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1.
本文以3个时期的TM/ETM+图像为数据源,反演了南通市1995-2008年的地表温度,利用均值-标准差法对城市热场进行了分级,阐述了南通市热岛效应空间分布格局、时空演变特征,定量分析了地表温度与土地利用、植被覆盖率的关系,揭示了南通市城市热岛效应演变的原因。结果表明,随着城市化进程的加快,南通市城市热岛区域扩张明显,增加了11.96%,且呈现逐渐向东南方向扩张的趋势,除以濠河为中心的老城区继续保留其热岛特征外,在新城区和经济开发区出现了多个热岛区域,植被覆盖率与温度高低存在着较高的负相关性。 相似文献
2.
武汉城镇化与热岛效应的定量研究 总被引:1,自引:0,他引:1
针对目前城市化进程加快对城市增温和城市热岛效应的促进作用尚不十分明确的问题,提出基于遥感技术的城镇化与热岛效应数量关系的构建。结果表明,1987-2013年间,武汉市中城镇化水平(50%~80%ISA)面积增加了14.5倍,高城镇化水平(80%~100%ISA)面积增加了2.8倍,城镇化范围沿着武汉市主城区和主要干道不断扩张;不透水面值与地表温度表现出明显正相关,不透水面值平均增加1%,可使地表温度增温0.06℃~0.19℃,城镇化水平对武汉城市热岛效应作用明显。研究结果为探讨城市热岛效应的缓解对策提供了基础,对合理规划和管理城市化意义重大。 相似文献
3.
选取苏州作为研究区,分别利用1986年和2004年2个时相的Landsat5 TM影像数据对研究区土地利用/覆盖类型进行分类,并采用热红外波段进行地表温度反演,在此基础上分析了下垫面类型与热岛效应的时空变化,深入研究了下垫面类型改变对热岛效应的影响。结果表明,近20a苏州市城区大范围扩张,土地利用变化剧烈,整体表现为水体、植被向不透水下垫面的高强度转化;城市热岛范围由老城区向四周成倍扩大,热岛强度由3.12°增至4.76°,热岛效应变化与土地利用时空变化之间具有明显的对应关系。 相似文献
4.
为了探讨特定城市在热岛效应中的地表温度反演的有效方法,本文分别基于TM与MODIS影像并采用了目前较为成熟的单窗和劈窗算法对泰安市的地表温度进行反演,将泰安市各气象观测站的实测温度数据与两种算法的温度反演结果进行验证,通过反演结果对比分析,证明劈窗算法精度更高。并且,采用10年间的多期MODIS影像对泰安市热岛效应分析的劈窗算法的可行性和优势进行了普适性验证。实验结果证明,针对处于山区且地势起伏较大的泰安地区,劈窗算法能较好地减弱或消除上空大气含水量高对温度反演的影响,同时还能更好地获取地表比辐射率和大气透过率,而且反演温度的分布规律也符合研究区地貌和类型要素特征。最后,本文就分析结果给出了泰安市产生热岛效应的主要原因,并认为该区域城市化过程中的城市热岛效应正在进一步加剧。 相似文献
5.
利用夏季MODIS地表温度和土地覆盖产品,结合Landsat等辅助遥感数据,分别提取济南、武汉、重庆3个城市2003年、2008年、2013年的土地覆盖与地表温度信息,确定3个城市不同年份的热岛效应等级分布。在此基础上,对济南、武汉、重庆这3个城市的地表温度分布特征、热岛效应等级分布特征与土地覆盖类型各因子之间的关系展开分析。结果表明:城市用地是城市热岛的主要贡献因素,相关系数达到0.42;最能缓解城市热岛效应的是林地,平均相关系数为-0.41;3个城市中最能缓解城市热岛效应的土地覆盖类型并不完全相同:济南市为林地和耕地,武汉市为水体,重庆市为林地。 相似文献
6.
本文利用2006年、2010年沈阳市地区TM遥感数据,采用影像IB算法反演地表温度,分析了沈阳市热岛效应的空间分布特征、变化现象以及地表温度与归一化植被指数(NDVI)、归一化建筑指数(NDBI)之间的相关性。研究表明沈阳市热岛效应总体呈现由市中心向四周逐渐扩张的空间特征,地表温度与归一化植被指数(ND-VI)存在紧密的负线性相关关系,地表温度与归一建筑指数(NDBI)存在正相关关系。 相似文献
7.
