Long-term variation and regulation of internal phosphorus loading in Loch Leven

Long-term monitoring data (1968-2008) were used to investigate internal phosphorus (P) loading following external P loading reduction in shallow Loch Leven, Scotland. A whole-lake sediment P inventory (upper 3 cm of sediment; 2005) suggested a release-potential of 29.7 tonnes (t) from the release se...

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Bibliographic Details
Published in:Hydrobiologia
Main Authors: Spears, Bryan Millar, Carvalho, L., Perkins, Rupert Gordon, Kirika, A., Paterson, David Maxwell
Format: Article in Journal/Newspaper
Language:English
Published: 2012
Subjects:
Sediment
Phosphorus
Internal loading
Weather
Water quality
Recovery
Eutrophication
NORTH-ATLANTIC OSCILLATION
LARGE SHALLOW LAKE
WATER INTERFACE
EUTROPHIC LAKE
RELEASE
MACROPHYTES
SCOTLAND
KINROSS
LIGHT
North Atlantic
North Atlantic oscillation
Online Access:https://research-portal.st-andrews.ac.uk/en/publications/a3d6bae1-f30f-4431-86d3-71915352ef2f
https://doi.org/10.1007/s10750-011-0921-z
Description
Summary:Long-term monitoring data (1968-2008) were used to investigate internal phosphorus (P) loading following external P loading reduction in shallow Loch Leven, Scotland. A whole-lake sediment P inventory (upper 3 cm of sediment; 2005) suggested a release-potential of 29.7 tonnes (t) from the release sensitive sediment P pools. 18.5 t was contained within shallow water sediments (< 4.5 m water depth) with 7.6 t in deeper water sediments below the photic zone (> 5 m water depth). The "observed" release (< 5.1 t), estimated using a water column P mass balance approach (1989-2008), was < 5.1 t, indicating the presence of regulating mechanisms. Observed P release declined between 1989 and 2008, with the exception of 2003-2006. Observed P release estimates were positively correlated with annual average water column P concentration after 1989, highlighting the role of internal loading in maintaining poor water quality conditions after management intervention. Multiple regression analysis suggested that internal loading was driven by the wave mixed depth in spring (positive driver), summer water temperature (positive driver) and spring water clarity transparency (negative driver). The potential importance of biological and physico-chemical feedback mechanisms in the regulation of benthic-pelagic coupling and water quality in Loch Leven are discussed.

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