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1.
汶川地震灾区生物多样性热点地区分析   总被引:5,自引:4,他引:5  
徐佩  王玉宽  杨金凤  彭怡 《生态学报》2013,33(3):718-725
汶川地震灾区位于长江上游,是我国大熊猫(Ailuropoda melanoleuca)的主要分布区,被保护国际认定的25个全球生物多样性热点地区之一.2008年5月12日发生的汶川大地震导致该区域生态环境遭受严重破坏,需要识别生物多样性热点地区,指导灾后生物多样性保护.选取物种生境质量、植被景观多样性指数和物种多样性指数作为评价指标,其中生境质量采用InVEST生物多样性模型计算,然后利用空间相关分析中G系数进行热点地区分析,探测出灾区生物多样性的热点区,并在此基础上与现有保护区分布、物种生境分布以及Marxan模型计算出的优先区进行对比验证.结果显示:热点区范围涉及到现有76%的保护区,且保护区内的热点区面积达到灾区所有保护区面积的55%;在选取的69个指示物种中有60个物种位于热点区的生境面积占这些物种在灾区的总生境面积的50%以上,有32个物种在80%左右,热点区内的所有指示物种生境总面积占整个灾区指示物种生境总面积的70%以上.基于空间相关分析方法得出的热点地区基本上与Marxan模型输出的优先保护区范围结果基本一致.但空间相关分析的热点区划分克服了Marxan模型优先保护区分布过于离散,孤岛效应明显的不足.  相似文献   

2.
水杉(Metasequoia glyptostroboides)是我国特有濒危极小种群物种, 其种群的状态一直被国内外学者广泛关注。分析现存水杉原生种群结构和空间分布格局及其空间关联性, 可以从空间格局角度深入认识水杉原生种群结构和分布格局及可能的形成机理。本文基于湖北利川境内水杉原生种群的野外调查数据, 分析其径级和高度级结构, 同时运用点格局分析中的成对相关函数g(r)以及3个零模型(完全空间随机模型、异质泊松模型、先决条件模型)分析水杉原生种群空间分布格局、各龄级空间分布格局及空间关联性。结果表明: (1)分布于研究区域内的水杉原生种群个体数共5,663株, 已死亡33株, 现存活5,630株, 其中40株濒临死亡, 465株处于衰弱状态, 部分个体呈现不同的形态特征和生长状况, 断梢和蚁害最为常见, 雷击是最致命的危害。(2)水杉原生种群结构分析显示, 其径级结构和高度级结构均呈纺锤型, 自然更新不良。(3)基于完全空间随机模型, 水杉原生种群在各尺度下均呈现聚集分布, 中龄树在较小尺度(r < 3,300 m)上呈现聚集分布, 成年树和老龄树在较大尺度(r < 4,700 m)上呈现聚集分布; 排除生境异质性影响后, 聚集尺度均减小, 所以种群及不同龄级的聚集尺度分别为0-3,000 m、0-2,100 m、0-2,900 m和0-2,500 m, 随后呈现为微弱的随机分布和均匀分布。(4)基于完全空间随机模型, 3个龄级之间在所有尺度均为正关联; 在排除生境异质性影响后, 不同龄级的正关联尺度减小, 均在0-2,800 m呈正关联。综上, 水杉原生种群个体数量正呈现逐步减少的趋势, 种群主要呈聚集分布, 各个龄级间具有正向的关系, 从现有的空间格局来看, 生境异质性、扩散限制和种内竞争是导致该格局的主要原因。  相似文献   

