H. Zoller et al., Late-glacial and Holocene vegetation and climate change at the Palu glacier, Bernina pass, Grisons canton, Switzerland, VEG HIST AR, 7(4), 1998, pp. 241-249
Pollen and macrofossil data from Alpe Palu, south-eastern Switzerland, are
presented. On the basis of these data and the geomorphological evidence for
local glacier movement, Holocene climatic oscillations and vegetation chan
ge at this upland site (1940 m asl), are reconstructed. The morainic deposi
ts and glacial clays, as well as the pollen data from the base of the polle
n profile, clearly show that the Palu glacier, after its retreat from the C
avaglia (Egesen) stade, readvanced once again shortly before the mid-Prebor
eal. This re-advance was considerably greater than that dating to the Littl
e Ice Age. This early Holocene climatic event is referred to as the Palu Os
cillation (Paluw-Schwankung) and is considered to be broadly contemporaneou
s with the previously described Schlaten Oscillation (Schlatan-Schwankung:)
in the Austrian Alps. The reforestation of the forefield of the moraine wa
s interrupted at least twice during this oscillation, and, compared with ne
ighbouring sites at the same altitude, it appears to be at least 500-700 ye
ars younger, i. e. it post-dates 9400 B.P. Though the Palu Oscillation is a
Holocene phenomenon, the associated vegetation changes are Late-glacial in
character, e.g. Artemisia and Chenopodiaceae increase and Hippophae is rec
orded Alnus viridis replaces Betula and Salix, which were important in the
earlier part of the Holocene, at about 5000 B.P. There is no clear evidence
that forest burning is attributable to human activity. The use of Larix-do
minated areas as pasture (Larchwiesen) begins in the mid-Bronze Age. A stro
ng decline in Picea (spruce) and Larix (larch), and an increase in Poaceae,
Plantago and other herbs in the uppermost horizons reflect more intensive
pastoral farming that began in the high Middle Ages.