WorldCat Identities

Weiler, Markus 1971-

Overview
Works: 92 works in 133 publications in 2 languages and 484 library holdings
Genres: Geological maps  Maps 
Roles: dgs, Contributor, Editor, Other, Author
Publication Timeline
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Most widely held works by Markus Weiler
Hydrologie by Nicola Fohrer( )

2 editions published in 2016 in German and held by 120 WorldCat member libraries worldwide

"Dieses Lehrbuch wendet sich an Studienanfänger der Natur- und Ingenieurwissenschaften. Es gibt eine grundlegende Einführung in die Elemente des Wasserkreislaufs. Erläutert werden der Einfluss von Landnutzung und Klima, Hochwasser und Dürre sowie moderne Verfahren zur Quantifizierung hydrologischer Prozesse. Schließlich wird ein Einblick in die hydrologische Praxis und die Risikovorsorge gegeben."
Preferential Flow in a cultivated lower meso-scale catchment observation, modelling and implications for solute transport by Julian Klaus( )

1 edition published in 2011 in English and held by 48 WorldCat member libraries worldwide

Einfluss der Forstwirtschaft auf den vorbeugenden Hochwasserschutz Integrale Klassifizierung abflusssensitiver Waldflächen by Bastian Nordmann( )

1 edition published in 2011 in German and held by 42 WorldCat member libraries worldwide

Physische Geographie [ein Lehr- und Übungsbuch] by Rainer Glawion( Book )

1 edition published in 2019 in German and held by 19 WorldCat member libraries worldwide

Wasser ohne Grenzen : Beiträge zum Tag der Hydrologie am 22./23. März 2012 an der Albert-Ludwigs-Universität Freiburg( Book )

3 editions published in 2012 in German and held by 13 WorldCat member libraries worldwide

A distributed soil moisture, temperature and infiltrometer dataset for permeable pavements and green spaces by Axel Schaffitel( )

4 editions published between 2019 and 2020 in English and held by 10 WorldCat member libraries worldwide

Abstract: Knowledge of water and energy fluxes is key for urban planning and design. Nevertheless, hydrological data from urban environments are sparse, and, as a result, many processes are still poorly understood and thus inadequately represented within models. We contribute to reducing this shortfall by providing a dataset that includes time series of soil moisture and soil temperature measured underneath 18 different permeable pavements (PPs) and 4 urban green spaces located within the city of Freiburg (Germany). Time series were recorded with a high temporal resolution of 10 min using a total of 65 individual soil moisture sensors and covering a measurement period of 2 years (November 2016-October 2018). The recorded time series contain valuable information on the soil hydrological behavior of PPs and demonstrate the effect of surface properties and surrounding urban structures on soil temperatures. In addition, we performed double-ring infiltration experiments, which in combination with the soil moisture measurements yielded soil hydrological parameters for the PPs, including porosity, field capacity and infiltration capacity. We present this unique dataset, which is a valuable source of information for studying urban water and energy cycles. We encourage its usage in various ways, e.g., for model calibration and validation purposes, study of thermal regimes of cities, and derivation of urban water and energy fluxes. The dataset is freely available from the FreiDok plus data repository at https://freidok.uni-freiburg.de/data/151573 and https://doi.org/10.6094/UNIFR/151573 (Schaffitel et al., 2019)
Morphotectonic map : Red Sea region and Arabian platform by Elmar Briem( )

2 editions published in 1990 in English and held by 8 WorldCat member libraries worldwide

Mechanisms controlling macropore flow during infiltration dye tracer experiments and simulations by Markus Helmut Weiler( )

3 editions published in 2001 in English and held by 6 WorldCat member libraries worldwide

Macropore flow describes the fast movement of water in structural features like wormholes, root channels, or cracks in soils. The influence of macropore flow on infiltration, transport of solutes, and the generation of runoff is generally accepted; however, the mechanisms controlling macropore flow are not very well known. Concentrating on soils containing macropores built by earthworms, this study observed and analysed in detail macropore flow processes during flood producing rainfall events. Combined sprinkling and dye tracer experiments with different rainfall intensities and initial soil moisture conditions were carried out on four sites in Switzerland. The experimental set-up allowed the observation of macropore flow initiation and interaction at a high spatial and temporal resolution. The sites were selected to cover a wide variety of properties that can influence macropore flow. However, the land-use was restricted to grassland to ensure an undisturbed development of the macropore network and all sites were located on hillslopes to be able to measure overland flow. The experiments provided detailed soil water regime measurements in order to detect water content changes in different depths and to determine the time of saturation and the saturation deficit at the beginning of the experiment
Predicting probabilities of streamflow intermittency across a temperate mesoscale catchment by Nils Hinrich Kaplan( )

2 editions published in 2020 in English and held by 5 WorldCat member libraries worldwide

