长江经济带国家级自然保护区内社区居民现状与发展对策

中国自然保护区多处于地理位置偏僻的贫困落后地区，且在有关法律条文规定下，居民对保护区内资源利用受限，特别是核心区和缓冲区中众多的社区居民给自然保护区管理带来压力，自然保护区保护与社区经济发展之间的矛盾日益凸显。文中通过对重点区域长江经济带国家级自然保护区内居民现状进行调查和分析，探讨不同类型自然保护区内社区居民人口密度、经济水平和自然资源依赖程度的差异，并针对自然保护区内社区发展存在的主要问题包括人口众多、经济水平受限等，提出降低保护区内人口密度、多形式提高居民收入、发展生态旅游和加强可持续经营管理等建议。     

The microbial diversity and structure in peatland forest in Indonesia

The microbial community structure and function under forest in tropical peatlands are poorly understood. In this study, we investigated the microbial community structure and diversity in natural peat swamp forest soil, disturbed peat soil and mineral soil in Central Kalimantan, Indonesia, using 454 pyrosequencing. The results showed that the natural peat soil had the greatest fungal species richness (Chao1), which was significantly (p < .05) larger than that in the other two soils. Community structure of both fungi and bacteria in natural peat soil differed significantly from that in the disturbed peat soil (p = .039 and p = .045, respectively). Ascomycota (40.5%) was the most abundant phylum across the three soils followed by Basidiomycota (18.8%), Zygomycota (<0.1%) and Glomeromycota (<0.1%). The linear discriminant analysis with effect size (LEfSe) showed that Ascomycota (p < .05) and genus Gliocephalotrichum (p < .05) dominated in natural peat soil. Functionally, pathotrophs were more abundant in disturbed peat soil (p < .05). Proteobacteria (43.8%) were the most abundant phylum followed by Acidobacteria (32.6%), Actinobacteria (9.8%), Planctomycetes (1.7%). Methylocystis, Telmatospirillum, Syntrophobacter, Sorangium and Opitutus were the more abundant genera in disturbed peat soil, whereas Nevskia and Schlesneria were more abundant in mineral soil and natural peat soil, respectively. The natural peat forest soil supported a more diverse microbiology; however, the land use of such a soil can change its microbial community structure. The results provide evidence that the disturbance of tropical peat land could lead to the introduction and spread of a large number of fungal diseases     

Responses of plant community to the linkages in plant-soil C:N:P stoichiometry during secondary succession of abandoned farmlands,China

Succession is one of the central themes of ecology;however,the relationship between aboveground plant communities and underground soils during secondary succession remains unclear.In this study,we investigated the composition of plant community,plant-soil C:N:P stoichiometry and their relationships during secondary succession after the abandonment of farmlands for 0,10,20,30,40 and 50 a in China,2016.Results showed that the composition of plant communities was most diverse in the farmlands after secondary succession for 20 and 50 a.Soil organic carbon and total nitrogen contents slightly decreased after secondary succession for 30 a,but both were significantly higher than those of control farmland(31.21%-139.10%and 24.24%-121.21%,respectively).Moreover,C:N ratios of soil and microbe greatly contributed to the changes in plant community composition during secondary succession of abandoned farmlands,explaining 35.70%of the total variation.Particularly,soil C:N ratio was significantly and positively related with the Shannon-Wiener index.This study provides the evidence of synchronous evolution between plant community and soil during secondary succession and C:N ratio is an important linkage between them.     

Urban land-use impacts on composition and spatiotemporal variations in abundance and biomass of earthworm community

Soil fauna can sensitively respond to alterations in soil environment induced by land-use changes.However,little is known about the impact of urban land-use changes on earthworm communities.In this study,three land-use types(i.e.,forest,nursery and abandoned lands)were chosen to identify differences in diversity,abundance and biomass of earthworm community in Kunming City.Urban land-use had a pronounced difference in species composition,evenness and diversity of earthworm communities.Forest land had the highest density,biomass and diversity of the earthworm communities.Total abundance was dominated by endogeic species in nursery land(70%)and abandoned land(80%),whereas in the forest land,the earthworm community comprised epigeic,endogeic and anecic species.Temporal changes in earthworm density and biomass were also significantly affected by land-use change.Total density and biomass of earthworms in the forest and nursery lands were highest in September,but highest in the abandoned land in October.The influence of soil physicochemical properties on the earthworm density and biomass also varied with land-use types.Soil temperature significantly affected earthworm density and biomass in the three land-use types.Soil pH was positively correlated with earthworm biomass in the forest land,but negatively associated with earthworm density in the abandoned land.Soil organic matter was positively correlated only with density and biomass of earthworms in the nursery and abandoned lands.Our results suggest that the species composition,abundance and biomass of earthworm communities can be determined by the modification of soil properties associated with urban land-use type.     

