The　Influence　of　Changes　in　Vegetation　Type　on　the　Surface　Energy　Budget   总被引：2，自引：0，他引：2  

Runkua Yang  J. Shukl  P.J. Sellers 《大气科学进展》1994,11(2):139-161

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A Physically-Based Scheme For The Urban Energy Budget In Atmospheric Models   总被引：28，自引：1，他引：27  

Valéry Masson 《Boundary-Layer Meteorology》2000,94(3):357-397

An urban surface scheme for atmospheric mesoscale models ispresented. A generalization of local canyon geometry isdefined instead of the usual bare soil formulation currently usedto represent cities in atmospheric models. This allows refinement ofthe radiative budgets as well as momentum, turbulent heat and ground fluxes.The scheme is aimed to be as general as possible, in order to representany city in the world, for any time or weather condition(heat island cooling by night, urban wake, water evaporation after rainfalland snow effects).Two main parts of the scheme are validated against published data.Firstly, it is shown that the evolution of the model-predictedfluxes during a night with calm winds is satisfactory, considering both the longwave budget and the surface temperatures. Secondly, the original shortwave scheme is tested off-line and compared to the effective albedoof a canyon scale model. These two validations show that the radiative energy input to the urban surface model is realistic.Sensitivity tests of the model are performed for one-yearsimulation periods, for both oceanic and continental climates. The scheme has the ability to retrieve, without ad hoc assumptions, the diurnal hysteresis between the turbulent heat flux and ground heat flux. It reproduces the damping of the daytime turbulent heat flux by the heat storage flux observed in city centres. The latent heat flux is negligible on average,but can be large when short time scales are considered (especially afterrainfall). It also suggests that in densely built areas, domesticheating can overwhelm the net radiation, and supply a continuous turbulentheat flux towards the atmosphere. This becomes very important inwinter for continental climates. Finally, a comparison with a vegetation scheme shows that the suburban environment can be represented with a bare soil formulation for large temporal or spatial averages (typical of globalclimatic studies), but that a surface scheme dedicated to the urban surface is necessary when smaller scales are considered: town meteorological forecasts, mesoscale or local studies.  相似文献   

Spatial energy budgets in alpine tundra     

D. Greenland 《Theoretical and Applied Climatology》1993,46(4):229-239

Summary Modelling and Geographic Information System (GIS) technology are employed in order to extend spatially, estimated and observed growing season values of the components of the surface heat energy budget for an area of alpine tundra in the Colorado Front Range. A surface equilibrium temperature model is calibrated for one sub-class of vegetation surface and is used to model surface heat energy budget component values for other sub-classes of vegetation. The model values compare favorably with values independently estimated or observed. The data are spatially displayed using the Idrisi GIS. At the microclimatic scale the presence of different sub-classes of vegetation plays a large role in controlling the actual values of the surface heat budget components. This is in contrast to the larger scale at which climatic variables such as air temperature control the overall vegetation type found in the area.With 6 Figures  相似文献   

生长季植被覆盖变化对局地气象要素的可能影响   总被引：1，自引：0，他引：1  

毛睿  龚道溢  房巧敏 《气候与环境研究》2008,13(6):738-750

植被覆盖变化对地表气象要素存在反馈作用,但在不同时空尺度上反馈关系及其表现强度存在差异。作者利用地面观测资料和归一化植被指数（NDVI）分析了15天尺度上植被覆盖变化对气象要素的影响。结果表明,我国北方农牧交错带生长季植被覆盖变化可能对同期、后期地表气象要素存在一定影响。当植被指数偏高时,地表平均温度、最高温度、最低温度和小雨频次偏低,而平均相对湿度和最小相对湿度偏高,影响持续约为1～2周。地表温度和小雨频次的变化与地表热通量的变化有关,当植被指数偏高时,地表潜热所占比例偏高,而地表感热所占比例偏低,导致地表温度偏低;地表感热偏低伴随偏弱的上升运动,不利于降水,故小雨频次偏低。地表温度偏低引起饱和比湿偏低,加之植被蒸腾量较大引起比湿偏高,故相对湿度偏高。此外,从长期变化来看NDVI与地表温度和小雨频次的相关不明显,故地表温度和小雨频次的长期变化可能更多是受大尺度气候变化的影响。  相似文献   

