共查询到20条相似文献,搜索用时 46 毫秒
1.
生物多样性是生物及其与环境形成的生态复合体以及与此相关的各种生态过程的总和。由于气候变化、人类活动的加剧,生物多样性正在经受前所未有的快速变化,各国政府和相关国际组织已经积极投入到生物多样性监测和保护中。为了解生物多样性的现状和变化规律,全球性、区域性及国家性生物多样性监测网络陆续建立。地球观测组织—生物多样性监测网络(GEO BON)作为全球性网络,目的是建立和完善生物多样性监测核心指标EBV(Essential Biodiversity Variables),推动监测指标的标准化和全球化,为数据共享和大尺度生物多样性变化评估奠定基础。在区域尺度上,欧盟成立了EU BON,亚太地区成立了AP-BON。在国家尺度上,瑞士、英国、日本等均建立了监测网络。中国科学院在"十二五"期间成立了中国生物多样性监测与研究网络(Sino BON),对中国生物多样性的变化开展长期的监测与研究。生物多样性监测依赖于传统调查方法与先进技术结合,如红外相机、基因技术、无人机技术等。遥感能够提供大范围、全覆盖的生物多样性信息,是未来大尺度生物多样性监测的重要手段之一。为此,GEO BON成立了"生态系统结构"组主要研究如何建立基于遥感数据的EBV。Sino BON也引入了无人机近地面遥感技术探讨更大区域的生物多样性监测。未来随着中国综合地球观测系统的完善,Sino BON的地面观测将更好地与卫星数据结合,实现生物多样性天地一体化监测,服务于中国生物多样性保护与评估。 相似文献
2.
生态系统遥感以生态系统为对象,研究生态系统类型、格局、功能、服务及其过程的遥感解析方法,发展遥感驱动的生态系统服务评估方法,揭示贯穿在生态系统类型、格局、功能、服务中的深层次生态系统过程与隐性表现。新一代卫星和传感器为生态系统遥感提供了全新的数据源。生态系统类型和格局辨识能力还有待提高,从而对智能信息提取提出了更高的要求。生态系统功能监测方面还需要充分挖掘遥感数据的深层隐含特征,发展出一些易于处理且能够反映生态系统功能特征的新指标。生态系统服务评估方面仍需,发展遥感驱动的新的生态系统评估模型。与云平台的结合是生态系统遥感的未来发展方向,为全民参与生态环境保护及监督提供了契机,也可为重大工程的生态效应评估提供更丰富的数据支撑。 相似文献
3.
Abstract Biodiversity is the variety and variability of flora and fauna in an ecosystem. Articulated into genes, species, and ecosystem, it provides the biological plasticity needed by life on the earth to adapt changes. As we approach towards the forthcoming century, the earth's diversity of life is increasingly at risk through a combination of mostly human induced factors leading to erosion of genetic resources, extinction of species and collapse of ecological systems. Insitu conservation, biotechnology tools for conservation and prospecting, species habitat relationship and following evolutionary process of speciation are some of the challenges. India being one of the mega biodiversity centers of the world is also known for its traditional knowledge of conservation. The varied regions of the country, with unique floristic and faunal richness, their vastness, endemism, heterogeneity and also inaccessibility of large areas have necessitated creation of authentic baseline database on biodiversity. With the advent of Internet based Geographic Information System technology an effort is being made to harness the power of these technologies to facilitate biodiversity conservation. The information system organizes the data base generated under the project on “Biodiversity Characterization at landscape level using remote sensing and Geographic Information System in North East India” of the Department of Biotechnology and Department of Space, Government of India. The entire database is organized in object oriented relational database using Oracle as Backend and Visual Basic, ASP as front end. The web enabling part comes through uploading the entire spatial and non‐spatial data at a common platform using ArcSDE and ArcIMS The spatial characterization of landscape structures and its linkages with attribute information on the floristic composition, economic valuation, endemism are presented in Biodiversity Information System on a sharable environment. It is a step to evolve with new a mechanism to conserve biological diversity at local, regional and national level. 相似文献
4.
