共查询到20条相似文献,搜索用时 390 毫秒
1.
敦煌荒漠戈壁地区裸土地表反照率参数化研究 总被引:4,自引:1,他引:3
利用敦煌站观测资料,选取其中观测资料完整且连续性好的7个年份每年5~10月的地表净辐射四分量和土壤湿度资料,分析研究了敦煌荒漠戈壁地区裸土地表反照率与太阳高度角和表层土壤含水量之间的关系,结果表明:地表反照率与太阳高度角呈e指数关系,随太阳高度角的增大而减小,当太阳高度角大于40°时,地表反照率趋于稳定。表层土壤含水量的增大可导致地表反照率的减小,地表反照率与5 cm深土壤湿度呈线性关系。另外,建立了敦煌荒漠戈壁地区裸土地表反照率与太阳高度角和表层土壤含水量之间的双因子参数化公式,提出了一种更加适合该地区的地表反照率参数方案,并且选取2002年6~9月的实测资料对拟合的参数化公式进行模拟验证。本文所提出的地表反照率参数化方案能够很好地再现该地区裸土地表反照率的“U”型日变化特征,可准确地模拟出地表反照率的动态变化趋势。基于此参数化方案计算得到的地表反射辐射与实测值基本一致。 相似文献
2.
A. L. Steiner J. S. Pal F. Giorgi R. E. Dickinson W. L. Chameides 《Theoretical and Applied Climatology》2005,82(3-4):225-243
Summary We replace the existing land surface parameterization scheme, the Biosphere-Atmosphere Transfer Scheme (BATS), in a regional climate model (RegCM) with the newly developed Common Land Model (CLM0). The main improvements of CLM0 include a detailed 10-layer soil model, the distinction between soil ice and water phases, a linked photosynthesis-stomatal conductance model, a multilayer snow model, and an improved runoff parameterization. We compare the performance of CLM0 and BATS as coupled to the RegCM in a one year simulation over East Asia. We find that the RegCM/CLM0 improves the winter cold bias present in the RegCM/BATS simulation. With respect to the surface energy balance, lower CLM0 albedos allow the absorption of more solar radiation at the surface. CLM0 tends to simulate higher sensible heat and lower latent heat fluxes than its BATS counterpart. The surface water balance also changes considerably between the two land surface schemes. Compared to BATS, CLM0 precipitation is reduced overall and surface runoff is increased, thereby allowing less water to enter the soil column. Evapotranspiration is lower in CLM0 due to lower ground evaporation, which leads to a wetter surface soil in CLM0 in spite of less precipitation input. However, transpiration is greater in CLM0 than BATS, which has an overall effect of less surface storage during the summertime. Comparison with station observations indicates that CLM0 tends to improve the simulation of root zone soil water content compared to BATS. Another pronounced difference between the two schemes is that CLM0 produces lower snow amounts than BATS because of different snow models and warmer CLM0 temperatures. In this case, BATS snow cover amounts are more in line with observations. Overall, except for the snow amounts, CLM0 appears to improve the RegCM simulation of the surface energy and water budgets compared to BATS. 相似文献
3.
Summary Sky luminance and spectral radiance has been characterised at Neumayer, Antarctica for selected situations during the austral
summer 2003/04. Luminance has also been measured at Boulder, Colorado, USA in June 2003. The high reflectivity of the surface
(albedo) in Antarctica, reaching values up to 100% in the ultraviolet (UV) and visible part of the solar spectrum due to snow
cover, modifies the radiation field considerably when compared to mid-latitudes. A dependence of luminance and spectral radiance
on solar zenith angle (SZA) and surface albedo has been identified. For snow and cloudless sky, the horizon luminance exceeds
the zenith luminance by as much as a factor of 8.2 and 7.6 for a SZA of 86° and 48°, respectively. In contrast, over grass
this factor amounts to 4.9 for a SZA of 86° and a factor of only 1.4 for a SZA of 48°. Thus, a snow surface with high albedo
can enhance horizon brightening compared to grass by a factor of 1.7 for low sun at a SZA of 86° and by a factor of 5 for
high sun at a SZA of 48°. For cloudy cases, zenith luminance and radiance exceed the cloudless value by a factor of 10 due
to multiple scattering between the cloud base and high albedo surface. Measurements of spectral radiance show increased horizon
brightening for increasing wavelengths and generally confirm the findings for luminance. Good agreement with model results
is found for some cases; however there are also large deviations between measured and modelled values especially in the infrared.
