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Andreas Lorke
Researcher at University of Koblenz and Landau
Publications - 144
Citations - 4866
Andreas Lorke is an academic researcher from University of Koblenz and Landau. The author has contributed to research in topics: Turbulence & Internal wave. The author has an hindex of 37, co-authored 125 publications receiving 4099 citations. Previous affiliations of Andreas Lorke include University of Konstanz & Swiss Federal Institute of Aquatic Science and Technology.
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Journal ArticleDOI
An Assessment of the Precision and Confidence of Aquatic Eddy Correlation Measurements
Daphne Donis,Moritz Holtappels,Christian Noss,Cecile Cathalot,Kasper Hancke,Pierre Polsenaere,Frank Wenzhöfer,Andreas Lorke,Filip J. R. Meysman,Ronnie N. Glud,Daniel Frank Mcginnis +10 more
TL;DR: In this paper, uncertainties and biases in the data treatment based on oxygen ECflux measurements in alarge-scaleflume facility with well-constrained hydrodynamics are discussed.
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Silica retention in the Iron Gate I reservoir on the Danube River: the role of side bays as nutrient sinks
Daniel Frank Mcginnis,Serghei A. Bocaniov,Cristian R. Teodoru,Gabriela Friedl,Andreas Lorke,Alfred Wüest +5 more
TL;DR: In this article, conditions are unfavorable for primary production in Iron Gate I except for the small quiescent center of Orsova Bay, and the diatom production is much too low for the suspected silica uptake.
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The importance of physical transport and oxygen consumption for the development of a metalimnetic oxygen minimum in a lake
Julika Kreling,Jenny Bravidor,Christof Engelhardt,Michael Hupfer,Matthias Koschorreck,Andreas Lorke +5 more
TL;DR: In this paper, the authors examined the importance of both processes to MOM development in Lake Arendsee, Germany, and found that DO consumption was governed by microbial respiration and the vertical variations of DO depletion rates in the metalimnion could be explained by a minor contribution of temperature and a higher contribution of turbidity.
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Development and sensitivity analysis of a model for assessing stratification and safety of Lake Nyos during artificial degassing
TL;DR: In this article, the authors developed a numerical model to predict the CO2 and dissolved solids concentrations, and the temperature structure as well as the stability of the water column of Lake Nyos.
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Deconstructing Methane Emissions from a Small Northern European River: Hydrodynamics and Temperature as Key Drivers
Daniel Frank Mcginnis,Daniel Frank Mcginnis,Daniel Frank Mcginnis,Nicole Bilsley,Mark Schmidt,Peer Fietzek,Peer Fietzek,Pascal Bodmer,Pascal Bodmer,Katrin Premke,Andreas Lorke,Sabine Flury +11 more
TL;DR: It is found that about 80% of the total emissions were due to methane bubbles, and applying ebullition rates to global estimates for fluvial systems, which currently are not considered, could dramatically increase emission rates to ranges from lakes or wetlands.