3.
海南岛霸王岭热带低地雨林树木的空间格局   总被引:2,自引:1,他引:1       下载免费PDF全文
树木空间格局及其形成过程是物种共存及生物多样性维持机制研究的一个重要方面。该文以海南岛两个1 hm 2的典型热带低地雨林老龄林森林动态样地为基础, 通过4个点格局模型(均质Poisson过程、异质Poisson过程、均质Thomas过程和异质Thomas过程)模拟扩散限制和生境异质性作用对树木空间分布格局的影响, 并分析不同空间尺度下(< 2 m, 2-5 m, 5-10 m, 10-15 m, 15-20 m和20-25 m)不同作用的相对重要性。结果表明: 热带低地雨林的所有树木总体上呈现聚集分布的空间格局, 随着尺度的增大, 聚集强度逐渐减小。树种在模拟空间分布格局最优模型中的比例由高到低分别是: 均质Thomas过程, 均质Poisson过程、异质Thomas过程和异质Poisson过程。扩散限制作用是形成热带低地雨林树木空间分布格局最重要的生态过程, 其次是完全随机作用以及生境异质性和扩散限制的联合作用, 而生境异质性的作用最小。不同空间尺度上模拟各树种空间分布格局的最优模型比例差异显著, 扩散限制作用能够在多数空间尺度上模拟多个树种的空间分布格局, 其次为随机作用; 生境异质性和扩散限制的联合作用主要在小尺度(0-5 m)影响树种分布, 而生境异质性在较大尺度(15-25 m)上影响树种的空间分布格局。  相似文献   

4.
黄土高原丘陵沟壑区天然沙棘种群空间分布格局研究   总被引:1,自引:0,他引:1  
经实地踏查,在黄土高原丘陵沟壑区陕西富县天然沙棘林区,设置10个10 m×10 m样地,采用离散分布理论拟合和聚集强度测定方法,对不同生境和年龄阶段的沙棘种群的空间分布格局及其动态进行了系统研究,以探讨沙棘种群分布格局动态特征.结果显示:(1)沙棘种群空间分布格局属聚集型,在6.25 m2面积上聚集强度较大.天然条件下,种群聚集强度最大的取样尺度,是其种群更新的最佳面积.(2)沙棘种群空间分布格局随海拔上升,聚集强度降低;阴坡的种群分布聚集强度总是大于阳坡.(3)随着种群年龄增加,分布格局由聚集型向随机型过渡,聚集强度减弱.在幼、老龄期聚集性最强的格局尺度为25.00 m2,中龄期为6.25 m2、25.00 m2.研究表明,天然沙棘种群的空间分布格局与其生物生态学特性、生长阶段以及生境条件关系密切,在保护与利用中应针对不同生境的差异以及不同生长阶段的特性进行适度人为干扰,促进种群的生长、更新和群落发育.  相似文献   

5.
谢余初  巩杰  齐姗姗  胡宝清  王克林 《生态学报》2017,37(19):6448-6456
大中区域尺度上生物多样性空间分布格局识别是制定和实施区域生物多样性保护计划的前提条件,也是生物多样性保护确定优先区域研究工作迫切需要解决的关键问题之一。拟以甘肃白龙江流域为例,结合InVEST模型和遥感、GIS技术,以区域生境质量、植物净初级生产力和景观状态指数为评价指标,应用归一化处理方法,构建区域生物多样性空间格局综合评估方法,在栅格像元尺度上开展白龙江流域生物多样性评价及其空间分异特征分析。结果表明:白龙江流域生物多样性较为丰富,空间分异特征明显。生物多样性较高的区域(Ⅰ和Ⅱ级以上)面积约占39.80%,且主要集中在自然保护区和林业管护区。生物多样性较低的地区主要分布在舟曲-武都-文县的白龙江两岸及其以北区域、宕昌县岷江沿岸、高寒稀疏植被区和高山积雪-裸岩区。  相似文献   