These deviations can only partly be explained by measurement uncertainties; to completely resolve the differences between
model and measurement further studies need to be performed, which will require an improvement of modelling the spectral radiance.
From the present study it can be concluded that a change in albedo conditions, which is predicted as a consequence of climate
change, will significantly change the radiation conditions in polar regions as well. 相似文献
4.
The Community Climate Model version 2 (CCM2) of the National Center for Atmospheric Research (NCAR) was used to investigate
the effects of the land-surface characteristics on the East Asian summer monsoon. Four numerical experiments were performed
in this study. They include the control run, the biosphere–atmosphere transfer scheme (BATS) run, the heavy snow run, and
the light snow run. The results show that CCM2 can reasonably simulate many characteristics of the East Asian summer monsoon,
such as the 850-hPa southwesterlies, 200-hPa easterlies, high precipitation rate, two monsoon subsystems, the low-level subtropical
high, and the upper level South Asian anticyclone. Nevertheless, the model still exhibits some systematic errors, including
oversimulation of the temperature over the Eurasian continent, which in turn intensifies the monsoon circulations. In the
BATS run, the model can significantly relieve the temperature bias over the continent in spring and early summer. However,
the effect of BATS decreases in the summer due to excessive incoming solar radiation. The Eurasian continent is still occupied
by an oversimulated thermal low in summer. In the heavy snow case, the high albedo of snow and larger soil moisture suppress
the warming rate of the surface and atmosphere in the early summer and hence the cooler troposphere results in a weaker monsoon
circulation. Moreover, anomalous cyclonic flows are found in the leeside of Tibetan Plateau (i.e. the southwest vortex in
China) in the heavy snow case. This may shed a light on the precipitation anomalies (floods) over Yangtze River Valley (Central
China) and eastern Asia due to intensified baroclinic disturbances.
Received: 8 September 1999 / Accepted: 5 June 2000 相似文献
5.
云天地表总辐射和净辐射瞬时值的计算方法 总被引:1,自引:0,他引:1
为减少计算机时,满足实时预报要求,全球数值预报模式中的辐射计算频率通常设定为三小时。这样处理会大大减少计算量,但也同时导致较大辐射日变化偏差,并影响模式对地面能量平衡,对流及降水的模拟。为改进这一缺陷,我们开发了一种辐射快速计算方案,可用于计算瞬时地面太阳总辐射和净辐射,使到达地面的太阳辐射计算可与模式积分同步进行,从而改善地面太阳辐射日变化模拟。本文介绍云天的计算方法。该方案所用的输入变量均为预报模式或卫星观测所能提供的量。结果表明:该方案既可用于数值预报模式也可利用观测资料独立计算地面太阳辐射。经与美国能源部大气辐射观测资料检验,该方案的精度很高,地面总辐射瞬时值的平均计算误差小于7%。 相似文献
6.
