Observation and propagation velocity study of internal solitary waves in the northern South China Sea based on the FY-4B geostationary meteorological satellite

Observation and propagation velocity study of internal solitary waves in the northern South China Sea based on the FY-4B geostationary meteorological satellite

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Xiying Li¹^,², Junmin Meng¹^,³^,^*, Li’na Sun¹^,³, Hao Zhang¹^,², Kaifei He²

Haiyang Xuebao | 2024, 46(7) : 1 - 15

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Haiyang Xuebao | 2024, 46(7): 1-15

Observation and propagation velocity study of internal solitary waves in the northern South China Sea based on the FY-4B geostationary meteorological satellite

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Xiying Li¹^,², Junmin Meng¹^,³^,^*, Li’na Sun¹^,³, Hao Zhang¹^,², Kaifei He²

Affiliations

1. First Institute of Oceanography, Ministry of Natural Resources, Qingdao 266061, China

2. College of Oceanography and Space Informatics, China University of Petroleum (East China), Qingdao 266580, China

3. Technology Innovation Center for Ocean Telemetry, Ministry of Natural Resources, Qingdao 266061, China

Published: 2024-07-31 doi: 10.12284/hyxb2024036

Outline

Abstract

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This study uses the data of the China’s new generation geostationary-orbit meteorological satellite FY-4B to observe the internal solitary wave (ISW) and study the propagation speed of ISW in the northern South China Sea (NSCS). Firstly, the observable ISW region of the FY-4B satellite was discussed by using ARGI data of 500 m resolution, and the NSCS was confirmed as the research area. Then, the MTI method (Multitemporal Image Comparison method) was used to calculate the propagation velocity of ISWs in NSCS using GHI data of 250 m resolution, and the average propagation velocity of ISW in NSCS is about 1.78 m/s. The average velocity in the eastern deep sea was 3.02 m/s, and it decreased to 1.90 m/s after westward transmission near Dongsha Islands. After the division of Dongsha Islands, the velocity of ISW in the south was faster than the north, with 2.08 m/s and 1.54 m/s, respectively. Finally, the velocity decreases to 0.42 m/s after westward to the nearshore region, then dissipates. Compared with the results of the MTI method and theoretical propagation velocity calculated by the eKdV (extended Korteweg-de Vries) equation in the two-layer mode, and the correlation coefficient between them reached 0.89. Prove the feasibility of using the eKdV theoretical equation to invert the propagation velocity of ISW in the NSCS. Finally, the results of calculating the propagation velocity of ISW by combining measured data with remote sensing images were compared with the results of MTI method. The correlation between the two reached 0.93. This article verifies the high temporal resolution characteristics of geostationary-orbit optical remote sensing data, which have significant advantages in calculating the propagation speed of ISW. It has certain significance for research work such as inversion of ISW parameters in the NSCS.

Key words

ISWs / FY-4B geostationary meteorological satellite / MTI / eKdV equation / northern South China Sea

Cite this Article

Xiying Li, Junmin Meng, Li’na Sun, Hao Zhang, Kaifei He. Observation and propagation velocity study of internal solitary waves in the northern South China Sea based on the FY-4B geostationary meteorological satellite[J]. Haiyang Xuebao, 2024 , 46 (7) : 1 -15 . DOI: 10.12284/hyxb2024036

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Year 2024 volume 46 Issue 7

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193

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Article Info

doi: 10.12284/hyxb2024036

Receive Date：2023-08-22
Online Date：2025-11-26
Published：2024-07-31

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History

Received：2023-08-22
Revised：2023-12-01

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Affiliations

1. First Institute of Oceanography, Ministry of Natural Resources, Qingdao 266061, China

2. College of Oceanography and Space Informatics, China University of Petroleum (East China), Qingdao 266580, China

3. Technology Innovation Center for Ocean Telemetry, Ministry of Natural Resources, Qingdao 266061, China

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表12种不同金属材料的力学参数

科 Family	属数 Number of genus	种数 Number of species	占总种数比例 Percentage of total species (%)	属 Genus	种数 Number of species	占总种数比例 Percentage of total species (%)
鹅膏菌科Amanitaceae	2	11	5.26	鹅膏菌属 Amanita	10	4.78
小菇科 Mycenaceae	2	12	5.74	丝盖伞属 Inocybe	5	2.39
多孔菌科 Polyporaceae	8	14	6.70	蜡蘑属 Laccaria	5	2.39
红菇科 Russulaceae	3	23	11.00	小皮伞属 Marasmius	6	2.87
				小菇属 Mycena	11	5.26
				光柄菇属 Pluteus	5	2.39
				红菇属 Russula	17	8.13
				栓菌属 Trametes	5	2.39

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