6.
华南五针松(Pinus kwangtungensis)是中国特有种和二级保护植物,因环境变化和人为干扰而导致其生境受损、种群逐渐衰退。为了解华南五针松的种群现状、空间分布格局和生境特征,该研究在广东南岭国家级自然保护区建立了20 hm2的永久监测样地,对样地内胸径≥1 cm的木本植物进行监测,测量土壤、地形等多种环境因子,并采用径级分析预测种群的发展趋势和空间点格局(L function)方法分析个体的空间分布及建立零膨胀泊松(Zero-inflated Poisson,ZIP)回归模型,探讨影响个体分布的重要环境因子。结果表明:(1)华南五针松径级分布近似“钟型”(“bell-shaped”),小径级的个体数量较少,种群更新受限制; 华南五针松偏好海拔较高且地形陡峭的山坡和山脊,呈现较强的生境特异性。(2)空间点格局分析结果显示,个体为显著的聚集分布,其分布格局主要由扩散限制和生境异质性导致。(3)ZIP的结果显示,华南五针松分布的区域(0到1),土壤铵态氮和速效钾含量较高,有机质含量低; 多种环境因子对其多度产生影响(1到N),多度与海拔、物种多样性和平均胸径虽为正相关关系,但与树高、铵态氮、总磷和总钾含量为负相关关系。综上认为,不稳定的径级结构及聚集分布导致的种内竞争将加速其种群的衰退,应重点保护高海拔及土壤养分较低的生境,并减少人为干扰维持其原生生境,该研究结果可用于指导华南五针松的保护和恢复。  相似文献   

7.
在利用遥感(RS)和地理信息系统(GIS)对辽河三角洲土地覆被变化进行研究的基础上,引用空间多样性指数(Sd)对本区野生动物的生境格局进行了定量描述,并分析了其1988~1998年间的生境格局变化,结果表明,研究区野生动物生境格局受人为和自然干扰的双重影响而发生了较明显的变化,整体趋势是生境适宜性逐渐降低,适宜生境和较适宜生境(Sd≥0.35)的面积10年间减少7637hm^2。且破碎化程度加深,在空间上呈现由北向南推进、由东向西压缩之势,生境质量呈下降趋势,同时,空间多样性指数能够定量地反映野生动物生境的适宜程度,并能直观地描述生境的空间格局,为进一步揭示生境格局的变化规律及原因提供了有效措施和依据,对于协调区域经济发展与生物多样性保护具有重要意义。  相似文献   

8.
别拉洪河流域湿地鸟类丰富度的空间自相关分析   总被引:3,自引:0,他引:3  
刘吉平  吕宪国  刘庆凤  高俊琴 《生态学报》2010,30(10):2647-2655
人类的开垦和开发活动使湿地生物多样性遭到严重的干扰和破坏,随着人们对湿地功能和价值的正确认识,湿地生物多样性保护越来越被广泛关注,湿地生物多样性空间分布格局及其影响因素是湿地生物多样性保护要解决的关键问题。利用空间自相关与空间滞后模型,对三江平原别拉洪河流域湿地鸟类丰富度的空间自相关性及其驱动因子进行了研究,结果表明:别拉洪河流域湿地鸟类丰富度及其驱动因子都具有明显的空间自相关性;影响别拉洪河流域湿地鸟类丰富度空间分布的主要因子是干扰度、生境类型数、到道路的距离、到沟渠的距离、到湖泊的距离、到居民点的距离、海拔高度、坡度和人口密度;由于受空间自相关的影响,空间自回归模型优于传统的回归模型。研究有助于人们更好地理解湿地生物多样性保护的热点地区及其形成机制,对人们更好地保护和利用湿地生物多样性具有重要价值,同时也为研究湿地鸟类分布与环境因子的关系,建立预测物种分布模型提供科学依据。  相似文献   

9.
王志韬  任珩  辛存林 《生态学报》2023,43(10):4121-4129
植物空间分布格局是物种自身生物学特性与环境因素共同作用的结果,非生殖株丛空间分布格局能够揭示物种无性繁殖与种群扩张过程对异质生境的生态学适应机制。利用基于完全随机、泊松聚块和嵌套双聚块模型的点格局方法和群落学调查,分析了沙鞭(Psammochloa villosa)种群非生殖株丛空间分布格局,探讨了空间格局对降水梯度的响应和适应过程。结果表明:(1)聚集分布是沙鞭种群非生殖株丛的主要类型。在89 mm/a、107.8 mm/a、117.4 mm/a、186 mm/a、191.1 mm/a、363 mm/a降水梯度上聚集尺度分别为3—126 cm、9—200 cm、9—129 cm、6—77 cm、2—95 cm、2—96 cm;(2)基于完全随机模型的空间分布格局对降水的响应规律显著,整体表现为随干旱程度加剧,沙鞭种群非生殖株丛聚集尺度从2—96 cm下降至6—77 cm;(3)在107.8 mm/a、117.4 mm/a、191.1 mm/a、363 mm/a降水梯度上,基于泊松聚块模型的空间分布格局分别在15—19 cm、2—6 cm、2—4 cm、9—25 cm尺度正向偏离泊松聚...  相似文献   