Liliana Perez Trisalyn Nelson Nicholas C. Coops Fabio Fontana C. Ronnie Drever 《International Journal of Digital Earth》2016,9(7):676-696
Climate drives ecosystem processes and impacts biodiversity. Biodiversity patterns over large areas, such as Canada's boreal, can be monitored using indirect indicators derived from remotely sensed imagery. In this paper, we characterized the historical space–time relationships between climate and a suite of indirect indicators of biodiversity, known as the Dynamic Habitat Index (DHI) to identify where climate variability is co-occurring with changes in biodiversity indicators. We represented biodiversity using three indirect indicators generated from 1987 to 2007 National Oceanic and Atmospheric Administration Advanced Very High Resolution Radiometer images. By quantifying and clustering temporal variability in climate data, we defined eight homogeneous climate variability zones, where we then analyzed the DHI. Results identified unique areas of change in climate, such as the Hudson Plains, that explain significant variations in DHI. Past variability in temperatures and growing season index had a strong influence on observed vegetation productivity and seasonality changes throughout Canada's boreal. Variation in precipitation, for most of the area, was not associated with DHI changes. The methodology presented here enables assessment of spatial–temporal relationships between biodiversity and climate variability and characterizes distinctive zones of variation that may be used for prioritization and planning to ensure long-term biodiversity conservation in Canada. 相似文献
5.
山地遥感主要研究进展、发展机遇与挑战 总被引:1,自引:0,他引:1
山地遥感是研究在山地这一特定环境中的遥感基本原理、方法及其应用的科学技术。从山地遥感研究的基本内涵出发,总结面临的若干前沿科学问题,指出当前主要研究内容:(1)电磁波与山地地表相互作用机理及建模理论;(2)山地遥感数据时—空—谱归一化处理方法;(3)山地地表信息遥感建模、反演与同化方法;(4)山地遥感尺度效应与算法/产品验证;(5)山地遥感信息综合应用等。从山地遥感研究的基础理论方法以及山地遥感应用两个层面回顾了近年来山地遥感研究取得的进展,并就新时代背景下山地遥感研究面临的机遇与挑战进行了分析,最后对山地遥感研究前景进行了展望。 相似文献
6.
火烧迹地是全球及区域碳循环和气候变化等研究所需的重要参数之一,卫星遥感技术为快速获取大区域火烧迹地空间分布信息提供了有效手段。中国科学院基于Landsat系列卫星数据研发了首个30 m空间分辨率全球火烧迹地产品GABAM (Global Annual Burned Area Map)。遥感数据产品的精度验证对产品使用具有重要意义,迄今尚未有研究机构对GABAM产品精度进行独立评价和分析。为系统评价GABAM产品精度,利用2010年全球30 m空间分辨率火烧迹地产品(GABAM2010)开展精度验证研究工作,在全球和几个陆地生物群落中估算了产品精度,并探索了全球遥感专题产品精度验证的技术框架。基于分层随机抽样选择80个非重叠的泰森多边形区域TSA (Thiessen Scene Areas),采用误差矩阵和6个精度指标对GABAM2010产品做全面精度评价和分析,以满足火烧迹地产品用户的使用要求。结果表明:在全球范围内,GABAM2010产品的错分率和漏分率分别为24.32%和31.60%,总体精度为97.85%;由于数据质量(如条带、云)等的影响,火烧迹地的范围会被低估,对于较容易发生火灾的生物群落,如热带亚热带草原区域,GABAM2010产品精度较高;在生物群落内部,高密度火烧迹地区域的精度高于低密度火烧迹地区域。 相似文献
7.
Forest conservation in human-dominated tropical landscapes ensures provision of major ecosystem services. However, conservation goals are threatened by growing demands for agricultural products. As the expansion of agricultural frontiers continues to exert increasing pressure on forest cover, it is crucial to provide indicators on forest vulnerability to improve our understanding of forest dynamics and prioritize management actions by local decision-makers. The purpose of this study is to develop a rigorous methodological framework to assess forest ecological vulnerability. We aim at evaluating the potential of remote sensing to characterize forest landscape dynamics in spatial and temporal dimensions. We present an innovative method that spatially integrates current landscape mosaic mapping with 45 years of landscape trajectories using Sentinel-2 and Landsat imagery. We derive indicators of exposure to cropland expansion, sensitivity linked with forest degradation and fragmentation, and forest capacity to respond based on forest landscape composition in Di Linh district in the Central Highlands of Vietnam. We map current forest-agricultural mosaics with high accuracy to assess landscape intensification (kappa index = 0.78). We also map the expansion of the agricultural frontier and highlighted heterogeneous agricultural encroachment on forested areas (kappa index = 0.72-0.93). Finally, we identify degradation and fragmentation trajectories that affect forest cover at different rates and intensity. Combined, these indicators pinpoint hotspots of forest vulnerability. This study provides tailored management responses and levers for action by local decision makers. The accessibility of multi-dimensional remote sensing data and the developed landscape approach open promising perspectives for continuously monitoring agricultural frontiers. 相似文献
8.
