Your search keyword '"Manuel Seeger"' showing total 78 results

1. Agricultural Soil Degradation in Germany

Author

Manuel Seeger

Published

2023

2. Experimental laboratory setup for identification and quantification of transported soil particles in subsurface flows

Author

Laura Kögler, Thomas Iserloh, Alina Helmer, Andreas Ruby, Miriam Marzen, Manuel Seeger, and Johannes B. Ries

Abstract

There is a knowledge gap concerning the identification and quantification of transported soil particles in subsurface flows. If these soil particles reach relevant amounts, protective measures against soil erosion applied on the surface may be partially ineffective, and the soil may degrade further and unnoticed. In consequence, there is a need to develop a method to determine this subsurface particle transport in situ. A laboratory flume experiment was developed to examine the processes of fine soil material transport as well as the development of sediment traps for in situ measurements. Since, steep-slope vineyard soils are especially prone to subsurface flows they were subject of first investigations: The shallow steep-slope vineyard soils of the Mosel wine region are mainly developed from Devonian argillaceous schists and Pleistocene terrace sediments. Among the main physical characteristics are a very high rock fragment content and a loose surface layer over a strongly compacted layer caused by the combined action of tillage and weathering. This structure is presumably prone to subsurface flows within the upper horizon, especially in periods of very high soil moisture. The results of this laboratory experiment clearly confirm the presence of subsurface particle transport and the applicability of a sediment trap prototype consisting of a relatively simple and low-cost drain structure.

Published

2022

3. More than just fast flowing water: the landscape impact of the July 2021 west Germany flood

Author

Rainer Bell, Michael Dietze, Annegret Thieken, Kristen Cook, Christoff Andermann, Alexander Beer, Ana Lucia Vela, Johannes B. Ries, Maximilian Brell, Anette Eltner, Sigrid Roessner, Lothar Schrott, Thomas Iserloh, Manuel Seeger, and Ugur Öztürk

Abstract

Rain driven flash floods have severe impacts on society and landscape functions. The July 2021 flood in the Eifel region, west Germany, was one drastic example of such impact. While media and scientists rightfully highlighted the meteorological and hydrological aspects of this flood, it was the concurrent reorganisation of important landscape conditions and the debris carried by the fast flowing water that made this flood so devastating and unpredictable.Here, we take a process-based impact perspective and systematically ask, which were the specific roles of non-hydraulic but geomorphic dynamics that implemented the damage, caused flood non-linearities and amplified the landscape deterioration. We combine insights from field mapping campaigns during, right after and within the relaxation phase of the flood with high resolution geophysical and LiDAR surveys to discuss the role of hillslopes, vegetation, fluvial sediment mobilisation and the legacy of anthropogenic landscape reorganisation. We conclude that some of these elements emerged as the flood event evolved, causing either transient effects or persistent landscape features, thus modifying the response of the landscape to future events, also to less intense precipitation events.Our findings not only support more tailored recovery efforts for the flood affected Eifel catchments, but should also inform landscape development trajectories and potentially crucial factors in other Central European regions.

Published

2022

4. Evaluación de los procesos superficiales de escorrentía en cárcavas originadas en olivares convencionales. Un apartado a tener en cuenta en la planificación territorial

Author

Encarnación V. Taguas, Manuel Seeger, Jesús Rodrigo-Comino, and Johannes B. Ries

Subjects

010504 meteorology & atmospheric sciences, simulación de escorrentía, erosión, General Medicine, cárcava efímera, 010502 geochemistry & geophysics, Olivar, planificación agrícola, 01 natural sciences, 0105 earth and related environmental sciences

Abstract

RESUMEN Se analiza la respuesta hidrológica de una cárcava efímera frente a un evento de lluvia equivalente de frecuencia "ordinaria" (=1 año) a partir de una simulación de escorrentía en una cuenca experimental con olivar en Puente Genil, Córdoba (España). Mil litros de agua fueron bombeados durante 10 minutos y la descarga total, la velocidad superficial de avance de frente de flujo, la concentración de sedimentos y los cambios morfológicos en el perfil transversal fueron calculados. Los resultados mostraron elevadas diferencias entre las tasas de escorrentía de hasta un 17% entre las condiciones "secas" y "húmedas". La concentración de sedimentos instantánea llegó a alcanzar valores de hasta 40 g l-1. Se concluye que las cárcavas en olivares convencionales son capaces de registrar elevadas tasas de erosión y escorrentía, particularmente bajo condiciones de mayor humedad. Se requiere más información y atención a las medidas de control sobre la erosión por el flujo concentrado de la escorrentía en la planificación agrícola.

