- Incorporates latest research in marine processes.
- Text supported by numerous illustrations.
|Product dimensions:||6.00(w) x 1.25(h) x 9.00(d)|
About the Author
Dr John Lazier has been a physical oceanographer at the Bedford Institute of Oceanography since the early 1960s. His principal interest has been the circulation of the northwest Atlantic Ocean, especially the response of the Labrador Sea to decadal changes in the weather. He continues this work as a research scientist emeritus.
Table of ContentsPreface.
Marine Ecology Comes of Age.
Part I: Processes on a Scale of less than 1 Kilometre:.
Biology and Boundary Layers.
Vertical Structure of the Open Ocean: Biology of the Mixed Layer.
Vertical Structure in Coastal Waters: Freshwater Run-off and Tidal Mixing.
Part II: Processes on a Scale of 1-1000 Kilometres:.
Vertical Structure in Coastal Waters.
Coastal Upwelling Region.
Fronts in Coastal Waters.
Tides, Tidal Mixing and Internal Waves.
Part III: Processes on a Scale of Thousands of Kilometres:.
Ocean Basin Circulation: the Biology of Major Currents, Gyres, Rings and Eddies.
Variability in Ocean Circulation: its Biological Consequences.
The Oceans and Global Climate Change: Physical and Biological Aspects.
Part IV: Discussion and Conclusions:.
Questions for the Future.
Most Helpful Customer Reviews
Are you studying and working in the area of marine ecology and biological oceanography? If you are, this book is for you! Authors K. H. Mann and J. R. N. Lazier, have written an outstanding 3rd edition of a book about the ecology of open-ocean communities. Mann and Lazier, begin with an overview of marine ecology and how it has come of age. Then, they explore the intimate relationships between the small-scale processes in sea water and the lives of plants and animals. The authors continue by discussing the physical processes that affect the vertical distributions of light, heat, and nutrients, so as to better understand the dynamics of phytoplankton production. In addition, they also discuss the vertical structure in coastal waters--freshwater run-off and tidal mixing. The authors also examine the special places where wind-induced upwelling is the dominant mechanism for bringing new nutrients to the surface. Then, the authors investigate the distinctive physical and biological properties found in each type of coastal waters fronts. Next, they explore some of the interesting consequences of tidally induced water movement. Then, the authors begin to consider the ocean basins in their entirety. Next, they review some of the most exciting developments of the decade (1995-2005). The authors continue by describing the mechanism of global warming and the present-day global carbon cycle. Finally, the authors discuss questions for the future. This excellent book also includes discussions of the physical-biological interactions and how they provide plausible mechanisms by which the atmospheric changes might be linked to the food webs and the fish-stock changes. Furthermore, the book has clearly met a need and found a very receptive audience, in the authors' review of the developments in marine ecology, as an integrated physical, chemical, and biological discipline.