微生物多样性保护与病原微生物资源保藏

本文从微生物物种的多样性保护以及病原微生物资源的保藏等方面详细阐述了微生物资源保护与保藏的相互关系与重要性,介绍了微生物多样性保护及其研究进展和意义,病原微生物保藏的概述、资源的收集与共享,以及保藏机构相关信息。     

微生物物种多样性的保护与其资源保藏

从微生物物种多样性的保护以及微生物物种资源的保藏等方面较全面地阐述了微生物物种资源保护与保藏的重要性及其相互关系 ,阐明了微生物菌种保藏的原理及方法 ,同时介绍了保藏技术领域的研究动向和保藏机构或组织在微生物资源的保藏、开发和交流等方面所起的重要作用     

新疆艾比湖和伊吾湖可培养嗜盐古菌多样性

新疆地区盐湖密布,蕴藏着丰富的微生物资源。为保护和利用微生物物种与基因资源,作者从新疆准噶尔盆地的艾比湖和天山山间盆地的伊吾湖分离纯化嗜盐微生物。采用PCR方法扩增其中65株嗜盐古菌16SrRNA基因序列。序列分析表明,分离的嗜盐古菌分属6个属,艾比湖以Haloterrigena和Natrinema属的菌株为主,伊吾湖由Haloarcula和Halorubrum两个属的菌株构成。通过多样性指数、丰富度指数、均匀度指数和物种相对多度模型对分离的菌株进行多样性分析和比较,结果表明,盐湖嗜盐古菌的多样性指数、丰富度指数和均匀度指数具有一定相关性,艾比湖可培养嗜盐古菌的多样性高于伊吾湖。研究发现了一些新的物种资源,表明新疆盐湖中孕育的特色微生物资源亟待保护与利用。     

微生物系统发育多样性及其保护生物学意义

近年来,分子系统发育分析方法,特别是rBNA基因同源性分析方法,在微生物多样性的研究中发挥着越来越重要的作用．它克服了传统的微生物分离培养方法的限制,极大地促进了人们对微生物多样性的理解．在遗传信息同源性分析基础上得出的微生物系统发育多样性为多样性的保护提供了新的视点．它不但可以作为微生物多样性评价的手段,而且为多样性保护中优先秩序的确定提供了依据．同时也为生物多样性保护确定了目标,即最大程度地保护系统发育关系中所包含的信息．本文对微生物系统发育多样性的特点及其保护生物学意义进行了简要评述．     

微生物的遗传多样性

微生物是生物圈中不可或缺的重要组成部分, 维系着自然界生态平衡。随着分子生物学技术的发展, 微生物遗传多样性的研究从形态学水平、蛋白水平进入到了DNA水平。而高通量测序技术和宏基因组技术的发展, 不仅为我们理解微生物的遗传多样性提供了更加丰富的信息和有力的证据, 也对于合理利用生物资源、保护生态平衡等方面具有重要意义。文章就微生物遗传多样性研究的相关内容, 如物种的分离鉴定、微生物群体遗传结构、物种形成以及系统发育和进化等方面的研究进展进行综述。     

新疆生产建设兵团塔里木盆地生物资源保护利用重点实验室

依托塔里木大学建设的“新疆生产建设兵团塔里木盆地生物资源保护利用重点实验室”位于塔里木盆地腹地新疆阿拉尔市,于2004年6月成立。实验室以“环塔里木生物多样性”为主要研究对象,重点围绕“南疆特色果树种质资源与遗传育种、特殊微生物及其基因资源开发利用、荒漠植物生物多样性保护与环境重建、天然产物分子结构与功能”四个研究方向从事应用基础科学研究。在功能重组和合理架构的过程中,形成了果树种质资源研究室、果树遗传育种研究室、应用微生物研究室、生物多样性研究室、天然产物研究室、分子生物学研究室、分析测试室、植物组织培养及种苗繁育基地、化学工程及大规模发酵中试基地的“七室两基地”的研究单元。     

