Impact of coastal power plant cooling system on planktonic diversity of a polluted creek system
Autor: | Ganesan Nandhagopal, Shunmugavel Ragumaran, Jebarathnam Prince Prakash Jebakumar, Bose Rajan Babu, Vijaya Ravichandran |
---|---|
Rok vydání: | 2018 |
Předmět: |
0106 biological sciences
Power station Population India Aquatic Science Cyanobacteria Oceanography 010603 evolutionary biology 01 natural sciences Zooplankton Rivers Phytoplankton Water cooling Animals Seawater Cooling tower education Population dynamics of fisheries Diatoms Hydrology education.field_of_study 010604 marine biology & hydrobiology Water Pollution Biodiversity Plankton Pollution Larva Environmental science Seasons Environmental Monitoring Power Plants |
Zdroj: | Marine Pollution Bulletin. 133:378-391 |
ISSN: | 0025-326X |
DOI: | 10.1016/j.marpolbul.2018.05.053 |
Popis: | A tropical coastal power plant with a once-through cooling system that pumped sea water along with tiny marine phytoplankton and zooplankton for waste heat discharge recorded reduction in the population density of these organisms by 64% and 93%, respectively, at the discharge site. The depletion of organic carbon is 0.69 tons per annum with loss of 20 to 24 lakhs fish fecundity. The synergistic effect of tropical summer ambiance and waste heat discharge from the power plant considerably reduced the phytoplankton population in the coolant water discharge point during April, June, and July. This resulted in changes in the phytoplankton community structure from Bacillariophyceae > Dyanophyceae > Cyanophyceae to Bacillariophyceae > Cyanophyceae > Dyanophyceae in the Ennore creek system. A unique epibiotic assemblage of the diatoms Licmophora juergensii and Licmophora flabellata was observed on Phormidium sp., a mat-forming Cyanobacterium preharbored along the 4.5-km-long transport channel of the cooling tower blow out of the thermal power plant. These pedunculate fouling diatoms have a symbiotic association with Phormidium sp., which grows few microns high above the substrate, thus creating obstructive flow in cooling water channels of the power plant. Further, loss of fish larvae during zooplankton population reduction creates an impact on the local fishery. However, the emerging scenario of global warming predicts that the migration of fish population toward cooler regions shall further aggravate the fishery reduction near the power plant cooling operation along the tropical coasts. The marine organisms living in tropical coastal waters operated at upper limits of thermal tolerance produce a demand for the regulatory bodies in India to enforce a drop in discharge criteria for coolant water, with the pre-existing power stations permitted to discharge up to 10 °C above the ambient temperature and newer power stations permitted to discharge a maximum of 7 °C. It becomes a requisite for power stations to draw additional seawater along with the plankton. Therefore, an emerging technology of subsurface intake systems called beachwell that resolves the issue of coolant water intake without biota was advocated. |
Databáze: | OpenAIRE |
Externí odkaz: |