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1.
一维综合孔径微波辐射计能够有效提高观测的空间分辨率,其观测入射角通常在0°~55°范围内变化。为了开发适用于一维综合孔径微波辐射计的海面温度反演算法,需要评估其观测亮温对海洋大气环境要素的敏感性。利用海面发射率模型和大气辐射传输模型,构建了适用于一维综合孔径微波辐射计的微波海洋大气辐射传输模式,研究了C波段垂直和水平极化微波辐射亮温在不同入射角下对海洋大气环境要素的敏感性变化情况,并定量计算了相应的敏感系数。结果表明:垂直和水平极化亮温对海洋大气环境要素的敏感性表现出不同的特性。随着入射角的增大,垂直极化亮温对海面温度的敏感性增强,对海面风场的敏感性相对减弱;水平极化亮温则相反。由大气水汽含量和云液态水含量误差引入的垂直和水平极化亮温误差随入射角增大而增大,但是,即使在55°的大入射角下垂直和水平极化亮温误差仍小于0.12 K。对于海面温度反演精度优于1 K的要求,一维综合孔径微波辐射计的测温精度需优于0.6 K。研究结果对于一维综合孔径微波辐射计海面温度反演算法的研究和载荷设计具有一定的理论指导意义。 相似文献
2.
This paper considers the use of multifrequency radiometers to determine some emission properties of sea surface and its dependence on wind speed, atmospheric water vapor content, and liquid water content in clouds. The following aspects are analyzed: a) the sea state influence upon radiative characteristics of the "ocean-atmosphere" system, b) calibration of the data on range measurement, c) choice of spectral bands which provide optimum accuracy for determination of geophysical parameters with due regard to the spectral peculiarities of the functional relationships between the radiophysical and geophysical parameters and their uncertainties. Data are presented (with suitable illustrations) for an experiment to determine different hydrometeorological conditions and estimates of the accuracy of applied retrieval procedures. 相似文献
3.
A. V. Eliseev 《Izvestiya Atmospheric and Oceanic Physics》2008,44(3):279-287
An ensemble experiment with the IAP RAS CM was performed to estimate future changes in the atmospheric concentration of carbon dioxide, its radiative forcing, and characteristics of the climate-carbon cycle feedback. Different ensemble members were obtained by varying the governing parameters of the terrestrial carbon cycle of the model. For 1860–2100, anthropogenic CO2 emissions due to fossil-fuel burning and land use were prescribed from observational estimates for the 19th and 20th centuries. For the 21st century, emissions were taken from the SRES A2 scenario. The ensemble of numerical experiments was analyzed via Bayesian statistics, which made the uncertainty range of estimates much narrower. To distinguish between realistic and unrealistic ensemble members, the observational characteristics of the carbon cycle for the 20th century were used as a criterion. For the given emission scenario, the carbon dioxide concentration expected by the end of the 21st century falls into the range 818 ± 46 ppm (an average plus or minus standard deviation). The corresponding global instantaneous radiative forcing at the top of the atmosphere (relative to the preindustrial state) lies in the uncertainty range 6.8 ± 0.4 W m?2. The uncertainty range of the strength of the climate-carbon cycle feedback by the end of the 21st century reaches 59 ± 98 ppm in terms of the atmospheric carbon dioxide concentration and 0.4 ± 0.7 W m?2 in terms of the radiative forcing. 相似文献
4.
星载微波辐射计外定标的关键问题是通过辐射传输方程计算天线入瞳处亮温。根据辐射传输方程,海面成份对亮温的影响包括海面的微波辐射和对下行大气辐射的反射,其中的关键参数分别为海面发射率ep和海表面反射率R。文中对平静海面Fresnel反射率模式和粗糙海面反射率模式进行了研究分析,在此基础上着重研究了海面温度TS、海面盐度SS、海面风速W、以及观测角度θ等物理参数对海面发射率ep的影响,进而分析了这些物理参数的测量误差对亮温的计算精度的影响。 相似文献
5.
