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Mineral deficiency and the presence of Pinus sylvestris on mires during the mid- to late Holocene: palaeoecological data from Cadogan's Bog, Mizen Peninsula, Co. Cork, southwest Ireland

Centre for Quaternary Science, Geography, School of Science and the Environment, Coventry University, Priory Street, Coventry CV1 5FB, UK; gex043{at}cov.ac.uk

J. G. A. Lageard

Department of Environmental and Leisure Studies, Manchester Metropolitan University, Crewe Campus, Crewe Green Road, Crewe, Cheshire CW1 5DU, UK

F. M. Chambers

Centre for Environmental Change and Quaternary Research, School of Environment, University of Gloucestershire, Francis Close Hall, Swindon Road, Cheltenham GL50 4AZ, UK

M. H. Field

P. Mahi

Centre for Quaternary Science, Geography, School of Science and the Environment, Coventry University, Priory Street, Coventry CV1 5FB, UK

Pollen records across parts of Ireland, England and northern Scotland show a dramatic collapse in Pinus pollen percentages at approximately 4000 radiocarbon years BP. This phenomenon has attracted much palaeoecological interest and several hypotheses have been put forward to account for this often synchronous and rapid reduction in pine from mid-Holocene woodland. Explanations for the ‘pine decline’ include prehistoric human activity, climatic change, in particular a substantial increase in precipitation resulting in increased mire wetness, and airborne pollution associated with the deposition of tephra. Hitherto, one largely untested hypothesis is that mineral deficiency could adversely affect pine growth and regeneration on mire surfaces. The discovery of pine-tree remains (wood pieces, stumps and trunks) within a peat located at Cadogan's Bog on the Mizen Peninsula, southwest Ireland, provided an opportunity to investigate the history of Pinus sylvestris and also to assess the importance of mineral nutrition in maintaining pine growth on mires. Pollen, plant macrofossils, microscopic charcoal and geochemical data are presented from a radiocarbon dated monolith extracted from this peat together with tree ring-width data and radiocarbon dated age estimates from subfossil wood. Analyses of these data suggest that peat accumulation commenced at the site around 6000 years BP when pine was the dominant local tree. Thereafter Pinus pollen percentages diminish in two stages, with the second decline taking place around 4160 6 50 years BP. Concomitant with this decline in Pinus pollen, there is a noticeable, short-lived increase in wet-loving mire taxa and a decrease in the concentration of phosphorus, potassium, magnesium, calcium, sodium, iron and zinc. These results suggest that increased mire surface wetness, possibly the result of a change in climate, created conditions unsuitable for pine growth c. 4000 years BP. Mire surface wetness, coupled with a period of associated nutrient deficiency, appears to be a possible explanation for a lack of subsequent pine-seedling establishment for most of the later Holocene.

Key Words: Pinus sylvestris • pine decline • pine pollen • dendrochronology • subfossil wood • peat chemistry • mineral deficiency • Mizen Peninsula • southwest Ireland • Holocene

The Holocene, Vol. 14, No. 1, 95-109 (2004)
DOI: 10.1191/0959683604hl692rp


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