10.
随着人类和其他生物赖以生存的环境破碎化程度的加剧,许多以前是连续分布的物种,目前不得不在破碎化生境(斑块)中求生存,所以,种群在破碎化生境(斑块)中分布问题的研究对生物保护和生境重建意义重大.本文运用Leslie矩阵和Markov链建立了一个具年龄结构的种群在破碎化生境中随时间动态变化的分布模型,讨论了种群在该生境中持续存在以及灭绝的条件.  相似文献   

11.
12.
The New Forest National Park is a hotspot for biodiversity in the UK. A long history of grazing by ponies in the New Forest landscape has created a diverse mosaic of habitats that are of international significance. We investigated patterns of species diversity and composition across the New Forest landscape by sampling soil, leaf litter and ground macrofauna from woodland, grassland and heathland plots across the entire landscape. We used a spatially replicated design of hand sorted soil pits, Winkler extraction of leaf litter, and pitfall traps. We concentrated on diversity patterns of the following target groups: Coleoptera, Formicidae, Isopoda, Chilopoda, Diplopoda, Opiliones and Lumbricidae. The most striking difference in species assemblages is between wooded and open areas. Woodlands are the most diverse habitats and have a distinct assemblage, largely due to those leaf litter invertebrate species which are only present under a closed canopy. Open areas are less diverse, with diversity particularly low in the wet grasslands. However, the open areas do have a distinct fauna, especially in the wet and dry heaths which are home to a number of rare species, particularly of Formicidae. We discuss the potential conservation problems facing the New Forest and how these might affect soil macrofauna biodiversity in the future and conclude that climate change; over-grazing; and land use changes represent the largest threats. Although a relatively stable landscape which benefits from protection under UK law, changes in grazing intensity or management practices in the New Forest, particularly for some of the habitats of European importance (e.g. wet heathlands), could negatively affect soil macrofauna biodiversity. Climate change may also exacerbate biodiversity decline as a result of increased grazing intensity or changes in management.  相似文献   

13.
A central goal of conservation science is to identify the most important habitat patches for maintaining biodiversity on a landscape. Spatial biodiversity patterns are often used for such assessments, and patches that harbor unique diversity are generally prioritized over those with high community similarity to other areas. This places an emphasis on biodiversity representation, but removing a patch can have cascading effects on biodiversity persistence in the remaining ecological communities. Metacommunity theory provides a mechanistic route to the linking of biodiversity patterns on a landscape with the subsequent dynamics of diversity loss after habitat is degraded. Using spatially explicit neutral theory, I focus on the situation where spatial patterns of diversity and similarity are generated by the structure of dispersal networks and not environmental gradients. I find that gains in biodiversity representation are nullified by losses in persistence, and as a result the effects of removing a patch on metacommunity diversity are essentially independent of complementarity or other biodiversity patterns. In this scenario, maximizing protected area and not biodiversity representation is the key to maintaining diversity in the long term. These results highlight the need for a broader understanding of how conservation paradigms perform under different models of metacommunity dynamics.  相似文献   