An ensemble of six 22-year numerical experiments was conducted to evaluate the ability of Regional Climate Model version 3 (RegCM3) to simulate the energy and water budgets of the midwestern United States. RegCM3 was run using two surface physics schemes: Integrated Biosphere Simulator (IBIS) and Biosphere-Atmosphere Transfer Scheme 1e (BATS1e), and two convective closure assumptions: Fritsch & Chappell (FC80) and Arakawa & Schubert (AS74). Boundary conditions were provided by the National Centers for Environmental Prediction-Department of Energy Reanalysis 2 dataset and the ECHAM5 general circulation model. A companion paper examines the American Midwest under future climate scenarios. Overall, the model that reproduces the observed seasonal cycles of the midwestern United States climate system best is RegCM3 using IBIS and the AS74 convective closure assumption. IBIS simulates shortwave radiation more accurately, while BATS1e simulates longwave radiation more accurately. Summer two-meter air temperature is overestimated by the combination of IBIS and the FC80 convective closure assumption. All models contain a wet bias and overestimate evapotranspiration during the spring. Total runoff, surface runoff, groundwater runoff, and root zone soil moisture are best simulated by RegCM3 using IBIS and the AS74 convective closure assumption. While BATS1e does capture the seasonal cycle of total runoff, gross errors in the partitioning of total runoff between surface runoff and groundwater runoff exist. The seasonal cycle of root zone soil moisture simulated by RegCM3 using IBIS and the AS74 convective closure assumption is dry, but agrees with observations during the summer. The rest of the models underestimate root zone soil moisture. 相似文献
7.
CCM3模式中LSM积雪方案的改进研究(Ⅰ):修改方案介绍及其单点试验 总被引:4,自引:3,他引:1
为了改进美国NCARCCM3全球模式中LSM陆面模型中的积雪方案的模拟效果,在Sun等[1]SAST积雪模型的基础上,作了部分修改后,加进CCM3模式LSM模型中.该方案根据格点区域平均积雪深度的不同,把地面雪盖划分为1到3层不等,能在积雪表层和中间层更好地描述温度的日变化和季节变化;较详细地考虑了雪的热传导、太阳辐射的穿透吸收、雪的融化、液态水的储存、渗透和再冻结等积雪内部的主要物理过程;根据Nimbus-7卫星实测雪深资料修改了积雪覆盖度和雪面反照率的计算方案.利用前苏联6个台站1978-1983年的实测积雪资料和大气强迫数据,进行了单点模拟试验,结果表明,新的积雪参数化方案能够较好地再现积雪深度和雪水当量的逐日和季节变化特征,部分提高了积雪参数化方案对积雪的模拟能力. 相似文献
8.
9.
1997/1998年青藏高原西部地区辐射平衡各分量变化特征 总被引:9,自引:1,他引:9
利用中日亚洲季风机制研究计划1997年9月~1998年10月在青藏高原西部改则和狮泉河2个站点自动气象站辐射平衡的观测资料,分析了高原西部2个地区辐射平衡各分量在不同季节的季节平均日变化和年变化特征,并且还与1979年5~8月第一次青藏高原气象科学实验的辐射观测资料和1982,1983年青藏高原辐射平衡观测实验的结果进行了比较分析。结果发现:高原西部辐射平衡各分量的变化不仅有季节之间和年际的差异,高原西部的不同地区之间的变化也有较大的差异:(1)总辐射在春夏两季相差很小,改则春季(3~5月平均)日变化的极大值甚至比夏季(6~8月平均)还大;(2)地表反照率的年际变化及两地之间的差异均可能较大;(3)大气逆辐射日变化、年变化特征与其他辐射分量明显不同,其日变化、年变化的位相均晚于其他分量;(4)两地之间地面辐射平衡的年变化似乎有一个位相差,改则的月平均最大值和最小值均较狮泉河晚了约1个月,因此从冬季到夏季的大部分时间里,改则的地面辐射平衡是小于狮泉河的,而在从夏季到冬季的大部分时间里,改则是大于狮泉河的。 相似文献
10.
11.