Published

2019

5. Rainfall-simulated quantification of initial soil erosion processes in sloping and poorly maintained terraced vineyards - Key issues for sustainable management systems

Author

José María Senciales González, Jesús Rodrigo-Comino, Thomas Iserloh, Johannes B. Ries, Manuel Seeger, and José Damián Ruiz-Sinoga

Subjects

Hydrology, geography, Environmental Engineering, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, 010501 environmental sciences, 01 natural sciences, Pollution, Vineyard, Rock fragment, Soil water, Erosion, Land degradation, Environmental Chemistry, Environmental science, Soil horizon, Levee, Surface runoff, Waste Management and Disposal, 0105 earth and related environmental sciences

Abstract

In the context of the Sustainable Development Goals (SDG), understanding landscape evolution is essential to design long-term management plans. In agricultural fields, such as the vineyards on steep slopes, the terraces offer one of the most important morphological changes. However, it is not clear if the poorly managed agricultural terraces are optimal to reduce soil erosion and overland flow, although the trafficability is improved. Therefore, the main aim of this research is to compare the differences between initial soil erosion processes on poorly managed terraced vineyards and sloping vineyards at the pedon scale, considering the key role of the SSC (Soil Surface Components). To achieve this goal, twenty-six rainfall simulations were performed, considering the inclination, vegetation and stone covers, and surface roughness. Our research was carried out in the sloping vineyards (>20°) of the Almachar municipality, in the Montes de Malaga (Spain). Those vineyards are characterized by bare soils, low organic matter and high rock fragment contents. Our results showed that higher soil losses (42.2 g m−2 vs 9.4 g m−2) and runoff (4.9 l m−2 vs 1.6 l m−2) were detected in the plots of the poorly managed terraced vineyard than in the sloping one. Moreover, the time to runoff generation was lower in the poorly conserved terraces (232 s) than in the sloping vineyard (679 s), showing a faster saturation capacity. The SSC considered as the key factors were the reduction of the stone cover and an increase of roughness. As a conclusion, we confirm that the imminent transformation from sloping vineyards into terraced fields could lead several land degradation processes if a poor management is carried out, and no control measures are applied during the process, such as the conservation of stone walls or vegetation cover above the embankment, which is not in compliance with the SDG.

Published

2019

6. Spatial patterns of argan-tree influence on soil quality of intertree areas in open woodlands of South Morocco

Author

Irene Marzolff, Johannes B. Ries, Manuel Seeger, Tobias Romes, Mario Kirchhoff, and Ali Aït Hssaine

Subjects

Hydrology, Hydraulic conductivity, Soil test, ddc:550, Erosion, Environmental science, Infiltrometer, Soil carbon, Surface runoff, Water content, Soil quality

Abstract

The endemic argan tree (Argania spinosa) populations in South Morocco are highly degraded due to overbrowsing, illegal firewood extraction and the expansion of intensive agriculture. Bare areas between the isolated trees increase due to limited regrowth, but show lower soil quality than their neighbouring tree areas. Hypothetically, spatial differences of soil quality of the intertree area should result from translocation of litter or soil particles (by runoff and erosion or wind drift) from canopy-covered areas to the intertree areas. 385 soil samples were taken around the tree from the trunk along the tree drip line (within and outside the tree area) as well as the intertree area between two trees in four directions (upslope, downslope and in both directions parallel to the slope) and analysed for soil moisture, pH, electrical conductivity, percolation stability, total nitrogen content, content of soil organic carbon and C / N ratio. 74 tension-disc infiltrometer experiments were performed near the tree drip line, within and outside the tree area, to measure the unsaturated hydraulic conductivity. We found that the tree influence on its surrounding intertree area is limited, with e.g., Corg- & N-content decreasing significantly from tree trunk to tree drip line. However, intertree areas near the tree drip line differed significantly from intertree areas between two trees, yet only with a small effect. Trends for spatial patterns could be found in eastern and downslope directions due to wind drift and slope wash. Soil moisture was highest in the north due to shade from the midday sun, the influence extended to the intertree areas. The unsaturated hydraulic conductivity also showed significant differences between areas within and outside the tree area near the tree drip line. Although only limited influence of the tree on its intertree area was found, the spatial pattern around the tree suggests that reforestation measures should be aimed around tree shelters in northern or eastern directions with higher soil moistures, N- or Corg-content to ensure seedling survival.

