共查询到19条相似文献,搜索用时 218 毫秒
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国外农情遥感监测系统现状与启示 总被引:19,自引:1,他引:18
大范围的可靠农情信息对粮食市场及相关政策的制定至关重要,是保障区域及全球粮食安全的重要依据,在全球气候变化、人口增长、土地利用/覆盖变化剧烈的背景下,对这一信息的需求也更加迫切.传统农情信息的获取依赖于庞大的调查队伍和大量的调查工作,信息的获取存在成本高、时效性差和结果受主观影响大的缺点.伴随着近30年遥感技术本身及其在农情信息获取领域能力的提升,一些国家与国际组织建设了各自的农情遥感监测系统,并开展了运行化的监测.对美国、欧盟、FAO、加拿大、巴西、阿根廷、俄罗斯、印度等主要的农情遥感监测系统进展进行了详细的介绍,并通过对这些系统的分析得到一些农情监测系统建设的启示.指出作物种植面积估算、单产预测、长势监测、旱情监测是农情遥感监测中最主要的4个主题.在面积估算方面,各个系统在遥感技术不断发展的同时对地面调查的依赖并没有减少,甚至得到了强化,这与遥感降低地面调查的初衷相违背,导致遥感技术在大范围农情监测中的潜力没有得到充分发挥,在单产预测方面,需要发展独立的遥感预测方法.提升遥感的作用是未来一段时间内农情遥感监测系统建设的主要方向. 相似文献
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随着遥感技术的发展和自然资源事业对遥感应用需求的不断增多,通过遥感先行开展先行观测、先行探测、先行监测,强化自然资源数据的获取,提高调查的精度和速度,遥感技术正在促进自然资源调查程序和方式的转变.本文围绕新时代自然资源调查体系的新变化,提出了遥感先行的理念、目标及发展方向,认为:1)遥感先行是自然资源调查监测技术体系构建的重要内容,可实现对自然资源全要素、全覆盖、全天候、全尺度的调查监测;2)通过遥感技术方法体系的创新、遥感产品的转化应用等,可发挥遥感技术在矿产、生态、水、土、灾害等调查监测中的重要先行作用;3)"天-空-地"一体化的遥感综合观测技术是推动中国西部地区自然资源精准快速调查和全球尺度环境问题监测的最佳技术手段. 相似文献
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基于遥感数据的全球及区域土地覆盖制图--现状、战略和趋势 总被引:21,自引:4,他引:17
土地利用/土地覆盖变化研究是近年来全球变化研究的焦点之一。全球和区域尺度的土地覆盖特征对全球环境状况的评估、模拟未来全球环境的情景有重要的作用。2000年在Internat ionalJournalofRemoteSensing杂志上出版了题为"GlobalandRegionalLandCoverCharacterizat ion from Remotely Sensed Data"的专辑。在此基础上,介绍、总结了国际上利用遥感影像进行全球和区域等大尺度土地覆盖研究的新进展。分别从数据源与制图的时空尺度、制图方法(数据预处理、分类、精度评估)等方面进行了介绍,并对现今的两个全球土地覆盖数据库进行了比较分析。 相似文献
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河川径流遥感监测研究进展 总被引:5,自引:0,他引:5
河川径流参数是用于地表水资源评估、全球变化监测和生态环境保护的基础数据.现有的河川径流监测数据基于水文监测站点获取.近年来,受经济和政治原因的影响,全球水文监测站点在逐渐减少.随着全球变化研究对区域乃至全球水文监测数据需求的增加,监测站点有限及监测数据格式多样等问题逐渐凸显.过去15年,卫星遥感技术在河川径流监测领域的研究和应用实践,使上述问题的解决成为了可能.总结了河川径流遥感监测方法和技术研究进展,包括地基高低频雷达、航空航天雷达和多光谱卫星遥感监测3个方面;介绍了全球大型河川径流与湖泊水体动态监测重大应用成果及未来研究计划.指出在未来具有全天时、全天候,高时空分辨率,以及多水文要素探测能力遥感卫星发射之前,应充分利用遥感野外观测实验,完善河川径流监测技术方法,并综合应用已有高时空分辨率的多光谱和微波遥感数据,开展径流监测应用研究. 相似文献
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基于地面观测的遥感监测蒸散量验证方法研究 总被引:3,自引:2,他引:1
为了保证遥感监测蒸散量的准确性,需建立一套较完整的遥感监测蒸散量地面验证方法对其进行验证.通过由大孔径闪烁仪、涡动相关仪和自动气象站等组成的蒸散量观测系统可以获取不同卫星像元尺度蒸散量的地面观测值.自2002年以来,由海河流域的密云、馆陶、大兴及小汤山等站构建了一个不同卫星像元尺度蒸散量的观测站网,经过严格的观测数据处理与质量控制,获取了一大批卫星像元尺度蒸散量及其配套参数的地面观测值.同时,建立了一套基于地面观测的遥感监测蒸散量验证流程,重点对验证像元的选取以及评价指标的构建等进行探讨.依据上述验证流程,在海河流域的北京地区开展了遥感监测蒸散量的地面验证工作.利用2008年密云站和大兴站的大孔径闪烁仪观测数据,对基于MODIS数据估算的北京地区区域蒸散量进行验证.结果表明:这套基于大孔径闪烁仪观测数据的遥感监测蒸散量验证方法是合理、可行的.其中2008年北京地区遥感监测月、日蒸散量的均方差分别为13.75和0.91 mm,平均相对误差分别为22.79%、18.61%. 相似文献
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黑河流域遥感—地面观测同步试验:科学目标与试验方案 总被引:44,自引:17,他引:27
介绍了黑河流域遥感-地面观测同步试验的科学背景、科学问题、研究目标以及观测试验方案和观测系统布置.总体目标是,开展航空-卫星遥感与地面观测同步试验,为发展流域科学积累基础数据;发展能够融合多源遥感观测的流域尺度陆面数据同化系统,为实现卫星遥感对流域的动态监测提供方法和范例.以具备鲜明的高寒与干旱区伴生为主要特征的黑河流域为试验区,以水循环为主要研究对象,利用航空遥感、卫星遥感、地面雷达、水文气象观测、通量观测、生态监测等相关设备,开展航空、卫星和地面配合的大型观测试验,精细观测干旱区内陆河流域高山冰雪和冻土带、山区水源涵养林带、中游人工绿洲及天然荒漠绿洲带的水循环和生态过程的各个分量;并且以航空遥感为桥梁,通过高精度的真实性验证,发展尺度转换方法,改善从卫星遥感资料反演和间接估计水循环各分量及与之密切联系的生态和其他地表过程分量的模型和算法.由寒区水文试验、森林水文试验和干旱区水文试验,以及一个集成研究--模拟平台和数据平台建设组成.拟观测的变量划分为5大类,分别是水文与生态变量、驱动数据、植被参数、土壤参数和空气动力参数.同步试验在流域尺度、重点试验区、加密观测区和观测小区4个尺度上展开.布置了加密的地面同步观测、通量和气象水文观测、降雨、径流及其他水文要素观测网络;使用了5类机载遥感传感器,分别是微波辐射计、激光雷达、高光谱成像仪、热红外成像仪和多光谱CCD相机;获取了丰富的可见光/近红外、热红外、主被动微波、激光雷达等卫星数据. 相似文献
