Ecological succession as an energy dispersal process

Ecological succession is described by the 2nd law of thermodynamics. According to the universal law of the maximal energy dispersal, an ecosystem evolves toward a stationary state in its surroundings by consuming free energy via diverse mechanisms. Species are the mechanisms that conduct energy down along gradients between repositories of energy which consist of populations at various thermodynamic levels. The salient characteristics of succession, growing biomass production, increasing species richness and shifting distributions of species are found as consequences of the universal quest to diminish energy density differences in least time. The analysis reveals that during succession the ecosystem's energy transduction network, i.e., the food web organizes increasingly more effective in the free energy reduction by acquiring new, more effective and abandoning old, less effective species of energy transduction. The number of species does not necessarily peak at the climax state that corresponds to the maximum-entropy partition of species maximizing consumption of free energy. According to the theory of evolution by natural selection founded on statistical physics of open systems, ecological succession is one among many other evolutionary processes.     

Temperature,Herbivory and Epibiont Acquisition as Factors Controlling the Distribution and Ecological Role of an Invasive Seaweed

The invasive canopy alga, Codium fragile ssp. tomentosoides, first observed at the Isles of Shoals in 1983, has become the dominant canopy species to 8 m throughout the islands. Codium populations are replacing themselves at most sites in what appears to be a new, climax, canopy species. However, Codium densities have declined in protected Gosport Harbor areas where it first became established. Codium has only slowly expanded its presence in adjacent nearshore subtidal habitats. Recent studies suggest a combination of factors that may be influencing the relative success of populations between habitats. The herbivorous sea slug, Placida dendritica, may be reducing populations in protected areas in spite of predators such as the green crab, Carcinus maenas, while surge may inhibit herbivore buildup in exposed habitats. Temperature instability due to localized, wind-driven upwelling may be slowing the buildup of subtidal Codium populations in nearshore sites. The combination of Codium dominance and the acquisition of increasing epibiont diversity are producing a new, potentially more complex community state than the previous kelp-dominated climax typical of the Gulf of Maine.     

Ecological Risk Assessment in Water Resource Management

The US EPA published guidelines for the application of ecological risk assessment (ERA) in the USA in 1998 (US EPA 1998). The process diagram derived by Murray and Claassen (1999) in an evaluation of the US EPA framework is discussed in the context of the South African National Water Act. The evaluation discusses the various steps involved in an ERA and how it can be applied in the implementation of the National Water Act. It is concluded that the application of ERA can make a significant contribution towards sustainable water resource management. Two requirements for this are the need for more demonstration projects and that capacity be developed in risk assessment and risk-based decision making.     

Population Variation in Continuously Varying Traits as an Ecological Genetics Problem

The niche variation hypothesis is an adaptive explanation forvariation within populations and for, the differences in variationbetween populations in morphological, physiological or behavioraltraits. It has received only partial support from empiricaltests and has been criticized on theoretical grounds. Recentquantitative genetic models have made an advance by exploringthe effects of mutation, migration, mating pattern and selectionon phenotypic variance. These models are reviewed and theirmost important features are integrated in a new model. In thismodel population variation is in a state of balance betweenthe opposing forces of mutation and immigration, which tendto elevate variation, and selection and possibly genetic drifttending to decrease it. Populations exhibiting different levelsof variation are interpereted as having different equilibriumpoints, and it is the task of empirical studies to determinethe relative magnitudes of the opposing factors. An exampleis given from studies of Darwin's finches. Geospiza fortis variesmore than G. scandens on Isla Daphne Major, Galápagos,in several morphological traits including beak and body size.This is explained, assuming equal mutation rates in the twospecies, as the result of more frequent genetic input to theG. fortis population, through occasional hybridization withimmigrant G. fuliginosa, and relaxed stabilizing selection.Stabilizing selection is less intense on G.fortis than on G.scandens because the G. fortis population has a broader niche;there is both a within-phenotype and betweenphenotype componentto the broad niche of G. fortis. The success of theory in explainingpopulation variation is discussed, and it is concluded thatempirical studies lag far behind theory.     

