Development of a Lake Eutrophication model

This paper presents the development and critical testing of the Lake Eutrophication, Effect, Dose, Sensitivity (LEEDS)-model—an extensive dynamic compartmental model for predicting phosphorus concentrations and eutrophication effects in lake ecosystems, driven by easily accessible lake variables. Ea...

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Published inEcological modelling Vol. 171; no. 1; pp. 35 - 63
Main Authors Malmaeus, J.M., Håkanson, L.
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 2004
Elsevier
Subjects
Animal, plant and microbial ecology
Biological and medical sciences
Critical tests
Diffusion
Dynamic model
Freshwater
Fundamental and applied biological sciences. Psychology
General aspects. Techniques
Lake Eutrophication
Methods and techniques (sampling, tagging, trapping, modelling...)
Phosphorus
Production
Resuspension
Sedimentation
Stratification
Uncertainty
Lake Eutrophication
Uncertainty
Resuspension
Production
Phosphorus
Critical tests
Dynamic model
Diffusion
Stratification
Sedimentation
Eutrophication
Freshwater environment
Development
Lakes
Models
Online AccessGet full text
ISSN0304-3800
1872-7026
DOI10.1016/S0304-3800(03)00297-7

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Abstract This paper presents the development and critical testing of the Lake Eutrophication, Effect, Dose, Sensitivity (LEEDS)-model—an extensive dynamic compartmental model for predicting phosphorus concentrations and eutrophication effects in lake ecosystems, driven by easily accessible lake variables. Earlier model versions have been presented before, and the focus here is on the novelties. Several parts and processes in the model have been altered and the results of these changes are described and evaluated. Changes that provided significant differences and improved predictions have been adopted. These changes include addition of two compartments for colloidal phosphorus, a seasonal moderator for the lake outflow, higher settling velocity for resuspended material, new algorithms for mixing between deep water and surface water and for phosphorus diffusion from areas of sediment accumulation. Algorithms to calculate the water content and organic content of accumulation sediments and a sub-model for suspended particulate matter (SPM) are also introduced. The model predictions are in good agreement with empirical data from several lakes in a wide limnological domain. The main results presented in this paper are: (1) Various model equations, constants and structures have been critically tested and evaluated. (2) Based on these critical model tests, the model has been improved without additional driving variables. The complete description of the new model is given in Appendix A. The novelties include a seasonal moderator for the lake outflow, inclusion of phosphorus bound in phytoplankton in the fluxes from the lake, new algorithms for mixing and diffusion, introduction of two compartments for colloidal phosphorus, algorithms for water content and organic content in A-sediments and a sub-model for SPM. (3) The new model has been validated, showing good agreement against empirical data from different types of lakes. The new model should be considered as a useful tool for lake management as well as for explanatory purposes.
AbstractList This paper presents the development and critical testing of the Lake Eutrophication, Effect, Dose, Sensitivity (LEEDS)-model—an extensive dynamic compartmental model for predicting phosphorus concentrations and eutrophication effects in lake ecosystems, driven by easily accessible lake variables. Earlier model versions have been presented before, and the focus here is on the novelties. Several parts and processes in the model have been altered and the results of these changes are described and evaluated. Changes that provided significant differences and improved predictions have been adopted. These changes include addition of two compartments for colloidal phosphorus, a seasonal moderator for the lake outflow, higher settling velocity for resuspended material, new algorithms for mixing between deep water and surface water and for phosphorus diffusion from areas of sediment accumulation. Algorithms to calculate the water content and organic content of accumulation sediments and a sub-model for suspended particulate matter (SPM) are also introduced. The model predictions are in good agreement with empirical data from several lakes in a wide limnological domain. The main results presented in this paper are: (1) Various model equations, constants and structures have been critically tested and evaluated. (2) Based on these critical model tests, the model has been improved without additional driving variables. The complete description of the new model is given in Appendix A. The novelties include a seasonal moderator for the lake outflow, inclusion of phosphorus bound in phytoplankton in the fluxes from the lake, new algorithms for mixing and diffusion, introduction of two compartments for colloidal phosphorus, algorithms for water content and organic content in A-sediments and a sub-model for SPM. (3) The new model has been validated, showing good agreement against empirical data from different types of lakes. The new model should be considered as a useful tool for lake management as well as for explanatory purposes.
Issues considered during the development and testing of the Lake Eutrophication, Effect, Dose, Sensitivity (LEEDS) model are reviewed. The LEEDS model was developed as an extensive dynamic compartmental model intended for prediction of phosphorus concentrations and eutrophication trends in lake ecosystems. Leeds is driven by a number of easily determined lake parameters. The study highlighted the advances made in the current LEEDS model over previously described versions of the model. The most important changes made to the model include addition of two compartments for colloidal phosphorus, a seasonal moderator for the lake outflow, higher values for settling velocity for resuspended material, new algorithms for mixing between deep water and surface water, and strategies for evaluating phosphorus diffusion from regions of sediment accumulation.
This paper presents the development and critical testing of the Lake Eutrophication, Effect, Dose, Sensitivity (LEEDS)-model--an extensive dynamic compartmental model for predicting phosphorus concentrations and eutrophication effects in lake ecosystems, driven by easily accessible lake variables. Earlier model versions have been presented before, and the focus here is on the novelties. Several parts and processes in the model have been altered and the results of these changes are described and evaluated. Changes that provided significant differences and improved predictions have been adopted. These changes include addition of two compartments for colloidal phosphorus, a seasonal moderator for the lake outflow, higher settling velocity for resuspended material, new algorithms for mixing between deep water and surface water and for phosphorus diffusion from areas of sediment accumulation. Algorithms to calculate the water content and organic content of accumulation sediments and a sub-model for suspended particulate matter (SPM) are also introduced. The model predictions are in good agreement with empirical data from several lakes in a wide limnological domain.
Author Håkanson, L.
Malmaeus, J.M.
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Issue 1
Keywords Lake Eutrophication
Uncertainty
Resuspension
Production
Phosphorus
Critical tests
Dynamic model
Diffusion
Stratification
Sedimentation
Eutrophication
Freshwater environment
Development
Lakes
Models
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Snippet This paper presents the development and critical testing of the Lake Eutrophication, Effect, Dose, Sensitivity (LEEDS)-model—an extensive dynamic compartmental...
Issues considered during the development and testing of the Lake Eutrophication, Effect, Dose, Sensitivity (LEEDS) model are reviewed. The LEEDS model was...
This paper presents the development and critical testing of the Lake Eutrophication, Effect, Dose, Sensitivity (LEEDS)-model--an extensive dynamic...
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SubjectTerms Animal, plant and microbial ecology
Biological and medical sciences
Critical tests
Diffusion
Dynamic model
Freshwater
Fundamental and applied biological sciences. Psychology
General aspects. Techniques
Lake Eutrophication
Methods and techniques (sampling, tagging, trapping, modelling...)
Phosphorus
Production
Resuspension
Sedimentation
Stratification
Uncertainty
Title Development of a Lake Eutrophication model
URI https://dx.doi.org/10.1016/S0304-3800(03)00297-7
https://www.proquest.com/docview/14686571
https://www.proquest.com/docview/16160901
Volume 171
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