共查询到20条相似文献,搜索用时 31 毫秒
1.
植被覆盖异常变化影响陆面状况的数值模拟 总被引:15,自引:2,他引:15
利用NCAR最新的公用陆面模式CLM3.0,通过数值模拟初步研究了植被叶面积指数(LAI,leafareaindex)异常变化对陆面状况的可能影响,结果表明,植被LAI的异常变化能够引起地表能量平衡、地表水循环等陆面状况的异常。(1)植被LAI的异常变化主要影响太阳辐射在植被与地表之间的分配,以及地表的感热、潜热通量。植被LAI增大,能够引起植被吸收的太阳辐射增加,而到达土壤表面的太阳辐射减小,并导致植被的蒸发、蒸腾潜热通量增加,造成地表的蒸发潜热和感热通量不同程度的减小。(2)植被LAI增大时,植被对降水的拦截和植被叶面的蒸发增大,植被的蒸腾作用也明显增强;植被LAI增加会使得热带地区各个季节的土壤表面蒸发、地表径流减小,而土壤湿度有所增加;LAI增加造成中高纬度地区土壤蒸发的减少主要出现在夏季;LAI增加还能够引起中高纬地区冬、春积雪深度不同程度的增加,造成春末、夏初地表径流的增加。(3)植被LAI增加能够使得叶面和土壤温度有所下降,但植被LAI的变化对叶面、土壤温度的影响相对较小。 相似文献
2.
Shiqi Yang Dejun Zhang Liang Sun Yongqian Wang Yanghua Gao 《Acta Meteorologica Sinica》2020,34(2):264-279
Temperature vegetation dryness index (TVDI) in a triangular or trapezoidal feature space can be calculated from the land surface temperature (LST) and normalized difference vegetation index (NDVI), and has been widely applied to regional drought monitoring. However, thermal infrared sensors cannot penetrate clouds to detect surface information of sub-cloud pixels. In cloudy areas, LST data include a large number of cloudy pixels, seriously degrading the spatial and temporal continuity of drought monitoring. In this paper, the Remotely Sensed Daily Land Surface Temperature Reconstruction model (RSDAST) is combined with the LST reconstructed (RLST) by the RSDAST and applied to drought monitoring in a cloudy area. The drought monitoring capability of the reconstructed temperature vegetation drought index (RTVDI) under cloudy conditions is evaluated by comparing the correlation between land surface observations for soil moisture and the TVDI before and after surface temperature reconstruction. Results show that the effective duration and area of the RTVDI in the study area were larger than those of the original TVDI (OTVDI) in 2011. In addition, RLST/NDVI scatter plots cover a wide range of values, with the fitted dry-wet boundaries more representative of real soil moisture conditions. Under continuously cloudy conditions, the OTVDI inverted from the original LST (OLST) loses its drought monitoring capability, whereas RTVDI can completely and accurately reconstruct surface moisture conditions across the entire study area. The correlation between TVDI and soil moisture is stronger for RTVDI (R = −0.45) than that for OTVDI (R = −0.33). In terms of the spatial and temporal distributions, the R value for correlation between RTVDI and soil moisture was higher than that for OTVDI. Hence, in continuously cloudy areas, RTVDI not only expands drought monitoring capability in time and space, but also improves the accuracy of surface soil moisture monitoring and enhances the applicability and reliability of thermal infrared data under extreme conditions. 相似文献
3.
4.
Land cover is a crucial, spatially and temporally varying component of global carbon and climate systems. Therefore accurate estimation and monitoring of land cover changes is important in global change research. Although, land cover has dramatically changed over the last few centuries, until now there has been no consistent way of quantifying the changes globally.In this study we used long-term climate, soils data along with coarse resolution satellite observations to quantify the magnitude and spatial extent of global land cover changes due to anthropogenic processes. Differences between potential leaf area index, derived from climate-soil-leaf area equilibrium and actual leaf area index obtained from satellite data were used to estimate changes in land cover.Forest clearing for agriculture and irrigated farming in arid and semi-arid lands are found to be two major sources of climatically important land cover changes. Satellite derived Spectral Vegetation indices (SV I) and surface temperatures (T s) show strong impact of land cover changes on climatic processes. Irrigated agriculture in dry areas increased energy absorption and evapotranspiration (ET) compared to natural vegetation. On the other hand, forest clearing for crops decreased energy absorption andET.
