Acidification in Three Lake District Tarns: Historical Iong term trends and modelled future behaviour under changing sulphate and nitrate deposition

Acidification in Three Lake District Tarns: Historical Iong term trends and modelled future behaviour under changing sulphate and nitrate deposition

Three upland Lake District Tarns, Scoat, Greendale and Burnmoor, have been evaluated using MAGIC (Model of Acidification of Groundwater In Catchments) to reconstruct past, present and future chemical behaviour. The modelled historical changes in acidity are compared with palaeoecological estimation...

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Main Authors: P. G. Whitchead, J. Barlow, E. Y. Haworth, J. K. Adamson
Format: Article
Language:English
Published: Copernicus Publications 1997-01-01
Series:Hydrology and Earth System Sciences
Online Access:http://www.hydrol-earth-syst-sci.net/1/197/1997/hess-1-197-1997.pdf
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spelling doaj-12a1c806975b4ec3b1737b99215bf8352020-11-24T22:39:37ZengCopernicus PublicationsHydrology and Earth System Sciences1027-56061607-79381997-01-0111197204Acidification in Three Lake District Tarns: Historical Iong term trends and modelled future behaviour under changing sulphate and nitrate depositionP. G. WhitcheadJ. BarlowE. Y. HaworthJ. K. AdamsonThree upland Lake District Tarns, Scoat, Greendale and Burnmoor, have been evaluated using MAGIC (Model of Acidification of Groundwater In Catchments) to reconstruct past, present and future chemical behaviour. The modelled historical changes in acidity are compared with palaeoecological estimation of pH to demonstrate model validity. Chemistry as simulated for all anions and cations and two of the three lakes are shown to have undergone significant acidification. The effects of changing atmospheric pollution levels on lake chemistry is evaluated and 80-90% sulphur reduction levels are required to achieve zero alkalinity. The impacts of increased nitrogen deposition are assessed and are shown to further delay reversibility.http://www.hydrol-earth-syst-sci.net/1/197/1997/hess-1-197-1997.pdf
collection DOAJ
language English
format Article
sources DOAJ
author P. G. Whitchead
J. Barlow
E. Y. Haworth
J. K. Adamson
spellingShingle P. G. Whitchead
J. Barlow
E. Y. Haworth
J. K. Adamson
Acidification in Three Lake District Tarns: Historical Iong term trends and modelled future behaviour under changing sulphate and nitrate deposition
Hydrology and Earth System Sciences
author_facet P. G. Whitchead
J. Barlow
E. Y. Haworth
J. K. Adamson
author_sort P. G. Whitchead
title Acidification in Three Lake District Tarns: Historical Iong term trends and modelled future behaviour under changing sulphate and nitrate deposition
title_short Acidification in Three Lake District Tarns: Historical Iong term trends and modelled future behaviour under changing sulphate and nitrate deposition
title_full Acidification in Three Lake District Tarns: Historical Iong term trends and modelled future behaviour under changing sulphate and nitrate deposition
title_fullStr Acidification in Three Lake District Tarns: Historical Iong term trends and modelled future behaviour under changing sulphate and nitrate deposition
title_full_unstemmed Acidification in Three Lake District Tarns: Historical Iong term trends and modelled future behaviour under changing sulphate and nitrate deposition
title_sort acidification in three lake district tarns: historical iong term trends and modelled future behaviour under changing sulphate and nitrate deposition
publisher Copernicus Publications
series Hydrology and Earth System Sciences
issn 1027-5606
1607-7938
publishDate 1997-01-01
description Three upland Lake District Tarns, Scoat, Greendale and Burnmoor, have been evaluated using MAGIC (Model of Acidification of Groundwater In Catchments) to reconstruct past, present and future chemical behaviour. The modelled historical changes in acidity are compared with palaeoecological estimation of pH to demonstrate model validity. Chemistry as simulated for all anions and cations and two of the three lakes are shown to have undergone significant acidification. The effects of changing atmospheric pollution levels on lake chemistry is evaluated and 80-90% sulphur reduction levels are required to achieve zero alkalinity. The impacts of increased nitrogen deposition are assessed and are shown to further delay reversibility.
url http://www.hydrol-earth-syst-sci.net/1/197/1997/hess-1-197-1997.pdf
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AT eyhaworth acidificationinthreelakedistricttarnshistoricaliongtermtrendsandmodelledfuturebehaviourunderchangingsulphateandnitratedeposition
AT jkadamson acidificationinthreelakedistricttarnshistoricaliongtermtrendsandmodelledfuturebehaviourunderchangingsulphateandnitratedeposition
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