Sylvin H. Müller-Navarra scite author profile

The detection of potential long-term changes in historical storm statistics and storm surges plays a vitally important role for protecting coastal communities. In the absence of long homogeneous wind records, the authors present a novel, independent, and homogeneous storm surge record based on water level observations in the North Sea since 1843. Storm surges are characterized by considerable interannual-to-decadal variability linked to large-scale atmospheric circulation patterns. Time periods of increased storm surge levels prevailed in the late nineteenth and twentieth centuries without any evidence for significant long-term trends. This contradicts with recent findings based on reanalysis data, which suggest increasing storminess in the region since the late nineteenth century. The authors compare the wind and pressure fields from the Twentieth-Century Reanalysis (20CRv2) with the storm surge record by applying state-of-the-art empirical wind surge formulas. The comparison reveals that the reanalysis is a valuable tool that leads to good results over the past 100 yr; previously the statistical relationship fails, leaving significantly lower values in the upper percentiles of the predicted surge time series. These low values lead to significant upward trends over the entire investigation period, which are in turn supported by neither the storm surge record nor an independent circulation index based on homogeneous pressure readings. The authors therefore suggest that these differences are related to higher uncertainties in the earlier years of the 20CRv2 over the North Sea region.

show abstract

Sea State, Tides

Schmager¹,

Fröhle²,

Schrader

et al. 2008

View full text Add to dashboard Cite

show abstract

Improvements of an empirical model to forecast wind surge in the German Bight

Müller-Navarra

Giese

1999

Deutsche Hydrographische Zeitschrift

View full text Add to dashboard Cite

Categorisation of Meteorological Conditions for Storm Tide Episodes in the German Bight

Gerber¹,

Ganske²,

Müller-Navarra³

et al. 2016

metz

View full text Add to dashboard Cite

Performance of operational systems with respect to water level forecasts in the Gulf of Finland

et al. 2008

View full text Add to dashboard Cite

This paper is devoted to the validation of water level forecasts in the Gulf of Finland. Daily forecasts produced by four setups of operational, three-dimensional Baltic Sea oceanographic models are analyzed using statistical means and are compared with water level observations at three Finnish stations located on the northern coast of the Gulf of Finland. The overall conclusion is that the operational systems were skillful in forecasting water level variations during the study period from November 1, 2003, to January 31, 2005. The factors causing differences between the water level forecasts of different models are discussed as well. An important task of operational sea level forecasting services is to provide accurate and early information about extreme water levels, both positive and negative surges. During the study period, two major winter storms occurred which caused coastal flooding in the region. According to our analysis, the operational models forecast the rise of water levels during these events rather successfully. Nowadays, operational forecasts can provide early warnings of extreme water levels at least 1 day in advance, which may be regarded as a minimum requirement for an operational forecasting system. The paper concludes that the models generally performed very well, with over 93% of the hourly water level forecasts found to be within the range of ±15 cm of the observed water levels, and with the timing of the water level peaks accurately predicted. Further discussion and studies dealing with the assessment of the skills of both operational meteorological and oceanographic forecasts, especially in connection with rare surge events, will be necessary. Skill assessment of operational oceanographic models would be relatively easy if acceptable error limits or a quality system was developed for the Baltic Sea operational models.

show abstract

A one-dimensional dispersion model for radionuclides in the marine environment applied to the chernobyl fallout over the Northern Baltic Sea

Ribbe

Müller-Navarra

Nies

1991

Journal of Environmental Radioactivity

View full text Add to dashboard Cite

As a result of the Chernobyl fallout the Baltic Sea was the most affected marine ecosystem. The occurrence of 'hot spots' at the water surface was characteristic for the contamination. A one dimensional vertical dispersion model was used to explain the distribution of the radionuclides cesium 137 and cesium 134 in the water column of the central Bothnian Sea for the first six months after the contamination. In addition to the physical dispersion processes, specific chemical characteristics of the radionuclides were taken into consideration. During the time of siumulation, 5 per cent of the radionuclides cesium 137 and cesium 134 were trapped in the sediment, and 50 per cent of the plutonium 239/240 activity concentration was deposited, however, it's activity concentration measured in the water column was close to the limit of detection.

show abstract

Model Simulations of the Transport of Odra Flood Water through the Szczecin Lagoon into the Pomeranian Bight in July/August 1997

Müller-Navarra¹,

Huber

Komo

1999

Acta hydrochim. hydrobiol.

View full text Add to dashboard Cite

Model simulations of the transport of Odra flood water through the Szczecin Lagoon into the Pomeranian Bight in July/August 1997

Müller-Navarra

Huber

Komo

1998

Deutsche Hydrographische Zeitschrift

View full text Add to dashboard Cite

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.