Closing the Mackenzie basin water budget,water years 1994/95 to 1996/97     

《大气与海洋》2013,51(2):113-124

Abstract

A particularly elusive science objective for the Mackenzie Global Energy and Water Cycle Experiment (GEWEX) Study (MAGS) has been to close the atmospheric moisture budget and rationalize it against the surface water budget at annual or even monthly timescales. The task, while not difficult in principle, is complicated by two factors. First is the importance of basin snow‐cover, soil and water‐body storage in the surface water budget. Month‐to‐month changes in these components are frequently greater than the atmospheric flux terms, for example, during spring snowmelt. Furthermore, there is approximately a six‐week lag before local changes are evident in the discharge at the mouth of the basin. Second, the coarse resolution of all of the supporting data may add significant systematic errors. For example, the two radiosonde soundings per day available to the project are unlikely to account adequately for all the moisture generated locally through evapotranspiration during the summer convective season.

This analysis will directly address these two main issues by applying hydrologic and atmospheric computations to assess the storage question, and by using additional soundings at a single site to sample the diurnal signature in atmospheric moisture caused by evapotranspiration. Resulting modifications to the atmospheric moisture and surface water budgets then allow near closure of the MAGS monthly water budget within acceptable error limits.  相似文献   

All-Sky Surface Radiation and Clear-Sky Surface Energy Budgets: Summer to Freeze-Up in the Western Maritime Arctic     

R. L. Raddatz  T. Papakyriakou  R. J. Galley  M. G. Asplin  L. M. Candlish  B. Else 《大气与海洋》2013,51(5):489-504

The 2009 ArcticNet expedition was a field campaign in the Amundsen Gulf–eastern Beaufort Sea region from mid-July to the beginning of November aboard the CCGS Amundsen that provided an opportunity to describe the all-sky surface radiation and the clear-sky surface energy budgets from summer to freeze-up in the data sparse western maritime Arctic. Because the fractional area of open water was generally larger than the fractional area of ice floes, the net radiation at the water surface controlled the radiation budget. Because the water albedo is much less than the albedo of the ice floes, the extent and duration of open water in summer is an important albedo feedback mechanism. From summer to freeze-up, the net all-sky shortwave radiation declined steadily as the solar angle lowered, while coincidently the net all-sky longwave radiation became increasingly negative. The all-sky net surface radiation switched from positive in summer to negative during the freeze-up period. From summer to freeze-up, both upward and downward turbulent heat fluxes occurred. In summer, a positive surface energy budget residual contributed to the melting of ice floes and/or to the warming of the Arctic Ocean's mixed layer. During the freeze-up period, with temperatures below approximately ?5°C, the residuals were mainly negative suggesting that heat loss from the ocean's mixed layer and heat released by the phase change of water were significant components of the energy budget's residual.  相似文献   

Evaluation of Mediterranean Sea water and heat budgets simulated by an ensemble of high resolution regional climate models   总被引：2，自引：2，他引：0  

E. Sanchez-Gomez  S. Somot  S. A. Josey  C. Dubois  N. Elguindi  M. Déqué 《Climate Dynamics》2011,37(9-10):2067-2086

Air-sea heat and freshwater water fluxes in the Mediterranean Sea play a crucial role in dense water formation. Here, we compare estimates of Mediterranean Sea heat and water budgets from a range of observational datasets and discuss the main differences between them. Taking into account the closure hypothesis at the Gibraltar Strait, we have built several observational estimates of water and heat budgets by combination of their different observational components. We provide then three estimates for water budget and one for heat budget that satisfy the closure hypothesis. We then use these observational estimates to assess the ability of an ensemble of ERA40-driven high resolution (25 km) Regional Climate Models (RCMs) from the FP6-EU ENSEMBLES database, to simulate the various components, and net values, of the water and heat budgets. Most of the RCM Mediterranean basin means are within the range spanned by the observational estimates of the different budget components, though in some cases the RCMs have a tendency to overestimate the latent heat flux (or evaporation) with respect to observations. The RCMs do not show significant improvements of the total water budget estimates comparing to ERA40. Moreover, given the large spread found in observational estimates of precipitation over the sea, it is difficult to draw conclusions on the performance of RCM for the freshwater budget and this underlines the need for better precipitation observations. The original ERA40 value for the basin mean net heat flux is ?15 W/m² which is 10 W/m² less than the value of ?5 W/m² inferred from the transport measurements at Gibraltar Strait. The ensemble of heat budget values estimated from the models show that most of RCMs do not achieve heat budget closure. However, the ensemble mean value for the net heat flux is ?7 ± 21 W/m², which is close to the Gibraltar value, although the spread between the RCMs is large. Since the RCMs are forced by the same boundary conditions (ERA40 and sea surface temperatures) and have the same horizontal resolution and spatial domain, the reason for the large spread must reside in the physical parameterizations. To conclude, improvements are urgently required to physical parameterizations in state-of-the-art regional climate models, to reduce the large spread found in our analysis and to obtain better water and heat budget estimates over the Mediterranean Sea.  相似文献   