城市土壤微生物多样性研究进展

城市化对生物多样性的影响是当前生态学研究的热点之一, 引起了人们的广泛关注。土壤微生物多样性是城市生物多样性的重要组成部分, 对维持城市生态系统的健康稳定具有重要意义和作用。近年来, 已有研究关注城市土壤微生物群落结构及多样性, 回答了一些关键问题, 但缺乏系统的总结与论述。基于此, 本文分析了城市化对土壤微生物特性、群落组成、功能和多样性的影响, 总结了影响城市土壤微生物多样性的主要因素, 发现城市化改变了土壤微生物组成和功能, 并且对细菌和真菌多样性的影响存在差异, 城市环境因子通过直接和间接作用共同影响土壤微生物多样性。进一步探讨了城市土壤微生物多样性的维持与保护, 并对今后城市土壤微生物研究需要关注的问题进行了展望, 包括: (1)城市化对城市绿地土壤微生物多样性的影响机制; (2)城市土壤微生物多样性变化对生态系统多功能性的影响; (3)土壤微生物多样性与人类健康的关系。以期为城市土壤生物多样性保护研究提供参考。     

温泉微生物多样性与酶类分析

温泉微生物多样性包括物种多样性、遗传多样性、生理多样性和生态多样性。温泉微生物多样性受地理位置、温度和酸碱度、水化学成分(硫、硼、铁、砷等离子和化合物)及氧气和光照等生态因子的影响。目前已经从温泉微生物中筛选出了许多具有热稳定性的酶。本文分析了温泉微生物多样性及其影响因素,并讨论了具有广泛应用价值的温泉微生物酶,为拓展我国温泉微生物多样性研究、深入认识和开发温泉微生物资源提供基础。     

土壤微生物多样性及其环境影响因子研究进展

土壤中存在丰富的微生物资源,不同土壤系统具有不同的微生物群落,微生物多样性既依赖于生态系统又服务于生态系统。本文从物种多样性、遗传多样性、生态类型多样性、功能多样性四个方面对土壤微生物多样性进行了新的诠释,总结论述了土壤微生物多样性与环境因子如土壤、植物群落和气候条件之间的关系,并对目前存在的问题和今后面临的挑战提出几点看法。     

中国温泉微生物物种多样性及其酶活性研究进展

微生物作为生物群体的重要组成成员,其生长受外界物化条件(如温度、盐度、pH等)影响较大。温泉作为极端水生环境之一,属于相对稳定且较为特殊的生态系统,使生长于其中的微生物可能具有适应高温等特殊生境的独特生存生理机制,具体表现为微生物物种及其活性次级代谢产物呈现出一定的多样性与新颖性。本文从菌株物种多样性分析及其酶活性研究方面,综述了近5年来国内温泉微生物相关研究进展,以期为温泉等极端环境微生物资源开发与保护提供参考。     

Beyond taxonomic diversity patterns: how do α, β and γ components of bird functional and phylogenetic diversity respond to environmental gradients across France?

Aim To test how far can macroecological hypotheses relating diversity to environmental factors be extrapolated to functional and phylogenetic diversities, i.e. to the extent to which functional traits and evolutionary backgrounds vary among species in a community or region. We use a spatial partitioning of diversity where regional or γ‐diversity is calculated by aggregating information on local communities, local or α‐diversity corresponds to diversity in one locality, and turnover or β‐diversity corresponds to the average turnover between localities and the region. Location France. Methods We used the Rao quadratic entropy decomposition of diversity to calculate local, regional and turnover diversity for each of three diversity facets (taxonomic, phylogenetic and functional) in breeding bird communities of France. Spatial autoregressive models and partial regression analyses were used to analyse the relationships between each diversity facet and environmental gradients (climate and land use). Results Changes in γ‐diversity are driven by changes in both α‐ and β‐diversity. Low levels of human impact generally favour all three facets of regional diversity and heterogeneous landscapes usually harbour higher β‐diversity in the three facets of diversity, although functional and phylogenetic turnover show some relationships in the opposite direction. Spatial and environmental factors explain a large percentage of the variation in the three diversity facets (>60%), and this is especially true for phylogenetic diversity. In all cases, spatial structure plays a preponderant role in explaining diversity gradients, suggesting an important role for dispersal limitations in structuring diversity at different spatial scales. Main conclusions Our results generally support the idea that hypotheses that have previously been applied to taxonomic diversity, both at local and regional scales, can be extended to phylogenetic and functional diversity. Specifically, changes in regional diversity are the result of changes in both local and turnover diversity, some environmental conditions such as human development have a great impact on diversity levels, and heterogeneous landscapes tend to have higher diversity levels. Interestingly, differences between diversity facets could potentially provide further insights into how large‐ and small‐scale ecological processes interact at the onset of macroecological patterns.     

