土壤水分对外来入侵植物五爪金龙植株表型可塑性和化感作用的影响

外来入侵植物五爪金龙（Ipomoea cairica）对华南地区的生态环境造成严重危害,表型可塑性可增强外来物种的入侵能力。本文通过盆栽试验研究土壤含水量为10%、20%和30%对外来入侵植物五爪金龙种子萌发、植株表型可塑性和化感作用的影响,探讨五爪金龙对土壤水分变化的响应机理,为进一步了解五爪金龙的入侵机理和提高对入侵种的预警和控制能力提供理论依据。结果表明,（1）在土壤含水量为10%,20%和30%条件下,五爪金龙种子的萌发率分别为15.2%、36.4%和33.6%。五爪金龙种子的萌发率随土壤含水量的增加而增加,尤其是在土壤含水量为30%时,五爪金龙种子萌发率最高。（2）土壤含水量为10%、20%和30%时,五爪金龙植株的总生物量分别为0.88、2.26和2.42 g。与土壤含水量为10%相比,土壤含水量为20%和30%条件下五爪金龙的总生物量分别增加了156.8%和175.0%,表明土壤水分增加显著增加了五爪金龙的总生物量。土壤含水量增加显著增加了五爪金龙的叶面积、叶生物量比、比叶面积和茎长,同时减少了根生物量比和根冠比,而对茎生物量比无显著影响。（3）相同浓度的五爪金龙水浸提液对受体植物莴苣（Lactuca sativa）和萝卜（Raphanus sativus）根长和苗高生长的化感抑制作用随着土壤含水量的减少而增强。研究表明：五爪金龙通过改变生物量分配模式和化感潜力对土壤水分变化有一定的适应能力。     

川西亚高山、高山森林土壤微生物生物量和酶活性动态特征

为深入了解川西亚高山/高山森林冬季生态学过程,于2008年11月─2009年10月,在土壤冻结初期、冻结期和融化期及植被生长季节,研究了不同海拔岷江冷杉林（Abies faxoniana）土壤微生物生物量和酶活性动态。各海拔森林土壤在冬季维持着较高的微生物生物量含量和酶活性,并随土壤冻融过程不断变化。土壤有机层和矿质土壤层冬季微生物生物量碳和氮含量及转化酶和尿酶活性均表现出受冻结初期土壤冻融循环影响显著降低,在冻结期变化不明显,在融化期急剧增加至融化后显著降低的趋势,且土壤有机层微生物生物量含量和酶活性在融化期具有一个明显的年高峰值。海拔变化显著影响了土壤酶活性,但对土壤微生物生物量不显著。土壤温度与土壤微生物生物量含量相关显著。这表明季节性冻融期是土壤生态过程的重要时期,土壤冻融格局显著影响川西亚高山/高山森林土壤微生物生物量和酶活性动态。     

Microalgae Scenedesmus obliquus as renewable biomass feedstock for electricity generation in microbial fuel cells （MFCs）

Renewable algae biomass, Scenedesmus obliquus, was used as substrate for generating electricity in two chamber microbial fuel cells （MFCs）. From polarization test, maximum power density with pretreated algal biomass was 102mW·m^2 （951mW·m^3） at current generation of 276mA·m^-2. The individual electrode potential as a function of current generation suggested that anodic oxidation process of algae substrate had limitation for high current generation in MFC. Total chemical oxygen demand （TCOD） reduction of 74% was obtained when initial TCOD concentration was 534mg · L^-1 for 150 h of operation. The main organic compounds of algae oriented biomass were lactate and acetate, which were mainly used for electricity generation. Other byproducts such as propionate and butyrate were formed at a negligible amount. Electrochemical Impedance Spectroscopy （EIS） analysis pinpointed the charge transfer resistance （112Ω ） of anode electrode, and the exchange current density of anode electrode was 1214 nA·cm^-2.     

生物质快速热解液化技术的研究

在介绍了生物质热解机理的基础上。论述了生物质快速热解液化技术的一般工艺流程及国内外的研究进展。并详述了自行研制的转锥式生物质热解液化装置的反应器结构。     

Survival,reproduction, and recruitment of woody plants after 14 years on a reforested landfill

With the advent of modern sanitary landfill closure techniques, the opportunity exists for transforming municipal landfills into urban woodlands. While costs of fullscale reforestation are generally prohibitive, a modest planting of clusters of trees and shrubs could initiate or accelerate population expansions and natural plant succession from open field to diverse forest. However, among woody species that have been screened for use on landfills, these ecological potentials have not yet been investigated. We examined a 14-yr-old landfill plantation in New Jersey, USA, established to test tolerance of 19 species of trees and shrubs to landfill environments. We measured survivorship, reproduction, and recruitment within and around the experimental installation. Half of the original 190 plants were present, although survival and growth rates varied widely among species. An additional 752 trees and shrubs had colonized the plantation and its perimeter, as well as 2955 stems of vines. However, the great majority (>95%) of woody plants that had colonized were not progeny of the planted cohort, but instead belonged to 18 invading species, mostly native, bird-dispersed, and associated with intermediate stages of secondary plant succession. Based on this evidence, we recommend that several ecological criteria be applied to choices of woody species for the restoration of municipal landfills and similar degraded sites, in order to maximize rapid and economical establishment of diverse, productive woodlands.     

