Hydrobiological ModellingLulu.com, 2006 - 680 sayfa The book describes models of aquatic ecosystems, ranging from lakes to estuaries to the deep ocean. It provides a background in the physical and biological processes, numerical methods and elementary ecosystem models. It describes two of the most widely used hydrodynamic models and presents a number of case studies. The practice of modelling in management is discussed. |
İçindekiler
Title 1 Hydrobiological modelling its role in environmental management and science | 1 |
Title 2 The physics of natural waters | 33 |
Title 3 Mathematical models of fluid motion | 63 |
Title 4 Sediment physics and wind waves | 119 |
Title 5 Stratification and mixing processes | 171 |
Title 6 Numerical solution of differential equations | 197 |
Title 7 One dimensional river flow computations | 269 |
Title 8 Computational grid generation | 287 |
Title 12 A brief summary of some important ecological concepts | 387 |
Title 13 Aquatic ecosystems | 405 |
Title 14 Elements and behaviour of mathematical ecosystem models | 465 |
Title 15 Hydrobiological models history and examples | 529 |
structuring and estimation | 597 |
Title 17 Modelling of lakes and estuaries for management | 615 |
Title A Some notes on plotting with MATLAB | 639 |
Title B Calculus DEs Fourier analysis vectors tensors norms etc | 647 |
Title 9 Simulation of depthintegrated twodimensional flows | 299 |
Title 10 Computation of three dimensional hydrodynamics and transport | 319 |
Title 11 Modelling transport scales and aggregation | 367 |
Title C Boundary layers a quick summary | 655 |
Title D Notes on the dynamics of systems of ODEs | 663 |
Diğer baskılar - Tümünü görüntüle
Sık kullanılan terimler ve kelime öbekleri
analysis application approach assume biological boundary boundary conditions called cell coastal coefficient complex components computational concentration consider constant defined dependent depth derived described determined difference differential equations diffusion direction discussed distribution dynamics Ecological Ecological Modelling ecosystem effects element Engineering environmental equations error estimate estuary example finite flow fluid function given grid growth hydrodynamic important indicated initial integrated Journal lakes layer leads light limited Marine mass mathematical measured methods mixing nitrogen Note nutrient ocean Oceanography organisms parameters particles physical phytoplankton plankton population predictions Press problems processes provides referred require Research river scale scheme Science sediment Series shallow shear shows simple simulation solution spatial species step stress surface temperature tion transport turbulent unit University values variables velocity vertical volume wave York zooplankton