Host plant genus-level diversity is the best predictor of ectomycorrhizal fungal diversity in a Chinese subtropical forest

Microbial diversity is generally far higher than plant diversity, but the relationship between microbial diversity and plant diversity remains enigmatic. To shed light on this problem, we examined the diversity of a key guild of root-associated microbes, that is, ectomycorrhizal (EM) fungi along a plant diversity gradient in a Chinese subtropical forest. The results indicated that EM fungal diversity was positively correlated with host plant diversity. Furthermore, this relationship was best predicted by host genus-level diversity, rather than species-level diversity or family-level diversity. The generality of this finding was extended beyond our study system through the analyses of 100 additional studies of EM fungal communities from tropical and temperate forests. Here as well, EM fungal lineage composition was significantly affected by EM plant diversity levels, and some EM fungal lineages were co-associated with some host plant genera. These results suggest a general diversity maintenance mechanism for host-specific microbes based on higher order host plant phylogenetic diversity.     

北京东灵山辽东栎林植物物种多样性的多尺度分析

多尺度分析物种多样性格局能够为有效保护生物多样性提供重要信息.利用物种多样性的加法分配法则分析了样方-坡位-坡面等级尺度系统辽东栎林植物物种多样性(gamma多样性)的alpha多样性和beta多样性在各尺度上的分配关系.结果表明以物种丰富度为指标的区域物种多样性的最大贡献来自坡面尺度,表明坡面尺度是维持辽东栎林物种多样性的有效尺度;而对Simpson多样性和Shannon多样性的最大贡献则来自样方内,这决定于群落物种优势度和稀有度格局;各尺度间beta多样性组分随尺度的增大而增大可能是环境异质性和扩散作用的综合结果.各尺度间Shannon多样性对总体多样性的贡献大于Simpson多样性的贡献是偶见种在各尺度间分配的结果.物种多样性分配的加法法则为物种多样性格局的多尺度分析提供了理论框架,是检验物种多样性格局形成机制的有效方法.     

On the relationship between plant species diversity and genetic diversity of Plantago lanceolata (Plantaginaceae) within and between grassland communities

Aims and Methods The relationship between genetic diversity and species diversity and the underlying mechanisms are of both fundamental and applied interest. We used amplified fragment length polymorphism (AFLP) and vegetation records to investigate the association between genetic diversity of Plantago lanceolata and plant species diversity using 15 grassland communities in central Germany. We used correlation and partial correlation analyses to examine whether relationships between genetic and species diversity were direct or mediated by environmental differences between habitats.Important findings Both within- and between-population genetic diversity of P. lanceolata were significantly positively correlated with plant species diversity within and between sites. Simple and partial correlations revealed that the positive correlations indirectly resulted from the effects of abiotic habitat characteristics on plant species diversity and, via abundance, on genetic diversity of P. lanceolata. Thus, they did not reflect a direct causal relationship between plant species diversity and genetic diversity of P. lanceolata, as would have been expected based on the hypothesis of a positive relationship between plant species diversity and niche diversity.     

Perspectives of genomics for genetic conservation of livestock

Genomics provides new opportunities for conservation genetics. Conservation genetics in livestock is based on estimating diversity by pedigree relatedness and managing diversity by choosing those animals that maximize genetic diversity. Animals can be chosen as parents for the next generation, as donors of material to a gene bank, or as breeds for targeting conservation efforts. Genomics provides opportunities to estimate diversity for specific parts of the genome, such as neutral and adaptive diversity and genetic diversity underlying specific traits. This enables us to choose candidates for conservation based on specific genetic diversity (e.g. diversity of traits or adaptive diversity) or to monitor the loss of diversity without conservation. In wild animals direct genetic management, by choosing candidates for conservation as in livestock, is generally not practiced. With dense marker maps opportunities exist for monitoring relatedness and genetic diversity in wild populations, thus enabling a more active management of diversity.     

Species diversity and genetic diversity: parallel processes and correlated patterns

Species diversity and genetic diversity may be correlated as a result of processes acting in parallel at the two levels. However, no theories predict the conditions under which different relationships between species diversity and genetic diversity might arise and therefore when one level of diversity may be predicted using the other. I used simulation models to investigate the parallel influence of locality area, immigration rate, and environmental heterogeneity on species diversity and genetic diversity. The most common pattern was moderate to strong positive species-genetic diversity correlations (SGDCs). Such correlations may be driven by any one of the three locality characteristics examined, but important exceptions and patterns emerged. Genetic diversity and species diversity were more weakly correlated when genetic diversity was measured for rare versus common species. Environmental heterogeneity not only imposes spatially varying selection on populations and communities but also causes changes in species' population sizes and therefore genetic diversity; these interacting processes can create positive, negative, or unimodal relationships of genetic diversity with species diversity. When species are considered as part of multispecies communities, predictions from single-species models of genetic diversity apply in some instances (effects of area and immigration) but often not in others (effects of environmental heterogeneity).     

