SO2 and ash plume retrievals using MSG-SEVIRI measurements. Test case: 24 November 2006 Mt. Etna eruption

2008 Second Workshop on Use of Remote Sensing Techniques for Monitoring Volcanoes and Seismogenic Areas Pub Date : 2008-11-01 DOI:10.1109/USEREST.2008.4740360

S. Corradini, L. Merucci, M. Silvestri, M. Musacchio, C. Spinetti, A. Piscini, M. Buongiorno, A. Prata

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引用次数: 6

Abstract

In this work the Thermal InfraRed (TIR) measurements of the Spin Enhanced Visible and Infrared Imager (SEVIRI)on board the Meteosat Second Generation (MSG) geosyncronous satellite, have been used to estimate the daily evolution of the SO2 columnar abundance and ash plume optical thickness, particle effective radius and total mass of Mt. Etna volcanic plume. As test case the 24 November 2006 eruption has been considered. SEVIRI is an optical imaging radiometer characterized by 12 spectral channels, a high temporal resolution (one image every 15 minutes) and a 9 km2 footprint. The instrument¿s spectral range includes the 8.7 ¿m band (channel 7) and the 10.8 and 12.0 ¿m split window bands (channels 9 and 10) used respectively for SO2 retrieval and volcanic ash detection and retrievals. The SO2 columnar abundance is estimated by means of a Look-Up Table (LUT) least squares fit procedure applied to channel 7, while the ash detection and retrievals are carried out by using the Brightness Temperature Difference algorithm applied to channels 9 and 10. All the simulations needed for the retrievals have been realized using MODTRAN 4 radiative transfer model. The SEVIRI volcanic plume SO2 and ash retrievals have been compared with the results obtained by processing the data collected at 12:20 GMT by the MODIS sensor on board of Aqua satellite. Results show the ability of SEVIRI to recognize and estimate the daily trend of SO2 and ash in an eruptive plume; for the 24 November 2006 eruption, the SO2 and ash emissions started at about 4 and 8 GMT respectively and terminated simultaneously at about 14 GMT. The comparison between SEVIRI and MODIS retrievals indicate a general good agreement.

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利用MSG-SEVIRI测量数据反演SO2和灰羽。测试案例:2006年11月24日埃特纳火山喷发

本文利用气象卫星第二代同步卫星(MSG)上的自旋增强可见光和红外成像仪(SEVIRI)的热红外(TIR)测量结果，估算了埃特纳火山火山柱状二氧化硫丰度、火山灰光学厚度、粒子有效半径和总质量的日常演变。将2006年11月24日的火山喷发作为试验案例加以考虑。SEVIRI是一种光学成像辐射计，具有12个光谱通道，高时间分辨率(每15分钟一张图像)和9平方公里的占地面积。该仪器的光谱范围包括8.7 m波段(通道7)和10.8 m和12.0 m分割窗口波段(通道9和10)，分别用于SO2检索和火山灰探测与检索。SO2柱状丰度通过应用于通道7的查找表(LUT)最小二乘拟合方法估计，而灰分检测和检索则使用应用于通道9和10的亮度温差算法进行。利用MODTRAN 4辐射传输模型实现了反演所需的所有模拟。SEVIRI火山柱SO2和火山灰的反演结果与Aqua卫星上的MODIS传感器在格林尼治时间12:20收集的数据进行了比较。结果表明，SEVIRI能够识别和估计喷发烟柱中SO2和灰分的日变化趋势;2006年11月24日的火山喷发，二氧化硫和火山灰分别在格林尼治标准时间4点和8点左右开始排放，并在格林尼治标准时间14点左右同时停止。SEVIRI和MODIS检索结果的比较表明，两者基本一致。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2008 Second Workshop on Use of Remote Sensing Techniques for Monitoring Volcanoes and Seismogenic Areas

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