1988-2018年哈密绿洲植被覆盖度时空变化及其驱动力

[目的] 对近30 a来哈密绿洲植被覆盖度时空变化及驱动力进行分析，为该地区绿洲持续健康发展提供理论借鉴。[方法] 以1988，1998，2008及2018年4期影像为基础数据，利用像元二分模型计算了基于AFRI_SWIR2指数提取的植被覆盖度，利用动态度指数与植被覆盖度转移矩阵分析哈密绿洲植被覆盖度动态变化；再通过地理探测器对8个影响因子进行探测，探寻哈密绿洲植被覆盖度的驱动因子。[结果] 近30 a来哈密绿洲面积从1988年的214 km²增长到2018年的632.1 km²，增幅达195%，但绿洲内植被覆盖度等级却较低，同时哈密绿洲面积主要扩展的区域在西北部和东南部区域；哈密绿洲的发展阶段可分为3个阶段：1988-1998年为低强度稳定期，1998-2008年为极度扩张期，2008-2018年为高强度稳定期。[结论] 土地利用类型变化是造成哈密绿洲植被覆盖度变化的直接原因，同时在近30 a内，人为因素对哈密绿洲植被覆盖状况的影响远高于自然因素。     

冀西北地区不同生态系统枯落物的水文效应

[目的]揭示不同植被生态系统枯落物水文效应的差异,为张家口地区生态空间格局优化提供支撑。[方法]基于样地调查和统计分析方法,分别对冀西北地区张家口市森林、农田和草地3种生态系统的枯落物在生长季末期持水能力及其与生物量之间的关系进行分析。[结果]①森林生态系统枯落物的最大持水量(30.7t/hm~2)、有效拦蓄量(22.97t/hm~2)、有效拦蓄率(187.49%)和吸水速率(5.84g/h)4个指标均优于其他两类生态系统。②草地枯落物的各项水文指标均值皆高于农田,最大持水率甚至高于森林生态系统。③枯落物生物量与其最大持水量和有效拦蓄量呈显著正相关关系,而枯落物占生态系统总生物量的比例随总生物量增加呈幂数下降。[结论]如果造林营林方式正确,森林生态系统能够提升区域水源涵养水平,同时草地的水源涵养能力不容忽视,市域内大范围的耕地向草地扩展,将直接影响区域的水源涵养能力。以生物量表征的生态系统固碳能力与枯落物蓄水所反映的水源涵养能力之间的响应关系在生态系统不同尺度下具有不同的表现,在对区域生态空间格局进行优化时,需明确特定环境下不同生态系统类型枯落物的水源涵养能力及其变化对其他生态服务功能的影响,从而实现各生态系统平衡发展。     

基于USLE模型的长株潭城市群生态绿心区水土流失研究

[目的]研究2018年长株潭(长沙市—株州市—湘潭市)城市群生态绿心区最佳植被覆盖和水土流失状况,为区域综合治理提供理论依据。[方法]运用GIS和RS技术,以长株潭区域降雨、土壤、地形、土地利用等数据为基础,采用归一化植被指数(NDVI)模型和USLE国际通用土壤流失方程为优选模型。[结果]长株潭绿心区总面积为52 287 hm~2,整体植被状况较好,高覆盖度(75%～100%)面积最大,占绿心区总面积一半以上,为26 598.40 hm~2;中低覆盖度(30%～40%)面积最小,占区域总面积的8.61%,为4 501.91 hm~2。长株潭城市群生态绿心区总侵蚀(不含微度)面积为3 654.24 hm~2,占总面积的6.99%。湘潭市侵蚀比重最高,为8.51%,长沙市次之,为6.67%,株洲市侵蚀总比例最小,为5.68%。工程建设用地在禁止开发区、限制开发区和控制建设区的侵蚀面积分别为963.92,310.74,735.11 hm~2。[结论]受人为因素、城市建设、产业分布等影响,长株潭城市群生态绿心区覆盖度空间呈现西部低,中东部高的格局,工程建设是造成绿心区土壤侵蚀的主要原因。     

