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31.
通过地基观测站点的实测数据,首次证实大气温室效应是由人为排放造成的,地表能量平衡受二氧化碳(CO2)浓度水平的影响。因此,分析CO2浓度时空分布特征,从而探究其源汇、控制其排放尤为重要。本文采用AIRS(Atmospheric Infrared Sounder)对流层中层CO2浓度数据及GOSAT(Greenhouse gases Observing SATellite)近地面CO2浓度数据,对比研究了CO2浓度在对流层中层及近地面的时空分布特征差异。结果表明,AIRS探测到的对流层中层CO2浓度,在时空上普遍高于GOSAT探测到的近地面CO2值,高值区位于30°~90°N,浓度多集中在390~395 ppm,这与AIRS探测的对流层中层CO2浓度已充分混合相关;而GOSAT CO2浓度高值区则位于热带、亚热带人口众多的地域,如非洲和中国东部沿海地区等人类活动活跃地带,这也表明GOSAT探测近地面CO2的重要性,其可弥补地基站点测量在空间分布上的不足。本文进一步对比分析了CO2浓度在海陆及南北半球的差异特征及影响原因,CO2在海洋及陆地区域的平均浓度具有相似的时间波动特征,但其浓度在陆地几乎始终高于海洋,这与人类活动释放大量的CO2密切相关。CO2浓度在南北半球存在明显的差异,这是因为南半球的季节变化规律与北半球相反,且由于化石燃料燃烧及土地利用变化等主要集中在北半球,因而北半球CO2浓度高于南半球。此外,本文还对NUCAPS(NOAA/NESDIS/STAR NOAA Unique CrIS/ATMS Processing System)反演得到的CrIS(Cross-track Infrared Sounder)CO2柱平均浓度及廓线产品做了初步分析,发现其与AIRS、GOSAT CO2分析结果一致。 相似文献
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利用人工神经网络方法反演大气温度廓线 总被引:5,自引:0,他引:5
高光谱大气红外探测仪AIRS(Atmospheric Infrared Sounder)资料能够显示小尺度的大气温度垂直结构,为数值预报和天气诊断提供了更加准确精细的初始场.目前处理数据主要使用晴空大气业务反演国际MODIS/AIRS处理软件包IMAPP (International MODIS/AIRS Preprocessing Package)中的特征向量统计回归算法,由于统计法算法简单,反演精度受到较大限制.现提出一种利用人工神经网络的算法来对晴空状况下AIRS模拟辐射值进行大气温度廓线反演的方法,并与特征向量统计法结果相比较.结果表明,神经网络方法与特征向量统计法反演所耗时间相当,减小了反演误差,各高度层温度反演精度均有不同程度的改进,获得了较好的反演结果. 相似文献
33.
比较了目前开发的两种红外晴空辐射订正算法:1)匹配的红外和微波探测值融合的算法,如AIRS/AMSU晴空订正算法(大气红外探测器AIRS,先进的微波探测器AMSU);2)匹配的红外成像与探测值融合的算法,如AIRS/MODIS晴空订正算法(中分辨率光谱成像仪MODIS)。结果表明,相对于MODIS的晴空观测值而言,AIRS/MODIS晴空订正算法优于AIRS/AMSU晴空订正算法,而且AIRS/MODIS晴空订正辐射值反演的大气温湿廓线与欧洲中期天气预报中心(ECMWF)的客观分析场更接近;尽管这两种晴空订正算法本质上相当不同,但都是有效且互补的,当微波探测资料不能获得时,融合红外成像仪和探测器资料就成为唯一可靠的、间接使用有云影响的红外观测值的办法。 相似文献
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I. IntroductionOzone p1ays a very 1mportant ro1e in globa1 climate change. This is particularly true inthe stratosphere, where ultra--v1olet solar radiation is strongly absorbed by ozone, leading tosubstantlal change in the earths atmospheric thermal, physical and chemical structure. Al-though the troposphere contains only about l0% of the total atmospheric ozone, the varia-tlon of tropospheric ozone may have more significant cllmatic effect than stratospheric ozoneon the earth's surface temP… 相似文献
36.
OptimalUseofHighResolutionInfraredSounderChannelsinAtmosphericProfileRetrieval¥LiJun(李俊)andHuangHung-Lung(黄鸿荣)(Permanentaffil... 相似文献
37.
Atmospheric Infra Red Sounder(AIRS) measurements are a valuable supplement to current observational data, especially over the oceans where conventional data are sparse. In this study, two types of AIRS-retrieved temperature and moisture profiles, the AIRS Science Team product(Sci Sup) and the single field-of-view(SFOV) research product, were evaluated with European Centre for Medium-Range Weather Forecasts(ECMWF) analysis data over the Atlantic Ocean during Hurricane Ike(2008) and Hurricane Irene(2011). The evaluation results showed that both types of AIRS profiles agreed well with the ECMWF analysis, especially between 200 h Pa and 700 h Pa. The average standard deviation of both temperature profiles was approximately 1 K under 200 h Pa, where the mean AIRS temperature profile from the AIRS Sci Sup retrievals was slightly colder than that from the AIRS SFOV retrievals. The mean Sci Sup moisture profile was slightly drier than that from the SFOV in the mid troposphere. A series of data assimilation and forecast experiments was then conducted with the Advanced Research version of the Weather Research and Forecasting(WRF) model and its three-dimensional variational(3DVAR) data assimilation system for hurricanes Ike and Irene. The results showed an improvement in the hurricane track due to the assimilation of AIRS clear-sky temperature profiles in the hurricane environment. In terms of total precipitable water and rainfall forecasts, the hurricane moisture environment was found to be affected by the AIRS sounding assimilation.Meanwhile, improving hurricane intensity forecasts through assimilating AIRS profiles remains a challenge for further study. 相似文献
38.
