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1.
In this study, we developed a prior-knowledge-based spectral mixture analysis (PKSMA) to map impervious surfaces by using endmembers derived separately for high- and low-density urban regions. First, an urban area was categorized into high- and low-density urban areas, using a multi-step classification method. Next, in high-density urban areas that were assumed to have only vegetation and impervious surfaces (ISs), the vegetation–impervious model (V–I) was used in a spectral mixture analysis (SMA) with three endmembers: vegetation, high albedo, and low albedo. In low-density urban areas, the vegetation–impervious–soil model (V–I–S) was used in an SMA analysis with four endmembers: high albedo, low albedo, soil, and vegetation. The fraction of IS with high and low albedo in each pixel was combined to produce the final IS map. The root mean-square error (RMSE) of the IS map produced using PKSMA was about 11.0%, compared to 14.52% only using four-endmember SMA. Particularly in high-density urban areas, PKSMA (RMSE = 6.47%) showed better performance than four-endmember (15.91%). The results indicate that PKSMA can improve IS mapping compared to traditional SMA by using appropriately selected endmembers and is particularly strong in high-density urban areas. 相似文献
2.
Mangroves are one of the most productive ecosystems known for provisioning of various ecosystem goods and services. They help in sequestering large amounts of carbon, protecting coastline against erosion, and reducing impacts of natural disasters such as hurricanes. Bhitarkanika Wildlife Sanctuary in Odisha harbors the second largest mangrove ecosystem in India. This study used Terra, Landsat and Sentinel-1 satellite data for spatio-temporal monitoring of mangrove forest within Bhitarkanika Wildlife Sanctuary between 2000 and 2016. Three biophysical parameters were used to assess mangrove ecosystem health: leaf chlorophyll (CHL), Leaf Area Index (LAI), and Gross Primary Productivity (GPP). A long-term analysis of meteorological data such as precipitation and temperature was performed to determine an association between these parameters and mangrove biophysical characteristics. The correlation between meteorological parameters and mangrove biophysical characteristics enabled forecasting of mangrove health and productivity for year 2050 by incorporating IPCC projected climate data. A historical analysis of land cover maps was also performed using Landsat 5 and 8 data to determine changes in mangrove area estimates in years 1995, 2004 and 2017. There was a decrease in dense mangrove extent with an increase in open mangroves and agricultural area. Despite conservation efforts, the current extent of dense mangrove is projected to decrease up to 10% by the year 2050. All three biophysical characteristics including GPP, LAI and CHL, are projected to experience a net decrease of 7.7%, 20.83% and 25.96% respectively by 2050 compared to the mean annual value in 2016. This study will help the Forest Department, Government of Odisha in managing and taking appropriate decisions for conserving and sustaining the remaining mangrove forest under the changing climate and developmental activities. 相似文献
3.
利用1989、2003、2018年的Landsat影像对安顺市西秀区的地表温度进行反演,分析研究区在30年发展中的热岛时空变化及其成因。使用基于影像的反演算法,结合分类回归树算法进行地表温度的反演,用气象站数据对反演结果进行精度验证,并建立缓冲区对研究区进行相关性分析等定量分析。结果表明:研究区受喀斯特地貌的影响,除主城区外,郊区也存在大量高温区;近30年研究区热效应与不透水面、绿地的面积有极显著相关;1989-2003年研究区城市热岛面积随城市扩张逐渐增大,但2018年主城区城市热岛现象几乎完全消失,排除气象因素和城市形态因子影响的可能后,发现这与安顺市城市绿化的大力进行有密切关系。 相似文献
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5.
In this study, an empirical model for predicting urban evapotranspiration (ET) is examined for the Phoenix metropolitan area that is in a subtropical desert climate using in situ ET measurements from a local flux tower and remotely sensed moderate-resolution imaging spectroradiometer land products. Annual ET maps of Phoenix are then created for the period from 2001 to 2015 using the empirical model developed. A time-series trend analysis is finally performed using predicted ET maps to discover the spatio-temporal patterns of ET changes during the study period. Results suggest that blue-sky albedo and land surface temperature are two statistically significant variables explanatory to model urban ET for Phoenix. Areas that have experienced significant increases of ET are highly spatially clustered, and are mainly found on the outskirts of the city, while areas of decreasing ET are generally associated with highly developed areas, such as downtown Phoenix. 相似文献
6.
