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1.
卫星观测不仅能反映区域宏观大气污染状况,也能从城市尺度上监测大气污染物的变化。基于以上优势,本文利用MODIS气溶胶光学厚度(AOD)和OMI对流层NO_2垂直柱浓度数据,比较2015年与2012年—2014年以及2015年3个时期(减排前、减排中、减排后)AOD和NO_2柱浓度的变化,定性分析了阅兵期间华北平原地区污染物减排效果,重点定量评估北京市联控减排措施的效果。研究发现2015年减排中华北平原重污染地区AOD和NO_2柱浓度相比于前3年同期有明显降低。定量分析北京市的减排效果得到:2015年减排中较前3年同期而言,AOD降低59%,NO_2柱浓度降低41%;较2015年减排前而言,AOD降低73%,NO_2柱浓度降低30%,去除气象条件影响后,AOD下降43%,NO_2柱浓度下降21%,说明严格的联控减排措施有效地改善了空气质量,气象条件也起到积极的作用。减排措施结束后,AOD和NO_2柱浓度比减排中分别增加159%和71%。研究结果表明,卫星遥感与地基监测评估效果相当,能反映北京地面污染物排放能力;它既能观测区域尺度大气污染变化,又可评估城市尺度大气污染减排。随着卫星技术水平的提高,期望未来卫星遥感可作为一种独立手段来定量评估区域及城市尺度空气质量减排措施的效果。 相似文献
2.
FY-3A/MERSI海上沙尘天气气溶胶光学厚度反演 总被引:1,自引:1,他引:0
利用FY-3A/MERSI资料,结合MODIS C005算法的海上气溶胶模型,研究了中国渤海、黄海以及东海海域沙尘天气气溶胶光学厚度反演方法。通过MERSI反演的气溶胶光学厚度与MODIS C005气溶胶光学厚度产品(MOD04)对比,发现MERSI气溶胶光学厚度反演结果存在较大偏差。分析认为,这种偏差是由MODIS C005算法的海上气溶胶模型对MERSI气溶胶光学厚度反演不完全适用造成的。鉴于此,本文研究引进了一种沙尘气溶胶模型,并将其与MODIS C005算法的粗粒子气溶胶模型按照一定比例混合,形成了改进的气溶胶模型。利用改进气溶胶模型再次反演海上沙尘天气气溶胶光学厚度,反演结果与MOD04一致性较好,说明改进气溶胶模型能有效地提高MERSI定量反演沙尘气溶胶的能力。 相似文献
3.
短波红外通道卫星CO2遥感是近年国际研究热点。首先,开展了卫星观测对气溶胶及大气温度的敏感性研究;其次,针对基于最优化理论的非线性迭代反演方法反演过程中的不收敛问题,提出了修正的阻尼牛顿方法(MDNM),并利用模拟数据评估了MDNM方法的有效性;最后,利用GOSAT卫星数据反演CO2的垂直混合比浓度,并与地基TCCON站点数进行比对。研究结果表明:短波近红外CO2卫星遥感受气溶胶散射及温度影响明显;通过地基比对初步验证了MDNM具有良好的精度,两者的相关性R2达到了0.729。 相似文献
4.
南海地理位置重要,自然资源丰富。为维护南海领海主权与国家利益,需要加强对南海诸岛的有效管理与经营。南海海域热带风暴频发,热带风暴带来的灾害严重危害岛礁的经营建设和人民生命安全。以1977—2012年热带风暴数据为基础,通过缓冲区分析和空间拓扑分析等方法分析了南海海域及其岛礁近35 a来受热带风暴影响的状况及规律,以期为国家在经营管理南海诸岛时规避热带风暴灾害提供依据。研究结果表明:1东沙群岛至中沙群岛一带洋面(18°N~21°N,116°E~122°E)是南海海域受热带风暴影响最频繁的地区;2热带风暴对南海岛礁的影响主要集中在夏秋两季(6—11月);3在南海诸岛中,东沙群岛受热带风暴影响最为严重,其次是中沙和西沙群岛,而南沙群岛受热带风暴的影响相对较小。 相似文献
5.