W. Erick Rogers James M. Kaihatu Larry Hsu Robert E. Jensen James D. Dykes K. Todd Holland 《Coastal Engineering》2007
The Naval Research Laboratory created a wave forecasting system in support of the Nearshore Canyon Experiment (NCEX) field program. The outer nest of this prediction system encompassed the Southern California Bight. This forecasting system is described in this paper, with analysis of results via comparison to the extensive buoy network in the region. There are a number of potential errors, two of which are poor resolution of islands in the Bight—which have a strong impact on nearshore wave climate—and the use of the stationary assumption for computations. These two problems have straightforward solutions, but the solutions are computationally expensive, so an operational user must carefully consider their cost. The authors study the impact of these two types of error (relative to other errors, such as error in boundary forcing) using several hindcasts performed after the completion of NCEX. It is found that, with buoy observations as ground truth, the stationary assumption leads to a modest increase in root-mean-square error; this is due to relatively poor prediction of the timing of swell arrivals and local sea growth/decay. The model results are found to be sensitive to the resolution of islands; however, coarse resolution does not incur an appreciable penalty in terms of error statistics computed via comparison to buoy observations, suggesting that other errors dominate. Inaccuracy in representation of the local atmospheric forcing likely has a significant impact on wave model error. Perhaps most importantly, the accuracy of directional distribution of wave energy at the open ocean boundaries appears to be a critical limitation on the accuracy of the model-data comparisons inside the Bight. 相似文献
6.
A. V. Eliseev I. I. Mokhov M. M. Arzhanov P. F. Demchenko S. N. Denisov 《Izvestiya Atmospheric and Oceanic Physics》2008,44(2):139-152
The climate model of the Institute of Atmospheric Physics of the Russian Academy of Sciences (IAP RAS CM) has been supplemented with a module of soil thermal physics and the methane cycle, which takes into account the response of methane emissions from wetland ecosystems to climate changes. Methane emissions are allowed only from unfrozen top layers of the soil, with an additional constraint in the depth of the simulated layer. All wetland ecosystems are assumed to be water-saturated. The molar amount of the methane oxidized in the atmosphere is added to the simulated atmospheric concentration of CO2. A control preindustrial experiment and a series of numerical experiments for the 17th–21st centuries were conducted with the model forced by greenhouse gases and tropospheric sulfate aerosols. It is shown that the IAP RAS CM generally reproduces preindustrial and current characteristics of both seasonal thawing/freezing of the soil and the methane cycle. During global warming in the 21st century, the permafrost area is reduced by four million square kilometers. By the end of the 21st century, methane emissions from wetland ecosystems amount to 130–140 Mt CH4/year for the preindustrial and current period increase to 170–200 MtCH4/year. In the aggressive anthropogenic forcing scenario A2, the atmospheric methane concentration grows steadily to ≈3900 ppb. In more moderate scenarios A1B and B1, the methane concentration increases until the mid-21st century, reaching ≈2100–2400 ppb, and then decreases. Methane oxidation in air results in a slight additional growth of the atmospheric concentration of carbon dioxide. Allowance for the interaction between processes in wetland ecosystems and the methane cycle in the IAP RAS CM leads to an additional atmospheric methane increase of 10–20% depending on the anthropogenic forcing scenario and the time. The causes of this additional increase are the temperature dependence of integral methane production and the longer duration of a warm period in the soil. However, the resulting enhancement of the instantaneous greenhouse radiative forcing of atmospheric methane and an increase in the mean surface air temperature are small (globally < 0.1 W/m2 and 0.05 K, respectively). 相似文献
7.
利用第六次国际耦合模式比较计划(Coupled Model Intercomparison Project Phase 6, CMIP6)中的两组子试验,结合线性斜压模式模拟的结果,研究了近年来亚洲内部出现的东亚减少、南亚增加的偶极子型人为气溶胶排放变化调控亚洲夏季风响应的特征及物理机制。对东亚夏季风而言,在考虑海洋-大气耦合作用的气候系统总响应中,东亚夏季风环流和降水显著地加强;在不考虑海洋调控作用的大气直接响应过程中,东亚人为气溶胶排放减少导致的陆地升温使得海陆温差增大,进而通过引起东亚陆地上的气旋式环流异常加强东亚夏季风环流和降水。对南亚夏季风而言,其在偶极子型人为气溶胶强迫下呈现出更为复杂的变化特征。在大气直接响应过程中,人为气溶胶强迫引起的海陆热力差异变化导致南亚夏季风环流减弱、降水减少。在考虑海洋-大气耦合过程的总响应中,南亚夏季风环流表现出微弱增强,同时印度次大陆的南亚夏季风降水也出现增多的异常变化。这表明,局地和海洋-大气动力耦合过程在区域气候对人为气溶胶强迫的响应中扮演着非常重要的角色。此外,通过线性斜压模式发现,东亚和南亚局地的人为气溶胶强迫导致的大气加热场异常不仅能影响局地的夏季风环流,还可以通过引起大范围的表面气压异常进而调控整个亚洲夏季风环流的变化。 相似文献
8.
