共查询到17条相似文献,搜索用时 187 毫秒
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基于气象监测网络的森林火险快速预警模型 总被引:1,自引:0,他引:1
森林火灾发生频繁且突发性强,进行森林火险快速预警对于减小森林火灾损失和促进森林资源可持续发展至关重要。本文基于GIS空间分析和可视化技术,利用地面气象站构建实时气象监测网络,设计了运用气象监测网络的森林火险预警模型,可实现森林火险及时、快速预警。模型应用层次分析法建立了预警因子重要性层次结构并确定预警因子的权重;运用Voronoi图技术,基于气象站点和实时气象数据,构建气象监测网络;利用叠置分析技术计算得出预警结果。基于该模型设计的森林火灾快速预警系统应用于青海省林业局,验证了系统可行性与适用性,该模型可全面、准确、快速地实现对森林火险的预警。结果表明:① 根据预警模型及实时气象监测数据,可及时发出预警信号,快速实现县级、林场级别的森林火险早期预警和及时响应;② 运用GIS可视化技术,可快速生成相关区域森林火险的空间分布专题图,直观地观察预警等级的变化情况。实践表明,森林火险快速预警对森林火灾进行有效预防、中断管理和制定扑救措施具有重要的指导作用,并对森林防火工作、保护森林资源和人类生命财产安全具有重大意义。 相似文献
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水源涵养林对保障城市用水质量有重要作用,但目前研究水源保护区的火险评估模型较少,且相关驱动因素分析匮乏。针对上述问题,从地形、植被、气象和人为因素4个维度出发,构建水源保护区的火险评价指标体系,同时结合层次分析法定权构建火险预警模型。以深圳市铁岗-石岩水源保护为例,对该区域2015年4月、8月、10月、12月份的火险进行评估,根据评估结果分析研究区火险指数时空分布特征,并引入主成分分析模型分析水源保护区火险发生驱动因素。得出结论:①火险指数分布时空差异明显,呈现季节性变化和区域性变化。②水源保护区火险发生的主要驱动因素是离构筑物(发电站、高压电塔)距离、离道路距离、地表覆盖类型这3个因子。 相似文献
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结合遥感和气象数据的森林火险监测研究——以马来西亚半岛为例 总被引:4,自引:1,他引:3
结合遥感和气象数据,基于可燃物引燃能量的物理概念,利用火灾敏感性指数(FSI)进行森林火险监测和评估。计算FSI只需要两个参数,即可燃物的温度和湿度,两者均可以从遥感和气象数据获得。利用遥感数据进行可燃物类型制图,并根据可燃物易燃性对FSI的值进行调整计算。利用MODIS探测的火点数据对马来西亚半岛火灾前9天的FSI进行了比较分析,发现随着火灾发生日期的接近,FSI的值逐渐升高,这个趋势在火灾发生的前4天中表现的尤其明显。结果表明,FSI将遥感数据和气象数据两者紧密结合在一起,能够很好地对森林火险进行监测和预警,是一种性能优越的火险评价指数。FSI可用于计算可燃物的点燃概率以及在不同的生态系统中进行火险的比较,并且因其灵活性和可扩展性,有利于不同类型火险模型的集成和发展。 相似文献
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森林资源是极其重要的自然资源。利用3S(GIS、RS、GPS)技术、数据库技术,以及网络技术建立森林防火信息系统对减少森林火灾损失具有重要意义。本文以四川省遂宁市为例,对该市森林防火信息系统的结构和功能、系统的数据库进行了设计、建设。该系统数据库的数据主要有1:1万地形图,1:1万森林资源二类调查数据,气象站点数据,扑火力量分布数据,了望站点分布数据,扑火物资储备数据,林业管理机构分布数据,以村或乡镇为单位的人口、经济统计数据及遥感影像数据库。该系统的主要功能包括数据的处理和管理,森林火险等级评价,森林火灾监测,林火趋势模拟和预测,最佳扑火路径分析,防火扑火预案制定,防火扑火决策,灾害损失评估,灾后重建辅助决策,相关图、表和报告制作等功能。在系统的搭建过程中,采用MicrosoftVisualStudio2005作为开发平台,利用Ar-cEngine组件对象模型进行软件系统的开发,采用SQLServer2005数据库管理系统和ArcSDE9.2空间数据库引擎来实现该系统的数据管理。该系统的建立对该市森林防火和森林资源管理等均具有重要意义。 相似文献
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“通过创新和完善防火工作机制,我市已连续7年无森林火灾发生,有效保护了森林资源和人民生命财产安全。”谈及森林防火工作,新密市林业局相关负责人介绍。近年来,新密市在实践中不断创新工作机制,推动森林防火工作标准化、规范化、法制化,森林火灾预防和扑救能力得到明显提升,并被评为省、市防火模范市。 相似文献
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人为或自然因素造成的森林火灾常导致森林覆盖和结构的变化,对森林碳循环产生重大影响。MODIS热异常-火灾产品(MOD14)包含地表火灾位置、可信度、火点辐射能量及其他属性信息,可用于火灾频率、等级及其变化的监测。本研究以俄罗斯欧洲地区的北方森林为研究对象,采用2005-2010年每日MODIS14数据和GIS空间分析方法,对研究区过火像元进行判别提取,分析该地区林火时空变化规律,并探讨驱动因素。结果显示,俄罗斯欧洲地区森林火灾主要分布在中南部。近年来,火灾数量呈上升趋势,2010年的火灾覆盖范围是2005年的1.5倍;年内火灾发生情况随时间波动,火险期为每年的4-10月;极端干旱天气造成的的特大型火灾事件在本研究结果中得以反映。 相似文献
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为有效地识别燃气聚乙烯管道薄弱环节,保障管道系统运行安全,建立了一种考虑脆弱性的风险评估方法。结合城镇燃气聚乙烯管道系统灾害事故特点,辨识影响城镇燃气聚乙烯管道系统脆弱性的主要因素,建立了包括致灾脆弱性、后果脆弱性2个方面、29项指标的多级指标评估体系。运用模糊综合评价的方法,计算各评估指标的权重,建立城镇燃气聚乙烯管道系统的脆弱性评估数学模型,实现系统脆弱度计算和脆弱等级确定。根据管段脆弱等级,分析各指标对城镇燃气聚乙烯管道系统脆弱性的影响程度,掌握其灾变演化规律,以便准确预测管道的运行状况,保障其长周期安全运行。 相似文献
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为建立适用于多种灾情的评估指数公式,运用遗传算法,优化公式中的参数.该公式对于分级指标项数没有限制,使用范围广泛.应用该公式对1990年我国部分省市发生的9次自然灾害进行等级划分,并与其它方法的评估结果进行比较,验证了公式的正确性. 相似文献
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天山西部林区护林防火信息系统是综合运用空间信息技术、数据库技术及森林防火专业技术,依托地理基础信息、森林资源信息及护林防火专题信息,在Arc GIS Engine开发平台上,通过VB.NET可视化开发语言的二次开发,构建的专业应用系统。该系统的框架包括数据库及林火预测预报、火灾指挥扑救、灾后损失评估、森林资源管理等子系统,可实现火点智能定位、火场信息查询显示、辅助决策指挥等具体功能。为林区护林防火部门进行宏观管理、分析决策提供多源、及时、科学的空间信息服务,旨在改善林区防灾、减灾及森林安全工作的被动局面,提升林火管理的科学化、信息化水平。 相似文献