Studies on urban heat islands using envisat AATSR data 总被引:1,自引:0,他引:1
K. V. S. Badarinath T. R. Kiran Chand K. Madhavilatha V. Raghavaswamy 《Journal of the Indian Society of Remote Sensing》2005,33(4):495-501
Urbanization has significant effects on local weather and climate and among these effects one of the most familiar is the
urban heat island, for which the temperatures of the central urban locations are several degrees higher than those of nearby
rural areas of similar elevation. Satellite data provides important inputs for estimating regional surface albedo and evapotranspiration
required in the studies related to surface energy balance. Present study describes the analysis of day and night ENVISAT-AATSR
satellite data for Urban heat island and surface thermal inertia. Field campaigns have been conducted in synchronous with
the satellite data over pass for validating the surface temperature estimated from AATSR data. Satellite derived surface temperature
values are within ±1° C from ground measured values. Heat island formations in urban regions of Hyderabad and environs can
be clearly seen in the night time data with core urban regions showing high temperatures. Apparent thermal inertia derived
from AATSR day and night data sets have shown typical variations over urban regions. 相似文献
7.
利用快鸟影像提取绵阳市绿地斑块,TM影像反演地表温度。根据Kriging算法绘制等温线,以等温线分布图为基础精确确定降温边界、降温范围及边界温度,并对绿地斑块平均温度与面积、周长等指标的关系进行回归分析。研究结果显示:斑块平均温度与其面积、周长、形状指数无相关性,与植被覆盖度存在显著负相关关系,确定性系数超过0.5;每个斑块空间降温效果差异显著,等温线密集的地方降温速度快,稀疏的地方降温速度慢;统计降温边界温度、降温幅度和降温范围3个指标,降温边界温度最大值与最小值相差2.6℃;降温幅度集中在0.5~1.5℃之间,平均降温幅度值为0.97℃;最大降温范围值为113m,最小值为15m,平均值为60m。降温范围、降温幅度与面积、周长等指标无显著相关性。 相似文献
8.
城市局部气候分区对地表温度的影响 ——以大连市区为例 总被引:1,自引:0,他引:1
以大连市区建筑数据、SPOT 5和Landsat 8遥感数据为基础,运用局部气候带分类、地表温度反演方法,研究大连市局部气候带分区类型和特征,进而分析不同局部气候带对城市地表温度的影响。研究结果表明:①大连市建筑类型高度主要为低层建筑、多层建筑和中高层建筑,建筑密度为中密度和较高密度,甘井子区分布大量森林绿地,中山区具有丰富的公园绿地;②地表温度整体偏高,空间上呈现东高西低的趋势,其中半数以上地区地表温度达到28℃~31℃,并且有超过1%的地区地表温度大于38℃,该区域出现极端高温;③同一建筑高度上,密度越大的建筑区域,地表温度越高;同一建筑密度,多层建筑高度覆盖区地表温度较高。森林绿地地表温度最低,公园绿地和社区绿地地表温度几乎一致,附属绿地地表温度最高。 相似文献
9.
