The impact of typhoon Morakot on the modern sedimentary environment of the mud deposition center off the Zhejiang–Fujian coast, China

Abstract: Typhoon Morakot, which first made landfall in central Taiwan on Aug. 7th and then in Fujian on Aug. 9th after crossing through the Taiwan Strait was the strongest typhoon to impact the East China Sea (ECS) in 2009. Two surveys were conducted, respectively on Aug. 1st and Aug. 12th, in the mud deposition center off the Zhejiang–Fujian coast to study the impacts of the typhoon on the marine environment and sediment transport. Continuous in-situ hydrographic data (water temperature, salinity, depth and turbidity) were recorded at 29 stations during the first survey and 23 stations during the second survey. The water and surface sediment samples were collected at the same time. A comparison of the measurements from the two surveys shows that significant variations in temperature, salinity and turbidity distributions occurred in the water column. The upper water layer was well-mixed after the passage of Morakot. The water temperature and salinity dropped approximately 0.2–1.4°C and 0.3–3.3psu, respectively, while the water turbidity increased from less than 1FTU to 1–30FTU. In the bottom layer, the temperature increased approximately 2.5–4.0°C, and the salinity dropped approximately 0.2–0.6psu due to the water mixing. The water turbidities generally increased to greater than 50FTU (greater than 150FTU in some locations), which were several times to more than tenfold greater than those in the first survey, which were generally between 10 and 60FTU. The thermocline, which existed at a depth of approximately 10m during the first survey, disappeared after the typhoon. A halocline appeared at approximately 10m depth in the near-shore area due to abundant fresh water supply, whereas the salinity was generally homogeneous during the first survey. Concurrently, the relatively warm and fresh water extended downward to the whole medial water layer due to the water mixing. The turbidity and volume of the bottom turbid layer was greatly increased at the second survey compared with the first survey. The intrusion of the low-temperature and high-salinity deep water (below 50m depth) was significantly reduced at the same time. [Copyright &y& Elsevier]