2003-2017年陕西省NDVI时空变化及其影响因素

[目的] 研究影响陕西省植被覆盖主导气候类和非气候类因子，为区域生态文明建设提供科学依据。[方法] 基于2003—2017年MODIS NDVI数据，利用趋势分析和地理探测器模型等方法，研究了气候类和非气候因素对陕西省植被覆盖的影响。[结果] ①2003—2017年陕西省NDVI空间分布总体上为改善趋势，但在不同植被类型区和生态区有所差异。②降水是影响陕西省植被覆盖空间分布的主导气候类因素，其他因素对当地植被覆盖影响程度有所差异。③降水与气温、日照、风速、相对湿度的交互作用对陕西省植被覆盖空间分布起主导作用。且气温的作用只有在和降水的交互作用下才能体现出来。④植被类型和地貌是陕西省植被覆盖空间分布的主导非气候类因素，其他因素的影响有所差异。⑤植被类型、地貌和土壤类型之间的交互作用对陕西省植被覆盖空间分布起主导作用。人口、GDP的影响也只有在与其他因素的交互作用下才能显现出来。[结论] 气候类因素的影响大于非气候类因素，气候类和非气候类因素的共同作用能够充分的解释植被覆盖空间分布。     

球等鞭金藻三级培养过程中细菌群落多样性分析

球等鞭金藻三级培养过程中生长差异明显,在完全灭菌的一级培养中生长最佳,在未灭菌的三级培养中生长最差。为揭示培养过程中藻际细菌群落多样性与其生长差异的相关性,以球等鞭金藻(Isochrysis galbana)为研究对象,利用Illumina HiSeq平台通过高通量测序的方法对球等鞭金藻三级培养过程中细菌群落多样性进行研究。结果表明,一、二、三级培养组之间的藻际细菌群落组成差异明显。Shannon和Simpson指数分析说明,一级培养组中细菌群落多样性显著低于二级和三级培养组。MetaStat分析发现,一级和三级培养组之间存在两株丰度显著差异的细菌,其中麦氏交替单胞菌(Alteromonas macleodii)在三级培养下丰度显著高于一级,而红球菌(Rhodococcus erythropolis)相反。进一步通过2216E平板涂布法分离并鉴定了麦氏交替单胞菌等17株球等鞭金藻藻际环境细菌;系统进化树构建结果显示,整个进化树分成13个分支,分别对应13个属,包括交替单胞属(Alteromonas)、假交替单胞属(Pseudoalteromonas)、海杆菌属(Marinobacter)等。本研究结果为探索藻菌互作机理奠定了基础,有助于提高水产养殖过程中球等鞭金藻的产量和质量。     

Bacterial communities associated with natural and commercially grown rooibos (Aspalathus linearis)

Aspalathus linearis is a commercially important plant species endemic to the Cape Floristic Region of South Africa and is used to produce a herbal tea known as rooibos tea. Symbiotic interactions between A. linearis and soil bacteria play an important role in the survival of Aspalathus plants in the highly nutrient-poor, acidic fynbos soil. The aim of this study was to characterize and compare rhizosphere and bulk soil bacterial communities associated with natural and commercially grown A. linearis, as well as the effect of seasonal changes on these communities. Bacterial communities were characterized using high throughput amplicon sequencing, and their correlations with soil chemical properties were investigated. The N-fixing bacterial community was characterized using terminal restriction fragment length polymorphism and real time quantitative polymerase chain reaction. Actinobacteria, Proteobacteria, and Acidobacteria were the most dominant bacterial phyla detected in this study. Highly similar bacterial communities were associated with natural and commercially grown plants. Significant differences in the bacterial community were observed between rhizosphere and bulk soils collected in the dry season, while no significant differences were detected in the wet season. This study provides insights into bacterial community structure and potential factors shaping bacterial community structure with commercially important A. linearis.