Prioritizing Conservation Effort through the Use of Biological Soil Crusts as Ecosystem Function Indicators in an Arid Region

Abstract: Conservation prioritization usually focuses on conservation of rare species or biodiversity, rather than ecological processes. This is partially due to a lack of informative indicators of ecosystem function. Biological soil crusts (BSCs) trap and retain soil and water resources in arid ecosystems and function as major carbon and nitrogen fixers; thus, they may be informative indicators of ecosystem function. We created spatial models of multiple indicators of the diversity and function of BSCs (species richness, evenness, functional diversity, functional redundancy, number of rare species, number of habitat specialists, nitrogen and carbon fixation indices, soil stabilization, and surface roughening) for the 800,000‐ha Grand Staircase‐Escalante National Monument (Utah, U.S.A.). We then combined the indicators into a single BSC function map and a single BSC biodiversity map (2 alternative types of conservation value) with an unweighted averaging procedure and a weighted procedure derived from validations performance. We also modeled potential degradation with data from a rangeland assessment survey. To determine which areas on the landscape were the highest conservation priorities, we overlaid the function‐ and diversity‐based conservation‐value layers on the potential degradation layer. Different methods for ascribing conservation‐value and conservation‐priority layers all yielded strikingly similar results (r= 0.89–0.99), which suggests that in this case biodiversity and function can be conserved simultaneously. We believe BSCs can be used as indicators of ecosystem function in concert with other indicators (such as plant‐community properties) and that such information can be used to prioritize conservation effort in drylands.     

Microbial diversity and ecological networks as indicators of environmental quality

Evaluating the quality of ecosystems in terms of biological patrimony and functioning is of critical importance in the actual context of intensified human activities. Microbial diversity is commonly used as a bioindicator of ecosystems functioning. However, there is a lack of sensitivity of microbial diversity indicators in the case of moderate and chronic environmental degradation, such as atmospheric deposition of pollutants, agricultural practices, diffuse pollution by wastewater and climate change. As a consequence, there is a need for alternative bioindicators of soils and water quality. Here, we discuss the interest of adopting a more integrative approach based on biotic interaction networks beyond the simple diversity indicators. We review how the various biotic interactions can be integrated in the various microbial networks such as trophic, mutualistic and co-occurrence networks. Then we discuss the efficiency of microbial networks and associated metrics to detect changes in microbial communities. We conclude that the connectance, the number of links and the average degree of co-occurrence networks could vary from 10 to 50% in response to minor perturbations when microbial diversity parameters remain stable. Finally, we analyze studies that aimed at linking microbial networks and activity to evaluate the potential of such networks for providing simple and operational indicators of ecosystem quality and functioning.     

环境中短链和中链氯化石蜡的来源、污染特征及环境行为研究进展

短链氯化石蜡(SCCPs)是持久性有机污染物,已于2017年5月被正式列入《关于持久性有机污染物的斯德哥尔摩公约》附件A的受控名单.中链氯化石蜡(MCCPs)具有相似的性质.由于氯化石蜡(CPs)大量生产以及广泛应用,其在环境介质中的含量处于较高水平.本文综述了 SCCPs和MCCPs的生产和排放,以及2016年以后文...     

醌类图谱分析在环境微生物生态测定中的应用

近年来，随着人们对各种非培养微生物测定法的重视，醌类图谱分析作为微生物群体指标已在各种环境中得到了应用．首先是样品的分析测定技术得到了提高，如用硅胶柱代替薄层色谱．醌类图谱分析的特点是能够同时对应微生物生态评价的3个重要指标，即微生物群体结构、生物量及微生物多样性．在结合统计分析的基础上，在土壤、污泥及堆肥等不同环境样品及不同微生物反应过程中，已通过醌类图谱分析对这3个指标在微生物生态系中的变动进行了成功的评价．另外，对C-14同位素标记醌类图谱分析法及醌类图谱分析法在污染物降解中的应用等最新进展也进行了简介．图4表3参43     

Aktuelle Entwicklungen bei Umweltindikatorensystemen

The current monitoring of the status of the environment and natural resources is a substantial basis for the implementation of a sustainable development as a model of the environmental policy in the terms of Agenda 21. For the 90s, in particular by the mandate of Rio 1992, both the international institutions (international level), e.g. the OECD, the United Nation Commission of Sustainable Development and the European Environmental Agency, and the environmental protection authorities of the different countries (national level) e.g. Germany, and of the federal states of Germany (regional level) are developing environmental indicator systems. In the context of the Local Agenda 21, indicators for the ecological, economic, social and institutional categories are set up on a communal level. In the environmental indicator systems different issues, e.g. climate change, ozone layer depletion, water quality and water resources, waste, toxic contamination, biodiversity, landscape protection, soil resources, forest resources, etc., are described. Concepts with driving forces, pressure, state, impact and/or response indicators are applied. The German Council of Environmental Advisors (SRU) requires that the selection and aggregation of indicators must be transparent and comprehensibly documented and that the chosen indicators must be oriented at political targets. The following article gives an overview of relevant actual environmental indicator systems, their concepts and structuring, and points to the further research and developmental requirements within this area.     