卫星遥感反演气溶胶光学厚度已被广泛应用于近地面空气污染遥感监测。为揭示福州地区细颗粒物污染的空间分异趋势,利用2014年—2015年的地基监测细颗粒物(PM_(2.5))浓度数据、MODIS 3 km气溶胶光学厚度(AOD)卫星数据以及GEOS-FP气象数据,分别构建了估计福州地区近地面PM2.5浓度的日校正模型和站点一日校正模型,并利用十折交叉验证方法对2个模型进行评价验证。结果表明:(1)日校正模型和站点一日校正模型分别能够解释福州地区PM2.5浓度76.2%和81.4%的变异,反演的2014年—2015年福州地区近地面PM2.5浓度和地面实测站点数据之间的相关性R~2分别为0.724(RMSE=10.993μg·m~(-3))和0.781(RMSE=9.687μg.m~(-3));(2)分别针对不同下垫面环境的城市站点和县郊站点数据进行模型拟合验证,两个模型反演的PM2.5浓度值与地面实测值之间皆具有良好的相关性,R~2最高可达0.808;(3)将模型反演的PM2.5浓度季均值与地面实测季均值进行对比分析,结果也显示二者高度相关,据此反演的2015年福州地区年平均PM2.5浓度分布图可清晰地揭示福州地区PM_(2.5)浓度分布的空间变化情况。由此可见,基于MODIS 3 km AOD产品和气象数据建立的近地面PM_(2.5)浓度遥感估算模型能够很好地反演出福州地区近地面PM2.5浓度分布情况。 相似文献
6.
MERSI和MODIS卫星监测京津冀及周边地区PM2.5浓度 总被引:1,自引:0,他引:1
京津冀及周边地区是中国PM_(2.5)污染最重的区域之一,利用卫星遥感技术监测大范围的PM_(2.5)时空分布变化是一种先进的重要手段。本研究首先基于暗像元算法利用FY-3B/MERSI与AQUA/MODIS对京津冀及周边区域进行了遥感AOT反演和验证分析;然后,引入气象资料和地面观测资料利用GWR模型反演了区域PM_(2.5)浓度,并对遥感反演结果进行了交叉验证评估,综合对比分析了MERSI和MODIS的气溶胶及PM_(2.5)遥感监测能力;最后,利用MERSI数据对2017年第一季度京津冀及周边区域的PM_(2.5)月均浓度时空分布变化情况进行了初步探索分析。结果表明:FY-3B/MERSI在气溶胶及PM_(2.5)遥感监测能力方面略优于AQUA/MODIS,MERSI反演的1 km分辨率AOT和PM_(2.5)与地面站点实测结果的决定系数R2分别为0.76μg/m~3和0.79μg/m~3,均方根误差分别为0.26μg/m~3和28μg/m~3,平均绝对误差分别为0.16μg/m~3和15μg/m~3,能基本满足对京津冀及周边区域PM_(2.5)的精细化监测需要。2017年第一季度京津冀及周边区域PM_(2.5)月均浓度遥感监测结果表明该区域的PM_(2.5)空间分布格局与地形地貌关系密切,高值区整体上沿太行山脉成带成片;从时间变化来看,1—3月呈逐月下降的趋势,其中3月份PM_(2.5)区域浓度较1月和2月有大幅下降。这说明FY-3\MERSI遥感反演产品能为环境质量监测和环境管理工作效果评估提供有效参考,本研究对国产卫星在大气环境遥感业务中的大力发展应用有重要参考意义。 相似文献
7.