Published

2021

7. Moving towards harmonisation in rainfall simulation

Author

Johannes B. Ries, João L. M. P. de Lima, M. Isabel P. de Lima, Daniel Green, Jorge Isidoro, Thomas Iserloh, Manuel Seeger, and Miriam Marzen

Subjects

Meteorology, Environmental science, Rainfall simulation

Abstract

Rainfall simulation experiments are widely used in soil science, geomorphology and hydrology research and teaching. Such experimental setups are particularly important in the study of rainfall-runoff, erosion and pollutant transport processes. Rainfall simulators have been applied within laboratory- and field-based studies and have the advantage of enabling controlled and reproducible rainfall events of varying intensity, duration and drop spectra. The flexibility and adaptability of rainfall simulators to examine diverse research applications of varying temporal and spatial scales means that hundreds of tailor-made rainfall simulator setups can be identified across the literature. Although it is beneficial for researchers to adapt their experimental designs to suit their specific research objectives, the diversity in the type, sizing, form, operation and methodologies of rainfall simulators ultimately results in complications when comparing results and outputs obtained between studies.Currently, comparisons between studies can be very difficult, if not impossible, as the different measurement methods, artificial rainfall event characteristics and test conditions result in considerable difficulties when benchmarking results and findings obtained from rainfall simulation experiments. We recommend that the scientific community should establish a set of methodological procedures aimed at harmonising basic procedures in rainfall simulator-based studies in the fields of hydrological and geomorphological sciences. This would ensure that results obtained from different rainfall simulator studies and setups are harmonised, regulated and comparable. On the one hand, this process involves harmonising rainfall simulators design characteristics, whereas further steps should focus on measurement methods and metrics so results can be more readily compared.This presentation highlights the inherit problems in benchmarking and comparing studies at present due to large variations in the way that researchers and institutions assess and quantify rainfall simulator performance and present results. Some degree of ‘standardisation’ of rainfall simulator approaches is needed. However, standardising approaches used within rainfall simulation does not allow researchers to adapt their experimental setups to suit their specific research needs, which is one of the key benefits of using rainfall simulators. Instead, ‘harmonisation’ (i.e. ensuring that the scientific community develop a set of regulated and comparable methodological procedures and best practices for use in rainfall simulator studies whilst still allowing some degree of adaptability for specific research practices) is required. Here we present a series of harmonisation procedures, which should be developed to ensure that rainfall simulators are designed and constructed to allow for harmonisation, as well as suggesting a series of steps towards harmonising the methods and metrics used to quantify and compare experimental results.With these objectives in mind, we aim to stimulate the discussion and enhance understanding of the difficulties and requirements of rainfall simulator based experimental research, namely by creating a platform that embraces and consults the International research community across multiple research facilities and institutes. This presentation will kick-start discussions (via web seminar sessions beginning in Summer 2021) leading up to a future international symposium addressing and acting upon these issues and disseminating the findings of this consultation period (Spring/Summer 2022 in Coimbra, Portugal). Everyone is invited to join this step towards harmonisation in rainfall simulation.

Published

2021

8. Aggregate stability of cultivated vineyard soils with high rock fragment content in the Mosel area, Germany

Author

Paula Hauter, Teresa Benzing, Thomas Iserloh, and Manuel Seeger

Subjects

Aggregate (composite), Rock fragment, Soil water, Environmental science, Soil science, Vineyard

