Modelling water transport and phosphorus eutrophication in an interconnected lake system : a scenario study

Modelling water transport and phosphorus eutrophication in an interconnected lake system : a scenario study

The water in the south-western Frisian lake district is highly eutrophicated. Summer chlorophyll-a concentrations often exceed 150 μg.l -1, while total phosphorus (TP) concentrations are mostly above 0.2 mg.l -1. Therefore, a research project was started in 1984 to study the origin and dynamics of phosphorus (P) in the area. The nutrient P was chosen because reducing TP concentrations was believed to result in favourable conditions for restoration of the aquatic ecosystem. The objective of the study was to model the TP dynamics and to use the model for the simulation of management reduction scenarios. In order to achieve this objective, three problems had to be solved. Firstly, information about the water transport, especially in the boundary canals, was poor. This problem was solved by the application of a wind driven water transport model using water levels in the boundary canals. Secondly, the lack of large-scale information about the TP loads from the surrounding polders was solved by an intensive monitoring program. Thirdly, knowledge about the distribution of TP in sediments and about TP exchange processes between water and sediments had to be assessed. The simulations with the dynamic TP mass balance model resulted in TP balances during three periods, showing that there were two main sources in the area: from the surrounding polders and from Lake IJssel. Moreover, management simulation scenarios showed that 75% TP concentration reductions in the external loads would be necessary to achieve the 0. 15 mg.l -1TP concentration standard and incidentally the 0.07 mg.l -1. target concentration.