中国东部不同区域城市群下垫面变化气候效应的模拟研究   总被引：6，自引：1，他引：5  

周莉  江志红  李肇新  杨修群 《大气科学》2015,39(3):596-610

本文利用法国动力气象实验室发展的大气环流模式(LMDZ)对珠江三角洲(简称珠三角)、长江三角洲(简称长三角)和北京市、天津市、河北省区域(简称京津冀)城市群下垫面变化的东亚气候进行模拟试验, 以探讨不同区域城市群下垫面变化带来的夏季气候效应及其可能机制, 结果表明:珠三角、长三角和京津冀城市群下垫面类型改变后, 地表潜热蒸发显著减少, 为了平衡地面能量收支, 地面温度升高, 进而感热通量、地表有效长波辐射增强, 地表通过升温对能量进行再分配和再平衡, 且下垫面改变引起的温度、地表能量变化基本集中于城市群下垫面变化区域, 温度响应具有显著的局地性;对比不同区域城市化温度响应的强弱, 发现各区域地表气温变化和能量变化存在较好的对应关系, 长三角、珠三角城市群的总能量变化远高于京津冀城市群, 其局地增温也是京津冀城市群的一倍以上;局地温度增加, 虽有利于低层形成热低压, 出现明显上升运动, 但蒸发减弱使局地水汽明显减少, 最终导致降水减少, 表明水汽条件改变是降水减少的主要因素。同时由于中国东部高层呈现南正北负的异常变化, 西太平洋副高加强西伸, 使降水减少区域并没有集中在局地, 特别是东部城市带试验中, 出现了东部地区大范围的降水偏少。  相似文献   

Testing the method for surface air temperature refinement based on a complex of models of the atmospheric boundary layer and local heat and water budgets     

A. Yu. Mikhailov  K. G. Rubinshtein  A. B. Shmakin 《Russian Meteorology and Hydrology》2008,33(1):9-14

A method is considered for space-time refinement of surface air temperature obtained from the atmospheric general circulation model (GCM) of the Hydrometeorological Center of Russia over a limited area by means of use of a complex of the atmospheric boundary layer models and surface heat and water budget model. The latter describes all major processes of heat and water exchange at the underlying surface and within the soil and vegetation using 14 external parameters for different types of landscapes and soils. The side and upper boundary conditions for the local model are provided from the GCM model. Different statistical estimates of the modeling results show possibility and reliability of the refinement for time changes of the quantity under calculation as well as for development of averaged fields reflecting small-scale inhomogeneities of the landscape.  相似文献   

Climate sensitivity to wetlands and wetland vegetation in mid-Holocene North Africa   总被引：8，自引：0，他引：8  

D. P. Carrington  R. G. Gallimore  J. E. Kutzbach 《Climate Dynamics》2001,17(2-3):151-157

 Wetland regions are important components of the local climate, with their own characteristic surface energy and moisture budgets. Realistic representation of wetlands, including the important vegetation component, may therefore be necessary for more accurate simulations of climate and climate change. However, many land-atmosphere coupled models either ignore wetlands or treat wetlands as bare, water-saturated soil, neglecting the vegetation present within wetland environments. This study investigates the possible response of the mid-Holocene climate of North Africa to changes in orbital forcing, both with and without the presence of wetlands. The location of these wetlands is guided by analysis of paleovegetation and wetland distribution. In this study, the wetland regime in the land surface component of a climate model was modified to incorporate vegetation. Field measurements have shown that vegetation affects water loss associated with evaporation (including transpiration) within a wetland area. Comparisons between non-vegetated wetland and vegetated wetland revealed an increase in local albedo that produced an associated decrease in net radiation, evaporation and precipitation in the vicinity of the wetlands regions. Based on an analysis of the model surface water balance, the calculated area of mid-Holocene wetland coverage for North Africa closely matches the observed. For the North African region as a whole, the effects of adding vegetation to the wetland produced relatively small changes in climate, but local recycling of water may have served to help maintain paleo wetland communities. Received: 16 March 1999 / Accepted: 17 May 2000  相似文献   

