Hostname: page-component-78c5997874-lj6df Total loading time: 0 Render date: 2024-11-19T04:17:00.405Z Has data issue: false hasContentIssue false

The Loch Fleet Project, SW Scotland

Published online by Cambridge University Press:  03 November 2011

Gwyneth Howells
Affiliation:
Department of Applied Biology, University of Cambridge, Pembroke Street, Cambridge CB2 3DX, U.K.
D. J. A. Brown
Affiliation:
Life Sciences Branch, Central Electricity Research Laboratories, Leatherhead, Surrey.

Abstract

Loch Fleet is an upland loch in SW Scotland, distant from significant local pollution, and unlikely to be affected by changes during the five-year project. The underlying geology is granitic. The 111 ha catchment is 90% moorland, dominated by heather and flying bent; 10% is planted with conifers.

Rainfall is approximately 2200 mm per year, predominantly from W and SW. More than half of rain events are pH>4·7; mean pH is 4·84 (1985). Marine salts are the major solutes. Deposition of acidity is about 0·1 g H+ m−2 per year, about twice that of eastern Scotland; deposition of non-seasalt sulphur is 1·6 g S m−2 per year. Soils are shallow and comprise organic peats, peaty gleys, and peaty rankers; base saturation is 3–19%. Soils (pH 2·5 to 4·6) are most acid in the forested area.

The loch is more acid (×5) than bulk deposition; additional acidity is mobilised from soils by the predominantly (>90%) superficial drainage. Moorland drainage dominates; that from the forest is more acid, but very variable in quantity and composition.

Catchment interventions in 1986 and 1987 are designed to alter the chemistry of drainage waters and the loch, so that the fishery can be restored. In addition to the work reported, extensive soils, sediment and biological investigations are underway.

Type
Research catchments in Scotland
Copyright
Copyright © Royal Society of Edinburgh 1987

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

References

Howells, G. (ed.) 1986. Loch Fleet Project: A Report of the Pre-Intervention Phase 19841986. Leatherhead: CERL.Google Scholar
Al: Hudson, C. et al. , Soils and Vegetation of the Loch Fleet Catchment.Google Scholar
A2: Wilson, M. J., Smith, B. F. L. & Mellor, A. Aluminium Status and Mineral Weathering Processes of the Soils of the Loch Fleet Catchment.Google Scholar
A4: Leech, A. F. Changes in rain and soil water chemistry on passage through a forest canopy at Loch Fleet, Galloway.Google Scholar
A5: Nisbet, T. R. Changes in rain and soil water chemistry through a forested and unforested site at Loch Fleet, Galloway.Google Scholar
A7: Edmunds, W. M., Robins, N. S. & Cook, J. M. Groundwater Contribution to the Loch Fleet Catchment.Google Scholar

Additional references

Altshuller, A. P. & Linthurst, R. A. 1984. The Acidic Deposition Phenomenon and its Effects. PUBL US ENVIRON PROT AGENCY, EPA-600/8-83-016 AF.Google Scholar
Beament, J. W. L. et al. 1984. The Ecological Effects of Deposited Sulphur and Nitrogen Compounds. PHILOS TRANS R SOC LONDON B305, 255577.Google Scholar
Fraser, J. E. & Britt, D. L. 1982. Liming of Acidified Waters: A review of methods and effects on aquatic ecosystems. US FISH WILDL SERV, FWS/OBS-80/40.13.Google Scholar
Gardner, M. J. 1985. The determination of pH in poorly buffered waters: results of a programme of collaborative analytical quality control. WATER RES CENT REP, ER 911-M.Google Scholar
General Research Corporation 1985. Lake Acidification Mitigation Project, 1397-05-84-CR.Google Scholar
Lynam, S. 1986. The measurement of aluminium in fresh water—a method for laboratory and field use. CERL MEM TPRD/L/BY/075/M85.Google Scholar
National Swedish Environment Protection Board 1984. Action Program against Air Pollution and Acid Rain.Google Scholar
National Swedish Environment Protection Board 1985. Monitor 1985. Helsingborg: National Swedish Environment Protection Board.Google Scholar
Welsh Water/South Western District 1986. Liming to combat surface water acidification in West Wales. WA REP SW/86/13.Google Scholar