大气温室气体监测仪GMI(Greenhouse gases Monitor Instrument)是高分五号(GF-5)卫星载荷之一,主要用于全球温室气体含量监测和碳循环研究。高精度反演是卫星大气CO2遥感的基本需求。地表反射率影响卫星遥感辐射量及辐射传输过程中的地气耦合过程,严重制约着CO2的反演精度,针对GMI开发高精度的大气CO2反演算法,地表反射是一个需要重点考虑的因素。城市是CO2重要的发射源,且城市下垫面存在明显的二向反射特性,加上城市大气条件不良,复杂的地气耦合效应存在这都考验反演算法的准确性和鲁棒性。本文针对北京城市地区,利用2011年—2016年共5年的MODIS(MODerate-resolution Imaging Spectroradiometer)地表二向反射分布函数BRDF(Bidirectional Reflectance Distribution Function)数据,构建了适合利用单次观测数据反演的BRDF模型,并提出一种同时反演地表BRDF参数和大气CO2含量的算法。结果表明在550 nm波长处气溶胶光学厚度AOD(Aerosol Optical Depth)小于0.4时,大部分GMI模拟数据的反演误差控制在0.5%(~2 ppm)内。利用GOSAT (Greenhouse gases Observing SATellite)实测数据的反演结果与修正后的日本国立环境研究所NIES(National Institute for Environmental Studies)反演结果进行对比,其平均误差为1.25 ppm,相关性达到0.85。本算法满足GMI数据在北京城市区域高精度CO2反演的需求,并使得反演高值气溶胶区域数据成为可能,增加了GMI观测数据的利用率。 相似文献
8.
在卫星气溶胶反演中,如何确定研究区域的气溶胶模型直接影响目前大多数卫星遥感算法的气溶胶光学厚度反演精度。本文基于气溶胶自动观测网(AERONET)典型类型的动态气溶胶模型,提出了一种基于动态气溶胶模型的气溶胶光学厚度反演算法,并将其运用到PARASOL(Polarization and Anisotropy of Reflectance for Atmospheric Science coupled with Observations from Lidar)卫星的反演中。针对华北地区2012年的PARASOL卫星观测数据,应用动态气溶胶模型反演算法反演气溶胶光学厚度,并与地面观测站点进行对比验证,结果显示通过气溶胶模型选取与反演结果的迭代约束,在865 nm反演的气溶胶光学厚度与地基观测的相关程度(R2)达到0.71,均方根误差(RMSE)为0.15,与PARASOL气溶胶产品相比一定程度提高了反演结果的精度。 相似文献
9.
利用太阳-天空辐射计遥感观测反演北京冬季灰霾气溶胶成分含量 总被引:3,自引:3,他引:0
根据气溶胶成分的光学特性,气溶胶可简化为五种成分组成:一类是吸收性的成分,包括黑碳(BC)、吸收性有机碳(BrC)、沙尘(DU);另一类是散射性成分硫酸铵(AS);还有一类是气溶胶中的重要成分——水分(AW)。本文基于太阳-太空辐射计获取的气溶胶微物理特性资料,对北京2013年1月灰霾过程气溶胶中这五种成分的含量进行了定量反演研究。结果表明,灰霾天气下气溶胶中BC,BrC,DU,AS和AW的体积比例为2%,9%,30%,33%和26%,而清洁天气分别为3%,3%,15%,71%和8%。对于质量浓度,灰霾天气下BC,BrC,DU,AS和AW分别是7,35,166,131和73 mg/m2;而清洁天气下分别为4,4,29,78和6 mg/m2,两者的成分比例有显著差别。反演的黑碳质量浓度,以及细粒子的质量浓度分别与黑碳仪的观测和环保部公布的PM2.5的质量浓度具有很好的一致性,相关系数(R2)分别为0.45和0.85。 相似文献
10.
中国雾霾分布及其组成相关性分析 总被引:1,自引:0,他引:1
雾霾天气由于其对人体健康及交通能见度的极大影响而受到广泛关注。在收集相关污染物与气象数据基础上,基于GIS技术及最小二乘法和地理加权回归模型分析了我国2014年1月雾霾空间分布特征及其组成要素的相关性。研究表明,2014年1月我国各省会城市基本都受到雾霾影响,其中华北地区最为显著,华东、华南沿海城市具有一定的相似性;西南部地区大部雾霾污染明显小于其他地区。从雾霾物质组成上看,PM_(2.5)与PM_(10)、CO、NO_2和SO_2之间存在微妙关系,随着其他污染物的增加,PM_(2.5)数值也会随之增大,其中PM_(10)和CO对PM2.5的影响是显著的。从研究方法上看,利用地理加权回归建模方法对雾霾及其组成成份相关性研究的效果(84%)略好于最小二乘法的分析效果(82.59%)。本研究可为了解雾霾空间分布特征及分析其相关影响因素提供参考。 相似文献
11.