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1 INTRODUCTIONAsanimportantcomponentoftheglobalterres trialecosystems ,forestlinkstheatmosphere ,soilandwatertogetherthroughitspowerfulecologicalfunc tion .Inrecentyears,owingtotheglobalwarmingandhumaninfluence ,forestfireoccurmuchmorefrequently .Theannualf… 相似文献
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1INTRODUCTIONForests are one of the major natural resources that per-form important environmental and recreational func-tions (COSTANZA and GROOT, 1997). It is well known that forests can absorb atmospheric carbon, maintain a certain degree of humidity in atmosphere, regulate rainfall, moderate temperature, and restrain soil erosion, etc. (AURELIA, 2003). So, the health of a forest in any given area is a very important indicator of the ecological conditions. But fire is the great… 相似文献
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森林过火区植被遥感参数的变化与恢复特征分析 总被引:1,自引:0,他引:1
遥感技术可以快速、准确地监测森林火灾火烧迹地的植被遥感参数变化,分析植被对火灾的响应与恢复特征,为防灾减灾决策提供科学依据。本文首先基于森林火灾前后的Landsat5 TM数据,利用差分归一化燃烧指数(the Differential Normalized Burn Ratio,dNBR)来提取2009年澳大利亚维多利亚州火烧迹地的范围,计算过火区面积及火烧强度;其次基于时间序列的全球地表特征参量(Global Land Surface Satellite,GLASS)产品中的叶面积指数(Leaf Area Index,LAI)、吸收光合有效辐射比例(Fraction of Absorbed Photosynthetically Active Radiation,FAPAR)数据,利用距平分析法对比不同火烧强度过火区植被与未过火区植被受森林火灾的影响状况与植被恢复特征。结果表明,森林火灾发生后,LAI、FAPAR值迅速降低,火烧强度越大,LAI、FAPAR下降程度越大,高火烧强度过火区的LAI、FAPAR最大降幅分别为中火烧强度、低火烧强度过火区的1.2、1.3倍;随时间推移,LAI、FAPAR值逐渐上升,在2-3年内恢复至未过火区水平。LAI、FAPAR恢复至未过火区平均水平的时间与森林火灾规模、火烧强度密切相关:维多利亚州森林火灾过火区域中大过火斑块、高火烧强度林地的植被遥感参数恢复时间相比小过火斑块、低火烧强度林地滞后1-2年。植被遥感参数LAI、FAPAR能很好地反映过火区植被的受损状况及恢复过程。 相似文献
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Compared to burn interiors, edges exhibit distinct biotic and abiotic conditions that include microclimate, wind speed, sunlight levels, soil composition, moisture content, nutrient availability, population density, and species diversity. This study characterized the landscapes in which burned forest edges formed in Samcheok, Korea. Over the study area, 500-m2 grid cells were generated to capture landscape characteristics. Grid cells intersecting burn boundary lines were designated as edge, while cells without these lines were classified as the interior of burned areas. Topographic variables including slope, elevation, topographic wetness index, solar radiation index, and proportions of fuel and land use types within grid cells were computed in a geographical information system (GIS). Correlation analysis with modified t-test and regression tree analysis were performed to explore the influences of landscape variables on edge formation with avoiding spatial autocorrelation problems. The results indicated that edges formed at low elevations with mild slopes, high topographic wetness, and low solar radiation. Edges were unlikely to form in areas dominated by Japanese red pines at low elevations. Moreover, heterogeneous land use/cover types contributed significantly to edge formation. Different forest management strategies for different landscape conditions can be more effective for enhancing resilience of forests to fire. Reducing susceptible fuel types might be effective at low elevations, while enhancing forest heterogeneity might be more effective at high elevations. 相似文献
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Driving factors for forest fire occurrence in Durango State of Mexico: A geospatial perspective 总被引:3,自引:2,他引:1
Diana Avila-Flores Marin Pompa-Garcia Xanat Antonio-Nemiga Dante A Rodriguez-Trejo Eduardo Vargas-Perez Javier Santillan-Perez 《中国地理科学(英文版)》2010,20(6):491-497