由于沙漠恶劣的环境,观测站点稀少,塔克拉玛干沙漠地区的温度、湿度时空分布很难仅仅依靠少量的常规观测资料分析得到,高分辨率的大气红外探测器(AIRS)资料可有效弥补这个空缺。地形和地表发射率是影响AIRS反演温湿度廓线产品进度的两大要素,在塔里木盆地的塔克拉玛干沙漠地区使用AIRS温湿度产品必须首先对其质量进行检验。本研究主要对2016年7月1~15日晴空背景下AIRS反演的温度、位势高度、水汽数据在塔克拉玛干沙漠及周边绿洲地区在早晨和傍晚的可信度作了详细的对比分析。结果表明:(1) AIRS卫星资料集里的温度资料与探空数据有很好的吻合度。温度资料在沙漠腹地尚有较小偏差,在周边绿洲地区尤其是其中高层一致性较高。AIRS反演温度在沙漠腹地的塔中站在早晨各层的偏差明显大于傍晚,其余各站早晨和傍晚反演偏差不大。(2) AIRS卫星测得的位势高度资料几乎与探空资料的完全一致,是本对比研究中观测质量最好的要素,但AIRS探测层次能达到1 hPa,探测高度优于探空。(3)反演的湿度廓线与探空偏差较大。AIRS资料的混合比在300 hPa上的高层与探空吻合,在中层偏干,低层偏湿,低层水汽探测误差可能与盆地地形和沙漠下垫面有关。(4)早晨沙漠腹地的塔中站AIRS反演气温平均偏差在各层均比其余7个绿洲站明显偏大,在500 hPa以下的低层明显偏冷,在其上明显偏暖,偏暖幅度随高度的升高而增大。早晨绿洲AIRS反演温度在所有气压层上温度偏差绝对值均在1℃以内,均方根误差小于2℃,傍晚偏差绝对值在3℃以内,均方根误差在700 hPa以下的低层较高层大,700 hPa以上在3℃以内。绝对误差在早晨和傍晚均随高度的升高而减小,在100 hPa以上又有逆转,这种逆转在塔中站尤为明显。 相似文献
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20 TO 30-DAY AND 30 TO 60-DAY OSCILLATIONS IN ASSIMILATED GLOBAL DATASETS USING TRMM RAINFALL OBSERVATIONS 总被引:3,自引:2,他引:1
The influences of Tropical Rainfall Measuring Mission (TRMM) precipitation products on the structure and underlying physics of intraseasonal oscillation (ISO) are investigated with the U.S.National Aeronautics and Space Administration Goddard Earth Observing System model version 3 (GEOS-3) data assimilation system (DAS).The strong ISO phase in the 1998 summer is apparently located in the Asian monsoon region and the east equatorial Pacific region.The eastward propagation is a dominant feature for the tropical ISO at 20 to 30-day oscillation while the northeastward propagation is the salient ISO at 30 to 60-day oscillation over the 10°N to 25°N belt region.It appears that the Kelvin wave structure is for the tropical 20 to 30-day oscillation.The tropical 30 to 60-day oscillation has the characteristics of the Kelvin-Rossby wave.The impact of satellite-derived precipitation (and its associated latent heating) on the ISO intensity is limited in the GEOS-3 assimilation system.However,its impact on the ISO spatial structures is obvious.Overall,the results demonstrate a better eastward propagation and a northward propagation of ISO with the TRMM precipitation simulation,indicating that latent heating is very important in exciting the equatorial ISO. 相似文献
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This study investigates the use of dynamic a priori error information according to atmospheric moistness and the use of quality controls in temperature and water vapor profile retrievals from hyperspectral infrared (IR) sounders. Temperature and water vapor profiles are retrieved from Atmospheric InfraRed Sounder (AIRS) radiance measurements by applying a physical iterative method using regression retrieval as the first guess. Based on the dependency of first-guess errors on the degree of atmospheric moistness, the a priori first-guess errors classified by total precipitable water (TPW) are applied in the AIRS physical retrieval procedure. Compared to the retrieval results from a fixed a priori error, boundary layer moisture retrievals appear to be improved via TPW classification of a priori first-guess errors. Six quality control (QC) tests, which check non-converged or bad retrievals, large residuals, high terrain and desert areas, and large temperature and moisture deviations from the first guess regression retrieval, are also applied in the AIRS physical retrievals. Significantly large errors are found for the retrievals rejected by these six QCs, and the retrieval errors are substantially reduced via QC over land, which suggest the usefulness and high impact of the QCs, especially over land. In conclusion, the use of dynamic a priori error information according to atmospheric moistness, and the use of appropriate QCs dealing with the geographical information and the deviation from the first-guess as well as the conventional inverse performance are suggested to improve temperature and moisture retrievals and their applications. 相似文献