High-Resolution Satellite Observations of a New Hazard of Golden Tides Caused by Floating Sargassum in Winter in the Yellow Sea

High-Resolution Satellite Observations of a New Hazard of Golden Tides Caused by Floating Sargassum in Winter in the Yellow Sea

A new marine hazard of golden tides caused by floating brown macroalgae-Sargassum occurred in the Yellow Sea in December 2016. An economic loss of 0.5 billion CNY (about U.S. 73 million) was estimated due to the damaged seaweed aquaculture in the Jiangsu Shoal, China. In this letter, images from the...

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Bibliographic Details
Published in:IEEE geoscience and remote sensing letters Vol. 14; no. 10; pp. 1815 - 1819
Main Authors: Xing, Qianguo, Guo, Ruihong, Wu, Lingling, An, Deyu, Cong, Ming, Qin, Song, Li, Xuerong
Format: Journal Article
Language:English
Published: Piscataway IEEE 01-10-2017
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Algae
Aquaculture
Blooms
Cameras
Chinese satellite
Coastal waters
Damage
East China Sea
Floating
floating macroalgae
Gaofen (GF) satellite
Hazards
High resolution
high-resolution remote sensing
Image resolution
linear spectral mixing
Optical imaging
Optical sensors
Resolution
Sargassum
Sargassum horneri
Satellite imagery
Satellite observation
Satellites
Sea surface
Seaweeds
Shoals
Temperature (air-sea)
Tides
Yellow Sea
Yellow Sea
China
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Summary:A new marine hazard of golden tides caused by floating brown macroalgae-Sargassum occurred in the Yellow Sea in December 2016. An economic loss of 0.5 billion CNY (about U.S. 73 million) was estimated due to the damaged seaweed aquaculture in the Jiangsu Shoal, China. In this letter, images from the new Chinese satellite of Gaofen (GF) with high-resolution optical cameras are used to retrieve the drifting path of floating Sargassum and its origin. A southward drifting path of floating Sargassum in the western Yellow Sea is identified for the first time, and the initial site of bloom occurrence is near the eastern end of the Shandong Peninsula, China, implying the origin of this hazard of floating Sargassum. The scale of this Sargassum bloom event in the Jiangsu Shoal is also evaluated using a linear-mixing model suitable for high-resolution images. The result shows that the total area of Sargassum-containing pixels in the GF-1 wide-field-of-view images on December 31, 2016 was more than 46 km 2 , and according to the estimation by the linear-mixing model, the total area of sea surface completely covered by Sargassum was above 8.8 km 2 . The approach and the results presented in this letter should contribute to the future study and management of golden tides in Chinese coastal waters.
ISSN:1545-598X
1558-0571
DOI:10.1109/LGRS.2017.2737079