14.
The composition of communities of sessile organisms, and the change in species diversity with time, is a spatially explicit phenomenon. Three spatial factors clearly affect diversity: (1) the structure and heterogeneity of the landscape that limits species immigration and ultimate community size; (2) neighborhood interactions that determine colonization and extinction rates and influence residence times of local populations; and (3) disturbances that open spatially contiguous areas for recolonization by less abundant species. The importance of these three factors was first reviewed and then examined with a spatially explicit, multi-species model of plant dispersal, competition and establishment, with an assumption of neutrality (all species had equivalent life histories) that reduced the initial dimensionality of the problem. The simulations assumed that the probability of immigration was a linear function of mainland abundance and distance to islands, similar to the equilibrium theory of island biogeography and the unified neutral theory of biodiversity. The rate of increase in species richness was not constant across island sizes, declining as island area became very large. This pattern was explained by the spatial dynamics of colonization and establishment, a non-random process that cannot be explained by passive sampling alone. Simulations showed that population establishment depended critically on rare long-distance dispersal events while population persistence was achieved by the formation of aggregated species distributions that developed through restricted dispersal and local competitive interactions. Nevertheless, species richness always declined to a single species in the absence of disturbances, while up to 40 species could persist to 10,000 years when spatially dependent mortality was added. Further explorations with spatially explicit models will be required to fully appreciate the consequence of land use change and altered disturbance regimes on patterns of species distribution and the maintenance of diversity.  相似文献   

15.
The widespread conversion of natural habitats to agricultural land has created a need to integrate intensively managed landscapes into conservation management priorities. However, there are no clearly defined methods for assessing the conservation value of managed landscapes at the local scale. We used remotely sensed landscape heterogeneity as a rapid practical tool for the assessment of local biodiversity value within a predominantly agricultural landscape in Canterbury, New Zealand. Bird diversity was highly significantly correlated with landscape heterogeneity, distance from rivers and the Christchurch central business district, altitude and average annual household income, indicating that remotely sensed landscape heterogeneity is a good predictor of local biodiversity patterns. We discuss the advantages and limitations of using geographic information systems to determine local areas of high conservation value.  相似文献   

16.
Large‐scale modifications of natural ecosystems lead to mosaics of natural, semi‐natural and intensively used habitats. To improve communication in conservation planning, managers and other stakeholders need spatially explicit projections at the landscape scale of future biodiversity under different land‐use scenarios. For that purpose, we visualized the potential effect of five forest management scenarios on the avifauna of Kakamega Forest, western Kenya using different measures of bird diversity and GIS data. Future projections of bird diversity combined: (1) remotely sensed data on the spatial distribution of different forest management types; (2) field‐based data on the biodiversity of birds in the different management types; and (3) forest management scenarios that took into account possible views of various stakeholder groups. Management scenarios based on the species richness of forest specialists were very informative, because they reflected differences in the proportions of near‐natural forest types among the five scenarios. Projections based on community composition were even more meaningful, as they mirrored not only the proportions of near‐natural forest types, but also their perimeter to area ratios. This highlights that it is important to differentiate effects of the total area of available habitat and the degree of habitat fragmentation, both for species richness and community composition. Furthermore, our study shows that an approach that combines land‐use scenarios, remote sensing and field data on biodiversity can be used to visualize future biodiversity. As such, visualizations of alternative scenarios are valuable for successful communication about conservation planning considering different groups of stakeholders in species‐rich tropical forests.  相似文献   

17.
The relative importance of the processes that generate and maintain biodiversity is a major and controversial topic in evolutionary biology with large implications for conservation management. The Atlantic Forest of Brazil, one of the world''s richest biodiversity hot spots, is severely damaged by human activities. To formulate an efficient conservation policy, a good understanding of spatial and temporal biodiversity patterns and their underlying evolutionary mechanisms is required. With this aim, we performed a comprehensive phylogeographic study using a low-dispersal organism, the land planarian species Cephaloflexa bergi (Platyhelminthes, Tricladida). Analysing multi-locus DNA sequence variation under the Approximate Bayesian Computation framework, we evaluated two scenarios proposed to explain the diversity of Southern Atlantic Forest (SAF) region. We found that most sampled localities harbour high levels of genetic diversity, with lineages sharing common ancestors that predate the Pleistocene. Remarkably, we detected the molecular hallmark of the isolation-by-distance effect and little evidence of a recent colonization of SAF localities; nevertheless, some populations might result from very recent secondary contacts. We conclude that extant SAF biodiversity originated and has been shaped by complex interactions between ancient geological events and more recent evolutionary processes, whereas Pleistocene climate changes had a minor influence in generating present-day diversity. We also demonstrate that land planarians are an advantageous biological model for making phylogeographic and, particularly, fine-scale evolutionary inferences, and propose appropriate conservation policies.  相似文献   

