Rosmarie de Wit scite author profile

We present a study of horizontal winds in the mesosphere and lower thermosphere (MLT) during the boreal winters of 2009-2010 and 2012-2013 produced with a new high-altitude numerical weather prediction (NWP) system. This system is based on a modified version of the Navy Global Environmental Model (NAVGEM) with an extended vertical domain up to ∼116 km altitude coupled with a hybrid four-dimensional variational (4DVAR) data assimilation system that assimilates both standard operational meteorological observations in the troposphere and satellite-based observations of temperature, ozone and water vapor in the stratosphere and mesosphere.

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Case-study of neighborhood-scale summertime urban air temperature for the City of Vienna using crowd-sourced data

Feichtinger

Wit

Goldenits

et al. 2020

Urban Climate

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Integrated Assessment of Natural Hazards, Including Climate Change’s Influences, for Cultural Heritage Sites: The Case of the Historic Centre of Rethymno in Greece

Ravankhah

Wit

Argyriou

et al. 2019

Int J Disaster Risk Sci

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Within the framework of disaster risk management, this article proposes an interdisciplinary method for the analysis of multiple natural hazards, including climate change's influences, in the context of cultural heritage. A taxonomy of natural hazards applicable to cultural heritage was developed based on the existing theoretical and conceptual frameworks. Sudden-onset hazards, such as earthquakes and floods, and slow-onset hazards, such as wetting-drying cycles and biological contamination, were incorporated into the hazard assessment procedure. Future alteration of conditions due to climate change, such as change in heat waves' duration, was also taken into account. The proposed hazard assessment framework was applied to the case of the Historic Centre of Rethymno, a city on the northern coast of the island of Crete in Greece, to identify, analyze, and prioritize the hazards that have the potential to cause damage to the center's historic structures. The assessment procedure includes climate model projections, GIS spatial modeling and mapping, and finally a hazard analysis matrix to enable the sharing of a better understanding of multiple hazards with the stakeholders. The results can facilitate decision making by providing the vulnerability and risk analysis with the nature and spatial distribution of the significant hazards within the study area and its setting. Keywords Climate change analysis Á Crete Á Cultural heritage protection Á Greece Á Hazard assessment Á Historic centre of Rethymno Á Risk assessment

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Supporting climate proof planning with CLARITY's climate service and modelling of climate adaptation strategies – the Linz use-case

et al. 2020

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Gravity-Wave Detection in the Mesosphere Using Airglow Spectrometers and Meteor Radars

Hibbins

Espy

Wit

2018

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Rosmarie de Wit

Comparison of mesospheric winds from a high-altitude meteorological analysis system and meteor radar observations during the boreal winters of 2009–2010 and 2012–2013

Case-study of neighborhood-scale summertime urban air temperature for the City of Vienna using crowd-sourced data

Integrated Assessment of Natural Hazards, Including Climate Change’s Influences, for Cultural Heritage Sites: The Case of the Historic Centre of Rethymno in Greece

Supporting climate proof planning with CLARITY's climate service and modelling of climate adaptation strategies – the Linz use-case

Gravity-Wave Detection in the Mesosphere Using Airglow Spectrometers and Meteor Radars

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