Mid-to-late Holocene temperature evolution and atmospheric dynamics over Europe in regional model simulations
The improvement in resolution of climate models has always been mentioned as one of the most important factors when investigating past climatic conditions, especially in order to evaluate and compare the results against proxy data. Despite this, only a few studies have tried to directly estimate the...
Main Authors: | , |
---|---|
Format: | Article |
Language: | English |
Published: |
Copernicus Publications
2016-08-01
|
Series: | Climate of the Past |
Online Access: | http://www.clim-past.net/12/1645/2016/cp-12-1645-2016.pdf |
Summary: | The improvement in resolution of climate models has always been mentioned as
one of the most important factors when investigating past climatic
conditions, especially in order to evaluate and compare the results against
proxy data. Despite this, only a few studies have tried to directly estimate
the possible advantages of highly resolved simulations for the study of past
climate change.
<br><br>
Motivated by such considerations, in this paper we present a set of
high-resolution simulations for different time slices of the mid-to-late
Holocene performed over Europe using the state-of-the-art regional climate
model COSMO-CLM.
<br><br>
After proposing and testing a model configuration suitable for paleoclimate
applications, the aforementioned mid-to-late Holocene simulations are
compared against a new pollen-based climate reconstruction data set, covering
almost all of Europe, with two main objectives: testing the advantages of
high-resolution simulations for paleoclimatic applications, and investigating
the response of temperature to variations in the seasonal cycle of insolation
during the mid-to-late Holocene. With the aim of giving physically plausible
interpretations of the mismatches between model and reconstructions, possible
uncertainties of the pollen-based reconstructions are taken into
consideration.
<br><br>
Focusing our analysis on near-surface temperature, we can demonstrate that
concrete advantages arise in the use of highly resolved data for the
comparison against proxy-reconstructions and the investigation of past
climate change.
<br><br>
Additionally, our results reinforce previous findings showing that summertime
temperatures during the mid-to-late Holocene were driven mainly by changes in
insolation and that the model is too sensitive to such changes over Southern
Europe, resulting in drier and warmer conditions. However, in winter, the
model does not correctly reproduce the same amplitude of changes evident in
the reconstructions, even if it captures the main pattern of the pollen
data set over most of the domain for the time periods under investigation.
Through the analysis of variations in atmospheric circulation we suggest
that, even though the wintertime discrepancies between the two data sets in
some areas are most likely due to high pollen uncertainties, in general the
model seems to underestimate the changes in the amplitude of the North
Atlantic Oscillation, overestimating the contribution of secondary modes of
variability. |
---|---|
ISSN: | 1814-9324 1814-9332 |