Use of linkage mapping and centrality analysis across habitat gradients to conserve connectivity of gray wolf populations in western North America

Centrality metrics evaluate paths between all possible pairwise combinations of sites on a landscape to rank the contribution of each site to facilitating ecological flows across the network of sites. Computational advances now allow application of centrality metrics to landscapes represented as continuous gradients of habitat quality. This avoids the binary classification of landscapes into patch and matrix required by patch-based graph analyses of connectivity. It also avoids the focus on delineating paths between individual pairs of core areas characteristic of most corridor- or linkage-mapping methods of connectivity analysis. Conservation of regional habitat connectivity has the potential to facilitate recovery of the gray wolf (Canis lupus), a species currently recolonizing portions of its historic range in the western United States. We applied 3 contrasting linkage-mapping methods (shortest path, current flow, and minimum-cost-maximum-flow) to spatial data representing wolf habitat to analyze connectivity between wolf populations in central Idaho and Yellowstone National Park (Wyoming). We then applied 3 analogous betweenness centrality metrics to analyze connectivity of wolf habitat throughout the northwestern United States and southwestern Canada to determine where it might be possible to facilitate range expansion and interpopulation dispersal. We developed software to facilitate application of centrality metrics. Shortest-path betweenness centrality identified a minimal network of linkages analogous to those identified by least-cost-path corridor mapping. Current flow and minimum-cost-maximum-flow betweenness centrality identified diffuse networks that included alternative linkages, which will allow greater flexibility in planning. Minimum-cost-maximum-flow betweenness centrality, by integrating both land cost and habitat capacity, allows connectivity to be considered within planning processes that seek to maximize species protection at minimum cost. Centrality analysis is relevant to conservation and landscape genetics at a range of spatial extents, but it may be most broadly applicable within single- and multispecies planning efforts to conserve regional habitat connectivity.     

云南省土壤环境质量分析系统设计与实现

土壤是人类赖以生存的基本要素之一,然而随着我国经济社会的发展,土壤环境污染日益严重,已威胁到各种陆生动植物的生态平衡。为落实环保部《关于加强土壤污染防治工作的意见》要求,2006年云南省土壤污染调查全面启动。系统运用Microsoft Visual Basic作为开发语言,SQL Server作为数据库,Arc GIS作为地图开发工具,来完成数据的导入和校验,统计、评价和对比的分析与查询,以及各类统计图表的自动生成。系统开发解决了庞大数据的管理与分析问题,对数据进行了生动的图表化表示并通过数据自动更新机制,简化了数据的管理工作,提高了《云南省土壤环境质量报告》的编制效率,对各级管理部门的决策工作具有较大的辅助意义。     

城市燃气管网泄漏事故分析知识图谱构建及应用研究*

为深入认识燃气管网泄漏事故的发生发展机理,提高事故分析预测的自动化、智能化、数字化水平,利用知识图谱对燃气管网泄漏事故进行研究。在事故案例分析的基础上,从人-物-环-管的角度对燃气泄漏过程以及火灾爆炸次生事故的相关实体进行归纳梳理,对实体间的逻辑关系和非逻辑关系进行辨识,并对实体的属性进行分类,进而构建出较为全面的燃气管网泄漏事故知识图谱。在此基础上,搭建BP神经网络模型,基于已知实体或属性状态,预测相关联其他实体或属性的状态。研究结果表明:燃气管网知识图谱能够有效展示燃气管网泄漏事故发展的动态过程及相关要素,结合BP神经网络能够有效预测事故的发展路径及相关状态,从而提高燃气管网泄漏事故的分析预测水平与效率。     

计算机绘制大气污染物浓度分布等值线图

用计算机绘制大气污染物长期平均浓度分布等值线图，对在绘图过程中坐标系的建立，计算机间距的确定以及风向的加密等的处理方法作了讨论，并给出了绘图的基本步骤。     

Application of face-graph in heavy metal pollutionassessment in river sediment

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应用多变量脸谱图进行河流与湖泊表层沉积物重金属污染状况的综合对比研究

依据沉积学原理和水体沉积物重金属的环境地球化学特征,将地积累指数与改进的多变量Chernoff脸谱图相结合,选择江西德兴铜矿附近的乐安江表层沉积物以及德国西南部Mannheim和Worms周围若干湖泊的表层沉积物作为研究对象,开展不同地域、不同类型水体沉积物中重金属积累的对比分析和污染状况的综合性定量评价.多变量脸谱图能清晰地反映出两区域沉积物中重金属的污染特征和空间分布模式.     

Building a Regionally Connected Reserve Network in a Changing and Uncertain World

Abstract: Habitat connectivity is required at large spatial scales to facilitate movement of biota in response to climatic changes and to maintain viable populations of wide‐ranging species. Nevertheless, it may require decades to acquire habitat linkages at such scales, and areas that could provide linkages are often developed before they can be reserved. Reserve scheduling methods usually consider only current threats, but threats change over time as development spreads and reaches presently secure areas. We investigated the importance of considering future threats when implementing projects to maintain habitat connectivity at a regional scale. To do so, we compared forward‐looking scheduling strategies with strategies that consider only current threats. The strategies were applied to a Costa Rican case study, where many reserves face imminent isolation and other reserves will probably become isolated in the more distant future. We evaluated strategies in terms of two landscape‐scale connectivity metrics, a pure connectivity metric and a metric of connected habitat diversity. Those strategies that considered only current threats were unreliable because they often failed to complete planned habitat linkage projects. The most reliable and effective strategies considered the future spread of development and its impact on the likelihood of completing planned habitat linkage projects. Our analyses highlight the critical need to consider future threats when building connected reserve networks over time.     

由通风网络结构数据自动生成通风网络图研究

通风网络图是矿井通风管理的一种重要图件.本文根据通风网络图的特点,介绍了一种由通风网络结构数据自动生成通风网络图的方法,并进行了开发实现和实践应用.     

基于图论的水库群洪水预报调度系统的集成研究

鉴于水库群洪水预报调度系统集成管理将是今后重要的研究方向,利用图论分析方法,把水库群概化成一张有向图,运用邻接表、邻接矩阵和关联矩阵进行拓扑分析解决了水库群的集成问题。并以图论为基础,利用方案关联表进行方案的拓扑分析,降低了方案管理的复杂性,便于用户使用与管理。实际应用表明,基于图论设计开发的水库群洪水预报调度系统具有较好的通用性、可扩展性与易维护性。     

城市控规单元防灾能力评价的有向加权图模型研究

为从城市具体规划建设的视角进行防灾能力评价,找到城市空间与设施的防灾薄弱环节,提升城市的防灾减灾能力,首先,在深入分析城市抗灾-救灾理念的基础上,从抗灾能力和救灾能力2个方面,建立适用于控制性详细规划层面的防灾能力评价指标体系;其次,基于防灾能力评价指标体系构建城市防灾有向加权图模型,通过PageRank算法对用地单元防灾能力值进行排序,实现防灾减灾能力的定量评价;最后,通过某市规划实例检验评价模型,针对控规单元的防灾问题提出规划提升措施。研究结果表明：所构建模型能够实现对各控规单元的防灾能力等级评价,反映城市控规单元防灾能力的分布情况,发现用地单元规划建设中的防灾减灾问题。