Area Delineation and Spatial-Temporal Dynamics of Urban Heat Island in Lanzhou City,China Using Remote Sensing Imagery 总被引:2,自引:0,他引:2
Jinghu Pan 《Journal of the Indian Society of Remote Sensing》2016,44(1):111-127
One of the key impacts of rapid urbanization on the environment is the effect of urban heat island (UHI). By using the Landsat TM/ETM+ thermal infrared remote sensing data of 1993, 2001 and 2011 to retrieve the land surface temperature (LST) of Lanzhou City, and by adopting object-oriented fractal net evolution approach (FNEA) to make image segmentation of the LST, the UHI elements were extracted. The G* index spatial aggregation analysis was made to calculate the urban heat island ratio index (URI), and the landscape metrics were used to quantify the changes of the spatial pattern of the UHI from the aspects of quantity, shape and structure. The impervious surface distribution and vegetation coverage were extracted by a constrained linear spectral mixture model to explore the relationships of the impervious surface distribution and vegetation coverage with the UHI. The information of urban built-up area was extracted by using UBI (NDBI-NDVI) index, and the effects of urban expansion on city thermal environment were quantitatively analyzed, with the URI and the LST grade maps built. In recent 20 years, the UHI effect in Lanzhou City was strengthened, with the URI increased by 1.4 times. The urban expansion had a spatiotemporal consistency with the UHI expansion. The patch number and density of the UHI landscape were increased, the patch shape and the whole landscape tended to be complex, the landscape became more fragmented, and the landscape connectivity was decreased. The heat island strength had a negative linear correlation with the urban vegetation coverage, and a positive logarithmic correlation with the urban impervious surface coverage. 相似文献
8.
Land surface temperature (LST) of Beijing area was retrieved from Landsat TM thermal band data utilizing a radiative transfer equation and the urban heat island (HUI) effects of Beijing and its relationship with land cover and normalized difference vegetation index (NDVI) were discussed. The result of LST showed that the urban LST was evidently higher than the suburban one. The average urban LST was found to 4. 5°C and 9°C higher than the suburban and outer suburban temperature, respectively, which demonstrated the prominent UHI effects in Beijing. Prominent negative correlation between LST and NDVI was found in the urban area, which suggested the low percent vegetation cover in the urban area was the main cause of the urban heat island. 相似文献
9.
JIANG Zhangyan CHEN Yunhao LI Jing 《地球空间信息科学学报》2006,9(4):293-297
IntroductionThe scientists have begun to retrieve land sur-face temperature (LST) fromsatellite data sincethe launch of TIROS-Ⅱin 60s of the 20th centu-ry . With the development of remote sensingtechnology and its application, more and moreLST retrieval … 相似文献
10.
基于MODIS数据的长株潭地区城市热岛时空分析 总被引:7,自引:1,他引:6
基于MODIS影像,采用分裂窗算法反演的地表温度对长株潭地区城市热岛空间分布与季相变化特征、影响因子进行定量研究。结果表明,长株潭地区春季和夏季存在明显的城市热岛效应,而冬季和秋季城市热岛并不明显;地表覆盖类型对城市热岛的影响十分明显,长株潭地区春、夏、秋季植被绿地状况与城市热岛呈现明显负相关分布,其中以夏季最为明显,夏季地表温度与NDVI相关系数的平方R2达到0.8193,即植被覆盖对城市地表温度的影响显著。因此,城市植被的分布与季节变化影响着城市热岛的强度与时空分布,揭示出植被绿地对降低城市热岛效应具有重要的作用,大范围的绿地建设能有效降低城市热岛效应。 相似文献
11.
张掖绿洲城市热效应的遥感研究 总被引:10,自引:3,他引:10
以张掖及周边绿洲为研究区,采用Gilabert大气校正模型对TM图像1~5,7等6个波段进行大气校正。在此基础上,采用基于TM6波段的单窗算法,反演出行星亮度温度和地表真实温度,进一步分析了区域热量分布差异并探讨这一差异形成原因。结果表明:张掖及周边绿洲区存在明显的热量分布差异,热岛现象非常显著,卫星图像反演的地表温度接近实测值,亮度温度和实际温度都与归一化植被指数(NDVI)存在着密切的反相关关系,表明植被在区域热量分布差异中起重要作用,显示出热红外图像与其它波段数据结合,在城市热岛效应及区域生态环境遥感研究方面有很大潜力。 相似文献
12.