Temperature as an enantioselective parameter in enzymatic resolutions of racemic mixtures

Summary In the field of enhancement of the enantiomeric excess, the effect of temperature on the enantiomeric ratio, E, was investigated in lipase catalysed hydrolysis and transesterification. It was found that the equation (E₁)^T1=(E₂)^T2 correlated well with the experimental data obtained.     

Deer Herbivory as an Ecological Constraint to Restoration of Degraded Riparian Corridors

Ungulate herbivory can impact riparian vegetation in several ways, such as by reducing vigor or reproductive output of mature plants, and through increased mortality of seedlings and saplings. Much work has focused on the effects of livestock grazing within riparian corridors, while few studies have addressed the influence of native ungulate herbivory on riparian vegetation. This study investigated the effect of deer herbivory on riparian regeneration along three streams with degraded riparian corridors in Mendocino County, California. We utilized existing stream restoration efforts by private landowners and natural resource agencies to compare six deer exclosures with six upstream control plots. Livestock were excluded from both exclosure and control plots. Three of the deer exclosures had been in place for 15 years, one for 6 years, and two for 4 years. The abundance and size distribution of woody riparian plant species such as Salix exigua, S. laevigata, S. lasiolepis, Alnus rhombifolia, and Fraxinus latifolia were quantified for each exclosure and control plot. The mean density of saplings in deer exclosures was 0.49 ± 0.15/m², while the mean density of saplings in control plots was 0.05 ± 0.02/m². Within exclosures, 35% of saplings were less than 1 m and 65% were greater than 1 m; within control plots, 97% of saplings were less than 1 m in height. The fact that little regeneration had occurred in control plots suggests that deer herbivory can substantially reduce the rate of recovery of woody riparian species within degraded riparian corridors. Exclusionary fencing has demonstrated promising results for riparian restoration in a region with intense deer herbivory.     

Temperature as an autoecological factor of chitinolytic microbial complex formation in soils

The dynamics of carbon dioxide emission from soil was studied during chitinolytic succession induced by humidification and chitin introduction at different temperatures (5, 27, and 50°C) using gas chromatography. The abundance and biomass of the chitinolytic bacterial and actinomycete complex in soil were evaluated by luminescent microscopy. Active development of the chitinolytic microbial complexes was observed at all studied temperatures. The most active growth of chitinolytic microorganisms was observed at high temperature during early succession and at low temperature during late succession. High and low temperatures provided for active development of the chitinolytic microbial complex in soils confined to warm climatic zones (brown desert-steppe soil) and soils of temporary zones (gray forest soil). Actinomycetes demonstrated the most active growth among chitinolytic microorganisms in the studied soil samples both at low and high temperatures.     

Physiological and Ecological Correlates of Preferred Temperature in Fish

Fishes released from constraints of their previous thermal historytend to limit thermal exposure to a narrow range of temperatures.Thermoregulatory behavior (final preferendum) is a stable characteristicof each species studied, suggesting strong regulation by naturalselection. However, the adaptive significance of the final preferendumhas not been documented for most species. Species with widegeographic distributions, such as bluegill sunfish and largemouthbass exhibit constant laboratory final preferenda regardlessof their geographic origin or thermal histories. This apparentevolutionary anomaly of the final preferendum requires furtherstudy. It is no longer adequate to describe responses of fishto thermal gradients, rather falsifiable hypotheses concerningadaptive relations between thermoselection, and physiological,biochemical, life-history and genetic correlates must be developedand tested experimentally.     

Temperature Dependence of Tryptophan Fluorescence Lifetime as an Indicator of Its Microenvironment Dynamics

Doklady Biochemistry and Biophysics - The spectral-kinetic characteristics of the fluorescence of the tryptophan molecule in an aqueous solution and in the composition of a protein (albumin) were...     

