Title :
Microwave Remote Monitoring of Altai Catastrophic Flood Dynamics Using SMOS Data
Author :
Romanov, A.N. ; Khvostov, I.V.
Author_Institution :
Inst. for Water & Environ. Problems, Barnaul, Russia
Abstract :
The Altai catastrophic flood began on May 28, 2014, in the headwaters of one of the world´s largest rivers, the Ob River, in the south of Western Siberia. The flood resulted from a steady rain which coincided with intensive snow melting in the Altai Mountains. As a result of inclement weather, more than 60 settlements have become flooded. The remote assessment of flooded areas was performed using the images taken by MIRAS radiometer in the microwave range from SMOS satellite. To validate SMOS data, the dependence between the soil volume moisture and emissivity was used; it was determined with laboratory measurements of dielectric parameters of soil sampled in the inundation area. The analysis of satellite images allowed us to outline wetlands and waterlogged areas.
Keywords :
floods; radiometers; rain; rivers; snow; soil; wetlands; AD 2014 05 28; Altai Mountains; Altai catastrophic flood dynamic; MIRAS radiometer image; Ob River; SMOS data; SMOS data validattion; SMOS satellite microwave range; flooded area remote assessment; inclement weather; intensive snow melting; inundation area; microwave remote monitoring; satellite image analysis; soil dielectric parameter; soil emissivity; soil volume moisture; steady rain; waterlogged area; western Siberia; wetland area; world largest river headwater; MODIS; Remote sensing; Rivers; Satellite broadcasting; Satellites; Soil moisture; Altai Region; Ob River; SMOS; Western Siberia; flood; inundation; microwave; satellite remote sensing; soil moisture;
Journal_Title :
Geoscience and Remote Sensing Letters, IEEE
DOI :
10.1109/LGRS.2015.2444592