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全球业务化海洋预报进展与展望 总被引:1,自引:1,他引:0
海洋环境预报在经济发展和基础设施建设等方面发挥着越来越重要的作用,涉及到海上安全、海洋能源开发与保护、远洋运输和海洋渔业等许多领域和方面。近年来,各国的全球海洋预报取得了显著的进展。全球海洋数据同化实验(GODAE)Ocean View计划为各国提供协调和技术支持,发展并建立全球业务化海洋预报系统,将全球海洋预报的概念实现业务化运行。全球业务化海洋预报系统以海洋动力数值模式作为动力框架,将近实时高质量的观测输入场通过资料同化融入到模式中,实现对全球范围多时空尺度的海洋状况提供未来演替的预测,并对产品表现不间断地进行监测以保证预报服务的质量。简要介绍和回顾GODAE Ocean View所涵盖的全球海洋预报系统的发展历程和现状,并对全球海洋预报未来发展的难点与问题给予展望。 相似文献
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遥感影像以多分辨率记录了地表的覆盖特征。影像的空间分辨率限定了遥感对地观测的最小单元。地理环境特征监测的基本空间尺度的适宜性对遥感提出了多分辨率的需求 ,同时 ,多种全球变化模型对土地覆盖类型及空间格局需求的尺度也不同。因此 ,作为模型重要参数的土地覆盖特征的多分辨率遥感监测对满足不同模型的需求以及对利用实测数据进行尺度转换研究是重要的。本文在遥感、地理信息系统支持下 ,从遥感数据采集的空间分辨率的角度定量化判断空间分辨率放大过程对土地覆盖特征监测的影响。研究区域选定在NECT(中国东北样带 )的西部 (42°~ 46°N、1 1 0°~1 2 1°E)。采用美国地球资源观测系统数据中心提供的 相似文献
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数字黑河的思考与实践4:流域观测系统 总被引:2,自引:1,他引:1
数字化的流域观测系统是数字流域的重要组成部分.①首先介绍了水循环卫星遥感和地面观测的最新进展,以及航空遥感在流域观测中的重要作用.②介绍了对于流域观测系统的构想.认为流域观测系统应兼顾陆面过程、水文、生态观测的不同空间尺度和时间尺度,监测与控制试验并重,地面与遥感配合,重视采样设计,重视新兴观测手段,与信息系统扣模型高度集成,科学目标导向,模型需求驱动.③黑河流域观测系统由位于流域上中下游不同景观带的野外研究站、综合观测试验以及气象水文业务化观测网络组成,在流域内先后开展了HEIFE实验、金塔试验和黑河综合遥感联合试验.④介绍了对于流域观测系统的进一步构想:增强遥感观测能力是关键,集成遥感、地面观测和模型模拟才能更好地定量估计水循环,流域观测系统应和信息系统、综合模型等共同构成流域科学研究的信息基础设施,更好地为流域科学服务. 相似文献
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From early November 2008 to February 2009, lack of rainfall led to severe drought in northern China. More than 9.3 million ha of wheat in six major crop production provinces, including Henan, Anhui, Shandong, Shanxi, Gansu, and Shaanxi, were hit by drought. Supported by Chinese HJ-1 satellite images together with NASA Moderate Resolution Imaging Spectroradiometer (MODIS) data, dynamic monitoring of the drought was conducted. HJ-1 CCD data with 30-m resolution were used to identify cropland information. Spatial–temporal variation of drought was detected using Vegetation Index and Water Index time series data derived from MODIS visible, infrared, and short-wave infrared bands. The influences of drought were classified into five levels based on MODIS-derived 8-day composite Anomaly Water Index (AWI) and field survey data. The results indicated that the drought deteriorated beginning in November 2008 and became most serious in late January 2009. HJ-1 data together with MODIS data proved to be valuable data sources for monitoring soil moisture and drought at a both regional and national scale. 相似文献
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Catherine Nakalembe 《Natural Hazards》2018,91(3):837-862
