基于GIS的怒江峡谷人居环境容量评价——以泸水县为例   总被引：2，自引：0，他引：2  

李益敏  刘素红  李小文 《地理科学进展》2010,29(5)

本文选取坡度、坡向、海拔、土地利用、交通、水资源、土壤质量等作为评价指标,利用GIS的叠置分析、缓冲区分析等空间分析技术对怒江峡谷区的泸水县人居环境适宜性进行了定量综合评价分析。评价结果表明,泸水县人居环境适宜区主要以带状形式分布在河流周围,其他区域只有零星分布,与泸水县人口分布的空间格局相吻合。泸水县人居环境状况与经济发展水平呈现明显的正相关性,人居环境评价值与各乡镇农民人均纯收入相关系数达到0.89,与各行政村农民人均纯收入的相关系数达到0.956。此外,本文还分析了泸水县各个乡镇的人居环境容量,表明泸水县已难以承载现有的人口。  相似文献   

基于地理探测器的大熊猫生境适宜度评价模型及验证   总被引：4，自引：0，他引：4  

廖颖  王心源  周俊明 《地球信息科学学报》2016,18(6):767-778

动物生境适宜度评价对于野生动物生境保护十分重要。基于物种活动点来建模的生态位模型是目前应用最广泛的动物生境评价方法,但该方法不能直接表达生境适宜度与环境因子间具有生态学意义的数量关系。本文以雅安地区为例,提出一种新的大熊猫（Ailuropoda melanoleuca）生境适宜度评价方法,选取海拔、坡度、坡向、地形指数、距水源距离、植被类型、主食竹及距公路距离8个环境因子,引入地理探测器,在分别基于MAXENT模型和层次分析法（The Analytic Hierarchy Process,AHP）所构建生境适宜度模型的基础上,通过4个地理探测器（风险探测器、因子探测器、生态探测器和交互作用探测器）探寻大熊猫生境与各环境因子间的关系以及环境因子对大熊猫生境的影响机理,并将其预测结果与单一MAXENT模型和AHP法进行对比。结果表明：（1）AHP、AHP-Geogdetector、MAXENT和MAXENT-Geogdetector模型总体评价精度分别为85.6%、86.5%、91.3%和94.2%,kappa系数分别为0.699、0.718、0.821和0.882,AUC值分别为0.902、0.928、0.949和0.966,模型所预测的适宜和较适宜区与实际分布区重叠比分别为63.66%、61.30%、76.70%和90.10%,说明AHP-Geogdetector和MAXENT-Geogdetector模型精度均比相应的单一模型有所提高,且MAXENT-Geogdetector模型精度最高;（2）基于地理探测器的大熊猫生境适宜度评价模型能以“生境适宜度和环境因子间具有生态学意义的数量关系”的形式直接体现环境因子对动物生境利用的生态学作用,具有较好的生态学可解释性。因此,用地理探测器进行大熊猫生境适宜度评价具有较好的可行性。  相似文献   

三峡水库枯水期补水调度对洞庭湖越冬白鹤(Grus leucogeranus)摄食栖息地的影响     

戴凌全  王煜  汤正阳  戴会超  任玉峰  常曼琪  吴倩  毛劲乔 《湖泊科学》2022,34(4):1208-1218

摄食栖息地面积是反映越冬水鸟生存空间的直接指标,三峡水库运行后洞庭湖枯水期水文节律出现新的变化,给越冬水鸟摄食栖息地造成的影响尚不明确.为定量描述三峡水库枯水期不同出库流量对洞庭湖越冬水鸟摄食栖息地的影响,以洞庭湖典型的珍稀越冬水鸟——白鹤(Grus leucogeranus)为指示性候鸟,以白鹤摄食对栖息地水深需求作为关键生态因子,建立白鹤摄食对水深需求的栖息地适宜度模型.构建涵盖长江干流、三口河系、洞庭湖及其四水尾闾河段的江湖一体化耦合水动力模型,实现栖息地水动力分布特征的精确模拟.在此基础上耦合栖息地适宜度模型和水动力模型,建立了面向白鹤摄食对三峡水库出库流量需求的物理栖息地模型,量化不同出库流量对应的白鹤摄食栖息地加权可利用面积,定量分析水库运行对白鹤摄食栖息地面积的影响.结果表明:1月中旬三峡水库不同出库流量下洞庭湖白鹤潜在摄食栖息地面积保持稳定并随出库流量的增加呈增大趋势,维持在101.40~121.84 km²之间,其中东洞庭湖摄食栖息地面积在7.49~9.86 km²之间,南洞庭湖(含横岭湖)摄食栖息地面积在47.37~60.34 km²之间,西洞庭湖摄食栖息地面积在46.54~51.64 km²之间.不同湖区摄食栖息地面积随着三峡水库出库流量的增加均呈增大的趋势,说明三峡水库枯水期补水调度对于维持栖息地面积具有重要作用.较三峡水库运行前相比,白鹤摄食栖息地面积最大增加20.44 km²,对应的增幅为20.16%.成果明晰了三峡水库运行对洞庭湖白鹤摄食栖息地面积的影响规律,可为通过三峡水库补水调度改善洞庭湖越冬水鸟摄食栖息地生境提供理论基础.  相似文献   

