Use this URL to cite or link to this record in EThOS:
Title: The modern and late Holocene marine environments of Loch Sunart, N.W. Scotland
Author: Cage, Alix Gayle
Awarding Body: University of St Andrews
Current Institution: University of St Andrews
Date of Award: 2006
Availability of Full Text:
Access from EThOS:
Access from Institution:
The first study to exploit the sedimentary archives of Loch Sunart, a relatively well-flushed fjord on the NW coast of Scotland, for palaeoenvironmental reconstruction is presented. In order to understand environmental influences on past environments, the modern physical, chemical and biological conditions of the loch and surrounding catchment were studied. Both observational and computer modelled annual inner basin salinity show a clear response to climatic forcing, modulated by NAO behaviour. Main basin salinity appears to remain very stable and a well-defined salinity: δ18O relationship suggests excellent potential for palaeotemperature reconstructions based on foraminiferal δ18O . Multi-variate statistical analyses identified 4 benthic foraminiferal assemblage groups in the surface sediments of the loch: A) restricted basin (E. scaber); B) very high current activity (C. lobatulus-A. mammilla -A. beccarii); C) calm environment undera stratified water column (B. marginata-N. turgida-S. fusiformis) and D) coastal water influence and mild/episodic current activity (A. beccarii-C. lobatulus-S. wrightii-E. excavatum). Using assemblage data, an existing benthic foraminiferal transfer function was modified in order to reconstruct Loch Sunart bottom water temperature (BWS); these reconstructions agree well with Scottish coastal temperature series (Millport). C. lobatulus appears to calcify close to theoretical equilibrium δ18O calcite (Δδ18O = -0.11 ± 0.17 %), probably during the warm bottom water temperatures (BWT) of late autumn, and predominantly reflects changes in BWT rather than BWS in the main basin of Loch Sunart. The first late Holocene high resolution palaeoenvironmental reconstruction from the deep (121 m) main basin of Loch Sunart is presented; gravity core (GC023) is 3 m long and spans the last 2,000 years. Despite difficulties with geochronology, palaeoenvironmental reconstructions from Loch Sunart suggest that these high resolution sedimentary archives have the potential to resolve inter-annual marine climate variability of the order of 1-2°C and capture an integrated record of changes in the catchment and marine environment.
Supervisor: Austin, William E. N. Sponsor: University of St Andrews ; Scottish International Education Trust ; Russell Trust
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID:  DOI: Not available