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1.
以石家庄市城市景观为研究对象,选取1987年、2004年和2019年Landsat遥感影像数据,采用监督分类方法将研究区分为绿地、水体、不透水地表和未利用地四类景观,采用单窗算法和劈窗算法反演地表温度(LST)。从景观生态学角度出发,利用Fragstats4.2计算4种类型的景观格局指数,并对景观粒度和移动窗口的尺度选择进行探讨分析;利用ArcGIS空间分析方法和统计分析方法,分析4种类型的景观格局指数与LST的相关性。结果表明:1987—2019年绿地斑块类型面积(CA)、最大斑块面积指数(LPI)和聚集度指数(AI)逐渐下降,不透水地表CA、LPI和AI逐渐增加,随着城市化进程的加快,绿地面积逐渐减少和裂化,绿地景观优势在不断下降,不透水地表面积在逐渐增加和聚合,不透水地表景观优势在不断加强,逐渐形成优势景观。斑块百分比指数(PLAND)、LPI和AI与LST表现出一致的极显著相关关系,绿地和水体为负相关,不透水地表和未利用地为正相关;斑块破碎化指数(SPLIT)则相反,绿地和水体为正相关,不透水地表和未利用地为负相关。LST与PLAND和LPI的相关系数明显高于LST与AI和SPLIT的相关系数,说明一个优势景观对地表温度的影响效果明显大于几个比较分散或破碎的景观。 相似文献
2.
城市热环境及其热效应是当前城市气候与环境中最为重要的研究内容之一。分析地表温度(LST)是研究热环境的一个有效手段。选取2005年7月中旬高温期间MODIS数据,利用推广分裂窗算法反演LST,采用最大值合成方法制作珠江三角洲地区热场分布序列图。结果发现:珠三角地区增温初期的高温区主要分布在珠三角外围的城市,呈由外向内的增温过程;珠三角地区沿河道区域的增温幅度最高最快,增温盛期的地表最高温度主要分布在河网密集地区;城市化和工业化程度高的市区热岛效应明显。研究结果符合目前珠三角经济区的发展状况,对城市区域布局和规划有积极意义。 相似文献
3.
采用2000~2011年6月MODIS地表温度产品和拉萨市4个气象站6月平均地表温度对拉萨市地表温度的时空变化进行了分析.结果表明:拉萨市在近12年内地表温度呈明显上升趋势,2009年地表温度达到最高为28.49℃,最小值出现在2003年为14.12℃.在空间分布上高温区主要集中在城市中心和城市周边区域,并随着时间推移不断向外扩张,在2007年6月拉萨市地表温度高温区分布范围最大,其中纳木错东部和林周县的高温区增加最显著;在利用实测的地表温度与MO-DIS反演的地表温度做相关分析发现,两者的相关系数为0.64通过了0.001的显著性检验,两种地表温度的时间变化趋势也较为一致,因此MODIS地表温度反演产品适用于大范围地表温度和城市热环境监测是可行的. 相似文献
4.
以Landsat TM 影像为主要数据源,采用单窗算法反演河南省南阳市市区的地表温度。在GIS支持下,研究全区地表温度的空间分异特征,并探讨了地表温度与下垫面特征的关系。结果显示:研究区内高温斑块主要集中在仓储区和商业与公共服务区,该类区域过高的LST对城市环境有明显的负面影响;拦蓄河流所营造的水体是面积较大的低温斑块,对改善城市热环境和中小型城市拦蓄河流措施有一定意义;研究区内LST的空间自相关性在不同方向上有明显差别,东-西方向和东北-西南方向上空间自相关的范围较大,这种格局与区内水体走向有关;地表温度与道路密度指数呈明显正相关。提出中小城市可在仓储用地和交通发达地段周边规划绿地和水体,以抑制热岛呈大面积连片分布。 相似文献
5.