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  

陈海山  倪东鸿  李忠贤  曾刚 《南京气象学院学报》2006,29(6):725-734

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   

Counteracting urban climate change: adaptation measures and their effect on thermal comfort   总被引：1，自引：1，他引：0  

Nicole Müller  Wilhelm Kuttler  Andreas-Bent Barlag 《Theoretical and Applied Climatology》2014,115(1-2):243-257

Cities represent thermal load areas compared with their surrounding environments. Due to climate change, summer heat events will increase. Therefore, mitigation and adaptation are needed. In this study, meteorological measurements in various local climate zones were performed to demonstrate the influence of evaporation surfaces and other factors on thermal comfort, as determined by the physiologically equivalent temperature (PET). Furthermore, a quantification of the thermal effects of several adaptation measures and varying meteorological parameters was made using model simulations (ENVI-met) in an inner-city neighborhood (Oberhausen, Germany). The results show that the most effective adaptation measure was increased wind speed (maximal 15 K PET reduction). Moreover, vegetation areas show greater PET reductions by the combination of shading and evapotranspiration than water surfaces. The creation of park areas with sufficient water supply and tall, isolated, shade-providing trees that allow for adequate ventilation can be recommended for planning.  相似文献   

季风湿润区夏季水汽收支的年代际变化特征          下载免费PDF全文

廖荣伟  赵平 《应用气象学报》2013,24(1):12-22

采用1983—2002年NCEP/NCAR再分析资料和我国660站降水资料,对我国东部季风湿润区夏季水汽收支变化与大气环流和我国降水异常特征的关系进行研究。结果表明:20世纪80—90年代夏季水汽收支时间序列表现出明显的年代际变化增加趋势,与降水时间序列的相关系数为0.71;水汽收支高值、低值年代不仅能够指示季风湿润区经向风的异常变化,还能够指示东亚夏季风的强弱和降水异常变化。合成的水汽输送年代际异常在东亚—西太平洋区表现为4个异常环流,异常水汽通量辐合区位于长江流域及以南地区。水汽收支高值年代,亚洲大陆高纬度地区低压偏弱,大陆表面温度及西太平洋海温偏高,我国东部沿海盛行异常偏南风,低层气流辐合、高层气流辐散强,垂直上升运动强烈;低值年代则相反。合成的经向水汽收支占总收支的71.3%,合成的异常降水量最大达100 mm以上。  相似文献   

北京城市热岛效应的流动观测和初步研究   总被引：4，自引：0，他引：4  

郭勇龙步菊  刘伟东李明 《气象科技》2006,34(6):656-661

采用车载气象观测仪器结合GPS定位、连续数据采集系统的流动观测方法研究了北京城区内不同城市地表覆盖物对城市局地小气候的影响和气象要素分布,发现城市下垫面分布与城市的温度和湿度有密切关系,一般在城市建筑物密集、水体和植被少的区域具有较高的气温和较低的相对湿度,在建筑物稀疏和植被、水体较多的区域则相反。观测结果表明,流动观测方法是对常规气象观测资料的有益补充,也是城市气候观测中的一种有效方法。  相似文献   

Climate change and the regulation of the surface moisture and energy budgets   总被引：4，自引：0，他引：4  

G J Boer 《Climate Dynamics》1993,8(5):225-239

The increase in the vigor of the hydrological cycle simulated in a 2 × CO₂ experiment with the Canadian Climate Centre general circulation model is smaller than that obtained by other models which have similar increases in mean surface temperature. The surface energy budget, which encompasses also the moisture budget for the oceans, is analyzed. Changes in the net radiative input to and sensible heat flux from the surface act to warm it. This is balanced, at the new equilibrium, by a change in the latent heat flux which acts to cool it. Although this same general behavior is seen in other models, the increase in radiative input to the surface in the CCC GCM is smaller than in other models while the change in the sensible heat flux is of similar size. As a consequence, the latent heat flux required for balance is smaller. The comparatively small increase in the net radiative input at the surface occurs because of a decrease in the solar component. On average the decrease in solar input in the tropical region outweighs the higher latitude increase associated with the snow/ice albedo feedback. The notable tropical decrease in solar input occurs because the albedo of the clouds increase enough in this region to outweigh a small decrease in cloud amount. The increase in cloud albedo in the warmer and moister tropical atmosphere is a consequence of the parameterized cloud optical properties in the model which play an important role in the regulation of the surface energy and moisture budgets. The results demonstrate some of the consequences of the negative feedback mechanism associated with increasing cloud albedo in the model. They also suggest that the simulated change in the vigor of the hydrological cycle is not a simple function of the average increase in surface temperature but is a consequence of all of the processes in the model which control the available energy at the surface as a function of latitude.  相似文献   

