Physical Limnology provides the physical, chemical, and biological information practitioners need to effectively manage inland waters. Physical processes in lakes are known to have significant influence on driving the biology, chemistry, and geology in aquatic environments. In addition to covering the current knowledge in the area of lake physics, this helpful guide also provides coverage of some of the latest challenges in physical limnology. Physical Limnology also covers the mathematical modeling necessary to make basic calculations related to what is happening in lakes.
Physical Limnology provides the physical, chemical, and biological information practitioners need to effectively manage inland waters. Physical processes in lakes are known to have significant influence on driving the biology, chemistry, and geology in aquatic environments. In addition to covering the current knowledge in the area of lake physics, this helpful guide also provides coverage of some of the latest challenges in physical limnology. Physical Limnology also covers the mathematical modeling necessary to make basic calculations related to what is happening in lakes.
Jörg Imberger is the Director of the Centre for Water Research and Professor of Environmental Engineering at the University of Western Australia (UWA), where he is a Vice-Chancellor's Distinguished Fellow. Imberger received his PhD at the University of California, Berkeley in 1970 and became Professor of Environmental Engineering at UWA in 1979.
Inhaltsangabe
1. Introduction 2. Time Scales, Dimensional Numbers and Dynamical Regime 3. Surface Layer Dynamics 4. Internal Motions and Mixing 5. Benthic Boundary Layer 6. Outflows, Inflows and Intrusions 7. Cold Water Lakes 8. Circulation in Homogeneous Lake 9. Engineering Interventions 10. Field Investigations 11. Modelling 12. Future Challenges