Roshanak Darvishzadeh Andrew Skidmore Clement Atzberger Sip van Wieren 《International Journal of Applied Earth Observation and Geoinformation》2008
The retrieval of canopy biophysical variables is known to be affected by confounding factors such as plant type and background reflectance. The effects of soil type and plant architecture on the retrieval of vegetation leaf area index (LAI) from hyperspectral data were assessed in this study. In situ measurements of LAI were related to reflectances in the red and near-infrared and also to five widely used spectral vegetation indices (VIs). The study confirmed that the spectral contrast between leaves and soil background determines the strength of the LAI–reflectance relationship. It was shown that within a given vegetation species, the optimum spectral regions for LAI estimation were similar across the investigated VIs, indicating that the various VIs are basically summarizing the same spectral information for a given vegetation species. Cross-validated results revealed that, narrow-band PVI was less influenced by soil background effects (0.15 ≤ RMSEcv ≤ 0.56). The results suggest that, when using remote sensing VIs for LAI estimation, not only is the choice of VI of importance but also prior knowledge of plant architecture and soil background. Hence, some kind of landscape stratification is required before using hyperspectral imagery for large-scale mapping of vegetation biophysical variables. 相似文献
10.
锡林浩特草原区域MODIS LAI产品真实性检验与误差分析 总被引:2,自引:0,他引:2
本文研究了LAI产品真实性检验的指标和方法,建立了LAI产品真实性检验的流程,将遥感产品真实性检验误差分解为模型误差、数据定量化差异和尺度效应3个方面。以内蒙古锡林浩特草原为研究区,结合实测数据和Landsat TM数据建立NDVI-LAI模型,得到LAI验证参考"真值",据此"真值"按照本文的流程对MODIS LAI产品进行验证,分析了研究区MODIS LAI产品真实性检验的误差来源。研究表明,该研究区的MODIS LAI(MOD15A2)产品相对高估约25%。各个误差因素中,LAI遥感模型差异对于结果影响最大,MODIS LAI模型高估了该区域草地LAI(高估约44.2%);数据定量差异的影响也比较大,MODIS地表反射率数据与Landsat TM地表反射率数据的差异造成了约16.2%的低估;尺度效应的影响较小,造成约3.1%的低估,其中NDVI-LAI模型的尺度效应带来2.4%的低估,NDVI数据的尺度效应造成约0.7%的低估。 相似文献
11.
12.
基于Landsat TM的城市热岛效应与地表特征参数稳健关系模型 总被引:6,自引:0,他引:6
首先,利用Landsat TM热红外影像结合地面气象观测资料反演地面温度,揭示了济南市夏季城市热岛效应| 然后,基于稳
健的LTS与最小二乘回归(LS)分析探讨了城乡地面热辐射与地表特征参数的线性变化趋势,认为植被指数(NDVI、SAVI和TCG)、
湿度指数(NDMI和TCW)以及近红外反照率与地表温度的变化趋势相反,亮度指数(NDBI和TCB)和可见光反照率与地表温度的变化
趋势一致,而短光波段反照率与地表温度不存在明显相关趋势。研究结果表明,NDMI能很好地解释地表温度变化,且最为稳健;
其次是NDVI、SAVI、TCG和NDBI,它们对地表温度的解释程度高且稳健性较强; 可见光反照率虽能较好解释地表温度,但其稳健性
较差; 近红外反照率、TCW和TCB对地表温度的解释程度和稳健性相对较低。 相似文献
13.
Abstract Landsat Thematic Mapper (TM) data have been used to monitor land cover types and to estimate biophysical parameters. However, studies examining the spatial relationships between land cover change and biophysical parameters are generally lacking. With the integration of remote sensing and Geographic Information Systems (GIS), these relationships can be better explored. The research reported in this paper applies this integrated approach for detecting urban growth and assessing its impact on vegetative greenness in the Zhujiang Delta, China. Multi‐temporal Landsat TM data were utilized to map urban growth and to extract and identify changes in vegetative greenness. GIS analyses were conducted to examine the changing spatial patterns of urban growth and greenness change. Statistical analyses were then used to examine the impact of urban growth on vegetative greenness. The results revealed that there was a notably uneven urban growth pattern in the delta, and urban development had reduced the scaled Normalized Difference Vegetation Index (NDVI) value by 30% in the urbanized area. 相似文献
14.
