2009
DOI: 10.1016/j.geomorph.2008.12.002
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Interactions between a cushion plant (Azorella selago) and surface sediment transport on sub-Antarctic Marion Island

Abstract: a b s t r a c t a r t i c l e i n f oOn sub-Antarctic Marion Island cushions of the dominant vascular plant species, Azorella selago, interact with the geomorphology of fellfield landscapes by affecting sediment distribution and ultimately terrace formation. Here, to understand the consequences of Azorella cushions for substrate movement and sorting, we quantified the size and shape of Azorella cushions and the grain size distribution of sediment surrounding these cushions, using a combination of image analysi… Show more

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Cited by 20 publications
(32 citation statements)
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“…These features are characterized by a gradient of stability from fine, unstable material to larger stones around the edge. The latter also tend to accumulate snow, providing both water and a substratum for microbial and vegetation community development (Engelen et al 2008, see also Haussmann et al 2009). …”
Section: Disturbancementioning
confidence: 99%
“…These features are characterized by a gradient of stability from fine, unstable material to larger stones around the edge. The latter also tend to accumulate snow, providing both water and a substratum for microbial and vegetation community development (Engelen et al 2008, see also Haussmann et al 2009). …”
Section: Disturbancementioning
confidence: 99%
“…6A, 3); in addition, these linear areas often experience accelerated downslope shift (Pérez, 1990c(Pérez, , 2009a. Similar sediment rerouting around plants has been reported for slopes in Spitsbergen (Smith, 1956), the equatorial Andes (Pérez, 1987b), France (Bertran and Texier, 1999;Arquès, 2005), and the sub-Antarctic (Haussmann et al, 2009).…”
Section: Interactions Between Vegetation and Slope Processesmentioning
confidence: 65%
“…Diurnal frost creep in the sub-Antarctic creates high rates of soil surface disturbance that limit seedling establishment and may lead to vegetation dieback (Boelhouwers et al, 2003). Vegetation itself leads to microclimatic changes that result in spatial heterogeneity in soil frost intensity and resulting creep rates (Haussmann et al, 2009b). Vegetation itself leads to microclimatic changes that result in spatial heterogeneity in soil frost intensity and resulting creep rates (Haussmann et al, 2009b).…”
Section: Solifluctionmentioning
confidence: 99%