研究区域生态系统服务功能的时空演变趋势,有助于揭示人类活动或气候变化对该区域生态环境的影响,从而为生态系统服务功能的保育和管理提供依据。本文以淮安市为研究区,通过在时间维上拓展生态系统服务功能重要性评估的遥感指数法,计算了2000—2018每年的水源涵养、水土保持和生物多样性维护功能,并利用Mann-Kendall非参数检验和Hurst趋势性分析方法分析了时空演变趋势,结合中高分辨率遥感数据解译探索了变化原因。研究结果表明:①淮安市大部分区域生态系统服务功能呈显著增加趋势,其中水源涵养和生物多样性的增长趋势持续性较弱,而水土保持增长趋势持续性较强;②生态系统服务功能增加区域主要发生在耕地、林地等植被覆盖区域,减少区域主要发生在建筑用地等非生态用地区域;③淮安市耕地和林地等植被覆盖区域占比基本不变,甚至随着建筑用地占比的增加而稍有减少,生态系统服务功能增加的主要原因可能在于植被活力的增强,具体表现为植被绿度和植被生产力的增加。 相似文献
9.
陆表定量遥感反演方法的发展新动态 总被引:2,自引:0,他引:2
随着获取的遥感数据越来越多,定量遥感正处于一个飞速发展的时期。本文从反演方法和遥感数据产品生成两个主要方面对近期陆表定量遥感的发展进行评述。由于大气—陆表系统的环境变量数远远超过遥感观测数,定量遥感反演的本质是个病态反演问题。在评述机器学习方法(包括人工神经网络、支持向量回归、多元自适应回归样条函数等)的应用基础上,重点关注克服病态反演的7种正则化方法:多源数据、先验知识、最优化反演的求解约束、时空约束、多反演算法集成、数据同化和尺度转换。定量遥感发展的另外一个显著特征是由数据提供者(比如数据中心)将观测的遥感数据转换成不同的地球生物物理化学参数产品,即遥感高级产品,并服务于数据使用者。概括介绍了北京师范大学牵头研发的GLASS(Global LAnd Surface Satellite)产品的新进展与全球气候数据集的研发情况。 相似文献
10.
Safeguarding the diversity of natural and semi-natural habitats in Europe is one of the aims set out by the Habitats Directive (Council Directive 92/43/EEC on the conservation of natural habitats and of wild fauna and flora) and one of the targets of the European 2020 Biodiversity Strategy, and is to be accomplished by maintaining a favourable conservation status. To reach this aim a high-level understanding of the distribution and conditions of these habitats is needed. Remote sensing can considerably contribute to habitat mapping and their observation over time. Several European projects and a large number of scientific studies have addressed the issue of mapping and monitoring natural habitats via remote sensing and the deriving of indicators on their conservation status. The multitude of utilized remote sensing sensors and applied methods used in these studies, however, impede a common understanding of what is achievable with current state-of-the-art technologies. The aim of this paper is to provide a synthesis on what is currently feasible in terms of detection and monitoring of natural and semi-natural habitats with remote sensing. To focus this endeavour, we concentrate on those studies aimed at direct mapping of individual habitat types or discriminating between different types of habitats occurring in relatively large, spatially contiguous units. By this we uncover the potential of remote sensing to better understand the distribution of habitats and the assessment of their conservation status in Europe. 相似文献
11.
随着遥感技术的不断进步,许多陆地水循环的变量已经能够通过遥感定量估算。遥感方法能够提供大范围、长周期的水循环变量数据,这极大地推进了人们对陆地水循环过程的认识和理解。阐述了遥感观测陆地水循环重要变量的基本原理,回顾了陆地水循环遥感主要技术方法的重要进展和最新成果,指出下一步可能的发展方向。尽管目前遥感技术具备获取大范围水循环关键变量的能力,但是遥感估算的水循环分量还难以满足基本的水量平衡,表明当前遥感数据的水文一致性还待加强。未来遥感陆地水循环研究的发展一方面需要新型传感器和平台来提供更高精度且时空一致的观测数据,另一方面需要开展大型地面水循环同步全过程观测试验来对遥感产品进行深入评估,以促进遥感技术在陆地水循环研究中的应用。 相似文献
12.