Relationship between genetic, chemical, and bacterial diversity in the Atlanto-Mediterranean bath sponge Spongia lamella

Does diversity beget diversity? Diversity includes a diversity of concepts because it is linked to variability in and of life and can be applied to multiple levels. The connections between multiple levels of diversity are poorly understood. Here, we investigated the relationships between genetic, bacterial, and chemical diversity of the endangered Atlanto-Mediterranean sponge Spongia lamella. These levels of diversity are intrinsically related to sponge evolution and could have strong conservation implications. We used microsatellite markers, denaturing gel gradient electrophoresis and quantitative polymerase chain reaction, and high performance liquid chromatography to quantify genetic, bacterial, and chemical diversity of nine sponge populations. We then used correlations to test whether these diversity levels covaried. We found that sponge populations differed significantly in genetic, bacterial, and chemical diversity. We also found a strong geographic pattern of increasing genetic, bacterial, and chemical dissimilarity with increasing geographic distance between populations. However, we failed to detect significant correlations between the three levels of diversity investigated in our study. Our results suggest that diversity fails to beget diversity within a single species and indicates that a diversity of factors regulates a diversity of diversities, which highlights the complex nature of the mechanisms behind diversity.     

Additive diversity partitioning in palaeobiology: revisiting Sepkoski’s question

Abstract: Using Whittaker’s concepts of alpha, beta, and gamma diversity, Sepkoski asked how global diversity was assembled at scales ranging from the community to the province. In the years since, ecologists have recast diversity in terms of additive partitions where total diversity can be decomposed into sample‐level alpha diversity plus the sum of a series of beta diversity terms that reflect progressively larger spatial scales. Given that marine alpha diversity represents a tiny fraction of global diversity, Phanerozoic global diversity patterns must be dominated by changes in beta diversity at one or more scales. A ballooning ecological literature demonstrates wide variation in beta diversity among ecosystems, regions, and taxa, suggesting that large changes in beta diversity on evolutionary timescales are likely. But the question is which scales are the most important. Several recent palaeontological studies help to constrain beta diversity within sedimentary basins, and the emergence of sample‐based databases puts an answer to Sepkoski’s question within reach. A new method for calculating diversity partitions for richness is introduced, which allows the calculation of each species’ contribution to alpha and beta diversity, as well as the contribution of each sampling unit to beta diversity.     

内蒙古典型草原建群种羊草基因型多样性抑制群落物种多样性的生态功能

植物群落的物种多样性以及群落建群种的基因型多样性对群落生态功能是否存在交互影响已成为群落生态学研究的热点内容。以内蒙古典型草原群落内常见物种为研究对象,研究了群落物种多样性与建群种羊草(Leymus chinensis)基因型多样性及其交互作用对群落生物量生态功能特性的影响。结果表明:(1)羊草基因型多样性、物种多样性及其交互作用对群落地上、地下和总生物量无显著影响(P0.05);(2)羊草基因型多样性、物种多样性及其交互作用对多样性效应(净多样性效应、互补效应和选择效应)有显著影响(P0.05)。羊草基因型多样性抑制多样性净效应的发挥,且主要抑制互补效应;而物种多样性则促进多样性净效应的发挥,主要表现为选择效应对地上生物量的正效应;(3)互补效应对群落生物量多样性净效应起主要贡献。实验所得结果不仅为探讨多样性效应在物种水平以及群落水平上对群落生物量的影响因素提供了重要启示,而且为内蒙古草原种质资源的保护及合理利用,乃至生态系统的恢复和重建提供理论指导。     

水稻SSR标记的遗传多样性研究进展

本文从SSR标记优点和适用于研究水稻遗传多样性入手,综述了SSR标记在水稻核心种质构建与评价、遗传结构、稻种起源演化等方面的研究进展。总结了水稻遗传多样性的地带性特征（云南是中国稻种资源的最大遗传多样性中心和优异种质的富集地;西南稻区粳稻品种遗传多样性最丰富;南方稻区粳稻品种的遗传多样性高于北方粳稻遗传多样性）、遗传多样性与生态地理位置密切相关、目前水稻品种遗传基础狭窄、多样性降低等特征,分析了遗传多样性成因及影响因素,特别指出了育种行为对遗传多样性的影响,并针对当前水稻品种遗传多样性较低的问题提出了对策。