2022年汤加火山喷发的综合遥感快速解译分析

2022年1月14日—15日南太平洋汤加Hunga Tonga-Hunga Ha'apai(HTHH)海底火山发生剧烈喷发并造成海啸,引起了国际广泛关注.对此次"千年一遇"的汤加HTHH火山喷发事件进行应急响应,首先综合利用国内外多时相卫星光学影像、雷达影像、全球导航卫星系统(global navigation sat...

Rapid Interpretation and Analysis of the 2022 Eruption of Hunga Tonga-Hunga Ha'apai Volcano with Integrated Remote Sensing Techniques

  Objectives  On 14th and 15th January 2022, the Hunga Tonga-Hunga Ha'apai (HTHH) underwater volcano in Tonga in the South Pacific Ocean violently erupted and caused a tsunami, which has attracted widespread international attention. In this paper, we attempted to rapidly investigate this once-in-a-millennium massive event using integrated remote sensing techniques.  Methods  We comprehensively used multi-temporal satellite optical images, radar images, global navigation satellite system (GNSS) observations and other datasets to quickly interpret and analyze the volcanic eruption process and its impacts. The damage assessment in parts of Tonga was also performed. Based on the integrated remote sensing techniques, we presented a technical framework for the rapid interpretation and analysis of volcanic eruptions, which comprises of six components, namely multi-source data acquisition, geomorphology monitoring, deformation monitoring, environmental response detection, damage assessment and recovery decision.  Results  Our results show that the HTHH underwater volcano in Tonga had exhibited obvious surface displacements in the satellite radar line of sight direction with a maximum accumulated displacement of 6.0 cm since June 2020, and erupted since around 22nd December 2021. During the volcanic eruption, the local magnetic field and ionosphere exhibited obvious abnormal signals, and the continuous GNSS data in Tonga suggested clear surface displacements with an uplift up to 50.2 cm. Most areas of Tonga were blanketed in ash, but it appeared that, in northern part of Tonga's capital, little damage was observed in the coastlines and the main buildings and roads remained intact.  Conclusions  This study shows how to use integrated remote sensing techniques to quickly respond to underwater volcanic eruptions, including the topography evolution of the HTHH volcano and the damage assessment of its eruption. It is believed that the remote sensing integrated technical framework shall not only contribute to the speedy recovery and reconstruction of the society after the HTHH volcanic eruption, but also to the mitigation of future geohazard events.