Immense variability in the sea surface temperature near macro tidal flat revealed by high-resolution satellite data (Landsat 8)

Sea surface temperature (SST) is crucial for understanding the physical characteristics and ecosystems of coastal seas. SST varies near the tidal flat, where exposure and flood recur according to the tidal cycle. However, the variability of SST near the tidal flat is poorly understood owing to difficulties in making in-situ observations. The high resolution of Landsat 8 enabled us to determine the variability of SST near the macro tidal flat. The spatial distribution of the SST extracted from Landsat 8 changed drastically. The seasonal SST range was higher near the tidal flat than in the open sea. The maximum seasonal range of coastal SST exceeded 23 degrees C, whereas the range in the open ocean was approximately 18 degrees C. The minimum and maximum horizontal SST gradients near the tidal flat were approximately-0.76 degrees C/10 km in December and 1.31 degrees C/10 km in June, respectively. The heating of sea water by tidal flats in spring and summer, and cooling in the fall and winter might result in a large horizontal SST gradient. The estimated heat flux from the tidal flat to the seawater based on the SST distribution shows seasonal change ranging from-4.85 to 6.72 W/m(2).

Automated summary

Sea surface temperature (SST) is crucial for understanding coastal seas. Landsat 8 data helps to determine the variability of SST near tidal flats, where the temperature range is higher and the gradients are influenced by heating and cooling from the flats.