specialists. Frugivorous species and individuals visiting the study trees were reduced significantly, which led to a marginally significant decline in fruit removal by all frugivores and a significant reduction in removal by forest specialists. Reduction in fruit removal by forest specialists was not compensated for by increases in removal by forest generalists or visitors. Results did not differ among the 3 rainforests, which suggests they were consistent at a regional scale. So local forest disturbance led to a loss of frugivores and their seed removal services. This suggests that large-seeded tree species and trees with small fruits are losing seed dispersers. Thus, local forest disturbance appears to have a more general negative impact on frugivores and their seed dispersal services than anticipated previously.