Abstract

Within the European project Diverfarming (Horizon 2020, no 728003), which investigates crop diversification and low-input farming across Europe, we study the aggregate stability variability of soils with high rock fragment content on steep sloping vineyards in the upper Saar valley of the Mosel area (Wawern, Rhineland-Palatinate, Germany).In the framework of the case study researched by Trier University and their partners, aromatic herbs (Oregano and Thyme) are planted in rows underneath the grapevines to minimize soil erosion, suppress unwanted weeds and to be harvested for further use. Additionally, this cultivation affects different soil characteristics such as aggregate stability.We analyse the aggregate stability using and comparing three different methods:wet sieving which is executed in two different ways – slaked and rewetted treatment, percolation method and single drop technique. Aim of the study is to understand the effect of soil treatments underneath the grapevines, and to identify the method(s) being able to quantify the differences best.Regarding the different methods, first results indicate that the quantified aggregate stabilities of each method are comparable. With this, we could identify differences between uncultivated rows (control areas), and the rows intercropped with aromatic herbs. In the latter ones, the aggregate stability underneath the grapevines is affected positively. Furthermore, there is a clear difference between slaked and rewetted treatment within the wet sieving method, where less stable aggregates are isolated.The results indicate that the accomplished management (vine intercropped with Oregano and Thyme) improves the aggregate stability and therefore it improves the soil quality in general.

Published

2021

9. Subsurface particle transport in coarse-grained vineyard soils – a laboratory flume experiment

Author

Manuel Seeger, Thomas Iserloh, Alina Helmer, Laura Kögler, Andreas Ruby, Enzo Steehouwer, and Johannes B. Ries

Subjects

Flume, Soil water, Environmental science, Soil science, Particle transport, Vineyard

Abstract

The Mosel wine region (Rhineland-Palatinate, Germany) is the largest steep vineyard region in the world. Due to extreme slopes, tillage with heavy machinery, increase in extreme precipitation events, and new planting of vines, these vineyards are among the agricultural systems most affected by soil erosion.As a result of viticulture since the Roman period and their special characteristics, almost all vineyard soils in the Mosel region are classified as Terric Anthrosols. These soils are characterized by a very high rock fragment content (mainly Devonian argillaceous schists and fluvial sediments) and a loose surface horizon over a compact one due to tillage or weathered parent material. This structure enables subsurface flows within the upper horizon, especially in periods of very high soil moisture.There is a knowledge gap concerning the identification and quantification of transported soil particles in this subsurface flow. If these soil particles reach relevant amounts, superficial protective measures against soil erosion may be partially ineffective, and the soil degrades due to substantial loss of fine material. In consequence, there is a need to develop a method to determine this subsurface particle transport in situ.In this study, a first experimental approach for assessing the occurrence of subsurface erosion of fine-grained soil particles within soils is presented. Using this experimental set-up, it is possible to prove the process of fine soil material transport as well as the development of sediment traps for in situ measurements.The experimental approach consists of a sediment trap prototype, based on a drainage pipe, which is positioned into a test flume. The dimensions of this flume are 2.7 m x 0.9 m x 0.2 m (L x W x H). It is filled with material from a vineyard soil of the Mosel valley flanks. Water enters the flume from the upper end with the help of an 0.11 m high overflow. The sediment trap is 0.86 m long and has an 0.855 m x 0.4 m long side-cut-out where a mesh (mesh aperture 3 mm x 6 mm) is installed. It is connected to a separate drain where the water and eroded sediment are collected. This is analysed in the laboratory to quantify the amount and characteristics of the eroded material. Additionally, the total subsurface flow is measured by a drain at the lower end of the soil body for having a total mass budget of runoff and erosion.The preliminary results show a clear correlation between the measured total subsurface flow and sediment transport with the ones collected with the sediment trap. The results suggest that this sediment trap prototype is clearly suitable to quantify the subsurface soil erosion. In the further course of the work, the sediment trap will be installed in situ in the vineyards to test its field applicability to determine valid subsurface erosion rates in vineyard soils.

