Call number:
M 00.0498
;
AWI G4-99-0278
In:
Coastal and estuarine studies
Description / Table of Contents:
Contents: Preface. - PART 1. INTRODUCTION. - 1. Flux paths in a stratified lake: a review. - PART 2. SURFACE LAYER DYNAMICS. - 2. Air-water exchange processes. - 3. Turbulent flux of water vapor in relation to the wave field and atmospheric stratification. - 4. On the structure of the upper oceanic boundary layer and the impact of surface waves. - 5. Large eddies in the surface mixed layer and their effects on mixing, dispersion and biological cycling. - 6. Velocity, temperature and spatial structure of Langmuir Circulation. - 7. On wavy mean flows, Langmuir cells, strain, and turbulence. - 8. Modeling of atmospheric forced mixing on the shallow shelf. - 9. Large inflow-driven vortices in Lake Constance. - PART 3. FORCED BASIN SCALE MOTIONS. - 10. Forced motion response in enclosed lakes. - 11. Excitation of internal seiches by periodic forcing. - 12. Thermohaline transitions. - 13. Exchange flows in lakes. - 14. Gyres measured by ADCP in Lake Biwa. - 15. Circulation, convection and mixing in rotating, stratified basins with sloping topography. - PART 4. INTERNAL WAVE MOTIONS. - 16. Internal solitary waves in shallow seas and lakes. - 17. Two intersecting internal wave rays: a comparison between numerical and laboratory results. - 18. Breaking internal waves and fronts in rotating fluids. - 19. A laboratory demonstration of a mechanism for the production of secondary, internal gravity-waves in a stratified fluid. - 20. Direct numerical simulation of wave-mean flow and wave-wave interactions: a brief perspective. - 21. Momentum exchange due to internal waves and wakes generated by flow past topography in the atmosphere and lakes. - 22. In search of Holmboe's instability. - PART 5. TURBULENT MIXING. - 23. Estimation and geography of diapycnal mixing in the stratified ocean. - 24. Special closure for stratified turbulence. - 25. Turbulent mixing in stably stratified flows: limitations and adaptations of the eddy diffusivity approach. - 26. Intermittency of internal wave shear and turbulence dissipation. - 27. Buoyancy fluxes in a stratified fluid. - 28. Mixing processes in a highly stratified river. - 29. Stratified turbulence: field, laboratory and DNS data. - PART 6. INFLUENCE OF TOPOGRAPHY AND THE BENTHIC BOUNDARY LAYER. - 30. Waves, mixing, and transports over sloping boundaries. - 31. Some dynamical effects of internal waves and the sloping sides of lakes. - 32. Finescale dynamics of stratified waters near a sloping boundary of a lake. - 33. Breaking of super-critically incident internal waves at a sloping bed. - 34. Bottom boundary mixing: the role of near-sediment density stratification. - 35. Turbulent benthic boundary layer mixing events in fresh water lakes. - PART 7: IMPORTANCE OF TRANSPORT AND MIXING ON ECOLOGICAL PROCESSES. - 36. Using measurements of variable chlorophyll-[alpha] fluorescence to investigate the influence of water movement on the photochemistry of phytoplankton. - 37. Plants in motion: physical - biological interaction in the plankton. - 38. Turbulent mixing and resource supply to phytoplankton. - 39. The influence of biogeochemical processes on the physics of lakes. - 40. Hydrodynamic vs. non-hydrodynamic influences on phosphorus dynamics during episodic events. - 41. Coupling of hydrobiology and hydrodynamics: lakes and reservoirs. - 42. 3D Modeling of water quality transport processes with time and space varying diffusivity tensors. - List of Contributors.
Description / Table of Contents:
Physical processes in lakes and oceans highlights the close links between the hydrodynamics of lakes and the ocean. Until recently what was known about the hydrodynamics of lakes has been the result of the efforts of a few researchers who have relied heavily on the results from the ocean. Here limnologists and oceanographers compare the physical processes in lakes and oceans as well as emphasize some of the challenges of the flux path problem. The world's foremost experts review the dynamics of the surface layer, the metalimnion, the hypolimnion and the benthic boundary layer; the focus is on transport and mixing. The difficulties of the flux path problem are featured in a series of articles where the interaction of hydrodynamics, biology and chemistry is examined.
Type of Medium:
Monograph available for loan
Pages:
ix, 668 S.
ISBN:
0875902685
Series Statement:
Coastal and estuarine studies 54
Classification:
Sedimentology
Location:
Upper compact magazine
Location:
Upper compact magazine
Branch Library:
GFZ Library
Branch Library:
AWI Library
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