Impacts of freshwater discharge on plankton and aquaculture species in a semi-enclosed coastal system: insights from microcosm and mesocosm experiment
ID:22 View Protection:ATTENDEE Updated Time:2026-04-22 15:19:02 Hits:40 Oral Presentation

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Abstract
Freshwater discharge from artificial reservoirs is a major driver of environmental variability in semi-enclosed coastal systems. This study investigated the ecological impacts of freshwater release from Bunam Lake, which experienced over 40 years of accumulated pollution, leading to severe odor issues and damage to aquaculture, on plankton dynamics and aquaculture species in Cheonsu Bay by integrating field observations with controlled microcosm and mesocosm experiments. Field observations revealed that increased freshwater discharge during summer significantly reduced salinity and increased nutrient concentrations, leading to enhanced phytoplankton biomass and shifts in community structure. These changes were accompanied by variability in dissolved oxygen, indicating potential risks of hypoxia under stratified conditions. Laboratory-scale microcosm experiments (50mL, 10 L) demonstrated that low salinity and elevated temperature conditions increased mortality and reduced filtration rates in bivalves (oyster and Manila clam), while aquaculture fish species exhibited high sensitivity to bottom water influenced by freshwater discharge. To extend these findings to more realistic environmental conditions, outdoor mesocosm experiments (1 ton) were conducted. The mesocosm results showed that although freshwater inputs initially stimulated phytoplankton growth and altered water quality, biological uptake, mixing, and dilution processes contributed to gradual recovery of ecosystem conditions over time. Overall, freshwater discharge induces strong short-term ecological disturbances across trophic levels, but the coastal system exhibits a degree of resilience through biogeochemical and biological feedbacks. These findings highlight the importance of integrating multi-scale experimental approaches to assess ecological risks and support sustainable coastal management.
Keywords
Freshwater discharge,microcosm experiment,mesocosm,Plankton dynamics
Speaker
So Hyun Ahn
Post Doctoral Scient Korea Institution of Ocean Science & Technology (KIOST)

Submission Author
So Hyun Ahn Korea Institution of Ocean Science & Technology (KIOST)
Minji Lee National Institute of Fisheries Science
Seung Ho Baek Korea Institution of Ocean Science & Technology (KIOST)
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Important Date
  • Conference Date

    Jun 16

    2026

    to

    Jun 18

    2026

  • Apr 03 2026

    Draft paper submission deadline

Sponsored By
Hokkaido University
Organized By
Hokkaido University