工业对生态环境的影响--以广东顺德市为例

环境问题在程度上是由工业发展引起的。以广东省顺德市为例。环境问题如江河、大气、土壤环境污染等与工业三废排放、工业类型、工类布局、工业能耗等有密切关系。解决对策是实施可持志发展战略,调整优化工业结构,工业合理布局规模经营,推行清洁生产、进行污染治理等。     

槐耳近似种白蜡多年卧孔菌活性

基于ITS序列用MEGA分析方法构建多年卧孔菌属28个种的分子系统树,确定白蜡多年卧孔菌和刺槐多年卧孔菌(槐耳)亲缘关系较近。白蜡多年卧孔菌粗提物大多具有一定的清除.DPPH活性,并随着提取物浓度的增加清除率也增高。通过清除.DPPH活力和总还原力比较分析,菌丝体和发酵液较好,较利于工业化开发。对子实体、菌丝体醇提取物、发酵液进行了抗宫颈癌Hela细胞活性检测发现,子实体乙醇提取物、发酵液具有一定的抑制肿瘤细胞的作用。     

Wolbachia Infections in the Cimicidae: Museum Specimens as an Untapped Resource for Endosymbiont Surveys

Wolbachia spp. are obligate maternally inherited endosymbiotic bacteria that infect diverse arthropods and filarial nematodes. Previous microscopic and molecular studies have identified Wolbachia in several bed bug species (Cimicidae), but little is known about how widespread Wolbachia infections are among the Cimicidae. Because cimicids of non-medical importance are not commonly collected, we hypothesized that preserved museum specimens could be assayed for Wolbachia infections. For the screening of museum specimens, we designed a set of primers that specifically amplify small diagnostic fragments (130 to 240 bp) of the Wolbachia 16S rRNA gene. Using these and other previously published primers, we screened 39 cimicid species (spanning 16 genera and all 6 recognized subfamilies) and 2 species of the sister family Polyctenidae for Wolbachia infections using museum and wild-caught material. Amplified fragments were sequenced to confirm that our primers were amplifying Wolbachia DNA. We identified 10 infections, 8 of which were previously undescribed. Infections in the F supergroup were common in the subfamily Cimicinae, while infections in the A supergroup were identified in the subfamilies Afrocimicinae and Haematosiphoninae. Even though specimens were degraded, we detected infections in over 23% of cimicid species. Our results indicate that Wolbachia infections may be common among cimicids and that archived museum material is a useful untapped resource for invertebrate endosymbiont surveys. The new screening primers listed in this report will be useful for other researchers conducting Wolbachia surveys with specimens with less-than-optimum DNA quality.     

Ecological restoration as precaution and not as restitutional compensation

Ecological restoration has become a major issue in environmental management. To overcome the backward orientation of the restoration concept (focusing on reference states and natural ecosystems) the introduction of a precautionary principle is proposed. The principle has been developed for decision-making under high uncertainty about the probability and severity of an environmental damage. Meanwhile, it has been accepted in many countries of the world as a guiding principle for environmental legislation. Likewise it is the basis for international conventions aiming at the conservation of biodiversity. Nevertheless, biodiversity is still neglected in large reclamation projects. Several links between precaution and restoration are described. Restoration can be used to prevent future damage. Otherwise restoration is plagued by uncertainty about the outcome of the measures and may have negative effects or even fail. An analysis of common evaluation methods of restoration projects shows that most approaches focus on comparison of restoration results with a reference state, and are thus useless in a precautionary context. Other methods (e.g. comparing restored with unrestored sites) require data gathered by long-term observation (monitoring) of socio-economically defined desired states (Leitbild). Two large-scale restoration projects are analyzed, coastal land reclamation in Korea and open cast mining reclamation in Germany. Both projects had or have honorific aims and are legally admissible. However, they violate both international law based on precaution and simple rules of prudence or wise use. Costly post hoc ‘restoration’ measures are the usual consequence.     

Ecological niche modelling as an exploratory tool for identifying species limits: an example based on Mexican muroid rodents

Niche conservatism theory suggests that recently diverged sister species share the same ecological niche. However, if the ecological niche evolves as part of the speciation process, the ecological pattern could be useful for recognizing cryptic species. In a broad sense systematists agree that the niche characters could be used for species differentiation. However, to date such characters have been ignored. We used the genetic algorithm for rule‐set production for modelling the ecological niche as a means of inferring ecological divergence in allopatric populations of muroid rodents for which taxonomic identity is uncertain. Our results show that niche differentiation is significant in most of the identified phylogroups. The differentiation is likely associated with natural evolutionary units, which can be identified by applying species concepts based on phylogenetic and ecological patterns (e.g. phylogenetic, cohesive, evolutionary). Even so, the role of the niche partition within phylogenetic reconstruction may be a limited one.