Karamoja is notoriously food insecure and has been in need of food aid for most years during the last two decades. One of the main factors causing food insecurity is drought. Reliable, area-wide, long-term data for detecting and monitoring drought conditions are critical for timely, life-saving interventions and the long-term development of the region, yet such data are sparse or unavailable. Due to advances in satellite remote sensing, characterizing drought in data-sparse regions like Karamoja has become possible. This study characterizes agricultural drought in Karamoja to enable a comprehensive understanding of drought, concomitantly evaluating the suitability of NDVI-based drought monitoring. We found that in comparison with the existing data, NDVI data currently provide the best, consistent, and spatially explicit information for operational drought monitoring in Karamoja. Results indicate that the most extreme agricultural drought in recent years occurred in 2009 followed by 2004 and 2002 and suggest that in Karamoja, moderate to severe droughts (e.g., 2008) often have the same impact on crops and human needs (e.g., food aid) as extreme droughts (e.g., 2009). We present in a proof-of-concept frame, a method to estimate the number of people needing food assistance and the population likely to fall under the integrated food security phase classification (IPC) Phase 3 (crisis) due to drought severity. Our model indicates that 90.7% of the variation in the number of people needing aid can be explained by NDVI data and NDVI data can augment these estimates. We conclude that the biggest drivers of food insecurity are the cultivation of crops on marginal land with insignificant inputs, the lack of irrigation and previous systematic incapacitation of livestock (pastoral) alternatives through government programming. Further research is needed to bridge empirical results with social–economic studies on drought impacts on communities in the region to better understand additional factors that will need to be addressed to ensure livelihood resilience. 相似文献
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平邑县矿产资源开发远程监控系统建设是平邑县在科技管矿方面迈出的重要一步。该文论述了矿产资源开发远程监控系统的设计架构、系统的作用和特点、子系统的建设,为实现国土资源管理部门对矿山的全方位监管和矿政管理信息化的建设提供了有效的解决方案。 相似文献
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在20世纪90年代,Lehrmann等把中国南方贵州省南部罗甸地区早三叠世的一个孤立的"罗甸碳酸盐岩台地",称作"大贵州滩"。在国外,已有300多篇文章引用"大贵州滩"这一术语。笔者等曾对中国南方早及中三叠世的岩相古地理进行过研究,根据我们的地质资料,在贵州省南部的罗甸地区,在早三叠世,只有一个孤立的"罗甸碳酸盐岩台地",没有"大贵州滩",也不能把"罗甸碳酸盐岩台地"称作"大贵州滩"。《古地理学报》(英文版)2015年第4卷第1期,刊登了冯增昭等的文章,There was no"Great Bank of Guizhou"in the Early Triassic in Guizhou Province,South China(中国南方贵州省早三叠世没有"大贵州滩")。本文是该英文文章的详细摘要,目的在于让国内的广大读者也知道:"大贵州滩"这一术语是严重的名不副实,不应继续使用。 相似文献
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At present, drought monitoring has changed from single factor to multi-factor comprehensive direction. In order to better promote the development of comprehensive drought monitoring theory and related models, the conceptual connotation of comprehensive drought monitoring was comprehensively and systematically analyzed, and the construction methods of comprehensive drought monitoring model were sorted out, which were divided into fivemethods Water balance model method, linear model combination method, multi-variable joint distribution function method, principal component analysis method and multi-source information data mining method. Furthermore, in view of the current challenges and shortcomings of integrated drought