Reza Rafiee Abdolrassoul Salman Mahiny Nematolah Khorasani 《International Journal of Applied Earth Observation and Geoinformation》2009
Green spaces play important functions in urban environments. Reducing air pollution, providing shade and habitat for arboreal birds, producing oxygen, providing shelter against winds, recreational and aesthetic qualities and architectural applications are the main functions of urban green spaces. With the rapid change of urban area in Mashad city during the past decades, green spaces have been fragmented and dispersed causing impairment and dysfunction of these important urban elements. The objective of this study was to detect changes in extent and pattern of green areas of Mashad city and to analyze the results in terms of landscape ecology principles and functioning of the green spaces. In this research, we classified a Landsat TM and an IRS LISS-III image belonging to the years 1987 and 2006, respectively. We then used a post-classification comparison to determine the changes in green space areas of Mashad city during the 19 years covered by the images. Then, we applied landscape ecology calculations to derive metrics that quantified pattern of the changes in the green areas. The results showed that during 19 years from 1987, a significant decrease had occurred in the extent of urban green spaces with a concomitant fragmentation resulting in downgrading and destruction of the functions and services these areas provide. We conclude that the general quality of life in the central parts of the city has been diminished. We also state that a combination of remote sensing image classification, landscape metrics assessment and vegetation indices can provide a tool for assessing life quality and its trend for urban areas. 相似文献
15.
Albedo is a key forcing parameter controlling the planetary radiative energy budget and its partitioning between the surface and the atmosphere. Characterizing and developing high resolution albedo for an urban environment in arid regions is important because of the high urbanization rate in these regions and because of the high land-cover heterogeneity within urban settings. Using a Monte Carlo simulation of a multi-variable regression, we (a) correlate directional solar reflectance (albedo) ground measurements from Phoenix, AZ, with four narrowband reflectance data from QuickBird, and (b) developed a new set of coefficients for converting QuickBird narrowband reflectances to albedo. The albedo models were then applied to a second image over Las Vegas, NV, to assess their feasibility and accuracy. Two wavebands, visible-near infrared (VNIR) and total shortwave albedo, were evaluated for two reflectance models: surface and top-of-atmosphere. Results show that it is possible to accurately estimate directional albedo from high resolution imagery, specifically QuickBird, with the most accurate result from an atmospherically corrected VNIR model. The methodology presented in this paper could thus be applied in other urban areas to obtain a first order estimation of albedo. The new set of coefficients can be applied as first order albedo estimate by researchers, urban planners, developers and city managers interested in the influence of high-resolution albedo on a myriad of urban ecosystem processes. 相似文献
16.
The vegetation fraction is a key factor used in many research fields, including soil and water conservation, and ecological evaluation. In this paper, based on the traditional dimidiated pixel model, NDVI soil extraction is modified to improve the accuracy of the vegetation fraction obtained, thus also providing an improved method for obtaining vegetation factors in other areas of research. Due to the unique regional location of the Yarlung Zangbo River basin, terrain factors are critical for the stability of vegetation change. The improved model is here applied to inverse the vegetation coverage of the study region; the spatial patterns of change intensity during the past 15 years (1998–2012) are then analyzed. Considering the area’s alpine climate, results show that terrain factors have a significant effect on the distribution of vegetation coverage change intensity. Before specific thresholds are reached, terrain factors such as elevation, topographic relief, and slope exhibit a positive correlation with change in the vegetation fraction. In areas with the same longitude, the higher the latitude the greater the change intensity, while vegetation change intensity also increases with an increasing variety among the upper, middle, and lower reaches of the Yarlung Zangbo River. In the river’s middle-upper and lower reaches, vegetation coverage is prone to increase and decrease, respectively. The results presented here could greatly enhance the inversion precision of vegetation coverage and reveal the spatial and temporal heterogeneity between vegetation coverage, which are of great ecological significance and practical value for the protection of eco-environment in the Yarlung Zangbo River basin. 相似文献
17.