Abstract: The fields of eco-hydrological modelling and extreme flow prediction and management demand detailed information of streamflow intermittency and its corresponding landscape controls. Innovative sensing technology for monitoring of streamflow intermittency in perennial rivers and intermittent reaches improves data availability, but reliable maps of streamflow intermittency are still rare. We used a large dataset of streamflow intermittency observations and a set of spatial predictors to create logistic regression models to predict the probability of streamflow intermittency for a full year as well as wet and dry periods for the entire 247 km2 Attert catchment in Luxembourg. Similar climatic conditions across the catchment permit a direct comparison of the streamflow intermittency among different geological and pedological regions. We used 15 spatial predictors describing land cover, track (road) density, terrain<br>metrics, soil and geological properties. Predictors were included as local-scale information, represented by the local value at the catchment outlet and as integral catchment information calculated as the mean catchment value over all pixels upslope of the catchment outlet. The terrain metrics catchment area and profile curvature were identified in all models as the most important predictors, and the model for the wet period was based solely on these two predictors. However, the model for the dry period additionally comprises soil hydraulic conductivity and bedrock permeability. The annual model with the most complex predictor set contains the predictors of the dry-period model plus the presence of tracks. Classifying the spatially distributed streamflow intermittency probabilities into ephemeral, intermittent and perennial reaches allows the estimation of stream network extent under various conditions. This approach, based on extensive monitoring and statistical modelling, is a first step to provide detailed spatial information for hydrological modelling as well as management practice
The snow and glacier melt components of streamflow of the river Rhine and its tributaries considering the influence of climate change : synthesis report by Kerstin Stahl( Book )

2 editions published in 2016 in English and held by 5 WorldCat member libraries worldwide

Soil moisture: variable in space but redundant in time by Mirko Mälicke( )

3 editions published between 2019 and 2020 in English and held by 5 WorldCat member libraries worldwide

Reevaluation of transit time distributions, mean transit times and their relation to catchment topography by Stefan Seeger( )

2 editions published in 2014 in English and held by 5 WorldCat member libraries worldwide

Monitoring ephemeral, intermittent and perennial streamflow: A data set from 182 sites in the Attert catchment, Luxembourg by Nils H Kaplan( )

2 editions published in 2019 in English and held by 5 WorldCat member libraries worldwide

Abstract: The temporal and spatial dynamics of streamflow presence and absence is considered vital information to many hydrological and ecological studies. Measuring the duration of active streamflow and dry periods in the channel allows us to classify the degree of intermittency of streams. We used different sensing techniques including time-lapse imagery, electric conductivity and stage measurements to generate a combined dataset of presence and absence of streamflow within various nested sub-catchments in the Attert catchment, Luxembourg. The first sites of observation were established in 2013 and successively extended to a total number of 182 in 2016 as part of the project Catchments As Organized Systems (CAOS). Temporal resolution ranged from 5 to 15 min intervals. Each single dataset was carefully processed and quality controlled before the time interval was homogenised to 30 min. The dataset provides valuable information of the dynamics of a meso-scale stream network in space and time. This can be used to test and evaluate hydrologic models but also for the assessment of the intermittent stream ecosystem in the Attert basin. The dataset presented in this paper is available at the online repository of the German Research Center for Geosciences (GFZ, https://doi.org/10.5880/FIDGEO.2019.010, Kaplan et al., 2019)
Model-aided quantification of dissolved carbon and nitrogen release after windthrow disturbance in an Austrian karst system by Andreas Hartmann( )

3 editions published between 2015 and 2016 in English and held by 5 WorldCat member libraries worldwide

Abstract: Karst systems are important for drinking water supply. Future climate projections indicate increasing temperature and a higher frequency of strong weather events. Both will influence the availability and quality of water provided from karst regions. Forest disturbances such as windthrow can disrupt ecosystem cycles and cause pronounced nutrient losses from the ecosystems. In this study, we consider the time period before and after the wind disturbance period (2007/08) to identify impacts on DIN (dissolved inorganic nitrogen) and DOC (dissolved organic carbon) with a process-based flow and solute transport simulation model. Calibrated and validated before the disturbance the model disregards the forest disturbance and its consequences on DIN and DOC production and leaching. It can therefore be used as a base-line for the undisturbed system and as a tool for the quantification of additional nutrient production. Our results indicate that the forest disturbance by windthrow results in a significant increase of DIN production lasting 3.7 years and exceeding the pre-disturbance average by 2.7 kg ha-1 a-1 corresponding to an increase of 53 %. There were no significant changes of DOC concentrations. With simulated transit time distributions we show that the impact on DIN travels through the hydrological system within some months. But a small fraction of the system outflow (< 5 %) exceeds mean transit times of > 1 year
Runoff reaction from extreme rainfall events on natural hillslopes: A data set from 132 large scale sprinkling experiments in south-west Germany by Fabian Ries( )

3 editions published between 2019 and 2020 in English and held by 5 WorldCat member libraries worldwide

Application of a laser-based spectrometer for continuous insitu measurements of stable isotopes of soil CO 2 in calcareous and acidic soils by Jobin Joseph( )

2 editions published between 2018 and 2019 in English and held by 5 WorldCat member libraries worldwide

Tree-, stand- and site-specific controls on landscape-scale patterns of transpiration by Sibylle K Hassler( )

2 editions published between 2017 and 2018 in English and held by 4 WorldCat member libraries worldwide

A sprinkling experiment to quantify celerity-velocity differences at the hillslope scale by Willem J van Verseveld( )

2 editions published in 2017 in English and held by 4 WorldCat member libraries worldwide

Sensitivity of young water fractions to hydro-climatic forcing and landscape properties across 22 Swiss catchments by Jana von Freyberg( )

2 editions published between 2017 and 2018 in English and held by 4 WorldCat member libraries worldwide

Diel fluctuations of viscosity-driven riparian inflow affect streamflow DOC concentration by Michael P Schwab( )

2 editions published between 2017 and 2018 in English and held by 4 WorldCat member libraries worldwide

 
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WorldCat IdentitiesRelated Identities
Alternative Names
Markus Weiler wetenschapper

Weiler, M. 1971-

Weiler, Markus Helmut 1971-

Languages
English (37)

German (7)