Unveiling primary production dynamics in the southern Bay of Bengal: Comparative analysis of in-situ measured data with multiple primary production models

In this study, marine water samples were collected at 18 sampling stations. The collected marine water samples were analysed using a well-calibrated UV spectrophotometer for chlorophyll-a estimation, and using a hyperspectral underwater radiometer, both buoy mode and profile mode in-situ data were c...

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Bibliographic Details
Published in:Regional studies in marine science 2024-12, Vol.79, p.103809, Article 103809
Main Authors: RM, Narayanan, V., Niranjana, P.V., Nagamani, Sahay, Arvind, Raman, Mini, SD, Sundara Vadhanan, E., Giridharan, K., Mohammed Suhail, Rao, Thumu Devi Vara Prasad, Rao, Y. Umamaheswara, C., Benedict Rosario
Format: Article
Language:English
Subjects:
Bay of Bengal
chlorophyll
Chlorophyll-a
marine science
monsoon season
Photosynthetically available radiations
Primary production
primary productivity
Southern Bay of Bengal
spectrophotometers
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Summary:In this study, marine water samples were collected at 18 sampling stations. The collected marine water samples were analysed using a well-calibrated UV spectrophotometer for chlorophyll-a estimation, and using a hyperspectral underwater radiometer, both buoy mode and profile mode in-situ data were collected. The study evaluated four different primary production models to study the dynamics of the southern Bay of Bengal. The simple Eppley model used in the study resulted in huge variations in the nearshore and frontal regions; the dark and light bottle methods showed enormous variations along all 18 sampling stations and underestimated the productivity of the southern Bay of Bengal. However, the VGPM model and its variants showed similar trends in near shore, frontal, and off-shore waters for all three transects, and the Kameda model closely matched the available literature for the primary production estimates of the southern Bay of Bengal. From the detailed analysis of the Kameda model, it is found that the average primary production for the Southern Bay of Bengal for the post monsoon season (February 2023) is estimated as 339.08 mgC/m2/d. [Display omitted] •Primary production algorithms are evaluated for southern Bay of Bengal using four models and one in-situ measurement.•Primary production estimated are comparable for VGPM model and its variants.•Compared to in-situ data, Kameda model is promising for Primary production estimation along Southern Bay of Bengal.•Kameda model indicates that the southern Bay of Bengal is oligotrophic and has lower production.
ISSN:2352-4855
2352-4855
DOI:10.1016/j.rsma.2024.103809