A land cover classification and monitoring system is proposed using satellite derivedSV I andT s that simultaneously characterize energy absorption and exchange processes. This completely remote sensing based approach is useful for monitoring land cover changes as well as their impacts on climate. Monitoring the spatio-temporal dynamics of land cover is possible with current operational satellites, and could be substantially improved with the Earth Observing System (EOS) era satellite sensors. 相似文献
5.
基于CLDAS大气驱动数据驱动CLM3.5陆面模式和3种不同参数化方案下的Noah-MP陆面模式模拟得到的地表温度,利用中国气象局2009-2013年2000多个国家级地面观测站地表温度进行质量评估。结果表明:从时间分布看,模拟地表温度与观测的偏差及均方根误差均呈季节性波动;从空间分布看,模拟地表温度与观测的偏差及均方根误差在中国东部地区相对于中国西部地区更小。选择Noah-MP陆面模式3种不同参数化方案模拟结果进行对比,结果表明:Noah-MP模式的非动态植被方案不变时,考虑植被覆盖度的二流近似辐射传输方案的Noah-MP陆面模式模拟的地表温度优于考虑太阳高度角和植被三维结构的二流近似辐射传输方案Noah-MP陆面模式模拟的地表温度;选择动态植被方案的Noah-MP陆面模式模拟的地表温度优于选择非动态植被方案的Noah-MP陆面模式;总体而言,考虑动态植被方案的Noah-MP陆面模式模拟的地表温度优于其他两种参数化方案的Noah-MP陆面模式以及CLM3.5陆面模式模拟的地表温度。 相似文献
6.
基于植被供水指数的农田干旱遥感监测研究 总被引:21,自引:3,他引:21
应用1995-2000年NOAA卫星资料,结合广西贵港市的数字化土地利用信息,通过时序分析方法找出典型作物代表区,并计算各典型代表区的平均、最大、最小VSWI(Vegetation Supply Water Index;植被供水指数)特征值,归纳分析水田和旱地的干旱指标,继而根据典型代表区的平均VSWI值划分旱情等级,生成农田旱情遥感图像,评估干旱情况。试验表明,该方法可用于湿润、半湿润地区的农田干旱遥感监测。 相似文献
7.
E. L. Muzylev A. B. Uspenskii Z. P. Startseva E. V. Volkova A. V. Kukharskii 《Russian Meteorology and Hydrology》2010,35(3):225-235
The method of the AVHRR-3 (NOAA) radiometer measurement data subject processing is produced for the retrieval of underlying
surface temperature and several vegetation characteristics under cloud-free conditions. A technology for deriving the values
of these parameters from the MODIS (EOS/Terra and Aqua) radiometer data is developed. The estimation of the temperature and
vegetation characteristics is carried out for the Seim River basin (Kursk region) with the catchment area of 7460 km2 for 2003–2005 vegetation seasons. Practical coincidence of estimations of AVHRR- and MODIS-derived temperatures, as well
as the coincidence with ground observation results, is revealed. Statistics of these estimation errors is analyzed. Satellite-derived
estimations of land surface temperature (LST) and vegetation characteristics are used for the calibration and verification
of the developed model of the vertical heat and water transfer in the soil-vegetation-atmosphere system (SVAT). The model
is intended for calculations of evapotranspiration, soil water and heat content, latent and sensible heat fluxes, and other
water and heat balance components. The abilities to compute these parameters using the satellite estimations of the leaf area
index and projective vegetation cover fraction as the model parameters and LST satellite estimations as the model input variable
are investigated. 相似文献
8.
金塔绿洲地表特征参数遥感反演研究 总被引:16,自引:9,他引:7
TM影像是陆地资源卫星(Landsat)携带的专题绘图仪(Thematic Mapper,TM)扫描计获取的遥感图像,近年来,该数据得到了广泛的应用。本文使用Landsat-5TM数据推算了金塔地区的地表参数,包括标准化差值植被指数NDVI、修正的土壤调整植被指数MSAVI、植被覆盖度、地表反射率及地表温度。并将地表反射率、地表温度的反演值与观测值进行对比,结果表明:地表温度反演结果的相对误差在9%以内,地表反射率反演结果的相对误差在8%以内。 相似文献
9.