T. M. Midhuna Biswadip Gharai Subin Jose P. V. N Rao 《Journal of the Indian Society of Remote Sensing》2017,45(4):685-697
Satellite-based measurements of aerosols are one of the most effective ways to understand the role of aerosols in climate in terms of spatial and temporal variability. In the present study, we attempted to analyse spatial and temporal variations of satellite derived aerosol optical depth (AOD) over Indian region using moderate resolution imaging spectrometer over a period of 2001–2011. Due to its vast spatial extent, Indian region and adjacent oceanic regions are divided into different zones for analysis. The land mass is sub divided into five different zones such as Indo Gangetic Plain (IGP), Indian mainland, North Eastern India (NE), South India-1 (SI-1), South India-2 (SI-2). Oceanic areas are divided into Arabian Sea and Bay of Bengal. Arabian Sea is further divided as three zones viz. Northern AS (NAS), Central AS (CAS) and Eastern AS (EAS) zones. Bay of Bengal is divided as North BoB (NBoB), West BoB (WBoB), Central BoB (CBoB), and East BoB (EBoB). The study revealed that among all the land regions, IGP showed the highest peak AOD value (0.52 ± 0.17) while SI-2 showed the lower values of AOD in all the months compared to all India average. The maximum AOD is observed during premonsoon season for all regions. During the winter, average AOD levels were substantially lower than the summer averages. Peak of aerosol loading (0.35 ± 0.159) is observed in March over NE region, whereas in all other regions, peak is observed during May. Frequency distribution of long term AOD (<0.2, 0.3–0.5, >0.5) shows a shift of frequency distribution of AOD from <0.3 to 0.3–0.5 during the study period in all regions except IGP. In IGP shift of frequency of AOD values occurs from 0.3–0.5 to >0.5. Oceanic areas also shows seasonal variation of AOD. Over Arabian Sea, high AOD values with greater variations were observed in summer monsoon season while in Bay of Bengal it is observed during winter monsoon. This is due to the high wind speed prevailing in Arabian Sea during monsoon season which results in production of more sea salt aerosol. Highest AOD values are observed over NAS during monsoon season and over NBOB during winter season. Lowest AOD values with its lower variations observed in both the central region of Arabian Sea and Bay of Bengal. 相似文献
12.
结合船基海上现场实测资料与卫星遥感MODIS光学厚度资料,分析了中国东部海域气溶胶光学厚度(AOD)的季节变化和地理分布特征。中国东部海域平均气溶胶光学厚度存在以中纬度为中心的纬向分布;同时受到陆源物质的影响,近海气溶胶光学厚度大于远海,且随着离海岸距离变大有线性递减的趋势。受沙尘、季风气候的影响,各海域气溶胶光学厚度存在明显季节变化和分布特征。渤海、黄海及东海有类似的变化特征,春季都受到沙尘气溶胶的影响,气溶胶平均光学厚度值为全年最高0.12,并且对东海的影响最明显;夏季最小,秋、冬季逐渐变大。 相似文献
13.
利用验潮站资料的中国近岸海潮模型精度评估 总被引:1,自引:0,他引:1
针对全球海潮模型在我国近海海域精度较差的问题,该文采用中国沿岸30个长期验潮站的调和常数,对比了3种全球海潮模型DTU10、TPXO7.2、NAO.99b和1个区域海潮模型NAO.99Jb在中国沿岸的准确度。通过海潮模型与验潮站分潮的振幅中误差、迟角中误差以及8个主要分潮的预报误差,对渤海、黄海、东海和南海北部进行了详细的分析。结果表明,NAO.99Jb在中国海域精度最高,NAO.99b次之。在渤海海域,DTU10在Q_1分潮精度最高,NAO.99b在K2分潮精度最高,其余分潮均是NAO.99Jb精度最高;在黄海海域,NAO.99b在Q_1分潮精度最高,其余分潮均是NAO.99Jb精度最高;在东海海域,DTU10在Q_1分潮精度最高,TPXO7.2在P1精度最高,NAO.99Jb在O1、M2分潮精度最高,其余分潮均是NAO.99b精度最高;在南海北部海域,DTU10在N2、S2分潮精度最高,其余分潮均是NAO.99Jb精度最高。 相似文献
14.