monitoring, the direction of future development of integrated drought monitoring model was put forward, that is, at the theoretical level: The first is to study the internal mechanism of drought and its occurrence and development process, clarify the relationship among the factors affecting drought, and construct a comprehensive quantitative drought monitoring model integrating multiple factors; The second is to enhance the pertinence of drought monitoring model, develop suitable drought monitoring model according to different regions, underlying surface, growing season, etc.;The third is to construct the precision verification index system of comprehensive monitoring model for drought in view of the difficulty of model validation. At the technical level, the integration and fusion of drought-related multi-source information is studied to improve its comprehensive utilization level and provide abundant data support and technical support for drought monitoring.
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针对我国北方地区常见的几种农业气象灾害:干旱、低温冷害、霜冻和干热风,对其各类指标进行了归纳和描述。干旱指标是从监测、防御、经济损失评估、社会经济发展水平和科技进步5个方面来分别描述;冷害指标就目前常见的几类进行了简要介绍;霜冻指标多针对不同作物给出具体判别标准;干热风指标从气象、判别、危害和防御4个方面进行了描述。总结了不同指标的优缺点,同时也对这些灾害指标目前存在的问题和今后改进的方向提出了看法,为形成北方地区农业气象灾害指标体系奠定基础,同时为今后该地区各类农业气象灾害的监测、评估及防灾减灾工作提供参考与支撑。 相似文献
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Modeling of groundwater draft based on satellite-derived crop acreage estimation over an arid region of northwest India 总被引:1,自引:0,他引:1
Bidyut Kumar Bhadra Sanjay Kumar Rakesh Paliwal A. T. Jeyaseelan 《Hydrogeology Journal》2016,24(7):1681-1698
Over-exploitation of groundwater for agricultural crops puts stress on the sustainability of natural resources in the arid region of Rajasthan state, India. Hydrogeological study of groundwater levels of the study area during the pre-monsoon (May to June), post-monsoon (October to November) and post-irrigation (February to March) seasons of 2004–2005 to 2011–2012 shows a steady decline of groundwater levels at the rate of 1.28–1.68 m/year, mainly due to excessive groundwater draft for irrigation. Due to the low density of the groundwater observation-well network in the study area, assessment of groundwater draft, and thus groundwater resource management, becomes a difficult task. To overcome the situation, a linear groundwater draft model (LGDM) has been developed based on the empirical relationship between satellite-derived crop acreage and the observed groundwater draft for the year 2003–2004. The model has been validated for a decade, during three year-long intervals (2005–2006, 2008–2009 and 2011–2012) using groundwater draft, estimated through a discharge factor method. Further, the estimated draft was validated through observed pumping data from random sampled villages (2011–2012). The results suggest that the developed LGDM model provides a good alternative to the estimation of groundwater draft based on satellite-based crop area in the absence of groundwater observation wells in arid regions of northwest India. 相似文献
18.