森林地上生物量遥感反演方法综述 总被引:9,自引:0,他引:9
森林地上生物量反演对理解和监测生态系统及评估人类生产生活的影响有着重要作用,日益发展的遥感技术使全球及大区域的生物量估算成为可能。近年来,不同的遥感技术和反演方法被广泛用于估算森林生物量。本文首先总结了现有的全球及区域生物量产品及其不确定性,然后综述了3类方法在森林地上生物量遥感反演中的应用,即基于单源数据的参数化方法、基于多源数据的非参数化方法和基于机理模型的反演方法,阐述了各类反演方法的特点、优势及局限性。最后从机理模型研究、多源遥感数据协同、生物量季节变化研究和遥感数据源不断丰富4个方面对今后的生物量遥感反演研究进行了展望。 相似文献
13.
夜间灯光遥感与城市问题研究:数据、方法、应用和展望 总被引:1,自引:0,他引:1
夜间灯光遥感是能够探测夜间微光的光学遥感技术,可获取白天遥感无法获取的信息。由于城市区域的人造光源是夜间稳定亮光的主要来源,夜间灯光遥感影像已被证明可以更直观地反映夜间人类活动差异,同时具有覆盖范围大、时效快和易获取等优势,可广泛应用于多尺度长时序的城市问题研究。目前,基于夜间灯光遥感数据的应用研究成果较为丰富,不少学者对夜间灯光遥感数据的数据预处理以及应用潜力等方面进行了归纳。但基于夜间灯光遥感与城市问题研究的整理和总结还有待进一步加强。基于此,本文通过对近几十年来有关夜间灯光遥感数据的研究成果进行了详细梳理,从多尺度城市空间结构分析、城市社会经济指标估算以及城市公共安全领域研究3方面入手,系统梳理夜间灯光遥感数据的应用能力。进一步根据数据应用过程中出现的问题,从夜间灯光遥感日数据应用、长时间序列数据集生产以及定量验证等角度探讨了夜间灯光遥感所面临的挑战与前景。 相似文献
14.
15.
Potential application of remote sensing in monitoring ecosystem services of forests,mangroves and urban areas 总被引:1,自引:0,他引:1
Ram Avtar Pankaj Kumar Akiko Oono Chitresh Saraswat Singay Dorji Zarchi Hlaing 《国际地球制图》2017,32(8):874-885
The application of remote sensing (RS) techniques to monitor ecosystem services has increased in recent years. Nevertheless, the potential application of RS to monitor some of ecosystem services is still challenging. The paper reviews the applications of RS to monitor ecosystem services of forests, mangroves and urban areas. Satellite data provide substantial information about dynamics of environmental changes over time from local to global scale. These information are useful data sources for the people who are involved in the on-going evaluation and decision-making process to manage ecosystem. Many recent research papers on the topic were reviewed to find new applications and limitations of RS for monitoring ecosystem services. Advanced RS techniques have high potential to monitor ecosystem services with the advancement of sensors ranging from aerial photography to high and medium resolution optical RS and from hyperspectral RS to microwave RS. 相似文献
16.
山水林田湖草生态保护修复是保障国家生态安全的重要举措,科学合理的生态保护修复项目监测和绩效评价方法,有助于保障生态保护修复工程的顺利实施和生态保护修复成果的可持续发展。本研究采用文献综述和案例分析相结合的方法,论述了遥感技术在山水林田湖草生态保护修复项目监测和绩效评价中的具体应用。从关注区域生态系统格局和质量两方面出发,选择遥感数据获取的土地覆盖类型、植被长势、水质参数作为评价指标,整体实现了山水林田湖草各生态要素的监测;从维护和提升区域生态系统服务出发,选择水源涵养、水土保持、生态系统承载力等指标,论述了遥感数据在辅助山水林田湖草生态保护修复项目绩效评价中的作用。最后指出积极探索新的遥感数据挖掘方法,并结合遥感技术与传统的调查方法,有望形成更客观、更快速且具备可执行性的山水林田湖草生态保护修复项目监测及绩效评价体系。 相似文献
17.
陆地总初级生产力遥感估算精度分析 总被引:1,自引:0,他引:1
准确估算陆地总初级生产力GPP(Gross Primary Productivity)数值对碳循环过程模拟有重要影响。本文介绍了多种基于植被指数以及基于光能利用率的遥感GPP算法,综述了不同算法在其研究区域的估算精度;并分析了MODIS/GPP以及BESS/GPP两种遥感GPP产品在不同植被类型的估算精度。通过对比全球碳通量站网络GPP数据表明,MODIS/GPP产品在全球估算结果具显著相关性(R2=0.59)及中等标准误差(RMSE=2.86 g C/m2/day),估算精度较高的植被类型有落叶阔叶林,草地等;估算精度较低类型包括常绿阔叶林,稀树草原等。本文对GPP产品中存在的不确定性进行分析,通过综述前人研究中发现的遥感估算GPP方法中存在的问题,指出可能的提高卫星遥感GPP产品估算精度的方法及发展趋势。 相似文献
18.