Recent advances in research on cyclic volatile methylsiloxanes in sediment,soil and biosolid: a review

Three cyclic volatile methylsiloxanes (cVMS) were widely used in various processes of production and industrials and frequently added to consumer products. cVMS are continuously released into the environment, causing increasing environmental and human exposing risks. cVMS were investigated in air, water, biogas, soil, sediment, biosolid and organism. Many scholars focused on the occurrence, behaviours, fate and effects of cVMS in environmental matrices all over the world. However, few studies paid attention to the environmental behaviour of cVMS in the solid phase. We assessed their environmental behaviour and fate in soil, biosolid and sediment. High concentrations of cVMS were detected in biosolids. Volatilisation, adsorption and degradation were the major environmental behaviours for cVMS in the solid phase. Although some aquatic organisms showed an appropriate level of bioaccumulation and bioconcentration, there were no obvious evidence of trophic biomagnification in aquatic food webs for octamethylcyclotetrasiloxane (D4) and decamethylcyclopentasiloxane (D5). In addition, cVMS in the environment have not impacted for natural organisms because the concentrations in soil and sediment have not exceeded the maximum no-observed-effect-concentration threshold. Finally, regarding the major environmental behaviour in soil and sediment, suggestions for further study are proposed.     

From data and theory to environmental models and indices formation

A prerequisite for environmental indices is that they represent environmental pressure, and the state of, and impact on environmental conditions. In other words, they should capture as much as possible of the cause-effect chains they represent and relate pressure and effect to criteria of environmental quality. The approach proposed in the article attempts to link the pressure–state–impact–response framework of indicators to the integrated environmental model, based on the method of response function (MRF). The MRF allows to construct purposeful, credible models from data and prior knowledge or information. The data are usually time series observations of system inputs and outputs, and sometimes of internal states. The output of such models is presented with highly aggregated environmental indices, reflecting the main pressure–state–impact–response cause-effect chains. The proposed approach is illustrated with the example of soil erosion indices.     

Native plant diversity resists invasion at both low and high resource levels

Human modification of the environment is causing both loss of species and changes in resource availability. While studies have examined how species loss at the local level can influence invasion resistance, interactions between species loss and other components of environmental change remain poorly studied. In particular, the manner in which native diversity interacts with resource availability to influence invasion resistance is not well understood. We created experimental plant assemblages that varied in native species (1-16 species) and/or functional richness (defined by rooting morphology and phenology; one to five functional groups). We crossed these diversity treatments with resource (water) addition to determine their interactive effects on invasion resistance to spotted knapweed (Centaurea maculosa), a potent exotic invader in the intermountain West of the United States. We also determined how native diversity and resource addition influenced plant-available soil nitrogen, soil moisture, and light. Assemblages with lower species and functional diversity were more heavily invaded than assemblages with greater species and functional diversity. In uninvaded assemblages, experimental addition of water increased soil moisture and plant-available nitrogen and decreased light availability. The availability of these resources generally declined with increasing native plant diversity. Although water addition increased susceptibility to invasion, it did not fundamentally change the negative relationship between diversity and invasibility. Thus, native diversity provided strong invasion resistance even under high resource availability. These results suggest that the effects of local diversity can remain robust despite enhanced resource levels that are predicted under scenarios of global change.     

Mineralölkohlenwasserstoffe im Boden bei der Sanierung von Altlasten

Various analyses and evaluative procedures are used to provide evidence of success using remediation procedures. Because of the lack of standardized procedures for soil assessment, general practice has unfortunately propagated the use of DIN standards for determining the level of similar parameters in water as well as for other heterogeneous matrices (e.g. in soil). A precise auditing of quality, however, has not been possible with this method, this procedure has even put the success of such a remediation into question. This article describes the problems of determining mineral hydrocarbon concentrations on soil as well as portraying the remediation of oil damages which has occurred on a site of a former waste oil redestillation facility [1, 2]. This procedure has been proved in practice and serves as a model because an adequately defined, standardized method (DIN standard) is lacking.     