Coastal habitat degradation and green sea turtle diets in Southeastern Brazil     

Santos RG  Martins AS  Farias Jda N  Horta PA  Pinheiro HT  Torezani E  Baptistotte C  Seminoff JA  Balazs GH  Work TM 《Marine pollution bulletin》2011,62(6):1297-1302

To show the influence of coastal habitat degradation on the availability of food for green turtles (Chelonia mydas), we assessed the dietary preferences and macroalgae community at a feeding area in a highly urbanized region. The area showed low species richness and was classified as degraded. We examined stomach contents of 15 dead stranded turtles (CCL = 44.0 cm (SD 6.7 cm)). The diet was composed primarily of green algae Ulva spp. (83.6%). In contrast, the macroalgae community was dominated by the green alga Caulerpa mexicana. We found a selection for red algae, seagrass and Ulva spp., and avoidance for C. mexicana and brown alga Dictyopteris delicatula. The low diversity of available food items, possibly a result of environmental degradation, likely contributed to the low dietary diversity. The nutritional implications of this restricted diet are unclear.  相似文献   

Contrasting effects of ecosystem engineering by the cordgrass Spartina maritima and the sandprawn Callianassa kraussi in a marine-dominated lagoon     

D. Pillay  G.M. BranchJ. Dawson  D. Henry 《Estuarine, Coastal and Shelf Science》2011

Ecosystem engineering by plants and animals significantly influences community structure and the physico-chemical characteristics of marine habitats. In this paper we document the contrasting effects of ecosystem engineering by the cordgrass Spartina maritima and the burrowing sandprawn Callianassa kraussi on physico-chemical characteristics, microflora, macrofaunal community structure and morphological attributes in the high shore intertidal sandflats of Langebaan Lagoon, a marine-dominated system on the west coast of South Africa. Comparisons were made at six sites in the lagoon within Spartina and Callianassa beds, and in a “bare zone” of sandflat between these two habitats that lacks both sandprawns and cordgrass. Sediments in Spartina habitats were consolidated by the root-shoot systems of the cordgrass, leading to low sediment penetrability, while sediments in beds of C. kraussi were more penetrable, primarily due to the destabilising effects of sandprawn bioturbation. Sediments in the “bare zone” had intermediate to low values of penetrability. Sediment organic content was lowest in bare zones and greatest in Spartina beds, while sediment chl-a levels were greatest on bare sand, but were progressively reduced in the Spartina and Callianassa beds. These differences among habitats induced by ecosystem engineering in turn affected the macrofauna. Community structure was different between all three habitats sampled, with species richness being surprisingly greater in Callianassa beds than either the bare zone or Spartina beds. In general, the binding of surface sediments by the root systems of Spartina favoured rigid-bodied, surface-dwelling and tube-building species, while the destabilising effect of bioturbation by C. kraussi favoured burrowing species. The contrasting effects of these ecosystem engineers suggest that they play important roles in increasing habitat heterogeneity. Importantly, the role of bioturbation by C. kraussi in enhancing macrofaunal richness was unexpected. By loosening sediments, reducing anoxia and enhancing organic content, C. kraussi may engineer these high shore habitats to ameliorate environmental stresses or increase food availability.  相似文献   

Global extent and distribution of artificial, residential waterways in estuaries     

Nathan J. Waltham  Rod M. Connolly 《Estuarine, Coastal and Shelf Science》2011,94(2):192-197

Artificial residential waterways are now widespread in the world’s estuaries. We used the global mapping tool, Google Earth, to determine that there are nearly 4000 linear km of artificial waterways globally, covering an area of 270 km². Residential waterways constructed as open, flow-through canal estates are at their greatest extent in North America (77% of global linear extent), where systems are typically longer and narrower, with more openings and dead-ends than systems elsewhere. The remaining canal estates are spread across all other continents except Antarctica: Asia (7%), Europe (7%), Oceania (7%), South America (0.9%), and Africa (0.6%). A relatively recent design change from open canals to artificial estuarine lakes with tidal barriers has occurred on all continents except Africa, most extensively in Australia (14 km² area, 57 independent systems). The extremely large expansion in artificial residential waterways aimed at increasing opportunities for waterfront living by humans has also modified and expanded estuarine habitat available to aquatic biota. Research can best underpin planning and management of these types of waterways by focussing on their value as habitat and their provision of other goods and services.  相似文献   

Turbidity characterizes the reproduction areas of pikeperch (Sander lucioperca (L.)) in the northern Baltic Sea     

