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Validation of Ozone Product by Satellite OMPS with Sounding Measurements over Beijing |
Yuan Chen1,2(),Hailei Liu1,Minzheng Duan1,2,3(),Lü Daren1,2,3,Jinqiang Zhang2,3 |
1.College of Electronic Engineering, Chengdu University of Information Technology, Chengdu 610225, China 2.Key Laboratory of Middle Atmosphere and Global Environment Observation, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029, China 3.University of Chinese Academy of Sciences, Beijing 100049, China |
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Abstract Ozone Mapping and Profiler Suites (OMPS) provide vertical distributions of ozone with high vertical resolutions. They can also provide data for studying the temporal and spatial distribution of ozone in atmosphere. To verify the accuracy of OMPS ozone products, the ozone sounding data from 2016 to 2018 in Beijing were selected, comparing the OMPS v2.5 ozone profile with the total amount of v2.1 ozone profile. The results show that the vertical distributions of ozone in OMPS over Beijing are in good agreement with the ozone sounding data in the upper stratosphere, the relative deviation is less than 10%. The relative deviation in the upper stratosphere is in the range of 15%~40% and 80% in some cases; the relative deviation between the total ozone in OMPS stratosphere and the total ozone in the stratosphere integrated by the ozone sounding profile is little and the average deviation is less than 5%, the root mean square error is 18.3 DU, and the correlation coefficient is 0.89. The average deviation of total tropospheric ozone is more than 30%, and the correlation coefficient of total tropospheric column is 0.62.
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Received: 01 February 2019
Published: 10 July 2020
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Corresponding Authors:
Minzheng Duan
E-mail: 543056906@qq.com;dmz@mail.iap.ac.cn
|
1 |
Zhang Yan, Wang Weihei, Zhang Xingying. Satellite Remote Sensing Monitoring of Total Atmospheric Ozone Distribution and Change[J]. Science & Technology Review,2015,33(17):23-23.
|
1 |
张艳,王维和,张兴赢. 卫星遥感监测大气臭氧总量分布和变化[J]. 科技导报,2015,33(17):23-23.
|
2 |
Du Pingjun, Zhu Yuxia, Liu Rui, et al. Analysis on Spatiotemporal Characteristics of Total Column Ozone over China based on OMI Product[J]. Environmental Monitoring in China,2014,30(2):191-191.
|
2 |
杜平君,朱玉霞,刘锐,等. 基于OMI数据的中国臭氧总量时空分布特征[J]. 中国环境监测,2014,30(2):191-191.
|
3 |
Gong Qiang, Wang Hongyu, Wang Panxing, et al. Variation Features of Atmospheric Total Ozone over Northeast China in Recent 6 Yearsand Their Relations with Temperature[J]. Journal of Nanjing Institute of Meteorology,2004,27(1):113-120.
|
3 |
龚强,汪宏宇,王盘兴,等.近6 a东北地区大气臭氧总量变化特征及其与气温的关系[J]. 南京气象学院学报,2004,27(1):113-120.
|
4 |
Du Junping, Zhu Yuxia, Liu Rui, et al. Analysis on Spatiotemporal Characteristics of Total Column Ozone over China based on OMI Product[J]. Environmental Monitoring in China,2014,30(2):191-196.
|
4 |
杜君平,朱玉霞,刘锐,等. 基于OMI数据的中国臭氧总量时空分布特征[J]. 中国环境监测,2014,30(2):191-196.
|
5 |
Didier R, Robert L. Stratospheric and Upper Tropospheric Aerosol Retrieval from Limb Scatter Signals[C]∥Proc. SPIE 6745, Remote Sensing of Clouds and the Atmosphere XII, Florence, 2007: 1-12.
|
6 |
Aruga T, Heath D F. Determination of Vertical Ozone Distribution by Using Spacecraft Measurements Using Limb Scatter Technique[J]. Applied Optics, 1982, 21(16): 3047-3054.
|
7 |
Herman B M, Flittner D E, McPeters R D, et al. Monitoring Atmospheric Ozone from Space Limb Scatter Measurements[C]∥ Proc. SPIE 2582, Atmospheric Sensing and Modeling II, Paris, 1995: 88-99.
|
8 |
Rohen G J, Savigny C V, Kaiser J W, et al. Ozone Profile Retrieval from Limb Scatter Measurements in the HARTLEY Bands: Further Retrieval Details and Profile Comparisons[J]. Atmospheric Chemistry and Physics, 2008, 8: 2509-2517.
|
9 |
Flittner D E, Hilsenrath E, Janz S J, et al. Retrievals from the Limb Ozone Retrieval Experiment on STS107[C]∥ Proc. SPIE 5542, Earth Observing Systems IX, Denver, 2004: 215-226.
|
10 |
David E F, Scott J J, Ernest H, et al. Stray Light Characterization of the Limb Ozone Retrieval Experiment[C]∥Proc. SPIE 5526, Optical Systems Degradation, Contamination, and Stray Light: Effects, Measurements, and Control, Denver, 2004: 220-227.
|
11 |
McPeters R D, Janz S, Hilsenrath E, et al. The Rretrieval of Ozone Profiles from Limb Scatter Measurements:Results from the Shuttle Ozone Limb Sounding Experiment[J]. Geophysical Research Letters, 2000, 27(17): 2597-2600.