The regional climate model (RegCM4) is customized for 10-year climate simulation over Indian region through sensitivity studies on cumulus convection and land surface parameterization schemes. The model is configured over 30° E–120° E and 15° S–45° N at 30-km horizontal resolution with 23 vertical levels. Six 10-year (1991–2000) simulations are conducted with the combinations of two land surface schemes (BATS, CLM3.5) and three cumulus convection schemes (Kuo, Grell, MIT). The simulated annual and seasonal climatology of surface temperature and precipitation are compared with CRU observations. The interannual variability of these two parameters is also analyzed. The results indicate that the model simulated climatology is sensitive to the convection as well as land surface parameterization. The analysis of surface temperature (precipitation) climatology indicates that the model with CLM produces warmer (dryer) climatology, particularly over India. The warmer (dryer) climatology is due to the higher sensible heat flux (lower evapotranspiration) in CLM. The model with MIT convection scheme simulated wetter and warmer climatology (higher precipitation and temperature) with smaller Bowen ratio over southern India compared to that with the Grell and Kuo schemes. This indicates that a land surface scheme produces warmer but drier climatology with sensible heating contributing to warming where as a convection scheme warmer but wetter climatology with latent heat contributing to warming. The climatology of surface temperature over India is better simulated by the model with BATS land surface model in combination with MIT convection scheme while the precipitation climatology is better simulated with BATS land surface model in combination with Grell convection scheme. Overall, the modeling system with the combination of Grell convection and BATS land surface scheme provides better climate simulation over the Indian region. 相似文献
12.
不同陆面过程模式对半干旱区通榆站模拟性能的检验与对比 总被引:5,自引:1,他引:4
随着全球气候变化和伴随而来的日益严重的干旱化问题,干旱/半干旱地区的陆气相互作用引起了越来越多的重视。利用国际协同强化观测期(CEOP)观测资料对3个不同的陆面过程模式BATS、LSM和CoLM在半干旱区通榆站进行了模拟检验与对比,考察了不同陆面过程模式对半干旱地区的模拟性能。结果表明,3个模式都可以较好地模拟出半干旱地区地气间的能量通量的季节和日变化,但模拟性能存在较大差异。对于地表温度和出射长波辐射的模拟,BATS表现最优;而对于感热和潜热通量的模拟,CoLM和LSM要好于BATS,其中CoLM的表现最好。各模式的模拟性能随着季节不同存在着很大的差异,夏季的模拟要好于冬季,3个模式都不能很好地模拟冬季该地区的潜热通量,说明对半干旱地区冬季地表过程的刻画还有待进一步提高。 相似文献
13.
A new canopy radiation transfer and surface albedo scheme is developed as part of the land surface model EALCO (Ecological
Assimilation of Land and Climate Observations). The model uses a gap probability-based successive orders of scattering approach
that explicitly includes the heterogeneities of stands and crown elements and the radiation multiple scattering. The model
uses the optical parameters of ecosystem elements and physically represents ecosystem processes in surface albedo dynamics.
Model tests using measurements from a boreal deciduous forest ecosystem show that the model well reproduced the observed diurnal
and seasonal albedo dynamics under different weather and ecosystem conditions. The annual mean absolute errors between modeled
and measured daily albedo and reflected radiation are 0.01 and 1.33 W m−2, respectively. The model results provide a quantitative assessment of the impacts of plant shading and sky conditions on
surface albedo observed in high-latitude ecosystems. The contribution of ground snow to surface albedo in winter was found
to be less than 0.1 even though the canopy is leafless during this time. The interception of snow by the leafless canopy can
increase the surface albedo by 0.1–0.15. The model results show that the spectral properties of albedo have large seasonal
variations. In summer, the near infrared component is substantially larger than visible, and surface albedo is less sensitive
to sky conditions. In winter, the visible band component is markedly increased and can exceed the near infrared proportion
under cloudy conditions or when snow exists on the canopy. The spectral properties of albedo are also found to have large
diurnal variations under the clear-sky conditions in winter. 相似文献
14.
