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CR 11:161-172 (1999)
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Abstract
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Changing storminess? An analysis of long-term sea level data sets
W. Bijl1,*, R. Flather2, J. G. de Ronde1, T. Schmith3
1National Institute for Coastal and Marine Management, Kortenaerkade 1, 2518 AX The Hague, The Netherlands
2Proudman Oceanographic Laboratory, Bidston Observatory, Birkenhead, GB-Merseyside L43 7RA, United Kingdom
3Danish Meteorological Institute, Lyngbyvej 100, DK-2100 Copenhagen, Denmark
*E-mail: w.bijl@dlb.rws.minvenw.nl
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ABSTRACT: This paper considers the analysis of long-term observational sea level data sets within the context of a possible change in storminess over North-West Europe. Sea level variations are studied as a proxy for storminess, i.e. in the synoptic
frequency band. In that band, a proxy correspondence is assumed between sea levels and wind stress, although with some damping of the highest frequencies. Trends and variability over the past 100 yr are studied. However, a complicating factor is that many
data sets include astronomical tidal influences (e.g. spring tide-neap tide cycle), which mask the signal that is of most interest in this study. Sea level data sets from stations in the coastal zones of North-West Europe were collected, homogenised and
made free of auto-correlation. To analyse these data sets, the 'quantile analysis method' is presented. This method involves an advanced analysis technique which, on the basis of a frequency analysis, determines the roughness/smoothness of succeeding
decades in relation to the complete time period of a data set. Possible storm-related trends and variations in this decadal quantity are defined by means of linear regression. Besides this main method, a time-shift variant of the quantile analysis method
is applied in order to discuss the sensitivity of the obtained results. This sensitivity is also investigated with respect to the length of the time period in which a complete data set is split up. Although the analysis results show considerable natural
variability on relatively short (decadal) time scales, no sign of a significant increase in storminess over North-West Europe is detected over the complete time period of the data sets. The results indicate a distinction between stations in the German
Bight and stations in the southern part of the North Sea. In the latter area, the natural variability is more moderate and there appears to be a tendency towards a weakening of the storm activity over the past 100 yr (not significant). Stations in the
German Bight show a more enhanced natural variability on relatively short (decadal) time scales, with no indication of a weakening of the storm climate.
KEY WORDS: Climate change · Storminess · Homogenisation · Time series
Full text in pdf format
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Published in CR Vol.
11, No. 2
(1999) on March 22
ISSN: 0936-577X.
Copyright © Inter-Research, Oldendorf/Luhe, 1999
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