Parameterization of snow-free land surface albedo as a function of vegetation phenology based on MODIS data and applied in climate modelling 总被引:1,自引:0,他引:1
Diana Rechid Thomas J. Raddatz Daniela Jacob 《Theoretical and Applied Climatology》2009,95(3-4):245-255
The aim of this study was to develop an advanced parameterization of the snow-free land surface albedo for climate modelling describing the temporal variation of surface albedo as a function of vegetation phenology on a monthly time scale. To estimate the effect of vegetation phenology on snow-free land surface albedo, remotely sensed data products from the Moderate-Resolution Imaging Spectroradiometer (MODIS) on board the NASA Terra platform measured during 2001 to 2004 are used. The snow-free surface albedo variability is determined by the optical contrast between the vegetation canopy and the underlying soil surface. The MODIS products of the white-sky albedo for total shortwave broad bands and the fraction of absorbed photosynthetically active radiation (FPAR) are analysed to separate the vegetation canopy albedo from the underlying soil albedo. Global maps of pure soil albedo and pure vegetation albedo are derived on a 0.5° regular latitude/longitude grid, re-sampling the high-resolution information from remote sensing-measured pixel level to the model grid scale and filling up gaps from the satellite data. These global maps show that in the northern and mid-latitudes soils are mostly darker than vegetation, whereas in the lower latitudes, especially in semi-deserts, soil albedo is mostly higher than vegetation albedo. The separated soil and vegetation albedo can be applied to compute the annual surface albedo cycle from monthly varying leaf area index. This parameterization is especially designed for the land surface scheme of the regional climate model REMO and the global climate model ECHAM5, but can easily be integrated into the land surface schemes of other regional and global climate models. 相似文献
10.
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
11.
Xiao Liang Lipeng Jiang Yang Pan Chunxiang Shi Zhiquan Liu Zijiang Zhou 《Acta Meteorologica Sinica》2020,34(1):101-116
A land surface reanalysis dataset covering the most recent decades is able to provide temporally consistent initial conditions for weather and climate models, and thus is crucial to verifying/improving numerical weather/climate forecasts/predictions. In this paper, we report the development of a 10-yr China Meteorological Administration (CMA) global Land surface ReAnalysis Interim dataset (CRA-Interim/Land; 2007–2016, 6-h intervals, approximately 34-km horizontal resolution). The dataset was produced and evaluated by using the Global Land Data Assimilation System (GLDAS) and NCEP Climate Forecast System Reanalysis (CFSR) global land surface reanalysis datasets, as well as in situ observations in China. The results show that the global spatial patterns and monthly variations of the CRA-Interim/Land, GLDAS, and CFSR climatology are highly consistent, while the soil moisture and temperature values of the CRA-Interim/Land dataset are in between those of the GLDAS and CFSR datasets. Compared with ground observations in China, CRA-Interim/Land soil moisture is comparable to or better than that of GLDAS and CFSR datasets for the 0-10-cm soil layer and has higher correlations and slightly lower root mean square errors (RMSE) for the 10-40-cm soil layer. However, CRA-Interim/Land shows negative biases in 10-40-cm soil moisture in Northeast China and north of central China. For ground temperature and the soil temperature in different layers, CRA-Interim/Land behaves better than the CFSR, especially in East and central China. CRA-Interim/Land has added value over the land components of CRA-Interim due to the introduction of global precipitation observations and improved soil/vegetation parameters. Therefore, this dataset is potentially a critical supplement to the CRA-Interim. Further evaluation of the CRA-Interim/Land, assimilation of near-surface atmospheric forcing variables, and extension of the current dataset to 40 yr (1979–2018) are in progress. 相似文献
12.
半干旱区陆面模式参数对水分循环的敏感性研究 总被引:2,自引:0,他引:2
植被覆盖对陆气之间物质和能量交换过程具有极其重要的影响,但植被覆盖对于交换过程的影响因子很多,关系复杂.作者研究了各种植被因子对陆气之间水分循环的作用和相对重要性.首先通过单点NO-AH模式对吉林通榆农田下垫面2004年土壤和边界层各物理量进行模拟,并与观测结果比较和评价,肯定了单点NOAH模式模拟能力.使用这一模式进行敏感试验,将与植被有关的参数分别在其取值范围取较大与较小值,比较水分循环各物理量如土壤湿度、土壤蒸发、植被蒸腾等的变化情况.试验表明在各参数中植被气孔阻抗、根系深度、土壤湿度初值和反照率对水分循环的影响较大,而叶面积指数、粗糙度和冠层阻抗则影响较小. 相似文献
13.