许辉熙 《测绘与空间地理信息》2015,(1):13-19
城市热岛效应是当前城市气候与城市生态环境的研究热点。研究使用Landsat TM/ETM+遥感影像获取城市建成区信息和反演亮度温度,进而评价成都平原6个中等城市的热岛强度、热岛发育程度以及空间动态演变特征。研究发现,在"评价初期→评价中期→评价末期"过程中,成都平原6个中等城市的热岛强度前期增强、后期减弱;城市旧城区的热岛规模普遍减小,这说明,旧城区热环境有所改善,而城市扩展区的热岛规模普遍增大,是因城市扩展明显改变了地表自然环境,导致热岛效应出现,这与城市化进程的内在规律基本一致。绵阳等城市的研究成果表明,即使城市规模扩大,只要城市规划科学合理,并注重城市生态环境的保护,城市热岛效应也能得到有效缓解。 相似文献
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热岛效应是城市化进程中产生的特有环境问题。基于Landsat TM/ETM+(1989、2001、2007、2013年)遥感影像完成哈尔滨地面亮温定量反演、标准化和等级划分等处理,并分析城市热岛空间分布特征和时空演变规律。基于地学信息图谱理论,定量分析24 a间热岛效应图谱信息变化特征,探究城市热岛格局的时空演变进程和形成机制,揭示城市化进程与热岛效应之间的响应关系。结果表明,随着哈尔滨城市化进程加速,4级热岛效应呈递增趋势,面积比例分别为4.36%、5.69%、6.29%和7.12%,主要分布在道外区和铁路沿线地带;植被和水体区域的地面温度较低,其边缘温度更低;反复变化型面积最大,后期变化型面积最小,面积比例分别为33.30%和7.30%。地学信息图谱分析可为城市热岛效应随城市化演变趋势提供准确、丰富的信息,对全面分析城市热岛的形成和发展具有重要的意义。 相似文献
15.
The surface fabric of urbanized areas, (i.e. its constituent land covers and land uses) plays an essential role in the generation of the urban/rural temperature differences, i.e. the Urban Heat Island (UHI) effect. Land surface information, derived from satellite imagery, and complementary information such as demographics can be used as the basis for an understanding of the atmospheric and surface thermal variations within cities. The results of comprehensive land surface characterizations of two major Canadian urban areas, the Greater Toronto Area and Ottawa-Gatineau, are described. Spatial information, including land cover fraction maps, land use and its historic changes, population density maps are compared with intra-urban surface temperature variations derived from satellite thermal imagery. Three aspects of the impacts of land cover and land use on urban land thermal characteristics are addressed, namely, (a) the relationships between surface temperature and subpixel land cover and population density (b) intra-city seasonal temperature variations and (c) the intensification of the urban heat island effect due to urban built-up land growth. 相似文献
16.
Qihao Weng Mohammad Karimi Firozjaei Amir Sedighi Seyed Kazem Alavipanah 《地理信息系统科学与遥感》2019,56(4):576-604
The urban heat island is considered as one of the most important climate change phenomena in urban areas, which can result in remarkable negative effects on flora, concentration of pollutants, air quality, energy and water consumption, human health, ecological and economic impacts, and even on global warming. The variation analysis of the surface urban heat island intensity (SUHII) is important for understanding the effect of urbanization and urban planning. The objective of this study was to present a new strategy based on the Shannon’s entropy and Pearson chi-square statistic to investigate the spatial and temporal variations of the SUHII. In this study, Landsat TM, ETM+, OLI and TIRS images, MODIS products, meteorological data, topographic and population maps of the Babol city, Iran, from 1985 to 2017, and air temperature data recorded by ground recorder devices in 2017 were used. First, Single-Channel algorithm was used to estimate land surface temperature (LST), and the maximum likelihood classifier was employed to classify Landsat images. Then, based on LST maps, surface urban heat island ratio index was employed to calculate the SUHII. Further, several statistical methods, such as the degree-of-freedom, degree-of-sprawl and degree-of-goodness, were used to analyse the SUHII variation along different geographic directions and in various time periods. Finally, correlation between various parameters such as air temperature, SUHII, population variation and degree-of-goodness index values were investigated. The results indicated that the SUHII value increased by 24% in Babol over different time periods. The correlation coefficient yielded 0.82 between the values of the difference between the mean air temperature of the urban and suburbs and the SUHII values for the geographic directions. Furthermore, the correlation coefficient between the population variation and the degree-of-goodness index values reached 0.8. The results suggested that the SUHII variation of Babol city had a high degree-of-freedom, high degree-of-sprawl and negative degree-of-goodness. 相似文献
17.