Snow albedo is an important factor influencing the snow surface energy budget and snow melting,
yet uncertainties remain in the calculation of spectrally resolved snow surface albedo because the spectral
composition (visible versus near infrared) of the incident solar radiation is seldom available. The influence
of the spectral composition of the incoming solar radiation on the snow surface albedo, snow surface energy
budget, and final snow ablation is investigated through sensitivity experiments of four snow seasons at two
open sites in the Alps by using a multi-layer Snow-Atmosphere-Soil-Transfer scheme (SAST). Since the snow
albedo in the near infrared (NIR) spectral band is significantly lower than that in the visible (VIS) band,
and almost the entire NIR part of the solar radiation is absorbed in the top layer of the snow pack, given
a fixed amount of incoming solar radiation, a lower VIS/NIR ratio implies that more NIR radiation is
reaching the ground surface and more is absorbed by the top layer of the snow pack, therefore, speeding
up the snow melting and increasing the surface runoff, although a lesser part of the solar radiation in
the visible band is transmitted into and trapped by the sub-layer of the snow pack. The above VIS/NIR ratio
effect of the incoming solar radiation can result in a couple of days difference in the timing of snow
ablation and it becomes more significant in late spring when the total solar radiation is intensified with
seasonal evolution. Snow aging also slightly intensifies this VIS/NIR ratio effect. 相似文献
15.
Effect of The Atmosphere on UVB Radiation Reaching The Earth’s Surface:Dependence on Solar Zenith Angle 
下载免费PDF全文
下载免费PDF全文 M.El-Nouby ADAM 《大气和海洋科学快报》2011,(3):139-145
The atmosphere protects humans,plants,animals,and microorganisms from damaging doses of ultraviolet-B(UVB) solar radiation(280-320 nm) because it modifies the UVB reaching the Earth’s surface.This modification is a function of the solar radiation’s path length through the atmosphere and the amount of each attenuator along the path length.The path length is determined by solar zenith angle(SZA).The present work explains the dependence of hemispherical transmittance of UVB on SZA.The database used consists of five years of hourly UVB and global solar radiation measurements.From 2001 to 2005,the South Valley University(SVU) meteorological research station(26.20°N,32.75°E) carried out these measurements on a horizontal surface.In addition,the corresponding extraterrestrial UVB(UVBext) and broadband solar radiation(Gext) were estimated.Consequently,the hemispherical transmittance of UVB(KtUVB) and the hemispherical transmittance of global solar radiation(Kt) were estimated.Furthermore,the UVB redaction due to the atmosphere was evaluated.An analysis of the dependence between KtUVB and SZA at different ranges of Kt was performed.A functional dependence between KtUVB and SZA(KtUVB=-a(SZA)+b) for very narrow Kt-ranges(width of ranges was 0.01) was developed.The results are discussed,and the sensitivity of △KtUVB to △SZA for very narrow Kt-ranges was studied.It was found that the sensitivity of △KtUVB to △SZA slightly increases with increased Kt,which means KtUVB is sensitive to SZA as Kt increases.The maximum correlation(R) between KtUVB and SZA was equal to-0.83 for Kt= 0.76. 相似文献
16.
17.
新疆东部黑戈壁作为气候恶劣、人迹罕至的生态脆弱区,具有丰富的太阳能资源。利用红柳河陆气相互作用观测站2019年4、7、9月观测资料,分析东疆黑戈壁地表辐射及能量收支演变特征。结果表明:(1)地表辐射及能量收支各分量日变化均为单峰型。就不同季节而言,太阳总辐射和净辐射为夏季>春季>秋季,反射短波辐射为春季>夏季>秋季,地表和大气长波辐射为夏季>秋季>春季。(2)能量收支各分量季节变化明显,感热通量为春季>夏季>秋季,潜热通量为夏季>秋季>春季,地表土壤热通量为秋季>夏季>春季;能量分配在不同季节均以感热为主,地表土壤热通量次之,潜热通量极其微弱。(3)地表反照率日变化均为“U”型,在不同季节表现为春季>秋季>夏季,依次为0.29、0.27、0.26。东疆黑戈壁地表反照率整体较高,这是下垫面为黑色砾石所致。 相似文献
18.