NUMERICAL SIMULATION OF THE INFLUENCE OF VEGETATION COVER FACTOR ON BOUNDARY LAYER CLIMATE IN SEMI-ARID REGION   总被引：2，自引：0，他引：2       下载免费PDF全文

Liu Shuhu  Huang Zichen  Liu Lichao 《Acta Meteorologica Sinica》1997,11(1):66-78

A numerical model has been developed for simulating land-surface processes and atmosphericboundary layer climate of vegetation and desert in semi-arid region.Dynamically,thermal andhydrological processes take place in the atmospheric boundary layer.Vegetation and surface layerof soil are included in the soil-vegetation-atmosphere coupled system,in which,vegetation isconsidered as a horizontally uniform layer,soil is divided into 13 layers and the horizontaldifferences of variables in the system are neglected.The influence of local boundary layer climateby vegetation cover factor is simulated with the coupled model in the semi-arid region of NorthwestChina (around 38°N,105°E).Results indicate that due to significant differences of water andenergy budgets in vegetation and desert region,the air is colder and wetter over the vegetation andcorrespondingly an obvious local circulation in the lower atmosphere is formed.Simulating results also show that maximum updraft and downdraft occur around thevegetation-desert marginal area,where the dynamical and thermodynamical properties of PBL(Planetary Boundary Layer) are uncontinuous.It is stronger at daytime,weaker and reverse atnighttime.In the simulation,the moisture inversion phenomena are analyzed.Finally.theinfluences of vegetation cover factor exchange on local boundary layer climate are simulated.Thesimulating results bring to light that water may be conserved and improved by developing treeplanting and afforestation,and improving cover factor of vegetation in local ecoenvironment,andthis is an important way of transforming local climate in arid and semi-arid area.Results indicatethat the coupled model can be used to study the soil-vegetation-atmosphere interaction and localboundary layer climate.  相似文献   

Progress in understanding of land surface/atmosphere exchanges at high latitudes     

R. J. Harding  S.-E. Gryning  S. Halldin  C. R. Lloyd 《Theoretical and Applied Climatology》2001,70(1-4):5-18

Summary  This paper summarises some of the key results from two European field programmes, WINTEX and LAPP, undertaken in the Boreal/Arctic regions in 1996–98. Both programmes have illustrated the very important role that snow plays within these areas, not only in the determination of energy, water and carbon fluxes in the winter, but also in controlling the length of the summer active season, and hence the overall carbon budget. These studies make a considerable advance in our knowledge of the fluxes from snow-covered landscape and the interactions between snow and vegetation. Also some of the first measurements of greenhouse gas fluxes (carbon dioxide and methane) are reported for the European arctic and sub-arctic. The measurements show a considerable variability across the arctic, with very high instantaneous values from sub-arctic birch and fen areas and extremely low fluxes reported from the polar desert in the high arctic. The overall annual budgets are everywhere limited by the very short active season in these regions. The heat flux over a high latitude boreal forest during late winter was found to be high. At low solar angles the forest shades most of the snow surface, therefore an important part of the radiation never reaches the snow surface but is absorbed by the forest. This indicates that in areas with sparse vegetation and low solar angles, absorption of direct solar radiation is due to an apparent vegetation cover, which is much greater than the actual one. The first steps are taken in using these measurements to improve models, both point soil/vegetation/atmosphere transfer schemes and 3D meteorogical models. The results are encouraging; increasing the realism progressively improves the representation of the fluxes. A start is made in developing landscape, or catchment scale models. There seems to be some hope that comparatively simple relationships between evaporation and photosynthesis and leaf area may be sufficiently robust to allow the use of remotely sensed images to investigate the areally averaged exchanges. It is suspected that high latitude regions will experience considerable climatic and environmental change in the coming decades. A well found prediction of how these regions will respond requires a comprehensive knowledge of how vegetation will respond and how the changed vegetation will interact with the snow cover and the atmosphere. The studies from the LAPP and WINTEX programmes presented in this volume are an important contribution to this understanding and provide a useful foundation for future research. Received March 6, 2001  相似文献   

