The assessment of chlorophyll-a retrieval algorithm and its spatial-temporal distribution using sentinel-2 MSI off the Banjir Kanal Timur River, Semarang, Indonesia

In aquatic ecology, Chlorophyll-a (Chl-a) plays a pivotal role in biogeochemical cycles, as well as a key indicator for the trophic state in the environment. Coastal area of Semarang is known as eutrophic waters. Thus continuous monitoring of Chl-a will be beneficial for the management of the impact...

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Bibliographic Details
Published in:Regional studies in marine science 2024-10, Vol.75, p.103556, Article 103556
Main Authors: Maslukah, Lilik, Wirasatriya, Anindya, Wijaya, Yusuf Jati, Ismunarti, Dwi Haryo, Widiaratih, Rikha, Krisna, Heru Nur
Format: Article
Language:English
Subjects:
Chlorophyll-a
Coastal algorithm
Sentinel-2 MSI
Visible-NIR band
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Summary:In aquatic ecology, Chlorophyll-a (Chl-a) plays a pivotal role in biogeochemical cycles, as well as a key indicator for the trophic state in the environment. Coastal area of Semarang is known as eutrophic waters. Thus continuous monitoring of Chl-a will be beneficial for the management of the impact of the trophic dynamic in the coastal waters of Semarang. Taking the benefit of the continuous monitoring of satellite measurement, the present study provides the assessment of Chl-a off the Banjir Kanal Timur (BKT) River, Semarang, using the proper remote sensing approach. In this study, algorithms were generated according to bands sensitive to Chl-a scattering properties, using multiple regression between in-situ Chl-a and Bottom of Atmospheric (BoA) reflectance from Sentinel-2 with 10 m resolution. A total of 43 water samples were collected to build the algorithm and 43 of the water samples were used for validation during the passing time of Sentinel-2 at the equator i.e., on 21 August 2021 at 9.00–11.00 local time. The results show that the performance of the algorithm generated in this study has high accuracy as denoted by the low RMSE, and MAPE, respectively. For the seasonal variation, the highest (lowest) concentration of Chl-a is observed in December (September), with values reaching 11.92 µg/L (7.06 µg/L). The seasonal fluctuation of Chl-a depends on air temperature and sunshine duration. High (low) air temperature and long (short) duration of solar exposure result in increased (decreased) Chl-a off the BKT River. Conversely, the elevated wind velocity only impacts the rise of Chl-a in the region far from the river estuary, which is associated with the mixing process. BKT waters are categorized as eutrophic conditions, with a concentration exceeding 6 µg/L. These algorithms can provide valuable insights into the health and productivity of coastal ecosystems, aiding in their monitoring and management. •Estimating chlorophyll from high spatial resolution (10 m) Sentinel 2A imagery.•The chlorophyll-a algorithm using Sentinel-2 images for the coastal water off Banjir Kanal Timur (BKT) River, Semarang, Indonesia is Chl-a (µg/L) = 〖10〗^((2.743–0.725*(log(B2*c))−0.625*(log(B3*c))+1.623*(log(B4*c))+0.809*(log(B8*c))) with the Root Mean Square Error, bias, MAPE and R2 of 2.47 mg/m3, −0.63, 23.52 %, and 0.44 respectively.•The Maximum (minimum) Chl-a occurs in December (September) which can reach 11.92 ug/L (7.06 ug/L).•According to the criteria of Chl-a concent
ISSN:2352-4855
2352-4855
DOI:10.1016/j.rsma.2024.103556