Published

2021

10. Degradation or recovery of argan woodlands in South Morocco? Tree count from satellite imagery between 1967–2019 may underestimate pressures on dryland forests status

Author

Robin Stephan, Mario Kirchhoff, Ali Aït Hssaine, Irene Marzolff, Johannes B. Ries, and Manuel Seeger

Subjects

Tree (data structure), Environmental science, Satellite imagery, Forestry, Woodland, Degradation (telecommunications)

Abstract

In semi-arid to arid South-west Morocco, the once ubiquitous endemic argan tree (Argania spinosa) forms the basis of a traditional silvo-pastoral agroforestry system with complex usage rights involving pasturing and tree-browsing by goats, sheep and camels, smallholder agriculture and oil production. Widespread clearing of the open-canopy argan forests has been undertaken in the 12th–17th century for sugarcane production, and again in the 20th century for fuelwood extraction and conversion to commercial agriculture. The remaining argan woodlands have continued to decline due to firewood extraction, charcoal-making, overgrazing and overbrowsing. Soil and vegetation are increasingly being degraded; natural rejuvenation is hindered, and soil-erosion rates rise due to reduced infiltration and increased runoff. Numerous studies indicate that tree density and canopy cover have been generally decreasing for the last 200 years. However, there is little quantitative and spatially explicit information about these forest-cover dynamics.In our study, the tree-cover change between 1967 and 2019 was analysed for 30 test sites of 1 ha each in argan woodlands of different degradation stages in the provinces of Taroudant, Agadir Ida-Outanane and Chtouka-Aït Baha. We used historical black-and-white satellite photography from the American reconnaissance programme CORONA, recent high-resolution multispectral imagery from the commercial WorldView satellites and ultrahigh resolution small-format aerial photography taken with an unmanned aerial system (UAS) to map the presence, absence and comparative crown-size class of 2610 trees in 1967 and 2019. We supplemented the remotely-sensed data with field observations on tree structure and architecture.Results show that plant densities reach up to 300 argan trees and shrubs per hectare, and the mean tree density has increased from 58 trees/ha in 1967 to 86 trees/ha in 2019. While 7% of the 1967 trees have vanished today, more than one third of today’s trees could not be observed in 1967. This positive change has a high uncertainty, however, as most of the increase concerns small trees (< 3 m diameter) which might have been missed on the lower-resolution CORONA images.When combined with our field data on tree architecture, tree count – albeit a parameter easily attained by remote sensing – is revealed as too simple an indicator for argan-forest dynamics, and the first impression of a positive development needs to be revised: The new small trees as well as trees with decreased crown sizes clearly show much stronger degradation characteristics than others, indicating increased pressures on the argan ecosystem during recent decades. Structural traits of the smaller trees also suggest that the apparent increase of tree count is not a result of natural rejuvenation, but mostly of stump re-sprouting, often into multi-stemmed trees, after felling of a tree. The density of the argan forest in the 1960s, prior to the general availability of cooking gas in the region and before the stronger enforcement of the argan logging ban following the declaration of the UNESCO biosphere reserve, may have marked a historic low in our study area, making the baseline of our change analysis far removed from the potential natural state of the argan ecosystem.

Published

2021

11. Spatial patterns of argan-tree influence on soil quality of intertree areas in open woodlands in South Morocco

Author

Manuel Seeger, Tobias Romes, Ali Aït Hssaine, Johannes B. Ries, Irene Marzolff, and Mario Kirchhoff

Subjects

Tree (data structure), Geography, Spatial ecology, Forestry, Woodland, Soil quality

Abstract

The endemic argan tree (Argania spinosa) in Morocco, which is the source of the valuable argan oil, forms open-canopy forests that are highly degraded due to overgrazing, illegal cutting of firewood and the expanding intensive agriculture. Because of the high grazing pressure young sprouts cannot establish themselves, reforestation measures are often unsuccessful and the bare areas between the isolated trees are expanding. In a previous study, we could already show that these intertree areas are more degraded than the areas under the trees, regarding various soil parameters as well as their erodibility and infiltration capacity.The spatial extent of argan trees on soil quality from the trunk to the intertree area is so far unknown. Hypothetically, the tree influences the soil of the intertree area by wind drift of tree litter and soil material towards the East, i.e. main wind direction, and downhill by runoff and erosion processes of soil material downslope. Tree shadow in the hot midday and afternoon sun should have positive influences on soil moisture in northern or northeastern directions. To test this hypothesis, we took 424 soil samples around 31 argan trees in four directions, uphill, downhill and in both directions parallel to the slope towards the nearest neighbouring tree in that direction. Samples along these transects were taken near the trunk, just inside and just outside the area covered by the tree crown and in the intertree area in the middle between two trees. The soil samples were analysed for various soil parameters (C/N, percolation stability, electrical conductivity, pH, soil moisture).The first results show that the influence of the trees is not limited to the crown-covered area but for some trees extends further into the intertree area in specific directions according to the hypothesis (East due to wind drift, North due to shade and downslope due to slope runoff). For other trees the influence of the trees does not even encompass the whole crown-covered area, where we found similarly lower soil quality as for the bare intertree areas. These differences may result from the degradation state of the tree as well as from the different characteristics of the study areas. Understanding the way argan trees influence their surrounding intertree areas would enable structured reforestation measures with a higher chance of successful rejuvenation of the argan forest.

