HYDRODYNAMIC INVESTIGATION OF A SHALLOW TROPICAL LAKE ENVIRONMENT (LAGUNA LAKE, PHILIPPINES) AND ASSOCIATED IMPLICATIONS FOR EUTROPHIC VULNERABILITY

Authors

  • Eugene Herrera National Hydraulic Research Center, College of Engineering, Institute of Civil Engineering, University of the Philippines
  • Kazuo Nadaoka Department of Mechanical and Environmental Informatics, Graduate School of Information Science And Engineering, Tokyo Institute of Technology
  • Ariel Blanco Department of Geodetic Engineering, University of The Philippines
  • Emiterio Hernandez Integrated Water Resources Management Division, Laguna Lake Development Authority

DOI:

https://doi.org/10.11113/aej.v4.15432

Keywords:

Ceramic coating, Corrosion resistance, Hardness, Non-aqueous coating slurry, Red mud

Abstract

In this study, a three-dimensional (3D) hydrodynamic model was developed to investigate the water circulation characteristics of a shallow tropical lake environment (Laguna Lake, Philippines) under varying wind stress, watershed river discharge, and sea interaction (Manila Bay, Philippines) to elucidate hydrodynamic implications to eutrophic vulnerability. The analyses were based on field observations and numerical simulations covering long-term periods (dry and wet season) and intensive field measurements. The results demonstrated different circulation patterns and vertical current regimes in time and space that accentuated a thermally stratified lake environment in spite of a shallow water depth (2.5 meter average). In the wet season, current movement is generally toward Pasig River, the lake’s only outlet, with embayment water mass moving in the clockwise direction. The dry season lake flow pattern was characterized by counter-clockwise gyre circulations, Pasig River backflow, and salinity intrusion. Wind forces showed strong influence on lake hydrodynamics due to the complex surrounding topography, steep land-lake thermal difference, regular passage of tropical storms and typhoons, and shifts in the monsoon wind direction. The resulting mixed layer hydrodynamics revealed important implications to the planktonic movement, nutrient recycling, and primary production of the lake. Long term continuous observations and numerical analyses also demonstrated the intrusion of seawater to Laguna Lake that potentially adds to its eutrophic vulnerability with the associated entry of nutrient and microorganism-rich polluted waters from Metro Manila

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Published

2014-03-31

Issue

Section

Environmental Engineering

How to Cite

HYDRODYNAMIC INVESTIGATION OF A SHALLOW TROPICAL LAKE ENVIRONMENT (LAGUNA LAKE, PHILIPPINES) AND ASSOCIATED IMPLICATIONS FOR EUTROPHIC VULNERABILITY. (2014). ASEAN Engineering Journal, 4(1), 48-62. https://doi.org/10.11113/aej.v4.15432