卫星遥感广泛应用于宏观、大范围、动态连续的植被和地表温度监测研究。利用2001—2008年MODIS卫星遥感资料, 分析了安徽省归一化植被指数 (NDVI) 和地表温度 (LST) 的季节、月变化和空间分布特征,探讨了代表城市区域的NDVI和LST时空分布及其相关性。结果表明:安徽省NDVI和LST季节变化显著,具有典型地域特征;受当地气候影响,植被、农作物类型地域差异较大,导致LST季节变化以及空间分布不同;城市中心向郊区过渡时,植被覆盖度在不断增加,伴随着NDVI的增加,LST下降;城市LST明显高于郊区值,呈现热岛效应。研究表明,当地气候和植被分布共同决定了LST的分布状况,这将为安徽省合理进行农业区划、科学监测生态环境以及有效评估土地利用与热岛效应提供重要参考依据。 相似文献
6.
利用1993年和2004年长三角地区的卫星遥感资料,分析了该地区的3个主要区域南京、上海、苏锡常及其周边的土地利用类型变化,定量地评价城市用地扩展程度.结合2004年地表温度(LST)卫星资料,揭示了城乡LST空间分布特征及其差异.结果表明:上海、苏锡常和南京11a期间城市建设用地动态度K分别为204.0%、354.3%和99.2%,苏锡常城市扩展程度最快;不同土地覆盖类型的LST不同,城市用地LST最高,其次作物地,林地最低;城乡之间平均地表温差具有季节变化,冬季最大,而秋季最小. 相似文献
7.
以南京市ETM+影像为数据源,经嵌套于ERDAS IMAGINE9.1中的ATCOR2大气校正后,提取了南京城区地表温度(land surface temperature,LST)、归一化植被指数(normalized difference vegetation index,NDVI)和减化比值植被指数(reduced simple ratio,RSR),基于实测值和同时相AS-TER数据反演结果的双重验证,拟合了两种植被指数与地表温度的定量关系,并进行对比分析。结果表明,除水体外,植被覆盖度高的区域地表温度明显低于植被稀少或无植被区;地表温度与NDVI呈显著线性负相关,与RSR呈显著幂函数负相关,后者的相关性高于前者;当RSR小于3.2时,地表温度随植被覆盖增加而锐减,当RSR大于3.2时,植被覆盖继续增加,地表温度却趋于恒定,呈现植被降温效应"饱和"现象;对比比值植被指数(ratio vegetation index,RVI)应用结果发现,近红外和红光比值的线性拉伸是导致NDVI和RSR表征城市热环境效应存在差异的主因,还与短波红外对水分敏感和能真实反映植被冠层结构有关。中国6大城市热环境案例研究均表明,RSR能直接解释对于不同下垫面,增加相同的植被覆盖度其降温效果存在差异的现象,而不进行土地利用分类,NDVI则无法揭示此现象。 相似文献
8.
利用2013年我国西北戈壁、沙漠和黄土塬区三类典型裸土下垫面野外观测试验资料,探究了上述地区地表向下、向上长波辐射(DLR&ULR)、地表温度(LST)和地表宽波段发射率(LSBE)的变化特征,结果表明:黄土站地表ULR和LST明显比戈壁和沙漠站偏低;戈壁宽波段发射率(GbBE)、沙漠宽波段发射率(DeBE)和黄土宽波段发射率(LoBE)具有明显的变化特征,尤其是日变化特征;观测期内GbBE、DeBE和LoBE平均值分别约为0.926±0.0452、0.916±0.0419和0.881±0.049。三站点地表宽波段发射率的数值大小和变化特征与陆面模式中所指定的参数化情况不符。地表发射率会受站点周围环境和当时气象条件等因素的影响,表层土壤湿度被认为是一个非常重要的影响因子,将来的野外观测试验中需加强相关影响要素的观测与分析。 相似文献
9.
基于卫星遥感的长江三角洲地表热环境人口暴露空间特征 总被引:1,自引:0,他引:1
研究城市地表热环境变化的时空演变规律对防灾减灾具有重要意义。本研究以卫星遥感的夜间灯光,植被指数,高程和坡度为自变量构建了适用于人口空间分布估算的随机森林模型,结合卫星遥感反演的地表温度数据,以2016年夏季为例,研究了1km分辨率的长江三角洲地区夏季地表热环境人口暴露分布特征。研究表明:(1)利用随机模型对长江三角洲2016年人口进行1000m格网空间化分布模拟,变量解释度达到80%,人口空间化结果接近实际。(2)人口密度高值区和夏季大部分月份内的地表热环境高温区和人口暴露高和极高风险区总体有较好的对应。6月皖北地区高温区面积增大导致地表热环境的人口暴露风险较高等级的面积比例高于其他月份。(3)在月和季节平均尺度上,地表高温热环境暴露极高和高风险区域面积极少,处于沿海地区、长江下游沿线以及各县区的中心城市;中等暴露风险区域主要分布在东部及中心城市周边地区;低暴露风险区分布在东北部内陆地区和东北部人口数量相对较少地区。 相似文献
10.