I. A. Gorchakova T. A. Tarasova M. A. Sviridenkov P. P. Anikin E. V. Romashova 《Izvestiya Atmospheric and Oceanic Physics》2009,45(4):467-477
The solar radiation flux incident on the land surface and aerosol radiative forcing are calculated from measurements carried
out under clear skies during the summers of 2004 and 2005 at the Zvenigorod Scientific Station (ZSS) of the A.M. Obukhov Institute
of Atmospheric Physics, Russian Academy of Sciences. In these calculations, the following five models of aerosol optical parameters
are used: a standard model of continental aerosol, a semiempirical model based on measurement data, and three models obtained
from calculations on the basis of the Mie scattering theory for the mean size distribution of aerosol particles (which is
retrieved from aureole measurements). A study of the sensitivity of the flux and forcing to the choice of aerosol model has
shown that the relative error related to the model choice is not large (<5%) for the incident radiation flux and reaches 120%
for aerosol forcing at the atmospheric upper boundary. The aerosol radiative forcing at the atmospheric upper boundary is
also estimated and, according to our calculations, varies from −15 to −2 W/m2. The use (in calculations) of the values of the albedo of single-scattering and the factor of scattering-indicatrix asymmetry
at a wavelength of 550 nm, which were obtained for each of the observation periods, has made it possible to significantly
refine the value of aerosol radiative forcing (compared to that calculated for the means of these parameters over all the
periods). An even more accurate determination of aerosol radiative forcing is possible only when data on the size-distribution
of aerosol particles and their chemical composition for a certain situation under analysis are available. As a result of this
study, two models of the optical parameters of background aerosol have been proposed for use in radiation calculations: a
semiempirical model and a mean model obtained from the calculations based on the theory of scattering. Both models use the
values of the albedo of single scattering and the factor of asymmetry (at a wavelength of 550 nm) retrieved from the measurements
for each of the observation periods. 相似文献
9.
基于星载微波辐射计的海洋大气参数反演算法研究 总被引:4,自引:0,他引:4
利用3个辐射传输模式对无冰无降水情况下的星载微波辐射计亮温测量进行仿真研究,通过模拟计算结果与同步卫星数据之间的比较分析,确定了用于反演算法研究的前向模式;利用该模式,提出了基于物理的星载微波辐射计海洋大气参数(包括海面风速、海表温度、大气垂直积分水汽量以及积分液态水量)多重线性回归算法。 相似文献
10.
海冰热力模式的辐射参数化方案在渤海和波罗的海应用的比较 总被引:2,自引:0,他引:2
研究了海冰热力模式中的各种辐射参数化方案,对比了模式计算的太阳短波辐射、大气长波辐射以及海冰热力变化,并利用渤海和波罗的海观测资料进行比较和误差分析.冬季大部分时间太阳短波辐射对海冰热力过程的作用有限.简单计算方案一般满足海冰模式要求.误差主要受云和冰雪表面与大气之间的多重反射影响.长波辐射对表面热平衡和海冰质量变化起重要作用.长波辐射参数化方案的计算结果受环境因素影响.云量参数化有待进一步改进.海冰模式计算结果的精度与长波辐射计算精度有一致性. 相似文献
11.
A. V. Vivchar K. B. Moiseenko N. V. Pankratova 《Izvestiya Atmospheric and Oceanic Physics》2010,46(3):281-293
The emissions from fires in the boreal zone of northern Eurasia significantly contribute to the global emissions of greenhouse
gases, their precursors, and aerosols. These emissions are an important component of the global carbon balance, and they significantly
affect both seasonal and long-term variations in the chemical composition and radiation properties of the atmosphere on both
regional and global scales. The atmospheric emissions of carbon monoxide (CO) from biomass burning have systematically been
estimated for the entire territory of northern Eurasia over the period of 2000–2008 on the basis of satellite (MODIS MCD45A1)
data on burned vegetation and the Seiler-Crutzen emission model with consideration for both regional and seasonal features.
