Your search keyword '"Manuel Seeger"' showing total 4 results

1. Modelling Discharge and Sediment Yield at Catchment Scale Using Connectivity Components

Author

Saskia Keesstra, Rens Masselink, Javier Casalí, Manuel Seeger, Rafael Giménez, and Arnaud Temme

Subjects

Change over time, Sediment yield, Hydrology, 010504 meteorology & atmospheric sciences, Soil component, Linear model, Soil Science, Sediment, 04 agricultural and veterinary sciences, Development, 01 natural sciences, Catchment scale, Component (UML), 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental Chemistry, Environmental science, Spatial variability, 0105 earth and related environmental sciences, General Environmental Science

Abstract

Knowledge about connectivity and what affects it, through space and time, is needed for taking appropriate action at the right place and/or time by stakeholders. Various conceptual frameworks for hydrological and sediment connectivity have been developed in recent years. For most of these frameworks, the objective was to conceptualise connectivity, not necessarily to infer it from measurements. Studies focussing on measurements of connectivity have so far not been done often. Because of lack of data on connectivity, few real-world data have been used in recent connectivity modelling studies. The aim of this study was to demonstrate that existing data can be used to assess governing factors of connectivity, and how these change over time. Data from three catchments in Navarre, Northern Spain, were used to assess factors that influence hydrologic and sediment connectivity. These factors were used as components in a linear model for discharge and suspended-sediment yield. Three components of connectivity were distinguished: topographical, biological and soil. Changes in the topographical component for the studied periods were considered relatively small, and, therefore, kept constant. Changes in the biological component were determined using the Normalised Difference Vegetation Index. Changes in the soil component were assessed using an Antecedent Precipitation Index. Nash–Sutcliffe model efficiency coefficients were between 0·49 through 0·62 for the discharge models and between 0·23 through 0·3 for the sediment-yield models. We recommend applying the model at smaller spatial scales than catchment scale to minimise the lumping of spatial variability in the components. Copyright © 2016 John Wiley & Sons, Ltd.

Published

2016

2. The Wageningen Rainfall Simulator: Set-up and Calibration of an Indoor Nozzle-Type Rainfall Simulator for Soil Erosion Studies

Author

Tamás Lassu, Piet Peters, Manuel Seeger, and Saskia Keesstra

Subjects

Hydrology, Splash, Irrigation, Soil Science, Development, Atmospheric sciences, Spatial distribution, Soil gradation, Erosion, Environmental Chemistry, Environmental science, Precipitation, Surface runoff, Intensity (heat transfer), General Environmental Science

Abstract

The set-up and characterisation of an indoor nozzle-type rainfall simulator (RS) at Wageningen University, the Netherlands, are presented. It is equipped with four Lechler nozzles (two nr. 460·788 and two nr. 461·008). The tilting irrigation plot is 6 m long and 2·5 m wide. An electrical pump supplies the constant flow during the experiments. The spatial distribution of the rainfall was measured with 60 rain gauges equally distributed on the experimental plot. Thies® Laser Precipitation Monitor was used to measure the size and falling velocity of the raindrops. Four different flow rates were applied (Q1–4). From the collected data, spatial rainfall intensity and spatial kinetic energy distribution maps were created; Christiansen uniformity coefficient was calculated for each flow rate. The results of the experiments revealed that the rainfall parameters (spatial rainfall intensity, kinetic energy, raindrop size distribution and fall velocity) in the RS are not homogeneous (Christiansen uniformity ranges from 68·5% to 83·2%). Accordingly, the whole plot can only be irrigated irregularly applying a wide range of intensities and rainfall energies. The RS offers a good opportunity to study great variety of process intensities such as splash erosion, runoff generation, soil aggregate stability, organic matter migration and scaled landscape development.

Published

2015

3. Assessment of terrestrial laser scanning technology for obtaining high-resolution DEMs of soils

Author

Robert Barneveld, Manuel Seeger, and Ivar Maalen-Johansen

Subjects

Photogrammetry, Geography, Planning and Development, Soil water, Earth and Planetary Sciences (miscellaneous), Point cloud, Erosion, Surface roughness, Environmental science, Surface runoff, Digital elevation model, Image resolution, Earth-Surface Processes, Remote sensing

Abstract

Terrestrial Laser Scanners (TLS) provide a non-contact method to measure soil microtopography of relatively large surface areas. The appropriateness of the technology in relatation to the derived Digital Elevation Models (DEM) however has not been reported. The suitability of TLS for soil microtopography measurements was tested on-field for three large soil surface areas in agricultural fields. The acquired point clouds were filtered with a custom cloud import algorithm, and converted into digital elevation models (DEM) of different resolutions. To assess DEM quality, point clouds measured from different viewpoints were statistically compared. The statistical fit between point clouds from different viewpoints depends on spatial resolution of the DEM. The best results were obtained at the higher resolutions (0.02 to 0.04?cm), where less than 5 % of the grid cells showed significant differences between one viewpoint and the next (p?

Published

2012

4. Soil degradation and soil surface process intensities on abandoned fields in Mediterranean mountain environments

Author

Manuel Seeger and Johannes B. Ries

Subjects

Hydrology, Soil biodiversity, Soil organic matter, Pedalfer, Soil Science, Soil science, Development, complex mixtures, Soil survey, Soil retrogression and degradation, Environmental Chemistry, Environmental science, Dryland salinity, Soil fertility, Surface runoff, General Environmental Science

Abstract

The Pyrenean and Pre-Pyrenean mountain areas have been intensively used at least since roman times, but nowadays depopulation has lead to widespread land abandonment without a steering land-management. Vegetation recovery is weak in most abandoned fields. Soil formation and characteristics are conditioned by this fact, and for this, soils show past degradation processes and are mostly predominant factors for continuing land degradation or restoration. Three study areas were set up along a climatic gradient with increasing summer water deficit in the sub-humid zone between the Central Pyrenees and Pre-Pyrenees. Soil survey combined with experiments for the determination of infiltration, runoff and erosion were applied for understanding the degradation history and the future development of the soils. All areas are dominated by Entisols, but also Inceptisols and Alfisols are found, and even soils with hydromorphic features. The soils show signs of heavy erosion. The parental material determines the nutrient supply and the general chemical properties. All sites show a weak water storing capacity, as a result of the removal of fine material by erosion and due to the depletion of soil organic matter. In addition, infiltration capacity and runoff generation are high within the studied areas, averaging between 27 and 37 per cent. The driest area studied shows an ongoing trend to degradation, with high erosion rates combined with a high degradations status of the soil. The other areas are characterised by a patchy pattern of soil degradation and regradation processes. Copyright © 2008 John Wiley & Sons, Ltd.

Published

2008