18.
There is an increasing interest to combine phylogenetic data with distributional and ecological records to assess how natural communities arrange under an evolutionary perspective. In the microbial world, there is also a need to go beyond the problematic species definition to deeply explore ecological patterns using genetic data. We explored links between evolution/phylogeny and community ecology using bacterial 16S rRNA gene information from a high‐altitude lakes district data set. We described phylogenetic community composition, spatial distribution, and β‐diversity and biogeographical patterns applying evolutionary relatedness without relying on any particular operational taxonomic unit definition. High‐altitude lakes districts usually contain a large mosaic of highly diverse small water bodies and conform a fine biogeographical model of spatially close but environmentally heterogeneous ecosystems. We sampled 18 lakes in the Pyrenees with a selection criteria focused on capturing the maximum environmental variation within the smallest geographical area. The results showed highly diverse communities nonrandomly distributed with phylogenetic β‐diversity patterns mainly shaped by the environment and not by the spatial distance. Community similarity based on both bacterial taxonomic composition and phylogenetic β‐diversity shared similar patterns and was primarily structured by similar environmental drivers. We observed a positive relationship between lake area and phylogenetic diversity with a slope consistent with highly dispersive planktonic organisms. The phylogenetic approach incorporated patterns of common ancestry into bacterial community analysis and emerged as a very convenient analytical tool for direct inter‐ and intrabiome biodiversity comparisons and sorting out microbial habitats with potential application in conservation studies.  相似文献   

19.
We present at a national-scale estimates of spatial covariance between areas important for ecosystem services (ES) and biodiversity, at a fixed spatial scale in France. We calculated different diversity and community metrics for common bird communities: taxonomic diversity (TD), functional diversity (FD), community specialization index (CSI), trophic index (TI), phylogenetic diversity (PD) and community evolutionary distinctiveness (CED). The ES multifunctionality (ESMF) was measured using a combination of ES evenness and overall ES estimator. Spatially explicit tests were used to compare the spatial patterns of ES and diversity metrics. Mixed models were used for comparisons.We found low spatial congruence between ES and both diversity and community metrics in France. However, we detected even opposite associations between ES and each biodiversity component. Crop production was negatively associated with CED, it was positively correlated with CSI. No positive associations were found between ESMF and any diversity metric, independently of farming systems. The only significant association was negative: lower values of CED were associated with hotspots of ESMF. We found also a negative effect of crop production on bird CED. The conservation implication is remarkable, because conservation policies focusing solely on the economic value of ES will fail to protect overall biodiversity.  相似文献   

20.
Assessing the relative importance of different processes that determine the spatial distribution of species and the dynamics in highly diverse plant communities remains a challenging question in ecology. Previous modelling approaches often focused on single aggregated forest diversity patterns that convey limited information on the underlying dynamic processes. Here, we use recent advances in inference for stochastic simulation models to evaluate the ability of a spatially explicit and spatially continuous neutral model to quantitatively predict six spatial and non-spatial patterns observed at the 50 ha tropical forest plot on Barro Colorado Island, Panama. The patterns capture different aspects of forest dynamics and biodiversity structure, such as annual mortality rate, species richness, species abundance distribution, beta-diversity and the species–area relationship (SAR). The model correctly predicted each pattern independently and up to five patterns simultaneously. However, the model was unable to match the SAR and beta-diversity simultaneously. Our study moves previous theory towards a dynamic spatial theory of biodiversity and demonstrates the value of spatial data to identify ecological processes. This opens up new avenues to evaluate the consequences of additional process for community assembly and dynamics.  相似文献   

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