On the whole, for Russia, the annual emissions of CO from biomass burning ranged from 10.6 to 88.2 Mt/y over the indicated
period. Depending on fire activity, the atmospheric emissions of CO from natural fires and agricultural work may yield from
25 to 200% of the total technogenic emissions according to the EDGAR-2000 model. In this case, the dominant contribution is
made by boreal forest fires (8–57 Mt/y), whose portion amounts to 63–76% of the total emissions from biomass burning. This
relatively short observational series does not allow one to reliably estimate long-term variations; however, on the whole,
a stable increase in burned areas has been observed in forest, steppe, and agricultural regions over the last decade. Our
analysis suggests significant spatial and seasonal variations in the large-scale fields of fire emissions, which are determined
by the physical, geographic, and climatic features of individual regions. The calculated fields of emissions can be used in
transport-chemical models, studies of the regional transport and quality of air, and climate models. 相似文献
12.
S. P. Smyshlyaev V. Ya. Galin E. M. Atlaskin P. A. Blakitnaya 《Izvestiya Atmospheric and Oceanic Physics》2010,46(5):623-634
An interactive three-dimensional chemistry-climate model combining models of the gas composition and general circulation of
the lower and middle atmosphere is used to study the impact of changes in extra-atmospheric solar radiative fluxes induced
by solar activity on the stratospheric heating and subsequent temperature and ozone variations in the stratosphere and troposphere.
The results have shown that a change in the atmospheric radiative heating resulting from variations in solar activity has
a direct effect on the temperature and circulation of the atmosphere. Atmospheric temperature variations affect the rates
of temperature-dependent chemical reactions, and this is considered the first type of indirect impact of solar activity on
the atmospheric gas composition. On the other hand, as a result of the variation in atmospheric heating, its circulation changes,
thus affecting the transport of minor gases into the atmosphere. This effect is considered the second type of indirect impact
of solar activity on atmospheric gases. The results of our calculations have shown that both types of indirect impact of the
variation in solar activity on the atmospheric gas composition are comparable in order of magnitude to the direct impact of
solar activity on atmospheric gases. 相似文献
13.
I. L. Karol’ A. A. Kiselev E. L. Genikhovich S. S. Chicherin 《Izvestiya Atmospheric and Oceanic Physics》2013,49(5):461-478
The current state of studies on short-lived atmospheric constituents (greenhouse gases and aerosols) is reviewed. They have short atmospheric lifetimes (from several days to a few years) and can significantly affect the environment and climate. We propose reducing the emissions of these constituents as an alternative to the reduction of man-made carbon dioxide releases. We consider methane, hydrofluorocarbons, tropospheric ozone, and various aerosols (primarily, black carbon); discuss their atmospheric sources and destruction mechanisms; evaluate their content, atmospheric emissions, and climate impacts; and recommend efficient actions for the nearest future. 相似文献
14.
北极海冰变率的独特模式及其与大气强迫的关系 总被引:1,自引:1,他引:0
The spatial structure of the Arctic sea ice concentration(SIC) variability and the connection to atmospheric as well as radiative forcing during winter and summer for the 1979–2017 period are investigated. The interannual variability with different spatial characteristics of SIC in summer and winter is extracted using the empirical orthogonal function(EOF) analysis. The present study confirms that the atmospheric circulation has a strong influence on the SIC through both dynamic and thermodynamic processes, as the heat flux anomalies in summer are radiatively forced while those in winter contain both radiative and "circulation-induced" components. Thus,atmospheric fluctuations have an explicit and extensive influence to the SIC through complex mechanisms during both seasons. Moreover, analysis of a variety of atmospheric variables indicates that the primary mechanism about specific regional SIC patterns in Arctic marginal seas are different with special characteristics. 相似文献
15.