中国西北地区干旱气象灾害监测预警与减灾技术研究进展及其展望 总被引:18,自引:1,他引:17
干旱灾害是制约中国西北地区社会经济发展、农业生产和生态文明建设的重要自然灾害,而且随着气候变暖西北地区极端干旱事件发生频率和强度均呈增加趋势,影响不断加重。"中国西北干旱气象灾害监测预警及减灾技术研究"成果是在数十个国家级科研项目的支持下,经过过去20年的理论研究和应用技术开发所取得的一系列创新性成果。该成果对西北干旱形成机理及重大干旱事件发生、发展的规律取得了新认识,尤其是发现了形成西北干旱环流模态的4种主要物理途径;研制了西北干旱预测的新指标、干旱监测的新指数及监测农田蒸散的新设备,明显提高了干旱监测准确性和针对性;提出了山地云物理气象学新理论,研发了水源涵养型国家重点生态功能区——祁连山空中云水资源开发利用技术;发现了干旱半干旱区陆面水分输送和循环的新规律,揭示了绿洲自我维持的物理机制;认识了干旱气候变化对农业生态系统影响的新特征,建立了旱作农业对干旱灾害的响应关系;开发了旱区覆膜保墒、集雨补灌、垄沟栽培、适宜播期等应对气候变化的减灾技术,为西北实施种植制度、农业布局及结构调整和农业气候资源高效利用提供了科学方案。该成果的完成提升了中国干旱防灾减灾技术水平,培养了中国干旱气象科技队伍,推进了西北地区干旱气象业务服务能力,对西北地区社会经济发展、农业现代化和生态文明建设等方面起到了重要的促进作用。在此基础上,展望了西北地区干旱气象科学研究中迫切需要、有可能突破的主要领域。 相似文献
19.
Spatial and temporal analysis of drought risk during the crop-growing season over northeast China 总被引:2,自引:0,他引:2
Xingyang Yu Xingyuan He Haifeng Zheng Ruichao Guo Zhibin Ren Dan Zhang Jixiang Lin 《Natural Hazards》2014,71(1):275-289
Northeast China as an important agricultural zone for commercial and economic crop in China suffered from increased drought risk that seriously threatened agricultural production and food security in recent decades. Based on precipitation datasets from 71 stations from 1960 to 2009 and on the reliable statistical methods of the Mann–Kendall test, Sen’s slope and the Standardized Precipitation Index, we analyzed the temporal and spatial variation of drought occurrence during the crop-growing season (from May to September) and summer (from June to August). The results showed that regional mean precipitation during the crop-growing season and summer over the last 40 years has decreased at the rate of ?1.72 and ?1.12 mm/year, respectively. According to timescale analysis of abrupt changes, there were two distinct time series (1965–1983 and 1996–2009) with decreasing precipitation trends at a 95 % confidence level. A comparison between the two time series of these two periods demonstrated that more frequent and more severe drought occurred during 1996–2009. Furthermore, drought risk in recent decades has become even more serious both in severity and in extent. Especially in the crop-growing season of 2001 and summer of 2007, over 25 % (2.0 × 105 km2) of study area experienced severe drought (serious and extreme droughts). Our results highlight the urgent need for the development of effective drought adaptations for cropland over northeast China. 相似文献