Eco-Hydrodynamic Modelling of Primary Production in Coastal Waters and Lakes Using BLOOM ( Deltares Select Series )

Publication series ： Deltares Select Series

Author： Los F.J.

Publisher： Ios Press‎

Publication year： 2009

E-ISBN: 9781607504160

P-ISBN(Paperback): 9781586039875

Subject： X Environmental Science, Safety Science

Keyword：环境科学、安全科学

Language： ENG

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Description

In many areas nutrient loadings to aquatic ecosystems have increased considerably as a result of population growth, industrial development and urbanisation. This has resulted in enhanced growth of phytoplankton, shifts in composition of the plankton community and changes in the structure of ecosystems, which are often considered to be objectionable. To help understanding these processes and to predict future conditions, a mathematical model, BLOOM, has been developed and applied since 1977. It simulates the biomass and composition of phytoplankton and macro algae in relation to the amount of nutrients, the under water light climate and grazing. It can be applied as a relatively simple screening tool, but also as part of advanced integrated modelling systems including additional hydrodynamic, suspended matter and habitat components. The model has been extensively validated, which means that its credibility was demonstrated systematically for certain types of applications. It has been applied as a supporting management tool to a very large number of aquatic systems worldwide: lakes, channel systems, estuaries, lagoons and coastal seas, using generic coefficients (one set for fresh water, one set for marine simulations) as much as possible. The principles of the model, its validation and a number of representative applications are described in Eco-Hydrodynamic Modelling of Primary Production in Coastal Waters and Lakes Using BLOOM.

Chapter

Chapter 1 Description of the BLOOM model

Description of the BLOOM model

Chapter 2 Phytoplankton modelling by means of optimization: A 10-years experience with BLOOM II

Phytoplankton modelling by means of optimization: A 10-years experience with BLOOM II

Chapter 3 Application of a validated primary production model (BLOOM) as a screening tool for marine, coastal and transitional waters

Application of a validated primary production model (BLOOM) as a screening tool for marine, coastal and transitional waters

Chapter 4 Mathematical modelling as a tool for management in eutrophication control of shallow lakes

Mathematical modelling as a tool for management in eutrophication control of shallow lakes

Chapter 5 Validation of water quality and ecological models

Validation of water quality and ecological models

Chapter 6 Impact of climatic fluctuations on Characeae biomass in a shallow, restored lake in The Netherlands

Impact of climatic fluctuations on Characeae biomass in a shallow, restored lake in The Netherlands

Chapter 7 Trend Analysis of Eutrophication in Dutch Coastal Waters for 1976 through 1994 Using a Mathematical Model

Trend Analysis of Eutrophication in Dutch Coastal Waters for 1976 through 1994 Using a Mathematical Model

Chapter 8 GEM: a generic ecological model for estuaries and coastal waters

GEM: a generic ecological model for estuaries and coastal waters

Chapter 9 A 3-dimensional primary production model (BLOOM/GEM) and its applications to the (southern) North Sea (coupled physical-chemical-ecological model)

A 3-dimensional primary production model (BLOOM/GEM) and its applications to the (southern) North Sea (coupled physical-chemical-ecological model)

Chapter 10 Complexity, accuracy and practical applicability of different biogeochemical model versions

Complexity, accuracy and practical applicability of different biogeochemical model versions

Summary

Curriculum vitae

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