基于遥感和GIS的中国植被指数变化的驱动因子分析及模型研究 总被引:39,自引:3,他引:36
在样带和典型区研究的基础上,采用相关分析和偏相关分析方法,对影响植被指数变化的因子(水、热和地表植被覆盖类型)进行了分析。结果表明:中国植被指数的时空变化极其复杂,虽受水、热和地表植被覆盖类型三个主导因子的影响和控制,但因时和因地而异,三者对植被指数影响和控制的主导地位也因时因地而不同;基于空间上的概念模型Indv=F(x,y,z)只能定性地描述以上三个主导因子时空变化同植被指数的相互关系。 相似文献
14.
利用MODIS卫星资料反演中国地区晴空地表短波反照率及其特征分析 总被引:16,自引:0,他引:16
利用MODIS地表双向反照率产品(MOD43B1),结合地表海拔高度和地表覆盖类型资料,计算并分析了中国地区晴空反照率的时空分布,以及地表反照率与地形和地表覆盖的关系.首先,利用改则自动气象站的地基观测对MODIS地表反照率进行了对比验证.验证结果表明卫星观测可以较好地反映反照率随时间的变化,MODIS地表反照率与地表实测反照率符合较好.年平均地表反照率与海拔高度有很好的相关,反照率的高值出现在高海拔山区.冬春季节,我国高海拔山区因积雪覆盖成为反照率的高值区;夏秋季节,地表反照率主要受地表土壤湿度和植被盖度的影响,沙地和沙漠地带反照率最高.最后,计算了中国典型地表类型的反照率随时间的变化,结果表明大部分地表类型的反照率具有较大的时间变化,地表反照率在春秋季节较大,夏季反照率较小. 相似文献
15.
黑河流域植被覆盖度计算及其影响的中尺度模拟 总被引:10,自引:7,他引:3
运用基于遥感的中国西北土地覆盖动态监测系统(NOAA AVHRR Processing Chain,NOAA-Chain)预处理系统对改进的甚高分辨率扫描辐射仪(AVHRR)影像资料进行处理得到的归一化植被指数(NDVI),基于像元二分原理得到2002年黑河流域植被覆盖度分布,将其与Gutman 1998年所作全球植被覆盖度数据在黑河流域范围进行了对比分析,发现2002年黑河流域中上游植被整体呈退化趋势,主要绿洲区植被覆盖度增大。分别将这两套植被覆盖度数据引入中尺度大气模式MM5中进行黑河流域中上游气候模拟。通过与气温观测值的比较,发现用黑河流域植被覆盖度数据模拟的气温偏差小于用全球植被覆盖度的模拟结果;植被分布与潜热通量分布的空间相关性最好;植被覆盖度变化对局地温度场变化影响很大。 相似文献
16.
Numerical simulation of the impact of vegetation index on the interannual variation of summer precipitation in the Yellow River Basin 总被引:1,自引:0,他引:1
Two sets of numerical experiments using the coupled National Center for Environmental Prediction General Circulation Model (NCEP/GCM T42L18) and the Simplified Simple Biosphere land surface scheme (SSiB) were carried out to investigate the climate impacts of fractional vegetation cover (FVC) and leaf area index (LAI) on East Asia summer precipitation, especially in the Yellow River Basin (YRB). One set employed prescribed FVC and LAI which have no interannual variations based on the climatology of vegetation distribution; the other with FVC and LAI derived from satellite observations of the International Satellite Land Surface Climate Project (ISLSCP) for 1987 and 1988. The simulations of the two experiments were compared to study the influence of FVC, LAI on summer precipitation interannual variation in the YRB. Compared with observations and the NCEP reanalysis data, the experiment that included both the effects of satellite-derived vegetation indexes and sea surface temperature (SST) produced better seasonal and interannual precipitation variations than the experiment with SST but no interannual variations in FVC and LAI, indicating that better representations of the vegetation index and its interannual variation may be important for climate prediction. The difference between 1987 and 1988 indicated that with the increase of FVC and LAI, especially around the YRB, surface albedo decreased, net surface radiation increased, and consequently local evaporation and precipitation intensified. Further more, surface sensible heat flux, surface temperature and its diurnal variation decreased around the YRB in response to more vegetation. The decrease of surface-emitting longwave radiation due to the cooler surface outweighed the decrease of surface solar radiation income with more cloud coverage, thus maintaining the positive anomaly of net surface radiation. Further study indicated that moisture flux variations associated with changes in the general circulation also contributed to the precipitation interannual variation. 相似文献
17.