Forest fire is one of the major causes of forest loss and therefore one of the main constraints for sustainable forest management
worldwide. Identifying the driving factors and understanding the contribution of each factor are essential for the management
of forest fire occurrence. The objective of this study is to identify variables that are spatially related to the occurrence
and incidence of the forest fire in the State of Durango, Mexico. For this purpose, data from forest fire records for a five-year
period were analyzed. The spatial correlations between forest fire occurrence and intensity of land use, susceptibility of
vegetation, temperature, precipitation and slope were tested by Geographically Weighted Regression (GWR) method, under an
Ordinary Least Square estimator. Results show that the spatial pattern of the forest fire in the study area is closely correlated
with the intensity of land use, and land use change is one of the main explanatory variables. In addition, vegetation type
and precipitation are also the main driving factors. The fitting model indicates obvious link between the variables. Forest
fire was found to be the consequence of a particular combination of the environmental factors, and when these factors coexist
with human activities, there is high probability of forest fire occurrence. Mandatory regulation of human activities is a
key strategy for forest fire prevention. 相似文献
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Burned area mapping is an essential step in the forest fire research to investigate the relationship between forest fire and climate change and the effect of forest fire on carbon budgets. This study proposed an algorithm to map forest fire burned area using the Moderate-Resolution Imaging Spectroradiameter (MODIS) time series data in Heilongjiang Province, China. The algorithm is divided into two steps: Firstly, the ‘core’ pixels were extracted to represent the most possible burned pixels based on the comparison of the temporal change of Global Environmental Monitoring Index (GEMI), Burned Area Index (BAI) and MODIS active fire products between pre- and post-fires. Secondly, a 15-km distance was set to extract the entire burned areas near the ‘core’ pixels as more relaxed conditions were used to identify the fire pixels for reducing the omission error as much as possible. The algorithm comprehensively considered the thermal characteristics and the spectral change between pre- and post-fires, which are represented by the MODIS fire products and the spectral index, respectively. Tahe, Mohe and Huma counties of Heilongjiang Province, China were chosen as the study area for burned area mapping and a time series of burned maps were produced from 2000 to 2011. The results show that the algorithm can extract burned areas more accurately with the highest accuracy of 96.61%. 相似文献
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Larch caterpillar (Dendrolimus superans) is very common in the Da Hinggan Mountains, Northeast China, affecting fire regime and forest ecosystem change at large spatio-temporal scales. In this study, we used a spatially explicit landscape model, LANDIS, to simulate the changes of fire regime and forest landscape under four larch caterpillar disturbance intensity levels scenarios in Huzhong forest area, northern of Da Hinggan Mountains. The results indicate that larch caterpillar disturbances would decrease ... 相似文献