北京市城市化对地表温度时空特征的影响 总被引:3,自引:0,他引:3
分别采用常规气象数据和遥感资料,结合城市化发展总体水平不同的三大板块,分析北京市城市化对地表温度时空变化特征的影响。(1)将北京市1978—2006年常规气象站点的陆表温度(Land Surface Temperature,LST)观测资料与三大板块结合,分析城市化对LST年、季、白天、夜间、最大值和最小值的影响。发现1978—2006年期间,北京市三大板块LST均值总体上均呈上升趋势,且大多数情况下,第一板块的第二板块的第三板块的。(2)采用北京市2001年和2006年全年的EOS MODIS MOD 13归一化植被指数(Normalized Difference Vegetation Index,NDVI)产品以及MOD11白天/夜间LST产品,分析城市化过程中下垫面变化对LST的影响。总体上,北京市2006年较2001年NDVI减少的比例为51.3%,白天LST升高的比例为73.74%,夜间LST升高的比例高达90.92%。(3)北京市2006年与2001年NDVI的差值以及白天、夜间LST的差值的联合分类结果表明,第一和第二板块均表现出2006年较2001年NDVI减少、白天LST增加的类别所占的百分比最大,分别占54.29%和40.95%,而且均大于其在第三板块中所占的比例34%,而三个板块中NDVI增加、白天LST减少的百分比与NDVI减少、白天LST增加的百分比之和均超过了50%。第一、第二和第三板块中2006年较2001年NDVI减少、夜间LST增加的类别所占百分比分别为51.67%、44.2%和42.46%。这些数据定量地说明了城市化过程中下垫面变化对白天、夜间LST的影响。 相似文献
11.
以辽宁地表温度为研究对象,采用普适性单通道算法,利用FY-3A/MERSI数据,并结合MODIS 1000 m分辨率数据,反演了2009年和2010年4-9月间10个时次晴空或局部晴空时的地表温度。结果表明:计算验证了模型的反演精度与同期NASA所发布MODIS地表温度产品的精度相当,其结果与相应的56个气象站点的实际观测数据相一致。多源遥感数据的综合应用,可获得较合理的地表温度反演结果;不同土地覆盖类型间地表温度的高低在相同时间内存在显著差异;研究期内,林地、水田、旱地和建设用地的NDVI与地表温度具有负相关性。综合利用遥感、地理信息系统技术,可以表征地表温度与土地利用类型以及地表温度与归一化植被指数(NDVI)之间的关系。 相似文献
12.
城市陆面模式设计及检验 总被引:1,自引:0,他引:1
针对城市冠层模式(Urban Canopy Model,UCM)的各种局限性,本文首次提出整体城市陆面模式(Bulk Urbanized Land Surface Model,BULSM)的概念,即在现有先进的陆面模式的基础上直接构建城市陆面模式。本文在通用陆面模式(Common Land Model,CoLM)基础上构建整体城市陆面模式,根据城市的特点对CoLM进行了发展和重新参数化。模式采用高分辨率地表分类数据;改进了模式的地表能量平衡方程与水分平衡方程;对反照率、城市地表粗糙度、城市大气廓线、城市人为热、不透水面水分蒸发及积水深度等进行了重新参数化。模式保留了CoLM在自然下垫面的全部特性,加强了CoLM在城市或人为下垫面的模拟和预报能力。区域验证以及与CoLM对比结果表明整体城市陆面模式模拟结果能够显示出北京城区各参数的空间精细化分布情况,能够反映出地表分类对模拟结果的影响。单站点验证以及与CoLM和高分辨率城市陆面同化系统(u-HRLDAS)对比结果表明整体城市陆面模式地表温度模拟结果与CoLM相比有很大提高;和u-HRLDAS相比大部分站点地表温度模拟结果也有一定的改进。 相似文献
13.