L. Veneranta  L. Urho  A. Lappalainen  M. Kallasvuo 《Estuarine, Coastal and Shelf Science》2011

The pikeperch (Sander lucioperca (L.)) is an economically important fish species occurring in the fresh and brackish waters of Europe. To evaluate the distribution and extent of the reproduction areas in the northern Baltic Sea, a field survey was carried out in two separate coastal areas. Presence/absence data were used to develop a geographic information system (GIS)-based predictive spatial distribution model, where high resolution raster maps of the focal environmental variables and a logistic regression equation were used to predict the probability of larval occurrence. The results indicated that the pikeperch reproduction areas are located in the innermost archipelago zone where high water turbidity best explained their presence. Turbidity was related to several other variables such as fetch and depth. Contrary to our preliminary hypothesis, surface water temperatures measured during the survey had no significant effect in the model due to the low spatial variation in the measured values. Since turbidity is possible to determine by remote sensing methods, the probability maps can be cost-effectively extended to more extensive coastal areas with proper validation.  相似文献   

基于人格特质的城市居民出游行为偏好研究——以武汉市为例     

陈巧林  CHEN Qiao-lin 《云南地理环境研究》2011,23(3):69-73,84

基于人格特质这一视角,结合旅游消费者购买决策程序理论,探讨和研究城市居民的出游行为偏好。首先,运用5因素人格特质量表测量了武汉市居民的人格特质,在此基础上运用聚类分析和判别分析,将潜在旅游者细分成不同人格特质类型的人群,其次,运用卡方检验、交叉分析等方法具体分析了不同人格类型的武汉市居民在出游行为偏好上的差异性,得出的研究结论是:基于人格特质这一心理变量,可以把武汉市居民细分成外向随和型、严谨含蓄型、开放时尚型3种不同人格类型的人群;不同人格类型的潜在旅游消费者在出游行为偏好上也具有一定的差异性。  相似文献   

Predicting the Impact of Climate Change on Vulnerable Species in Gandaki River Basin,Central Himalayas     

Raju RAI  ZHANG Yili  LIU Linshan  Paras Bikram SINGH  Basanta PAUDEL  Bipin Kumar ACHARYA  Narendra Raj KHANAL 《资源与生态学报(英文版)》2022,13(2):173-185

Gandaki River Basin (GRB) is an important part of the central Himalayan region, which provides habitat for numerous wild species. However, climatic changes are making the habitat in this basin more vulnerable. This paper aims to assess the potential impacts of climate change on the spatial distributions of habitat changes for two vulnerable species, Himalayan black bear (Ursus thibetanus laniger) and common leopard (Panthera pardus fusca), using the maximum entropy (MaxEnt) species distribution model. Species occurrence locations were used along with several bioclimatic and topographic variables (elevation, slope and aspect) to fit the model and predict the potential distributions (current and future) of the species. The results show that the highly suitable area of Himalayan black bear within the GRB currently encompasses around 1642 km² (5.01% area of the basin), which is predicted to increase by 51 km² in the future (2050). Similarly, the habitat of common leopard is estimated as 3999 km² (12.19% of the GRB area), which is likely to increase to 4806 km² in 2050. Spatially, the habitat of Himalayan black bear is predicted to increase in the eastern part (Baseri, Tatopani and north from Bhainse) and to decrease in the eastern (Somdang, Chhekampar), western (Burtibang and Bobang) and northern (Sangboche, Manang, Chhekampar) parts of the study area. Similarly, the habitat of common leopard is projected to decrease particularly in the eastern, western and southern parts of the basin, although it is estimated to be extended in the southeastern (Bhainse), western (Harichaur and northern Sandhikhark) and north-western (Sangboche) parts of the basin. To determine the habitat impact, the environmental variables such as elevation, Bio 15 (precipitation seasonality) and Bio 16 (precipitation of wettest quarter) highly contribute to habitat change of Himalayan black bear; while Bio 13 (precipitation of wettest month) and Bio 15 are the main contributors for common leopard. Overall, this study predicted that the suitable habitat areas of both species are likely to be impacted by climate change at different altitudes in the future, and these are the areas that need more attention in order to protect these species.  相似文献   

Contamination of marine biogenic habitats and effects upon associated epifauna     

Roberts DA  Johnston EL  Poore AG 《Marine pollution bulletin》2008,56(6):1057-1065

Habitat-forming organisms are frequently used as biomonitors in marine environments due to a widespread ability to accumulate toxic contaminants. Few studies, however, have considered the consequences of these accumulated contaminants on the abundant and diverse fauna associated with these habitats. In this review, we summarize research which has investigated the contamination of biogenic habitats (including seagrasses, macroalgae, ascidians, sponges and bivalve reefs) and the impact of this contamination on the habitat use, feeding behaviour and survival of associated epifauna. In many cases, ecological impacts upon epifauna are not simply predicted by levels of contamination in their habitat, but are determined by the foraging, feeding and reproductive behaviours of the inhabiting organisms. Thus, a thorough understanding of these ecological processes is essential in order to understand the effects of contaminants upon epifaunal communities. The scope of biomonitoring studies which assess the contamination of biogenic habitats should be expanded to include an assessment of potential effects upon associated epifauna. When combined with manipulative field experiments such an approach would greatly assist in our understanding of indirect effects of contaminants in these important benthic habitats.  相似文献