Evaluation of ocean chlorophyll-a remote sensing algorithms using in situ fluorescence data in Southern Brazilian Coastal Waters

A performance evaluation of ocean color chlorophyll-a algorithms was conducted based on the in situ fluorescence chlorophyll concentration (F-chl) measured by a sensor on the buoy SiMCosta-SC01 in coastal waters of South Brazil. The operational algorithms are used in MODIS and VIIRS sensors to derive satellite chlorophyll concentration (C-sat). F-chl values were successfully corrected for nonphotochemical quenching (NPQ) by an interpolation of sunrise and sunset daily measurements. A laboratory-derived calibration coefficient was applied to convert the unquenching F-chl values into chlorophyll concentration (C-flu). Overall, linear regression analysis between C-flu and C-sat for both sensors showed good results, with the coefficient of determination (R-2) varying between 0.88 and 0.96, slopes between 0.92 and 1.02 and intercepts between -0.17 and 0.13. The MODIS algorithm (R-2 = 0.96, slope = 1.02, RMSE = 0.16 mg m(-3), BIAS = 0.16 mg m(-3), for N = 222 and time interval +/- 1 h) presented slightly better performance than VIIRS (R-2 = 0.92, slope = 0.96, RMSE = 0.25 mg m-3, BIAS = -0.25 mg m(-3), for N = 284 and time interval +/- 1 h). These results represent the most comprehensive satellite data analysis for this region, suggesting that the approach may be applicable to other SiMCosta buoys.

Automated summary

The study evaluated the performance of ocean color chlorophyll-a algorithms based on in situ fluorescence chlorophyll concentration measurements from a buoy sensor in South Brazil. The algorithms used in MODIS and VIIRS sensors showed good results, with slight advantages in performance for MODIS over VIIRS, suggesting potential applicability to other SiMCosta buoys.