THE POTENTIAL FOR IMPACT OF INUNDATION OF TERRESTRIAL VEGETATION ON THE WATER QUALITY OF QUABBIN RESERVOIR – COMMONWEALTH OF MASSACHUSETTS1

ABSTRACT: Drought in the 1960's lowered Quabbin Reservoir levels and exposed extensive shore areas for up to 12 years. Several vegetation types including gray birch, spirea, reed and cottonwood invaded the exposed shore and were subsequently submerged when water levels rose in 1972–73. Biomass of the flooded vegetation is estimated at 14,000 tons. Using literature-derived estimates of nitrogen and phosphorus concentrations in the vegetation, the potential nutrient release to the reservoir is about 140 tons of N and 14 tons of P. These amounts are comparable to the N and P input into the reservoir during a single year of the planned diversion from the Connecticut River. The critical factor of rate of release of these nutrients by decomposition is the subject of continuing study.     

Changes in Physical and Biological Soil Quality Indicators in a Tropical Crop System (Havana,Cuba) in Response to Different Agroecological Management Practices

The objective of our study was to assess the response of physical (aggregate stability and bulk density) and biological (enzyme activities and microbial biomass) soil quality indicators to the adoption of agroecological management practices, such as the planting of forage species (forage area) and the rotation of local crops (polycrop area), carried out in a representative tropical pasture on an integrated livestock–crop farm. The pasture system was used as control (pasture area). In all three areas, the values of water-soluble C were higher in the rainy season compared to the dry season. Pasture and forage areas had the highest percentage of stable aggregates in the rainy season, while polycrops developed soils with less stable aggregates. Soil bulk density was lower in the pasture and forage areas than in the polycrop area. In the pasture area, the microbial biomass C values, dehydrogenase, urease, protease-BAA, acid phosphatase, and -glucosidase activities were higher than in the forage and polycrop areas, particularly in the dry season. The highest increase in the microbial biomass C in the rainy season, with respect to the dry season, was recorded in the pasture area (about 1.2-fold). In conclusion, the planting of forage species can be considered an effective practice for carrying out sustainable, integrated livestock–crop systems, due to its general maintenance of soil quality, while the adoption of polycrop rotations appears to be less favorable because it decreases soil quality.     

Role of refugia in recovery from disturbances: Modern fragmented and disconnected river systems

Habitats or environmental factors that convey spatial and temporal resistance and/or resilience to biotic communities that have been impacted by biophysical disturbances may be called refugia. Most refugia in rivers are characterized by extensive coupling of the main channel with adjacent streamside forests, floodplain features, and groundwater. These habitats operate at different spatial scales, from localized particles, to channel units such as pools and riffles, to reaches and longer sections, and at the basin level. A spatial hierarchy of different physical components of a drainage network is proposed to provide a context for different refugia. Examples of refugia operating at different spatial scales, such as pools, large woody debris, floodplains, below dams, and catchment basins are discussed. We hope that the geomorphic context proposed for examining refugia habitats will assist in the conservation of pristine areas and attributes of river systems and also allow a better understanding of rehabilitation needs in rivers that have been extensively altered.     

Economics and GHG emission reduction of a PLA bio-refinery system—Combining bottom-up analysis with price elasticity effects

This paper analyses energy savings, GHG emission reductions and costs of bio-refinery systems for polylactic acid (PLA) production. The systems comprise ‘multi-functional’ uses of biomass resources, i.e. use of agricultural residues for energy consumption, use of by-products, and recycling and waste-to-energy recovery of materials. We evaluate the performance of these systems per kg of bio-based polymer produced and per ha of biomass production. The evaluation is done using data of Poland assuming that biomass and PLA production is embedded in a European energy and material market. First, the performance of different bio-refinery systems is investigated by means of a bottom-up chain analysis. Second, an analysis is applied that derives market prices of products and land depending on the own-price elasticity of demand. Thus, the costs of bio-refinery systems depending on the demand of land and material are determined. It is found that all PLA bio-refinery systems considered lead to net savings of non-renewable energy consumption of 70–220 GJ/(ha yr) and net GHG emission reductions of 3–17 Mg CO_2eq/(ha yr). Most of these PLA bio-refinery systems lead to net costs for the overall system of up to 4600 €/(ha yr). PLA production from short rotation wood leads to net benefits of about 1100 €/(ha yr) if a high amount of a high value product, i.e. fibres, is produced. Multi-functionality is necessary to ensure the viability of PLA bio-refinery systems from biomass with regard to energy savings and GHG emission reduction. However, the multi-functional use of biomass does not contribute much to overall incomes. Multifunctional biomass use – especially the use of biomass residues for energy consumption – contributes significantly to savings of non-renewable energy sources. Own-price elasticity of the demand for materials influences the overall costs of the bio-refinery system strongly. The own-price elasticity of land demand markets could become important if bio-refineries are introduced on a large scale.     

滇池湖滨近60a景观格局动态变化研究

在遥感和地理信息系统的支持下,利用1957年、1972年的正射航空影像和2009年Google earth上的高清影像作为信息源,选取了斑密度、结合度、景观多样性和优势度等指标,对滇池湖滨近60a的景观格局变化进行定量分析,并利用马尔科夫转移矩阵模型研究各类景观的转化情况。结果表明：1957～2009年,滇池湖滨的景观格局变化很大,湿地和湖泊先减少后略增加,水田和旱地面积减少,建设用地面积增加,湖滨景观趋于破碎化,景观分布趋于均匀。