Aerosol and water vapour are very important element in the Earth’s climate system which has direct role in the Earth’s radiation budget. In this paper the seasonality, latitudinal distribution and the relationship of aerosol optical thickness (AOD) and water vapour (WV) using MODIS Level 3 monthly data from 2001 to 2008 are analysed. The analysis shows that AOD (0.55 μm) values reach maximum during southwest monsoon and remain minimum during northeast monsoon period. The Equatorial Indian Ocean shows minimum AOD (0.115 to 0.153) throughout the year compared to Arabian Sea (0.208 to 0.613) and Bay of Bengal (0.214 to 0.351). Arabian Sea shows high variation and maximum value of AOD compared to Bay of Bengal and Equatorial Indian Ocean. During southwest monsoon WV over Bay of Bengal was found higher in concentration compared to Arabian Sea and Equitorial Indian Ocean throughout the study period. Comparison between Arabian Sea (2.98 cm to 5.07 cm) and Bay of Bengal (3.49 cm to 5.94 cm) shows that WV concentration is less in Arabian Sea throughout the year. The analysis of correlation between WV and AOD was found to be inconsistent. However, AOD and WV shows a strong positive correlation for whole year (Mean R2 =0.90) in the Equitorial Indian Ocean region except in the months of January, February and March. In general, the correlation between WV and AOD is found to be strongly positive for oceanic aerosol (sea salt) in low water vapour condition. 相似文献
15.
中国近海1992~1998海平面变化监测与分析 总被引:14,自引:1,他引:13
利用Topex/Poseidon和ERS-1卫星测高资料采用“共线”法计算出1992-10~1998-06中国近海海域海平面及其变化。在扣除T/P卫星测高仪的零点漂移影响后,发现与全球海平面上升率(+2.1±1.3)mm/a相比,不同海域的海平面变化趋势大不相同,黄、东、南海的海平面年变化率分别为:(+3.44±0.61)mm/a,(+3.12±0.47)mm/a,(-1.41±0.48)mm/a。从海平面变化异常中可以看出1993,1994,1997~1998年3次El Nino异常对中国近海海域海平面的影响是南海海域最大,东海次之,黄海最小。除了对海平面进行传统的频谱分析外,还进行了多分辨率的小波分析,还发现在上述3个海域中除了年周期变化较为稳定外,半年及季节(100 d)周期项存在着时间漂移。此外,在上述3个海域还存在着明显的两个月(62 d)周期的变化,其激发原因在此做了初步探讨。 相似文献
16.
ABSTRACTRapid economic growth, a high degree of urbanization and the proximity of a large number of desert and semidesert landscapes can have a significant impact on the atmosphere of adjacent territories, leading to high levels of atmospheric pollution. Therefore, identifying possible sources of atmospheric pollution is one of the main tasks. In this study, we carried out an analysis of spatial and temporal characteristics of five main atmospheric pollutants (PM2.5, PM10, SO2, NO2, and CO) near potential source of natural aerosols, affecting seven cities (Wuhai, Alashan, Wuzhong, Zhongwei, Wuwei, Jinchang, Zhangye), located in immediate proximity to the South Gobi deserts. The results, obtained for the period from 1 January 2016 to 31 December 2018, demonstrate total concentrations of PM2.5 and PM10 are 38.2 ± 19.5 and 101 ± 80.7 μg/m3 exceeding the same established by the Chinese National Ambient Air Quality Standard (CNAAQS), being 35 and 70 μg/m3, respectively. Based on the data from Moderate Resolution Imaging Spectroradiometer (MODIS) for the whole period, Clean Сontinental (71.49%) and Mixed (22.29%) types of aerosols prevail in the region. In the spring and winter seasons maximum concentrations of pollutants and high values of Aerosol Optical Depth (AOD) in the region atmosphere are observed. PM2.5 and PM10 ratio shows the presence of coarse aerosols in the total content with value 0.43. The highest concentrations of pollutants were in the period of dust storms activity, when PM2.5 and PM10 content exceeded 200 and 1000 µg/m3, and AOD value exceeded 1. UV Aerosol Index (UVAI), Aerosol Absorbing Optical Depth (AAOD), and Single Scattering Albedo (SSA), obtained from Ozone Monitoring Instrument (OMI), demonstrate the high content of dust aerosols in the period of sandstorms. Analysis of backward trajectories shows that dust air masses moved from North to Northwest China, affecting large deserts such as Taklamakan, Gurbantunggut, Badain Jaran, Tengger, and Ulan Buh deserts. 相似文献
17.