若尔盖高寒沼泽植物群落与环境因子的关系

了解高寒沼泽植物群落与环境因子之间的关系,对揭示物种对生态环境的需求以及高寒沼泽的保护管理有重要意义,然而目前尚不清楚影响若尔盖高寒沼泽植物分布的主要环境因素。作者于2011—2012年间在若尔盖高寒沼泽随机调查32个样地,收集了植被样方数据、土壤理化性质数据、地表水位等实测数据,借助方差分析、CCA分析和相关分析等经典的统计方法,研究高寒沼泽植物群落物种组成和不同地表积水状况下多样性的差异,以及高寒沼泽植物群落与环境因子的关系。结果显示：若尔盖高寒沼泽植物共有151个种,隶属于39科98属;多样性指数随地表积水的减少呈现出增加的趋势。典范对应分析（CCA）结果表明,第一轴与水位、土壤水分含量、土壤有机碳、土壤总氮显著负相关,与土壤容重显著正相关,第二轴与裸斑率和鼠洞数显著相关。前2个轴一共解释了79．8％的物种与环境因子的关系,与环境因子的相关系数均在0．87以上;其中,水分和土壤养分条件是影响物种分布的主导因子,其次是裸斑面及啮齿动物活动。植物多样性指数与土壤水分负相关,与土壤有机碳和土壤全氮显著负相关,与土壤容重显著正相关。若尔盖沼泽植物群落物种多样性除了受土壤水分和养分条件的影响以外,啮齿动物的活动可能是影响若尔盖沼泽物种分布以及促进群落进一步演替的主要因素之一。     

A proposal for environmental indicators towards industrial building sustainable assessment

The construction sector carries out a very important role in the development of society. It is a basic component of economic activity, having a great influence on employment generation and country growth. The sector generates appreciable environmental changes and effects throughout the planet, leading to gradual exhaustion of natural resources and contamination of basic elements, such as air, water and soil. Recently, there have been advances in favour of more environmentally friendly buildings. Basically, sustainable construction has centred on residential and office buildings. It could be said that there is a lack of sustainability in the construction of industrial buildings, as they present characteristics which differ from other building typologies. This article aims to assess and analyze industrial building environmental effects, and considers a set of green study criteria, such as: location, materials, energy and water consumption, construction and deconstruction characteristics, and waste management in industrial building. At the same time, the studies are hierarchically structured into different assessment elements, such as: criteria, subcriteria and, finally, indicators, comprising the assessment model.     

Interactive effects of plant species diversity and elevated CO2 on soil biota and nutrient cycling

Terrestrial ecosystems consist of mutually dependent producer and decomposer subsystems, but not much is known on how their interactions are modified by plant diversity and elevated atmospheric CO2 concentrations. Factorially manipulating grassland plant species diversity and atmospheric CO2 concentrations for five years, we tested whether high diversity or elevated CO2 sustain larger or more active soil communities, affect soil aggregation, water dynamics, or nutrient cycling, and whether plant diversity and elevated CO2 interact. Nitrogen (N) and phosphorus (P) pools, symbiotic N2 fixation, plant litter quality, soil moisture, soil physical structure, soil nematode, collembola and acari communities, soil microbial biomass and microflora community structure (phospholipid fatty acid [PLFA] profiles), soil enzyme activities, and rates of C fluxes to soils were measured. No increases in soil C fluxes or the biomass, number, or activity of soil organisms were detected at high plant diversity; soil H2O and aggregation remained unaltered. Elevated CO2 affected the ecosystem primarily by improving plant and soil water status by reducing leaf conductance, whereas changes in C cycling appeared to be of subordinate importance. Slowed-down soil drying cycles resulted in lower soil aggregation under elevated CO2. Collembola benefited from extra soil moisture under elevated CO2, whereas other faunal groups did not respond. Diversity effects and interactions with elevated CO2 may have been absent because soil responses were mainly driven by community-level processes such as rates of organic C input and water use; these drivers were not changed by plant diversity manipulations, possibly because our species diversity gradient did not extend below five species and because functional type composition remained unaltered. Our findings demonstrate that global change can affect soil aggregation, and we advocate that soil aggregation should be considered as a dynamic property that may respond to environmental changes and feed back on other ecosystem functions.     