|
12 |
Rault D, Loughman R. Stratospheric and Upper Tropospheric Aerosol Retrieval from Limb Scatter Signals[C]∥ Proc. SPIE 6745, Remote Sensing of Clouds and the Atmosphere XII, Florence, 2007: 1-12.
|
13 |
McLinden C A, Haley C S. Odin/OSIRIS Observations of Stratospheric NO3 Through Sunrise and Sunset[J]. Atmospheric Chemistry and Physics Discussion, 2008, 8: 5901-5917.
|
14 |
Cai Zhaonan, Wang Yong, Liu Yi, et al. Validation of GOME Ozone Profiles and Tropospheric Column Ozone with Ozone Sonde over China[J]. Journal of Applied Meteorological Science,2009,20(3):338-339.
|
14 |
蔡兆男,王永,刘毅,等. 利用探空资料验证GOME卫星臭氧数据[J]. 应用气象学报,2009,20(3):338-339.
|
15 |
Zhang Jinqiang, Xuan Yuejian, Liu Mingyuan, et al. Atmospheric Ozonesonde: Technical Specifications and Comparisons[J]. Advances in Meteorological Science and Technology,2015,5 (4):37-37.
|
15 |
张金强,宣越健,刘明远,等. 大气臭氧探空仪:技术指标及对比分析[J]. 气象科技进展,2015,5,(4):36-36.
|
16 |
Rault D F, Loughman R P. The OMPS Limb Profiler Environmental Data Record Algorithm Theoretical Basis Document and Expected Performance[J]. IEEE Transactions on Geoscience and Remote Sensing, 2013, 51(5): 2505-2527.
|
17 |
Komhyr W D. Electrochemical Concentration Cells for Gas Analysis[J].Annals of Geophysics, 1969, 25: 203-210.
|
18 |
Komhyr W D. Development of an ECC Ozonesonde[R]. NOAA Technical Report ERL 200-APCL 18, 1971.
|
19 |
Zheng Xiangdong, Xuan Yuejian, Tian Hongmin, et al. Performance Tests and Outdoor Comparison Observations of Domestic Remade ECC Ozonesondes[J]. Journal of Applied Meteorological Science,2018,29(2):461-461.
|
19 |
郑向东,宣越键,田宏民,等. 国产ECC型O3探空仪性能测试及室外比对观测[J]. 应用气象学报,2018,29(2):461-461.
|
20 |
Zhang Jinqiang, Xuan Yuejian, Liu Mingyuan, et al. Atmospheric Ozonesonde: Technical Specifications and Comparisons[J]. Advances in Meteorological Science and Technology,2015,5(4):37-37.
|
20 |
张金强,宣越健,刘明远,等. 大气臭氧探空仪:技术指标及对比分析[J]. 气象科技进展,2015,5(4):37-37.
|
21 |
Zheng Xiangdong, Li Wei. Quality Analysis of Domestic Remade Ozonesonde Observation Data[J]. Journal of Applied Meteorological Science,2005,16(5):608-618.
|
21 |
郑向东,李伟. 国产臭氧探空仪观测数据质量分析[J]. 应用气象学报,2005,16(5):608-618.
|
22 |
Kobayashi J, Toyama Y. On Various Methods of Measuring the Vertical Distribution of Atmospheric Ozone (III)-Carbon Iodinetype Chemical Ozonesonde[J]. Papers in Meteorology and Geophysics,1966, 17: 113-126.
|
23 |
Zheng Xiangdong, Xuan Yuejian, Tian Hongmin, et al. Performance Tests and Outdoor Comparison Observations of Domestic Remade ECC Ozonesondes[J]. Journal of Applied Meteorological Science,2018,29(2):460-473.
|
23 |
郑向东,宣越键,田宏民,等. 国产ECC型O3探空仪性能测试及室外比对观测[J]. 应用气象学报,2018,29(2):460-473.
|
24 |
Cai Zhaonan, Wang Yong, Liu Yi, et al. Validation of GOME Ozone Profiles and Tropospheric Column Ozone with Ozone Sonde over China[J]. Journal of Applied Meteorological Science,2009,20(3):341-342.
|
24 |
蔡兆男,王永,刘毅,等. 利用探空资料验证GOME卫星臭氧数据[J]. 应用气象学报,2009,20(3):341-342.
|
[1] |
. A New Direct Solution of Range-Doppler model for SAR Image Location[J]. , , (): 0
. |
[2] |
Rui YANG Su Yang. U-Net neural networks and its application in high resolution satellite image classification[J]. Remote Sensing Technology and Application, 0, (): 0
. |
[3] |
. An improved Hyperspectral Image Clasification Algorithm Based On Multinomial Logistic Regression[J]. Remote Sensing Technology and Application, 0, (): 0
. |
[4] |
. [J]. Remote Sensing Technology and Application, 1986, 1(1): 13
-14
. |
[5] |
. [J]. Remote Sensing Technology and Application, 1986, 1(1): 14
. |
[6] |
. [J]. Remote Sensing Technology and Application, 1986, 1(1): 16
. |
[7] |
. [J]. Remote Sensing Technology and Application, 1986, 1(1): 22
-32
. |
[8] |
. [J]. Remote Sensing Technology and Application, 1986, 1(1): 1
-7
. |
[9] |
. [J]. Remote Sensing Technology and Application, 1986, 1(1): 8
-10
. |
[10] |
. [J]. Remote Sensing Technology and Application, 1986, 1(1): 33
-34
. |
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