Statistical estimation of high-resolution surface air temperature from MODIS over the Yangtze River Delta,China 
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下载免费PDF全文 High-resolution surface air temperature data are critical to regional climate modeling in terms of energy balance, urban climate change, and so on. This study demonstrates the feasibility of using Moderate Resolution Imaging Spectroradiometer (MODIS) land surface temperature (LST) to estimate air temperature at a high resolution over the Yangtze River Delta region, China. It is found that daytime LST is highly correlated with maximum air temperature, and the linear regression coefficients vary with the type of land surface. The air temperature at a resolution of 1 km is estimated from the MODIS LST with linear regression models. The estimated air temperature shows a clear spatial structure of urban heat islands. Spatial patterns of LST and air temperature differences are detected, indicating maximum differences over urban and forest regions during summer. Validations are performed with independent data samples, demonstrating that the mean absolute error of the estimated air temperature is approximately 2.5°C, and the uncertainty is about 3.1°C, if using all valid LST data. The error is reduced by 0.4°C (15%) if using best-quality LST with errors of less than 1 K. The estimated high-resolution air temperature data have great potential to be used in validating high-resolution climate models and other regional applications. 相似文献
14.
Diurnal and Seasonal Variation of Clear-Sky Land Surface Temperature of Several Representative Land Surface Types in China Retrieved by GMS-5 总被引:1,自引:0,他引:1 下载免费PDF全文
下载免费PDF全文 The retrieved results in this paper by GMS-5/VISSR thermal infrared data with single time/dual channel Split-Window Algorithm reveal the characteristics of diurnal and seasonal variation of clear-sky land surface temperature (LST) of several representative land surface types in China,including Tarim Basin,Qinghai- Tibetan Plateau,Hunshandake Sands,North China Plain,and South China.The seasonal variation of clear-sky LST in above areas varies distinctly for the different surface albedo,soil water content,and the extent of influence by solar radiation.The monthly average diurnal ranges of LST have two peaks and two valleys in one year.The characteristics of LST in most land of East Asia and that of sea surface temperature (SST) in the south of Taiwan Strait and the Yellow Sea are also analyzed as comparison.Tarim Basin and Hunshandake Sands have not only considerable LST diurnal cycle but also remarkable seasonal variation. In 2000,the maximum monthly average diurnal ranges of LST in both areas are over 30 K,and the annual range in Hunshadake Sands reaches 58.50 K.Seasonal variation of LST in the Qinghai-Tibetan Plateau is less than those in East Asia,Tarim Basin,and Hunshandake Sands.However,the maximum diurnal range exists in this area.The yearly average diurnal range is 28.05 K in the Qinghai-Tibetan Plateau in 2000.The characteristics of diurnal,seasonal,and annual variation from 1998 to 2000 are also shown in this research. All the results will be valuable to the research of climate change,radiation balance,and estimation for the change of land surface types. 相似文献
15.
Petr Dobrovolný 《Theoretical and Applied Climatology》2013,112(1-2):89-98
Thermal infrared images from Landsat satellites are used to derive land surface temperatures (LST) and to calculate the intensity of the surface urban heat island (UHI) during the summer season in and around the city of Brno (Czech Republic). Overall relief, land use structure, and the distribution of built-up areas determine LST and UHI spatial variability in the study area. Land-cover classes, amount and vigor of vegetation, and density of built-up areas are used as explanatory variables. The highest LST values typically occur in industrial and commercial areas, which contribute significantly to surface UHI intensity. The intensity of surface UHI, defined as the difference between mean LST for urban and rural areas, reached 4.2 and 6.7 °C in the two images analyzed. Analysis of two surface characteristics in terms of the amount of vegetation cover, represented by normalized difference vegetation index, demonstrates the predominance of LST variability (56–67 % of explained variance) over the degree of urbanization as represented by density of buildings (37–40 % of LST variance). 相似文献
16.