I. B. Konovalov M. Beekmann I. N. Kuznetsova A. A. Glazkova A. V. Vasil’eva R. B. Zaripov 《Izvestiya Atmospheric and Oceanic Physics》2011,47(4):457-467
Satellite measurements of the fire radiation power, measurements of atmospheric pollution in the network of GPU Mosekomonitoring stations, and the modern CHIMERE chemical transport model (CHIMERE CTM) are used for estimating the influence that forest fires have on the air pollution level in the Moscow megalopolis region during the summer of 2007. The method by which the radiation power caused by natural fires determined from satellite measurements is converted into emissions of individual model species is described. General problems related to the optimization of estimates of fire emission and the effects caused by them based on the combined use of measurement data on the composition of the atmosphere and the CTM are considered using a concrete example. It is shown, in particular, that the use of the standard least squares method for the optimization of fire emissions from leads in the general case to obtaining biased (underestimated) estimates. The results of calculations consistent with measurements show that forest fires near Moscow can occasionally be responsible for a considerable part of the air pollution observed in Moscow and its vicinities, and they can be the main reason for the high level of atmospheric pollution in some neighboring regions. 相似文献
16.
17.
Fanlin Yang Dianpeng Su Kai Zhang Yue Ma Mingwei Wang Anxiu Yang 《Marine Geophysical Researches》2017,38(3):303-311
This study proposes a new methodology for mosaicing airborne light detection and ranging (LiDAR) bathymetry (ALB) data based on Monte Carlo matching. Various errors occur in ALB data due to imperfect system integration and other interference factors. To account for these errors, a Monte Carlo matching algorithm based on a nonlinear least-squares adjustment model is proposed. First, the raw data of strip overlap areas were filtered according to their relative drift of depths. Second, a Monte Carlo model and nonlinear least-squares adjustment model were combined to obtain seven transformation parameters. Then, the multibeam bathymetric data were used to correct the initial strip during strip mosaicing. Finally, to evaluate the proposed method, the experimental results were compared with the results of the Iterative Closest Points (ICP) and three-dimensional Normal Distributions Transform (3D-NDT) algorithms. The results demonstrate that the algorithm proposed in this study is more robust and effective. When the quality of the raw data is poor, the Monte Carlo matching algorithm can still achieve centimeter-level accuracy for overlapping areas, which meets the accuracy of bathymetry required by IHO Standards for Hydrographic Surveys Special Publication No.44. 相似文献
18.
1 Introduction The solar and terrestrial radiations are the major energy sources and sinks for the earth climate system. Climatologically, in high latitudes and polar regions, the radiative fluxes are often an order of magnitude larger than the other surf… 相似文献
19.
通过中尺度气象研究与预报模式WRF(weather research and forecasting)和两种台风经验模型重构了2018年影响我国珠江口地区的超强台风“山竹”过程中的气压和风矢量场,在台风最佳路径数据的基础上开展了方法间的比较,并与香港、澳门和深圳三个国际机场的实测数据进行了对比分析,验证了三种模拟方案模拟台风“山竹”的可靠性。利用非结构网格半隐式跨尺度海洋模式SCHISM (semi-implicit cross-scale hydroscience integrated system model),将三种模拟气压和风场作为驱动场输入风暴潮模式中进行增水模拟试验,比较了它们在赤湾、三灶、横门和黄埔四个测站风暴潮增水中各自的效果,并进一步验证了WRF模式和两种经验模型模拟台风“山竹”的有效性。综合来看, WRF大气模式对气压、风速、风向及风暴增水模拟效果最佳,如果进一步优化该模式的各种参数化方案,可能还能提高其精度。如果不具备使用WRF大气模式的条件,台风经验1模型也是一个完全可以接受的、简单快捷的方案。 相似文献
20.
针对大气校正常使用的基于查找表的方法建表速度缓慢、查找精度低等问题,提出在6S大气校正模型的基础上,以气溶胶厚度为自变量对大气参数进行拟合的算法,使用该算法对GF-1多光谱影像进行大气校正研究。对半球反射率、路径辐射项等效反射率、大气透过率3个大气参数使用三次多项式进行拟合,拟合后的决定系数都达到了0. 999 8;根据拟合结果使用MODIS气溶胶产品作为输入,逐像元计算大气参数,并对影像进行大气校正,将校正结果与FLAASH模型校正结果进行对比。结果表明,该算法能有效校正大气对GF-1多光谱影像的影响,并与FLAASH校正结果具有很好的一致性。 相似文献