Published

2021

12. Crop Diversification in Viticulture with Aromatic Plants: Effects of Intercropping on Grapevine Productivity in a Steep-Slope Vineyard in the Mosel Area, Germany

Author

Manuel Seeger, Felix Dittrich, Cord-Henrich Treseler, Sören Thiele-Bruhn, Sophie Ogan, Roman Hüppi, and Thomas Iserloh

Subjects

0106 biological sciences, Irrigation, experimental design, must quality, Plant Science, 01 natural sciences, Vineyard, Yield (wine), medicinal and aromatic plants, lcsh:Agriculture (General), perennial cropping systems, Subsoil, 2. Zero hunger, Topsoil, biology, Monocropping, Intercropping, 04 agricultural and veterinary sciences, 15. Life on land, biology.organism_classification, lcsh:S1-972, grapevine yield, Agronomy, Soil water, grape production, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Agronomy and Crop Science, 010606 plant biology & botany, Food Science

Abstract

The effects of intercropping grapevine with aromatic plants are investigated using a multi-disciplinary approach. Selected results are presented that address the extent to which crop diversification by intercropping impacts grapevine yield and must quality, as well as soil water and mineral nutrients (NO3-N, NH4-N, plant-available K and P). The experimental field was a commercial steep-slope vineyard with shallow soils characterized by a high presence of coarse rock fragments in the Mosel area of Germany. The field experiment was set up as randomized block design. Rows were either cultivated with Riesling (Vitis vinifera L.) as a monocrop or intercropped with Origanum vulgare or Thymus vulgaris. Regarding soil moisture and nutrient levels, the topsoil (0&ndash, 0.1 m) was more affected by intercropping than the subsoil (0.1&ndash, 0.3 m). Gravimetric moisture was consistently lower in the intercropped topsoil. While NO3-N was almost unaffected by crop diversification, NH4-N, K, and P were uniformly reduced in topsoil. Significant differences in grapevine yield and must quality were dominantly attributable to climate variables, rather than to the treatments. Yield stabilization due to intercropping with thyme and oregano seems possible with sufficient rainfall or by irrigation. The long-term effects of intercropping on grapevine growth need further monitoring.

