Patterned quaking mire at Handspike Point, Macquarie Island

Raised mires occur on an emerging marine terrace of Holocene age at Handspike Point, Macquarie Island, and slope seawards. Ponions of these mires are characterised by numerous, anastomosing to parallel, low peat ridges, separated by waterlogged troughs. The resulting patterns arc accentuated by the...

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Bibliographic Details
Published in:Papers and Proceedings of the Royal Society of Tasmania
Main Author: Rich, J
Format: Article in Journal/Newspaper
Language:English
Published: 1996
Subjects:
Royal Society of Tasmania
RST
Van Diemens Land
natural history
science
ecology
taxonomy
botany
zoology
geology
geography
papers & proceedings
Australia
UTAS Library
Macquarie Island
Online Access:https://eprints.utas.edu.au/13662/
https://eprints.utas.edu.au/13662/4/1996-part1-Rich-patterned.pdf
Description
Summary:Raised mires occur on an emerging marine terrace of Holocene age at Handspike Point, Macquarie Island, and slope seawards. Ponions of these mires are characterised by numerous, anastomosing to parallel, low peat ridges, separated by waterlogged troughs. The resulting patterns arc accentuated by the distinctive rosette plant Pleurophyllurn hookeri, which grows only on the ridges. Sampling suggests that ridge and trough patterns persist to at least l.)m depth. Pleurophy/lum colonisation appears to be a function of the difference in trough: ridge peat bulk density. As chis density ratio approaches 0.8, waterlogging decreases and Pleurophyllurn vigour is enhanced. Patterns are oriented at various angles to the present surface slopes, bur roughly parallel to the plateau margin and normal to the regional slope of the marine terrace. The divergence between pattern and local contour orientation results from non-uniform accretion. Patterns at angles to the contours appear to provide benefits which include enhanced water-level stability. The Handspike mires exhibit many characteristics of patterned and non-pancrned peatlands ubiquitous throughout the Northern Hemisphere, with particular similarities to eccentric domed mires of the Baltic region. Vertical accretion is estimated to average 1mm yr-1; lateral accretion appears to be in equilibrium with the emerging marine terrace.

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