Biodiversity of urban soils for sustainable cities

The last century was marked by a high demographic revolution and the fast development of urban environments. Now, more than 50% of the world’s 7.5 billion humans live in cities. This change has often induced the degradation of environmental quality in urban areas. As a consequence, management policies are now fostering the ‘return of nature’ in cities, which, in turn, is requiring a better understanding of the ecology of urban environments. In particular, there is a need for a better knowledge on soil management because soils provide many functions in cities such as urban agriculture. Optimizing the diversity of soil-living organisms is essential to many environmental functions such as water depollution, biochemical cycles, fertility and carbon storage. However, few studies on the biological quality of urban soils have been performed so far. This article reviews actual knowledge on soil biological quality for urban management. The definition of urban soils is discussed, and we present services provided by soils. We also review modern methods and techniques to assess the biological quality of urban soils. Last, we suggest communication means to improve the consideration of soil quality in urban planning policies aimed at sustainable cities.     

渝北不同模式水源涵养林植物多样性及其与土壤特征的关系

以重庆缙云山8种不同构建模式的水源涵养林及林地土壤为研究对象,用物种多样性指数(simpson指数、Shannon-Wiener指数)、均匀度指数(Pieiou指数)和物种丰富度指数(Margalef指数)以及用土壤容重、毛管孔隙度、非毛管孔隙度、pH值、有机质、全氮、全磷、全钾、速效氮、有效磷、速效钾和阳离子交换量12个指标表征土壤的物理性状和养分特征,分析了8种群落的植物多样性、土壤特征及二者的相互关系.结果表明:物种多样性以广东山胡椒(Lindera kwangtungensis)×杉木((7unninghamia anceolata)混交林最高.马尾松(Pinus massoniana)×广东山胡椒混交林次之,马尾松×柳杉(Cryptomeria fortunei Hooibrenk)混交林和毛竹(Phyllostachys pubescens)纯林最低.各模式林地土壤特征差异显著,以毛竹纯林土壤质量最差.在该地区针阔混交林对提高物种多样性和改良土壤作用显著,针叶林及纯林则较差.物种多样性指数与土壤特征因子的相关性分析表明,不同模式水源林群落植物多样性与土壤特征因子存在一定相关性,其中与土壤物理性状特征关系不显著,与养分特征关系显著.全N与全K与四个多样性指数呈显著或极显著的正相关,Shannon-Wiener指数、Simpson指数和有机质、阳离子交换量、速效P呈显著的正相关,特别是有机质和全N两因子与物种多样性关系最密切.     

Assessment of a model of pollution disaster in near-shore coastal waters based on catastrophe theory

In this study, a model for assessing of environmental disasters in near-shore areas was developed using a multi-criteria evaluation method of catastrophe theory. The assessment model involved scenarios of eutrophication, pollution with heavy metals and organic compounds. An evaluation system of the model was composed of seven mesosphere indicators and twenty underlying indicators including water chemistry, water physics, water biology, heavy metals and organic pollutants in water and surface sediments. The model was applied to possibility assessment of environmental disasters in different functional regions of the Dalian Bay in 2001 and 2006. Results showed that the environmental disaster indicators in 2001 were equivalent to the Level 4 standard values of marine functional areas, but the eutrophication disaster indicators were lower than the Level 4 standard values. It is consistent with the occurrence of a large-scale red tide in Dalian Bay in 2001. In 2006, eutrophication remained the dominant problem of the region but organic pollutants, such as oil, were reduced remarkably. This coincided with ongoing local environmental-friendly practices for industries.     

保护性耕作土壤线虫成熟度及区系分析

土壤线虫的生活史和功能多样性能够反映土壤健康质量和生态环境的演变,耕作措施的改变可能通过影响土壤环境进而影响土壤线虫的生活史和功能多样性,然而关于保护性耕作条件下土壤线虫成熟度及区系分析的研究,国内外尚鲜见报道。为了深入揭示土壤线虫对保护性耕作土壤生态环境变化的生物指示作用,以辽宁彰武县保护性耕作示范推广基地土壤为研究对象,通过实地调查和取样分析,对比研究了传统犁耕和6年保护性耕作（免耕秸秆覆盖）条件下的土壤线虫成熟度指数及区系分析。研究发现,与犁耕相比,保护性耕作显著降低了表层土壤自由生活线虫成熟指数MI、总成熟指数MMI、c-p值为2~5的自由生活线虫成熟指数MI2–5和总成熟指数MMI2–5,降低幅度分别为11%、9%、9%和10%,然而对植物寄生线虫成熟指数PPI以及PPI/MI比值的影响不明显。线虫区系分析结果表明,保护性耕作土壤线虫的富集指数EI和结构指数SI,比犁耕土壤分别显著降低56%和24%。保护性耕作造成的土壤pH降低和可能带来的土壤农药污染,可能是导致其上述影响的主要原因。简单相关分析和主成分分析结果证明,线虫成熟指数MI、MMI、MI2–5和MMI2–5以及结构指数SI与土壤pH关系密切。综上,土壤线虫生活史多样性和功能多样性对于揭示保护性耕作对土壤环境的影响具有良好的作用。     