利用2000年6月\_2003年12月全国33个重点城市的PM10日监测数据与地面总辐射日观测数据, 结合总云量、 降水量等气象观测数据, 定量分析了人类活动排放的污染物质与地面总辐射的关系, 并分析了人类活动影响下的地面总辐射减少的时空分布特征。结果表明: 各观测站点的总辐射随着PM10浓度的增大而减小; 其空间特征表现为西北、 华北和华中地区的重点城市所受的影响较大, 而华南、 西南地区的重点城市所受影响较小; 其时间特征表现为春、 秋季影响较大, 而夏、 冬季影响相对较小\.总的来说, 在2001\_2003年人类活动产生的气溶胶使我国晴天地面总辐射减少20.1±1.9 W·m-2。 相似文献
19.
Sensitivity studies of the RegCM3 simulation of summer precipitation, temperature and local wind field in the Caribbean Region 总被引:6,自引:1,他引:6
D. Martínez-Castro R. Porfirio da Rocha A. Bezanilla-Morlot L. Alvarez-Escudero J. P. Reyes-Fernández Y. Silva-Vidal R. W. Arritt 《Theoretical and Applied Climatology》2006,86(1-4):5-22
Summary We present a preliminary evaluation of the performance of three different cumulus parameterization schemes in the ICTP Regional
Climate Model RegCM3 for two overlapping domains (termed “big” and “small”) and horizontal resolutions (50 and 25 km) in the
Caribbean area during the summer (July–August–September). The cumulus parameterizations were the Grell scheme with two closure
assumptions (Arakawa–Schubert and Fritsch–Chappell) and the Anthes-Kuo scheme. An additional sensitivity test was performed
by comparing two different flux parameterization schemes over the ocean (Zeng and BATS).
There is a systematic underestimation of air temperature and precipitation when compared with analyzed data over the big domain
area. Greater (∼2 °C) and smaller (∼0.9 °C) negative temperature biases are obtained in Grell–FC and Kuo convective scheme,
respectively, and intermediate values are obtained in Grell–AS. The small domain simulation produces results substantially
different, both for air temperature and precipitation. Temperature estimations are better for the small domain, while the
precipitation estimations are better for the big domain.
An additional experiment showed that by using BATS to calculate the ocean fluxes in the big domain instead of the Zeng scheme,
precipitation increases by 25% and the share of convective precipitation rose from 18% to 45% of the total, which implies
a better simulation of precipitation. These changes were attributed to an increase of near surface latent heating when using
BATS over the ocean. The use of BATS also reduces the cold bias by about 0.3–0.4 °C, associated with an increase of minimum
temperature.
The behavior of the precipitation diurnal cycle and its relation with sea breeze was investigated in the small domain experiments.
Results showed that the Grell–Arakawa–Schubert closure describes better this circulation as compared with Grell–Fritsch–Chappell
closure. 相似文献
20.
晴天地表太阳辐射的参数化 总被引:2,自引:0,他引:2
讨论了晴天地表太阳总辐射和地表太阳净辐射瞬时值的参数化方法。首先利用辐射传输模式和中纬度夏季标准大气廓线,分谱带计算晴天各种大气条件下地表反射率取定值时的地表太阳总辐射,并把所得的结果作为标准资料,提出参数化方案。然后将地表反射率的影响作为误差项进行订正,从而得到各种地表反射率条件下的晴天地表太阳净辐射的计算方法。该方法的拟合精度较高,拟合值与辐射模式标准值的平均相对误差在0.3%以下。该参数化公式可以用于大尺度数值模式中地表辐射平衡的计算,以期达到地表辐射平衡计算与模式积分同步进行的目的。 相似文献