A Modified Becker''s Split-Window Approach for Retrieving Land Surface Temperature from AVHRR and VIRR 总被引:1,自引:0,他引:1 下载免费PDF全文
下载免费PDF全文 QUAN Weijun CHEN Hongbin HAN Xiuzhen LIU Yonghong YE Caihua 《Acta Meteorologica Sinica》2012,26(2):229-240
In order to provide a long time-series, high spatial resolution, and high accuracy dataset of land surface
temperature (LST) for climatic change research, a modified Becker and Li's split-window approach is pro-
posed in this paper to retrieve LST from the measurements of Advanced Very High Resolution Radiometer
(AVHRR) onboard National Oceanic and Atmospheric Administration (NOAA)-7 to -18 and the Visible and
InfraRed Radiometer (VIRR) onboard FY-3A. For this purpose, the Moderate Resolution Transmittance
Model (MODTRAN) 4.1 was first employed to compute the spectral radiance at the top of atmosphere
(TOA) under a variety of surface and atmosphere conditions. Then, a temperature dataset consists of
boundary temperature Ts (which is one of the input parameters to MODTRAN), and channels 4 and 5
brightness temperatures (T4 and T5) were constructed. Note that channels 4 and 5 brightness tempera-
tures were simulated from the MODTRAN output spectral radiance by convolving them with the spectral
response functions (SRFs) of channels 4 and 5 of AVHRRs and VIRR. The coefficients of modified Becker
and Li's split-window approach for various AVHRRs and VIRR were subsequently regressed based on this
temperature dataset using the least square method. As an example of validation, one AVHRR satellite image
over Beijing acquired at 0312 UTC 27 April 2008 by AVHRR onboard NOAA-17 was selected to retrieve
the LST image using the modified Becker and Li's approach. The comparison between this LST image and
that from the MODIS level-2 LST product provided by the University of Tokyo in Japan indicates that
the correlation coefficient is 0.88, the bias is 0.6 K, and the root mean square deviation (RMSD) is 2.1 K.
Furthermore, about 70% and 37% pixels in the LST difference image, which is the result of retrieved LST
image from AVHRR minus the corresponding MODIS LST image, have the values within ±2 and ±1 K,
respectively. 相似文献
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A modified Becker’s split-window approach for retrieving land surface temperature from AVHRR and VIRR 下载免费PDF全文
下载免费PDF全文 In order to provide a long time-series,high spatial resolution,and high accuracy dataset of land surface temperature(LST) for climatic change research,a modified Becker and Li’s split-window approach is proposed in this paper to retrieve LST from the measurements of Advanced Very High Resolution Radiometer(AVHRR) onboard National Oceanic and Atmospheric Administration(NOAA)-7 to-18 and the Visible and InfraRed Radiometer(VIRR) onboard FY-3A.For this purpose,the Moderate Resolution Transmittance Model(MODTRAN) 4.1 was first employed to compute the spectral radiance at the top of atmosphere(TOA) under a variety of surface and atmosphere conditions.Then,a temperature dataset consists of boundary temperature T s(which is one of the input parameters to MODTRAN),and channels 4 and 5 brightness temperatures(T 4 and T 5) were constructed.Note that channels 4 and 5 brightness temperatures were simulated from the MODTRAN output spectral radiance by convolving them with the spectral response functions(SRFs) of channels 4 and 5 of AVHRRs and VIRR.The coefficients of modified Becker and Li’s split-window approach for various AVHRRs and VIRR were subsequently regressed based on this temperature dataset using the least square method.As an example of validation,one AVHRR satellite image over Beijing acquired at 0312 UTC 27 April 2008 by AVHRR onboard NOAA-17 was selected to retrieve the LST image using the modified Becker and Li’s approach.The comparison between this LST image and that from the MODIS level-2 LST product provided by the University of Tokyo in Japan indicates that the correlation coefficient is 0.88,the bias is 0.6 K,and the root mean square deviation(RMSD) is 2.1 K.Furthermore,about 70% and 37% pixels in the LST difference image,which is the result of retrieved LST image from AVHRR minus the corresponding MODIS LST image,have the values within ± 2 and ± 1 K,respectively. 相似文献