Published

2021

13. Current Wildland Fire Patterns and Challenges in Europe: A Synthesis of National Perspectives

Author

M. Belén Hinojosa, Kajar Köster, João Osvaldo Rodrigues Nunes, Manuel Seeger, Nadia Ursino, George Boustras, Hakan Djuma, Andrea Majlingova, Olesea Cojocaru, Maria P. Papadopoulou, J. L. Till, Ana C. Meira Castro, Jan M. Baetens, Sofia Bajocco, Nieves Fernandez-Anez, Marijana Kapović Solomun, Evangelia Daskalakou, Marek Metslaid, Michaela Hrabalikova, Vesna Zupanc, Deák Balázs, Kalev Jõgiste, Miklós Kertész, Eugeniusz Koda, Iachim Gumeniuc, Juli G. Pausas, Kosmas Stampoulidis, Thomas E. L. Smith, Georgia Destouni, Diana Vieira, Throstur Thorsteinsson, Dragana Djordjevic, Victor Sfecla, Manuel Esteban Lucas-Borja, Teodor Rusu, Agata Novara, Miloslav Devetter, Navid Ghajarnia, Samaneh Seifollahi-Aghmiuni, Ioannis N. Daliakopoulos, Magdalena Daria Vaverková, Xavier Úbeda, Jure Tičar, Mara Kitenberga, Sanja Sakan, Danica Kacikova, Tugrul Yakupoglu, Matija Zorn, Maria Glushkova, Caius Ribeiro-Kumara, David Zumr, Martin Adámek, Zorica Popović, Aris Jansons, Gediminas Brazaitis, Luca Salvati, Artemi Cerdà, Egle Köster, Turgay Dindaroglu, Antonio Gelsomino, Jan Glasa, Orsolya Valkó, Lubomir Lichner, Simone Di Prima, Jaroslav Vido, Irena Atanassova, Duarte Oom, Milan Protić, Igor Bogunović, Petra Martínez Barroso, Piotr Osiński, David C. Finger, Gavriil Xanthopoulos, Nuria Prat-Guitart, Réka Aszalós, Hana Fajković, Cornelia Rumpel, Mortimer M. Müller, Sander Veraverbeke, Vitas Marozas, Zahra Kalantari, Jukka Pumpanen, Aristeidis Koutroulis, Srđan Bojović, Ragni Fjellgaard Mikalsen, Lara Vilar, Dalibor Huska, Emira Hukić, Andrey Krasovskiy, Harald Vacik, Mateja Ferk, Luciano Telesca, Stefan H. Doerr, Amandine Pastor, Normunds Stivrins, Anton Imeson, Antonio Minervino Amodio, Heike Knicker, Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven), Information – Technologies – Analyse Environnementale – Procédés Agricoles (UMR ITAP), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro - Montpellier SupAgro, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), Institut d'écologie et des sciences de l'environnement de Paris (iEES Paris ), Institut de Recherche pour le Développement (IRD)-Sorbonne Université (SU)-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Centre for Ecology - Evolution and Environmental Changes (cE3c), Universidade de Lisboa (ULISBOA), Department of Forest Sciences, Viikki Plant Science Centre (ViPS), Forest Soil Science and Biogeochemistry, Ecosystem processes (INAR Forest Sciences), Forest Ecology and Management, and Repositório da Universidade de Lisboa

Subjects

010506 paleontology, REGIME, Qualitative evidence, SUCCESSION, Land management, Climate change, [SDV.BID]Life Sciences [q-bio]/Biodiversity, MITIGATION, FREQUENCY, 01 natural sciences, perceptions, 11. Sustainability, Information system, PORTUGAL, GE1-350, Cost action, [SDU.STU.HY]Sciences of the Universe [physics]/Earth Sciences/Hydrology, GROUND VEGETATION, 1172 Environmental sciences, 0105 earth and related environmental sciences, General Environmental Science, wildland fire, society, Europe, SDG 15 - Life on Land, 040101 forestry, CLIMATE-CHANGE, Land use, LANDSCAPE, business.industry, WILDFIRE, Environmental resource management, Urban sprawl, 04 agricultural and veterinary sciences, 15. Life on land, Environmental sciences, Earth system science, Geography, FOREST-FIRES, 13. Climate action, Earth and Environmental Sciences, [SHS.ENVIR]Humanities and Social Sciences/Environmental studies, [SDE]Environmental Sciences, 0401 agriculture, forestry, and fisheries, business, [SDV.AEN]Life Sciences [q-bio]/Food and Nutrition

Abstract

Changes in climate, land use, and land management impact the occurrence and severity of wildland fires in many parts of the world. This is particularly evident in Europe, where ongoing changes in land use have strongly modified fire patterns over the last decades. Although satellite data by the European Forest Fire Information System provide large-scale wildland fire statistics across European countries, there is still a crucial need to collect and summarize in-depth local analysis and understanding of the wildland fire condition and associated challenges across Europe. This article aims to provide a general overview of the current wildland fire patterns and challenges as perceived by national representatives, supplemented by national fire statistics (2009–2018) across Europe. For each of the 31 countries included, we pres ent a perspective authored by scientists or practitioners from each respective country, representing a wide range of disciplines and cultural backgrounds. The authors were selected from members of the COST Action “Fire and the Earth System: Science & Society” funded by the European Commission with the aim to share knowledge and improve communication about wildland fire. Where relevant, a brief overview of key studies, particular wildland fire challenges a country is facing, and an overview of notable recent fire events are also presented. Key perceived challenges included (1) the lack of consistent and detailed records for wildland fire events, within and across countries, (2) an increase in wild land fires that pose a risk to properties and human life due to high population densities and sprawl into forested regions, and (3) the view that, irrespective of changes in management, climate change is likely to increase the frequency and impact of wildland fires in the coming decades. Addressing challenge (1) will not only be valuable in advancing national and pan-European wildland fire management strategies, but also in evaluating perceptions (2) and (3) against more robust quantitative evidence.