Winter wheat biomass estimation using high temporal and spatial resolution satellite data combined with a light use efficiency model 总被引:1,自引:0,他引:1
Winter wheat biomass was estimated using HJ CCD and MODIS data, combined with a radiation use efficiency model. Results were validated with ground measurement data. Winter wheat biomass estimated with HJ CCD data correlated well with observed biomass in different experiments (coefficients of determination R2 of 0.507, 0.556 and 0.499; n?=?48). In addition, R2 values between MODIS estimated and observed biomass are 0.420, 0.502 and 0.633. Even if we downscaled biomass estimated using HJ CCD data to MODIS pixel size (9?×?9 HJ CCD pixels to approximate that MODIS pixel), R2 values between estimated and observed biomass were still higher than those from MODIS. We conclude that estimation with remote sensing data, such as the HJ CCD data with high spatial resolution and shorter revisit cycle, can show more detail in spatial pattern and improve the application of remote sensing on a local scale. There is also potential for applying the approach to many other studies, including agricultural production estimation, crop growth monitoring and agricultural ecosystem carbon cycle studies. 相似文献
19.
融合多源时序遥感数据大尺度不透水面覆盖率估算 总被引:1,自引:0,他引:1
不透水面信息是监测城市扩张及区域生态环境变化研究的重要指标,基于遥感技术对地表不透水面信息进行快速提取具有重要意义。传统大范围不透水面覆盖率估算模型主要基于单一遥感信息与不透水面比例之间的相关性,通过单因子回归模型实现不透水面覆盖率的估算。受限于单一遥感信息的信息量及普适性等影响,这类方法在大尺度不透水面提取中具有较大局限性,估算结果的区域适应性存在较大差异。针对该问题,本文提出基于多特征遥感信息进行不透水面估算的方法,以弥补单一特征在大范围不透水面提取中的不确定性。该方法首先以多时相MOD13Q1、MOD09A1产品、夜间灯光数据(NPP-VIIRS)和Landsat 8 OLI为遥感数据源,从不同角度构建突出不透水面信息的多个指数特征;在此基础上利用多元回归模型建立多因子不透水面覆盖率估算模型,进而实现大尺度不透水面覆盖率的遥感估算。本研究选择分布于全国范围内13个典型城市作为主要研究区对提出的模型进行了验证,结果表明:该方法能够适应不同区域不透水面覆盖率的估算,在复杂城市区域表现出较传统方法更好的效果,明显改善了城市内部不透水面覆盖率的估算精度。 相似文献
20.
持续开展生态环境遥感监测对于认识和评估全球生态系统可持续性和人类生存环境状况具有重要的科学意义,是面向“推进生态文明建设”和“构建地球生命共同体”等目标和愿景,提升综合地球观测能力和应对全球生态环境挑战的务实行动。为此,中华人民共和国科学技术部国家遥感中心聚焦可持续发展、气候变化、防灾减灾和韧性城市等优先事项,通过政府部门、科研机构、国际组织和社会公众的协同,连续十年(2012年—2021年)发布和共享了“全球生态环境遥感监测年度报告”共29个专题报告和100余个遥感数据集。此项工作取得的成果包括:在遥感技术方法创新方面,基于国产高分辨率卫星和多源遥感影像,针对生态系统状况和人类活动痕迹的高精度遥感监测取得了一批具有自主知识产权的算法模型和数据产品;在人类生存环境认知方面,显著提升了公众对粮食安全、气候变化、城市扩展、土地退化和自然灾害风险等全球生态环境热点问题的科学认知;在生态环境重点区域方面,对“一带一路”、南极、非洲、东盟等典型区域开展精细化监测和评估。该项工作是中国作为地球观测组织GEO(Group on Earth Observations)联合主席国对国际社会的实质贡献,为相关机构和部门决策制定提供了重要的信息参考。本论文在此项工作开展十周年之际,系统阐述和总结了全球生态环境遥感监测年度报告的主要内容和亮点成果,并对未来发展提出展望。 相似文献