K. Finkele J.J. Katzfey E.A. Kowalczyk J.L. McGregor L. Zhang M.R. Raupach 《Boundary-Layer Meteorology》2003,107(1):49-79
Two land surface schemes, SCAM and CSIRO9, were used to model the measured energy fluxes during the OASIS (Observations At Several Interacting Scales) field program. The measurements were taken at six sites along a 100 km rainfall gradient. Two types of simulations were conducted: (1) offline simulations forced with measured atmospheric input data at each of the six sites, and (2) regional simulations with the two land surface schemes coupled to the regional climate model DARLAM.The two land surface schemes employ two different canopy modelling concepts: in SCAM the vegetation is conceptually above the ground surface, while CSIRO9 employs the more commonly used `horizontally tiled' approach in which the vegetation cover is modelled by conceptually placing it beside bare ground. Both schemes utilize the same below-ground components (soil hydrological and thermal models) to reduce the comparison to canopy processes only. However, the ground heat flux, soil evaporation and evapotranspiration are parameterised by the two canopy treatments somewhat differently.Both canopy concepts reproduce the measured energy fluxes. SCAM has a slightly higher root-mean standard error in the model-measurement comparison for the ground heat flux. The mean surface radiative temperature simulated by SCAM is approximately 1K lower than in the CSIRO9 simulations. However, the soil and vegetation temperatures (which contribute to the radiative temperature) varied more in the CSIRO9 simulations. These larger variations are due to the absence of a representation of the aerodynamic interactions between vegetation and ground. 相似文献
18.
一种由卫星遥感资料获得的修正的土壤调整植被指数 总被引:9,自引:2,他引:7
目前,通过卫星遥感资料确定区域面上植被分布、类型的研究受到许多实用领域的普遍重视,并由此提出了许多形式不同的植被指数。由于土壤背景噪声是造成植被指数不确定的重要原因之一,为此不同学者在标准化差值植被指数的基础上提出了多种旨在能消弱土壤背景噪声的土壤调整植被指数,如权重差值植被指数、土壤调整植被指数和转化土壤调整植被指数等等。这些植被指数不同程度上消弱了土壤背景噪声,但是必须预先已知下垫面植被的密度分布或覆盖百分比,也就是说仅适合于求解某一小范围植被覆盖变化较小下垫面上的植被指数,而且其动态范围也偏小。本文提出了一种修正的土壤调整植被指数,土壤调整因子由植被指数自身调整,不需要其它辅助信息。计算结果表明其动态范围较大,与最佳土壤调整因子下的土壤调整植被指数差异小,因此对应用卫星遥感资料求解区域面上土壤调整植被指数极其有效。 相似文献
19.
基于MODIS的广东省植被指数序列构建与应用 总被引:2,自引:0,他引:2
植被指数是衡量植被长势的重要指标,植被指数序列有助于准确地认知植被覆盖、土地利用和土壤水分的时空变化规律,以及进行干旱和植被生长监测.利用2004-2006年的MODIS数据,选择RVI、NDVI和EVI三种植被指数,采用最大值合成法进行广东省植被指数序列构建.按照不同植被覆盖对三种植被指数的年际变化规律进行分析,并通过NDVI进行植被覆盖度计算以及植被覆盖等级分类来分析植被的空间分布.结果表明,建立的植被指数序列能真实地反映植被生长规律,植被覆盖度和广东地区的植被实际分布状况一致.说明建立植被指数序列是动态监测广东省植被长势的及植被环境的变化的有效方法. 相似文献
20.
Human-induced land use changes and the resulting alterations in vegetation features are major but poorly recognized drivers of regional climatic patterns.In order to investigate the impacts of anthropogenically-induced seasonal vegetation cover changes on regional climate in China,harmonic analysis is applied to 1982-2000 National Oceanic and Atmospheric Administration(NOAA) Advanced Very High Resolution Radiometer(AVVHRR)-derived normalized difference vegetation index(NDVI) time series(ten day interval data).For two climatic divisions of South China,it is shown that the first harmonic term is in phase with air temperature,while the second and third harmonics are in phase with agricultural cultivation.The Penman-Monteith Equation and the Complementary Relationship Areal Evapotranspiration(CRAE) model suggest that monthly mean evapotranspiration is out of phase with temperature and precipitation in regions with signiffcant second or third harmonics.Finally,seasonal vegetation cover changes associated with agricultural cultivation are identiffed:for cropped areas,the temperature and precipitation time series have a single maximum value,while the monthly evapotranspiration time series has a bimodal distribution.It is hypothesized that multi-cropping causes the land surface albedo to sharply increase during harvesting,thereby altering the energy distribution ratio and contributing to observed seasonal vegetation cover changes. 相似文献