Heat,momentum and moisture budgets of the katabatic layer over the melting zone of the west Greenland ice sheet in summer     

Michiel R. Van Den Broeke  Peter G. Duynkerke  Edwin A. C. Henneken 《Boundary-Layer Meteorology》1994,71(4):393-413

The budgets of momentum, heat and moisture of the atmospheric boundary layer overlying the melting zone of the west Greenland ice sheet during an 8-day period in summer are calculated. To do so, the governing budget equations are derived and presented in terms of vertically averaged quantities. Moreover, stationarity is assumed in the present study. Measurements collected during the GIMEX-91 experiment are used to calculate the contribution of the different terms in the equations to the budget.During summer, a well developed katabatic wind system is present over the melting zone of the Greenland ice sheet. The budgets show that advection in the katabatic layer is small for momentum, heat and humidity, when the horizontal length scale of the integration area is sufficiently large (>50 km). This indicates that in principle one-dimensional atmospheric models can be used to study the boundary layer over the melting zone of the Greenland ice sheet. The background stratification plays a crucial role in the heat and moisture budget. Vertical divergence of longwave radiation provides one-third and the turbulent flux of sensible heat the rest of the cooling of the boundary layer. Moisture is added to the boundary layer by evaporation which is a significant term in the moisture budget. Negative buoyancy (katabatic forcing) dominates the momentum budget in the downslope direction. Coriolis forcing is important, stressing the large spatial scale of the katabatic winds on the Greenland ice sheet.  相似文献   

The water and energy balances of Perch Lake (1969–1980)     

E. Robertson  P.J. Barry 《大气与海洋》2013,51(3):238-253

Abstract

Since 1969, meteorological and limnological measurements required for evaporation estimates by the energy budget method have been made almost continuously during the open water season at Perch Lake, a small (0.45 km²), shallow (mean depth 2 m) lake on the Canadian Shield. Hydrological measurements required for water budget calculations have been made continuously since 1970. Since ground water input to the lake has been found to be significant, energy budget estimates of evaporation are used in the water budget equation to estimate ground water inflow. Results are summarized as the long‐term averages along with the ranges of variation of the budget components observed during the eleven‐year period.  相似文献   

卫星遥感结合气象资料计算的西北干旱区地面感热特征分析     

王慧  李栋梁 《高原气象》2012,31(2):312-321

选取1981年7月-2006年12月美国国家海洋和大气局(NOAA)系列卫星观测的归一化植被指数(NDVI)资料和Ch-INDV参数化关系式,计算了我国西北干旱区84个测站历年各月的地表热力输送系数Ch值和地面感热通量序列,得到如下主要结论:(1)西北干旱区地面感热通量实际计算值与ERA-40再分析感热资料相比,两者在数值大小、分布形势和年际变化趋势上均较一致,感热实际计算值的空间分布更明显地突出了各气象站所在区域的局地特征。(2)西北干旱区地面感热输送呈单峰型年变化特征,春、夏季非常强,秋、冬季较弱;大部分区域全年均为正值,地表为感热源。(3)以97.5°E为界,西北干旱区东、西部具有不同的年际变化趋势,东部的地面感热四季均有逐年增加的趋势,而西部秋、冬季逐年略有增加,春、夏季逐年减弱明显,气候倾向率分别为-1.15 W.m-2.(10a)-1和-2.08W.m-2.(10a)-1。(4)西北干旱区地面感热输送具有明显的年代际变化特征,1980年代总体偏强,1990年代总体偏弱,2000年以来,西北地区中部的感热输送偏弱,东、西部除个别测站外均偏强。(5)西北干旱区的感热变化并不只由地气温差的变化来决定,它与地面风速和地表状况的变化也有较强的依赖关系。在冬季,主要响应地气温差的变化,春季地面风速和地气温差的影响作用同等重要,夏季以地面风速的影响为主,地气温差的影响次之,秋季与夏季相反。另外,夏季地表状况对感热的影响作用也不容忽视。  相似文献