Jianhua Wan Qinting Sun Shanwei Liu Yinlong Li 《Journal of the Indian Society of Remote Sensing》2018,46(12):1939-1947
The characteristics of sea-level change in the China Sea and its vicinity are studied by combining TOPEX/Poseidon (T/P), Jason-1, Jason-2, and Jason-3 altimeter data. First, the sea-surface height is computed by using monthly data via collinear adjustment, regional selection, and crossover adjustment. The sea-level anomaly (SLA) from October 1992 to July 2017 is calculated based on the difference that is obtained by the value derived from the inverse distance weighting method to interpolate the CNES_CLS15 model value at a normal point. By analyzing the satellite data at the same time in orbit, three mean bias groups over the China Sea and its vicinity are obtained: the difference between T/P and Jason-1 is ??11.76 cm, the difference between Jason-1 and Jason-2 is 9.6 cm, and the difference between Jason-2 and Jason-3 is 2.42 cm. To establish an SLA series for 25 years in the study area, the SLAs are corrected. Mean rate of sea-level rise of the Bohai Sea, Yellow Sea, East China Sea, and South China Sea of 4.87 mm/a, 2.68 mm/a, 2.88 mm/a, and 4.67 mm/a, respectively, is found by analyzing the series of SLAs. 相似文献
18.
在Brown-Hayne模型基础上,利用迭代最小二乘算法实现了回波波形参数的重跟踪,同时利用重心偏移算法(OCOG)、阈值算法对Jason-2 卫星的波形数据在中国渤海、黄海、东海、南海4个海域开展了波形重跟踪试验。试验表明,在4个海域,Brown-Hayne模型法获得的波形重跟踪结果相比较于阈值法、OCOG算法与法国空间局(CNES)公布结果最为一致,相互较差的标准差约2 cm左右。50%阈值算法获得的波形重跟踪结果相比较于其它阈值精度更优,与CNES比较其标准差在3~6 cm,但存在4~10 cm的系统偏差。OCOG算法获得的结果存在较大误差,但其结果可作为Brown-Hayne模型解算的初始值。当卫星地面轨迹靠近大陆时,波形重跟踪获得的海面高改正量会较宽阔海域增大,其中南海区域的海面高改正量最大,可达1 m,其原因可能是卫星地面轨迹经过了西沙群岛,雷达回波波形受到了一定的影响。 相似文献
19.
A tide model (named DN1.0), which contains 12 principal constituents over China seas and the Northwest Pacific is estimated by along-track harmonic analysis with TOPEX/Poseidon altimetry data taken from 1993 to 2002. CSR3.0, FES95.2 and DN1.0 are used respectively to detide the data for the time series of sea level anomaly (SLA) in the Yellow Sea, East China Sea, South China Sea and Northwest Pacific. The SLA curves and the power spectral density show that the major components that exist in SLA in China seas arise from the error of the tide models. 相似文献
20.
XU Jun BAO Jingyang LIU Yanchun YU Caixia 《地球空间信息科学学报》2007,10(2):100-104
A tide model (named DN1.0), which contains 12 principal constituents over China seas and the Northwest Pacific is estimated by along-track harmonic analysis with TOPEX/Poseidon altimetry data taken from 1993 to 2002. CSR3.0, FES95.2 and DN1.0 are used respectively to detide the data for the time series of sea level anomaly (SLA) in the Yellow Sea, East China Sea, South China Sea and Northwest Pacific. The SLA curves and the power spectral density show that the major components that exist in SLA in China seas arise from the error of the tide models. 相似文献