Japan Geoscience Union Meeting 2019

Presentation information

[J] Oral

S (Solid Earth Sciences ) » S-TT Technology & Techniques

[S-TT45] Synthetic Aperture Radar

Mon. May 27, 2019 1:45 PM - 3:15 PM 303 (3F)

convener:Youhei Kinoshita(University of Tsukuba), Yu Morishita(Geospatial Information Authority of Japan), Shoko Kobayashi(Tamagawa University), Takahiro Abe(Earth Observation Research Center, Japan Aerospace Exploration Agency), Chairperson:Yohei Kinoshita(RESTEC), Takahiro Abe(JAXA)

2:00 PM - 2:15 PM

[STT45-08] Heavy rainfall-induced displacement of more than 2.5m in the Kushiro Marsh in 2016, detected by ALOS-2 SAR

*Satoshi Fujiwara1, Yu Morishita1, Takayuki Nakano1, Yuji Miura1, Yasuaki Kakiage1, MURAMATSU Hiroki1, Hiroshi Une1 (1.GSI of Japan)

Keywords:Kushiro Marsh, environment of wetland, underground water, heavy rainfall, surface displacement, ALOS-2

The Kushiro Marsh in eastern Hokkaido is the largest wetland in Japan. Monitoring changes in environmental conditions is important to support preservation of the wetland. In the summer of 2016, Hokkaido was affected by several typhoons and suffered record-breaking heavy rainfall. We constructed ~50 ALOS-2 SAR interferograms, covering the Kushiro Marsh for the period 2014 to 2018, including the summer of 2016. A time series of vertical displacement of the wetland detected by the interferograms corresponded with water level changes in the rivers in the wetland. This implied that the SAR data had successfully detected the height change of the water surface in the wetland. Between August 6, 2016 and September 5, 2016, an area of the wetland (~1 km) to the southeast of Akanuma shifted ~2.7 m horizontally in the downstream direction, which coincided with a large and rapid increase in the water level caused by the heavy rains. This large displacement remained after the water level decreased. Prior to this large horizontal shift, an uplift of ~10 cm was identified in almost the same region. This uplift might have been caused by the leaking of groundwater from the basement of the Akanuma pond, and implied that the peat layer, which had a thickness of several meters floated slightly, like a floating islands, possibly causing the large horizontal shift.

Reference

Fujiwara et al. (2019): Heavy rainfall-induced displacement of more than 2.5m in the Kushiro Marsh in 2016, detected by ALOS-2 SAR, Journal of Geography (Chigaku Zasshi).