Sedimentological and biostratigraphical analyses of short sediment cores from Hagelseewli (2339 m a.s.l.) in the Swiss Alps
Publication date
2000
Authors
Lotter, A.F.
Hofmann, W.
Kamenik, C.
Lami, A.
Ohlendorf, C.
Sturm, M.
Knaap, W.O. van der
Leeuwen, J.F.N. van
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Abstract
Several short sediment cores of between 35 and 40 cm from Hagelseewli, a small, remote lake in the Swiss Alps at an elevation of
2339 m a.s.l. were correlated according to their organic matter content. The sediments are characterized by organic silts and show
in their uppermost part a surprisingly high amount of organic matter (30-35%). Synchronous changes, occurring in pollen from
snow-bed vegetation, the alga Pediastrum, chironomids, and grain-size composition, point to a climatic change interpreted as cooler
or shorter summers that led to prolonged ice-cover on the lake. According to palynological results the sediments date back to at least
the early 15th century A.D., with the cooling phase encompassing the period between late 16th and the mid-19th century thus coinciding
with the Little Ice Age. Low concentrations of both chironomid head capsules and cladoceran remains in combination with results
from fossil pigment analyses point to longer periods of bottom-water anoxia as a result of long-lasting ice-cover that prevented
mixing of the water column. According to our results aquatic biota in Hagelseewli are mainly indirectly influenced by climate
change. The duration of ice-cover on the lake controls the mixing of the water column as well as light-availability for phytoplankton
blooms.
Keywords
diatoms, pollen, chironomids, cladocera, chrysophyte cysts, grain-size analysis