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AL-Sharif et al., S. (2023). Study of the Synergistic Effects of Meteorological, Oceanographic, Biological, and Radiological Parameters (MOBR) on Marine Ecosystems Around a Nuclear Power Plant. Egyptian Journal of Aquatic Biology and Fisheries, 27(5), 1393-1413. doi: 10.21608/ejabf.2023.324931
Sherif A. AL-Sharif et al.. "Study of the Synergistic Effects of Meteorological, Oceanographic, Biological, and Radiological Parameters (MOBR) on Marine Ecosystems Around a Nuclear Power Plant". Egyptian Journal of Aquatic Biology and Fisheries, 27, 5, 2023, 1393-1413. doi: 10.21608/ejabf.2023.324931
AL-Sharif et al., S. (2023). 'Study of the Synergistic Effects of Meteorological, Oceanographic, Biological, and Radiological Parameters (MOBR) on Marine Ecosystems Around a Nuclear Power Plant', Egyptian Journal of Aquatic Biology and Fisheries, 27(5), pp. 1393-1413. doi: 10.21608/ejabf.2023.324931
AL-Sharif et al., S. Study of the Synergistic Effects of Meteorological, Oceanographic, Biological, and Radiological Parameters (MOBR) on Marine Ecosystems Around a Nuclear Power Plant. Egyptian Journal of Aquatic Biology and Fisheries, 2023; 27(5): 1393-1413. doi: 10.21608/ejabf.2023.324931

Study of the Synergistic Effects of Meteorological, Oceanographic, Biological, and Radiological Parameters (MOBR) on Marine Ecosystems Around a Nuclear Power Plant

Article 79, Volume 27, Issue 5, September and October 2023, Page 1393-1413  XML PDF (1.17 MB)
Document Type: Original Article
DOI: 10.21608/ejabf.2023.324931
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Author
Sherif A. AL-Sharif et al.
Abstract
MOBR is the study of the synergistic effects of meteorological, oceanographic, biological, and radiological parameters on each other to monitor the state of the atmosphere, hydrosphere, lithosphere, and biosphere in a particular marine environment. In our work, 24 parameters of MOBR data were collected to assess the marine ecosystems around the Madras nuclear power plant.  The results demonstrated the significant influence of sea level pressure on surface air temperature, its role in wind formation, control of wind affecting sea current velocity, and subsequent effects on the cover percentage of living and non-living organisms, biodiversity, as well as the seasonal behavior of Uranium 238 (U-238) across various spheres.  The observations highlighted a key aspect of the study area, which was predominantly covered by high sand ratios (76 and 88% during the pre-monsoon and monsoon seasons, respectively). This sand dominance impacted biodiversity significantly. Interestingly, the highest values of U-238 were recorded in sediment, dust, crabs, and green algae during the monsoon season, with the exception of fish. This pattern was a result of the prevailing sand dominance. This study is considered the first attempt to infer the interactions between meteorological, oceanographic, biological, and radiological parameters (MOBR) to monitor marine ecosystems.
Keywords
MOBR; Nuclear power plant; U-238; Biodiversity; ICP-MS; Monsoon; Oceanography
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