Late-glacial pollen and diatom changes in response to two different environmental perturbations: a volcanic eruption and the Younger Dryas cooling
Publication date
1995
Authors
Lotter, A.F.
Birks, H.J.B.
Zolitschka, B.
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Document Type
Article
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Abstract
A high-resolution pollen and diatom stratigraphy has been studied from late-glacial annually laminated sediments
of Holzmaar (425 m a.s.1., Germany). The sediment sequence studied comprises 475 varves and includes two
environmental perturbations of different type and duration: the short, abrupt deposition of the late Allerød tephra
layer of the Laacher See volcano (LST, 11 000 yr B.R), and the more gradual onset of the 'Younger Dryas climatic
cooling.
Numerical analyses involving (partial) redundancy analyses in connection with Monte Carlo permutation tests
suggest that the deposition of 78 mm of Laacher See Tephra had a statistically significant effect on the pollen
stratigraphy (percentage and accumulation rates), most probably because of the proximity of the site to the volcano.
The diatom accumulation rates also show a statistically significant change, whereas the diatom percentage data
do not change significantly. The between-sample rates-of-change in both biostratigraphies are higher at and just
after the LST event than at the transition to the Younger Dryas biozone. Sequence splitting of pollen and diatom
accumulation rate data also shows a clustering of significant splits at the LST event. A close correlation between
changes in the pollen and diatom percentage data for the investigated time-interval suggests a common underlying
climatic signal, whereas the accumulation rates of both biostratigraphies behave more individualistically and show
more short-term variability due, in part, to the inherent noise in the two data sets. Variance partitioning shows that
the local pollen and diatom assemblage zones explain much of the variance in the data-sets. Statistical modelling
using redundancy analysis shows that the changes in the diatom assemblages are best predicted by the Younger
Dryas biozone and the main changes in the pollen stratigraphy (as represented by the first PCA axis of the pollen
data).
The results suggest that the biostratigraphies studied at Holzmaar reflect generally stable systems which were
disturbed by the deposition of the Laacher See Tephra. After a phase of recovery both systems again reached a new
phase of stability prior to the long-term Younger Dryas climatic deterioration that perturbed the assemblages again.
The very close and statistically significant parallelism between the major stratigraphical patterns in the pollen and
diatom percentage data highlights the responses of the two biological systems to environmental perturbations at
different temporal scales.
Keywords
Younger Dryas, pollen, diatoms, varves, laminated sediment, Laacher See Tephra, Holzmaar, rates of change, sequence splitting, variance partitioning, redundancy analysis