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Bibliographic Details
Main Author: van Huet, H.
Other Authors: van Straten, G.
Format: Doctoral thesis biblioteca
Language:English
Published: Landbouwuniversiteit Wageningen
Subjects:Netherlands, analogues, derivatives, eutrophication, friesland, hydrology, lakes, models, phosphates, phosphorus, phosphorus pentoxide, ponds, research, reservoirs, stream flow, turbulence, water, water pollution, water quality, wind, Nederland, analogen, derivaten, eutrofiëring, fosfaten, fosfor, fosforpentoxide, hydrologie, meren, modellen, onderzoek, plassen, rivierafvoer, turbulentie, waterkwaliteit, waterverontreiniging,
Online Access:https://research.wur.nl/en/publications/modelling-water-transport-and-phosphorus-eutrophication-in-an-int
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spelling dig-wur-nl-wurpubs-140382024-10-23 van Huet, H. van Straten, G. Rijnsdorp, J.E. Doctoral thesis Modelling water transport and phosphorus eutrophication in an interconnected lake system : a scenario study 1991 The water in the south-western Frisian lake district is highly eutrophicated. Summer chlorophyll-a concentrations often exceed 150 μg.l -1, while total phosphorus (TP) concentrations are mostly above 0.2 mg.l -1. Therefore, a research project was started in 1984 to study the origin and dynamics of phosphorus (P) in the area. The nutrient P was chosen because reducing TP concentrations was believed to result in favourable conditions for restoration of the aquatic ecosystem. The objective of the study was to model the TP dynamics and to use the model for the simulation of management reduction scenarios. In order to achieve this objective, three problems had to be solved. Firstly, information about the water transport, especially in the boundary canals, was poor. This problem was solved by the application of a wind driven water transport model using water levels in the boundary canals. Secondly, the lack of large-scale information about the TP loads from the surrounding polders was solved by an intensive monitoring program. Thirdly, knowledge about the distribution of TP in sediments and about TP exchange processes between water and sediments had to be assessed. The simulations with the dynamic TP mass balance model resulted in TP balances during three periods, showing that there were two main sources in the area: from the surrounding polders and from Lake IJssel. Moreover, management simulation scenarios showed that 75% TP concentration reductions in the external loads would be necessary to achieve the 0. 15 mg.l -1TP concentration standard and incidentally the 0.07 mg.l -1. target concentration. en Landbouwuniversiteit Wageningen application/pdf https://research.wur.nl/en/publications/modelling-water-transport-and-phosphorus-eutrophication-in-an-int 10.18174/202858 https://edepot.wur.nl/202858 Netherlands analogues derivatives eutrophication friesland hydrology lakes models phosphates phosphorus phosphorus pentoxide ponds research reservoirs stream flow turbulence water water pollution water quality wind Nederland analogen derivaten eutrofiëring fosfaten fosfor fosforpentoxide friesland hydrologie meren modellen onderzoek plassen reservoirs rivierafvoer turbulentie water waterkwaliteit waterverontreiniging wind Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Netherlands
analogues
derivatives
eutrophication
friesland
hydrology
lakes
models
phosphates
phosphorus
phosphorus pentoxide
ponds
research
reservoirs
stream flow
turbulence
water
water pollution
water quality
wind
Nederland
analogen
derivaten
eutrofiëring
fosfaten
fosfor
fosforpentoxide
friesland
hydrologie
meren
modellen
onderzoek
plassen
reservoirs
rivierafvoer
turbulentie
water
waterkwaliteit
waterverontreiniging
wind
Netherlands
analogues
derivatives
eutrophication
friesland
hydrology
lakes
models
phosphates
phosphorus
phosphorus pentoxide
ponds
research
reservoirs
stream flow
turbulence
water
water pollution
water quality
wind
Nederland
analogen
derivaten
eutrofiëring
fosfaten
fosfor
fosforpentoxide
friesland
hydrologie
meren
modellen
onderzoek
plassen
reservoirs
rivierafvoer
turbulentie
water
waterkwaliteit
waterverontreiniging
wind
spellingShingle Netherlands
analogues
derivatives
eutrophication
friesland
hydrology
lakes
models
phosphates
phosphorus
phosphorus pentoxide
ponds
research
reservoirs
stream flow
turbulence
water
water pollution
water quality
wind
Nederland
analogen
derivaten
eutrofiëring
fosfaten
fosfor
fosforpentoxide
friesland
hydrologie
meren
modellen
onderzoek
plassen
reservoirs
rivierafvoer
turbulentie
water
waterkwaliteit
waterverontreiniging
wind
Netherlands
analogues
derivatives
eutrophication
friesland
hydrology
lakes
models
phosphates
phosphorus
phosphorus pentoxide
ponds
research
reservoirs
stream flow
turbulence
water
water pollution
water quality
wind
Nederland
analogen
derivaten
eutrofiëring
fosfaten
fosfor
fosforpentoxide
friesland
hydrologie
meren
modellen
onderzoek
plassen
reservoirs
rivierafvoer
turbulentie
water
waterkwaliteit
waterverontreiniging
wind
van Huet, H.
Modelling water transport and phosphorus eutrophication in an interconnected lake system : a scenario study
description The water in the south-western Frisian lake district is highly eutrophicated. Summer chlorophyll-a concentrations often exceed 150 μg.l -1, while total phosphorus (TP) concentrations are mostly above 0.2 mg.l -1. Therefore, a research project was started in 1984 to study the origin and dynamics of phosphorus (P) in the area. The nutrient P was chosen because reducing TP concentrations was believed to result in favourable conditions for restoration of the aquatic ecosystem. The objective of the study was to model the TP dynamics and to use the model for the simulation of management reduction scenarios. In order to achieve this objective, three problems had to be solved. Firstly, information about the water transport, especially in the boundary canals, was poor. This problem was solved by the application of a wind driven water transport model using water levels in the boundary canals. Secondly, the lack of large-scale information about the TP loads from the surrounding polders was solved by an intensive monitoring program. Thirdly, knowledge about the distribution of TP in sediments and about TP exchange processes between water and sediments had to be assessed. The simulations with the dynamic TP mass balance model resulted in TP balances during three periods, showing that there were two main sources in the area: from the surrounding polders and from Lake IJssel. Moreover, management simulation scenarios showed that 75% TP concentration reductions in the external loads would be necessary to achieve the 0. 15 mg.l -1TP concentration standard and incidentally the 0.07 mg.l -1. target concentration.
author2 van Straten, G.
author_facet van Straten, G.
van Huet, H.
format Doctoral thesis
topic_facet Netherlands
analogues
derivatives
eutrophication
friesland
hydrology
lakes
models
phosphates
phosphorus
phosphorus pentoxide
ponds
research
reservoirs
stream flow
turbulence
water
water pollution
water quality
wind
Nederland
analogen
derivaten
eutrofiëring
fosfaten
fosfor
fosforpentoxide
friesland
hydrologie
meren
modellen
onderzoek
plassen
reservoirs
rivierafvoer
turbulentie
water
waterkwaliteit
waterverontreiniging
wind
author van Huet, H.
author_sort van Huet, H.
title Modelling water transport and phosphorus eutrophication in an interconnected lake system : a scenario study
title_short Modelling water transport and phosphorus eutrophication in an interconnected lake system : a scenario study
title_full Modelling water transport and phosphorus eutrophication in an interconnected lake system : a scenario study
title_fullStr Modelling water transport and phosphorus eutrophication in an interconnected lake system : a scenario study
title_full_unstemmed Modelling water transport and phosphorus eutrophication in an interconnected lake system : a scenario study
title_sort modelling water transport and phosphorus eutrophication in an interconnected lake system : a scenario study
publisher Landbouwuniversiteit Wageningen
url https://research.wur.nl/en/publications/modelling-water-transport-and-phosphorus-eutrophication-in-an-int
work_keys_str_mv AT vanhueth modellingwatertransportandphosphoruseutrophicationinaninterconnectedlakesystemascenariostudy
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