土地利用、覆被变化（LUCC）与环境变化关系研究进展

土地利用、覆被变化（LUCC）作为环境变化的主要原因之一,已成为全球变化研究的前沿和热点问题。文章总结了国内外 LUCC 与环境变化关系的主要研究成果和方法,继而从气候、碳循环、土壤环境、水环境以及生态环境对土地利用方式的限制等方面概括了 LUCC 与环境变化之间的关系。LUCC 通过改变大气成分和下垫面性质对气候造成影响;影响着陆地生态系统的碳循环;改变土壤的理化性质,带来土壤污染、土壤养分迁移等土壤质量问题;并且引起水体的非点源污染,影响区域的产水量和水循环。同时,环境变化对LUCC具有限制作用。不仅通过特定的气候环境直接限制土地的利用方式;还间接通过借助人类生态环境意识的改变,实现对区域土地利用强度与方式的约束。LUCC既是全球环境变化的原因,也是全球环境变化的结果。LUCC 与生态环境之间存在着复杂的、非线性的动态反馈关系。进一步探讨了当前 LUCC 与环境变化关系的主要研究方向和相关研究方法,针对目前存在的缺乏统一的指标体系,研究区域、时空尺度单一,以单要素静态研究为主,实验研究相对薄弱以及动态模拟不够等问题,提出加强跨学科综合交叉研究、注重多尺度探讨LUCC的环境效应、构建一个 LUCC 环境效应研究的统一指标体系及加强“3S”技术与模拟模型的融合等建议。为寻求更科学更合理的土地利用方式提供了基础信息。     

Rainfall and soils modify plant community response to grazing in Serengeti National Park

Terrestrial plant community responses to herbivory depend on resource availability, but the separate influences of different resources are difficult to study because they often correlate across natural environmental gradients. We studied the effects of excluding ungulate herbivores on plant species richness and composition, as well as available soil nitrogen (N) and phosphorus (P), across eight grassland sites in Serengeti National Park (SNP), Tanzania. These sites varied independently in rainfall and available soil N and P. Excluding herbivores decreased plant species richness at all sites and by an average of 5.4 species across all plots. Although plant species richness was a unimodal function of rainfall in both grazed and ungrazed plots, fences caused a greater decrease in plant species richness at sites of intermediate rainfall compared to sites of high or low rainfall. In terms of the relative or proportional decreases in plant species richness, excluding herbivores caused the strongest relative decreases at lower rainfall and where exclusion of herbivores increased available soil P. Herbivore exclusion increased among-plot heterogeneity in species composition but decreased coexistence of congeneric grasses. Compositional similarity between grazed and ungrazed treatments decreased with increasing rainfall due to greater forb richness in exclosures and greater sedge richness outside exclosures and was not related to effects of excluding herbivores on soil nutrients. Our results show that plant resources, especially water and P, appear to modulate the effects of herbivores on tropical grassland plant diversity and composition. We show that herbivore effects on soil P may be an important and previously unappreciated mechanism by which herbivores influence plant diversity, at least in tropical grasslands.     

土壤微生物生物量及多样性测定方法评述

土壤微生物作为土壤中重要的分解者,在养分的循环与转化中起着重要的作用。另外,由于其与土壤理化性质相比,对外界环境的变化更为敏感,因此,土壤微生物性质常被用作表征土壤质量的灵敏性指标,而土壤微生物生物量与微生物多样性是土壤微生物学研究中应用最广泛的指标。土壤环境复杂,微生物种类丰富多样,需要合适的研究方法才能真正打开土壤系统这个黑箱,自19世纪60年代以后,土壤微生物学在研究方法上取得了重要的进展,本文综述了微生物生物量及多样性的概念及微生物生物量和多样性研究方法的发展状况,重点就已有应用比较多的研究方法如测定微生物生物量的熏蒸法,测定微生物多样性的平板计数法、Biolog微平板计数法、磷脂脂肪酸法及分子生物学等研究方法进行了详细介绍及优缺点分析。结合现有微生物生物量及多样性的测定方法,在未来的研究中,一方面应该引入更多的新技术,发展新方法,以期探索更多的未知微生物种群;其次应该根据实验要求,完善和改进现有研究方法,使其更为统一和准确;再者,在微生物数据的分析上应该探索和借鉴更多的分析方法和手段,从而更深入更全面的解读实验当中所得到的微生物的信息。