热岛效应是影响我国城市环境的重要因素,本文基于多时相的Landsat 7 ETM+和Landsat 8 TIRS影像,对西安市2002年和2013年的土地进行分类以及地表温度反演,在此基础上将土地分类影像图和温度分割影像图进行叠加,分析了不同的土地利用类型温度差异、下垫面的空间结构与热场分布的关系以及热场的分布变化与城市变迁的关系。结果表明:不同的土地利用类型的物理属性和生物学属性差异是造成城市热岛效应的内在原因,下垫面空间结构的差异是造成城市热岛效应的外在原因,城市热场的动态变化方向与城市的变迁方向具有一致性。 相似文献
18.
Ya Ma Yaoqiu Kuang Ningsheng Huang 《International Journal of Applied Earth Observation and Geoinformation》2010
Studies of urbanization and urban thermal environment are now attracting wide interests among scientists all over the world. This study investigated the influences of urbanization on urban thermal environment as well as the relationships of thermal characteristics to other biophysical variables in Guangzhou, China utilizing three dates of Landsat TM/ETM+ images acquired in 1990, 2000, and 2005, respectively. Vegetation abundances and percent impervious surfaces were derived by means of linear spectral mixture model, and a method for effectively enhancing impervious surface has been developed to accurately examine the urban enlargement. As a key parameter for studying urban thermal characteristics, the land surface temperature (LST) was also retrieved from thermal infrared band of each TM/ETM+ dataset. Based on these parameters, the urban expansion, urban heat island effect and the relationships of LSTs to other biophysical parameters were then analyzed. Results indicated that the area ratio of impervious surface in Guangzhou increased significantly, which grew from 20.56% in 1990, to 34.72% in 2000, and further to 41.12% in 2005, however, the intensity of urban heat island was not always enlarged in observed years. In addition, Geostatistical analyses showed that the mean-centre of the impervious surface was moving towards the northwest during 1990–2005. And correlation analyses revealed that, at the pixel-scale, the association of LSTs to other two variables (vegetation abundance and percent impervious surface) was not straightforward, while LSTs possessed a strong positive correlation with percent impervious surfaces and negative correlation with vegetation abundances at the regional-scale, respectively. This study provided an integrated research scheme and the findings can be very useful for urban ecosystem modeling. 相似文献
19.
基于卫星遥感影像的南昌市城市热岛效应研究 总被引:2,自引:0,他引:2
分析了城市热岛效应研究的关键技术,采用了地表发射率对亮度温度进行订正的方法,尽可能地消除地表覆盖等对地表温度反演的影响,利用1989和2000年的LandsatTM/ETM+数据,实现了南昌市城区及其周边区域的城市热岛效应的评价。 相似文献
20.
Spatially filtered ridge regression (SFRR): A regression framework to understanding impacts of land cover patterns on urban climate 
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下载免费PDF全文 Understanding the impacts of land cover pattern on the heat island effect is essential for sustainable urban development. Conventional model fitting methods have restricted ability to produce accurate estimates of the land cover‐temperature association due to the lack of procedures to address two important issues: spatial dependence in proximal spatial units and high correlations among predictor variables. In this study, we seek to develop an effective framework called spatially filtered ridge regression (SFRR) to estimate the variations in the quantity and distribution of land surface temperature (LST) in response to various land cover patterns. The SFRR effectively integrates spatial autoregressive models and ridge regression, and it achieves reliable parameter estimates with substantially reduced mean square errors. We show this by comparing the performance of the SFRR to other widely adopted models using Monte Carlo simulation followed by an empirical study over central Phoenix. Results highlight the great potential of the SFRR in producing accurate statistical estimates, providing a positive step toward informed and unbiased decision‐making across a wide variety of disciplines. (Code and data to reproduce the results in the case study are available at: https://github.com/cfan13/SFRRTGIS.git .) 相似文献