Computer simulation models have seldom been applied for estimating the structural and biophysical variables of forest canopy. In this study, an approach for the estimation of leaf area index (LAI) using the information contained in hyperspectral, multi-angle images and the inversion of a computer simulation model are explored. For this purpose, L-systems combined with forest growth model ZELIG were applied to render 3-D forest architectural scenarios. The Radiosity-graphics combined model (RGM) was used to estimate forest LAI from the Compact High-Resolution Imaging Spectrometer/Project for On-Board Autonomy (CHRIS/PROBA) data. LAI inversion was performed using the look-up table (LUT) method. The estimated LAI was evaluated against in situ LAI measurement and compared against the LAI predictions from CHRIS data obtained using the Li-Strahler geometric-optical canopy reflectance model (GOMS). The results indicated that the method used in this study can be efficient strategy to estimate LAI by RGM model inversion. 相似文献
18.
Feng Gao Morisette J.T. Wolfe R.E. Ederer G. Pedelty J. Masuoka E. Myneni R. Bin Tan Nightingale J. 《Geoscience and Remote Sensing Letters, IEEE》2008,5(1):60-64
Ecological and climate models require high-quality consistent biophysical parameters as inputs and validation sources. NASA's moderate resolution imaging spectroradiometer (MODIS) biophysical products provide such data and have been used to improve our understanding of climate and ecosystem changes. However, the MODIS time series contains occasional lower quality data, gaps from persistent clouds, cloud contamination, and other gaps. Many modeling efforts, such as those used in the North American Carbon Program, that use MODIS data as inputs require gap-free data. This letter presents the algorithm used within the MODIS production facility to produce temporally smoothed and spatially continuous biophysical data for such modeling applications. We demonstrate the algorithm with an example from the MODIS-leaf-area-index (LAI) product. Results show that the smoothed LAI agrees with high-quality MODIS LAI very well. Higher R-squares and better linear relationships have been observed when high-quality retrieval in each individual tile reaches 40% or more. These smoothed products show similar data quality to MODIS high-quality data and, therefore, can be substituted for low-quality retrievals or data gaps. 相似文献
19.
山地叶面积指数反演理论、方法与研究进展 总被引:2,自引:0,他引:2
叶面积指数LAI(Leaf Area Index)是表征叶片疏密程度和冠层结构特征的重要植被参数,在气候变化、作物生长模型以及碳、水循环研究中发挥着重要作用。遥感是获取区域及全球尺度LAI的一个重要手段,当前LAI产品主要基于遥感数据反演得到,但是多数LAI产品算法并未考虑地形特征的影响,导致山地LAI遥感反演精度不确定性大。提高山地LAI遥感反演精度亟需考虑地形因子对冠层反射率的影响,其中山地冠层反射率模型和遥感数据地形校正是提升山地LAI遥感反演精度的关键。本文围绕山地LAI遥感反演理论与方法,综合分析了国内外山地冠层反射率模型和地形校正模型的研究进展,总结了目前山地LAI遥感反演存在的问题,并讨论了未来研究的发展趋势。 相似文献
20.
Yuqin Liu Jiahui Zhang Linlin Zhang Tamas Jancso Rumiana Vatseva 《International Journal of Digital Earth》2016,9(4):387-409
Urban green space forms an integral part of urban ecosystems. Quantifying urban green space is of substantial importance for urban planning and development. Considering the drawbacks of previous urban green space index models, which established either through a grid method or green distribution, and the difficulty of the validation process of earlier urban green space index models, this study exploits the advantages of multisource high-resolution remote sensing data to establish a Building Neighborhood Green Index (BNGI) model. The model which analyzes the spatial configuration of built-up areas and the vegetation is based on the building-oriented method and considers four parameters – Green Index (GI), proximity to green, building sparsity, and building height. Comparing BNGI with GI in different types of characteristic building regions, it was found that BNGI evaluates urban green space more sensitively. It was also found that high-rise low-sparsity area has a lower mean value of BNGI (0.56) as compared with that of low-rise low-sparsity neighborhood (0.62), whereas mean GI (0.24) is equal for both neighborhoods. Taking characteristics of urban building and green types into consideration, BNGI model can be effectively used in many fields such as land suitability analysis and urban planning. 相似文献