Overview

Introduction to the Modelling of Marine Ecosystems, Second Edition provides foundational information on the construction of chemical and biological models – from simple cases to more complex biogeochemical models and life cycle resolving model components. This step-by-step approach to increasing the complexity of the models allows readers to explore the theoretical framework and become familiar with the models even when they have limited experience in mathematical modeling. Introduction to the Modelling of Marine Ecosystems shows how biological model components can be integrated into three dimensional circulation models and how such models can be used for numerical experiments.

Full Product Details

Author:   W. Fennel (Baltic Sea Research Institute, Rostock, Germany) ,  T. Neumann (Baltic Sea Research Institute, Rostock, Germany)
Publisher:   Elsevier Science & Technology
Imprint:   Elsevier Science Ltd
Edition:   2nd edition
Dimensions:   Width: 15.20cm , Height: 2.10cm , Length: 22.90cm
Weight:   0.550kg
ISBN:  

9780444633637

ISBN 10:   0444633634
Pages:   372
Publication Date:   28 August 2014
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

Preface Preface of the First Edition Chapter 1: Introduction 1.1 Models of marine ecosystems 1.2 Models from nutrients to fish Chapter 2: Chemical-Biological Models 2.1 Chemical-biological processes 2.2 Simple models 2.3 Simple plankton models for the ocean Chapter 3: More Complex Models 3.1 Competition 3.2 Several functional groups 3.3 N2 fixation 3.4 Denitrification Chapter 4: Modelling Life Cycles of Copepods and Fish 4.1 Growth and stage duration 4.2 Stage-resolving models of copepods 4.3 Experimental simulations 4.4 A fish model Chapter 5: Physical–Biological Interaction 5.1 Irradiance 5.2 Coastal ocean dynamics 5.3 Advection–diffusion equation 5.4 Upscaling and downscaling 5.5 Resolution of processes Chapter 6: Coupled Models 6.1 Introduction 6.2 Regional to global models 6.3 Circulation models 6.4 Baltic sea 6.5 Description of the model system 6.6 Simulation of the annual cycle 6.7 Simulation of the decade 1980–1990 6.8 A load reduction experiment 6.9 Projection of future changes 6.10 Tracking of elements 6.11 Discussion Chapter 7: Circulation Model, Copepods and Fish 7.1 Recruitment (Match–Mismatch) 7.2 Copepods in the baltic sea model 7.3 Three-dimensional simulations 7.4 Modelling of behavioural aspects 7.5 Fish in a three-dimensional model 7.6 Ergom: A Biogeochemical Model for Regional Seas Chapter 8: A Brief Introduction to MATLAB 8.1 Fundamentals 8.2 Ordinary differential equations 8.3 Miscellaneous Appendix: Content of the Booksite Bibliography Index

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Author Information

Dr. Wolfgang Fennel is professor emeritus of physical oceanography at the University of Rostock and he was head of the section of physical oceanography of the Baltic Sea Research Institute, (IOW). His background is theoretical oceanography and he is a specialist in oceanic circulation and wave processes. He is also working on the coupling of physics and marine biology. Wolfgang Fennel was President of SCOR (2008-2012) and is now Past SCOR President until 2016. He promoted interdisciplinary co-operation. Dr. Thomas Neumann is senior scientist working in the section of physical oceanography in the Baltic Sea Research Institute, (IOW). After an initial oceanographic career in small scale processes in the sea he turned his scientific interests in the 1990ties to coupled physical and biological modeling. He is one of the leading experts in coupled physical biogeochemical models.

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