Published

2021

14. Challenges and Opportunities Facing Light Pollution: Smart Light-Hub Interreg

Author

Jesús Rodrigo-Comino, Michele Palm, Christel Egner-Duppich, Stephan Seeling, Manuel Seeger, and Johannes B. Ries

Subjects

night, business.industry, Public sector, light pollution, Light pollution, lcsh:A, Energy consumption, Light intensity, Work (electrical), INTERREG, Environmental impact assessment, Duration (project management), lcsh:General Works, business, Smart lighting, Environmental planning

Abstract

Light pollution is a well-known problem because of its negative impacts on human health, flora, and fauna. From an ecological and engineering point of view, the literature states to consider the following aspects: (1) the light intensity; (2) the composition of the spectrum; (3) the time and duration of lighting to optimize the time of illumination with the available technologies; (4) the periods of lighting and the control cone; (5) the height and spacing between the light sources to optimize the space between the light sources, to reduce the flow of light and unnecessary energy consumption; (6) the environmental impact studies on-site; and (7) the analysis of real needs and less standardized approaches, examining the evolution of use and habits of light consumption. Accordingly, we want to present the SMART LIGHT-HUB (INTERREG) project, which pretends, during the next 3 years (2019–2021), to deliver smart lighting systems to reach the widest possible public, such as companies active in the relevant subject areas. We are setting up an R&D network in the Grande Region (Belgium, Luxembourg, Germany, and France) to facilitate the emergence of new collective solutions to needs that are not addressed in the private and public sectors, in terms of lighting. We are planning exchange workshops, which serve to complete the project, concerning the interested parties on the ground (public authorities, chambers of commerce and industry, local authorities, public–private sector, private companies, etc.) and external participants representing the final consumers. We also want to work on restoring a protected nighttime environment (i.e., continuous areas of “nocturnal/black corridors” for animals that cannot tolerate artificial light).

Published

2020

15. Soil Degradation in Argan Woodlands, South Morocco

Author

Ali Aït Hssaine, Lutz Leroy Zimmermann, Irene Marzolff, Manuel Seeger, Lars Engelmann, Mario Kirchhoff, and Johannes B. Ries

Subjects

Geography, Agroforestry, Soil retrogression and degradation, Woodland

Abstract

The argan tree (Argania spinosa) populations, endemic to South Morocco, have been highly degraded. Although the argan tree is the source of the valuable argan oil and is protected by law, overbrowsing and -grazing as well as the intensification and expansion of agricultural land lead to tree and soil degradation. Young stands cannot establish themselves; undergrowth is scarce due to the semiarid/arid climate and thus, goats, sheep and dromedaries continually browse the trees. Canopy-covered areas decrease and are degraded while areas without vegetation cover between the argan trees increase.On 30 test sites, 60 soil samples of tree and intertree areas were studied on their soil physical and chemical properties. 36 rainfall simulations and 60 single-ring infiltration measurements were conducted to measure potential differences between tree/intertree areas in their runoff/erosion and infiltration properties. Significant differences using a t-test were found for the studied parameters saturated hydraulic conductivity, pH, electric conductivity, percolation stability, total C-content, total N-content, K-content, Na-content and Mg-content. Surface runoff and soil erosion were not statistically significant, but showed similar trends due to the higher complexity of runoff formation. The soil covered by argan trees generally showed less signs of degradation than intertree areas. With ever-expanding intertree areas due to the lack of rejuvenation of argan trees a further degradation of the soil can be assumed.

Published

2020

16. UAV-based classification of tree-browsing intensity in open woodlands

Author

Irene Marzolff, Robin Stephan, Mario Kirchhoff, Manuel Seeger, Ali Aït Hssaïne, and Johannes B. Ries

Abstract

In semi-arid to arid South-west Morocco, the endemic argan tree (Argania spinosa) forms open woodlands that are the basis of a traditional agroforestry system involving rain-fed agriculture, pasturing of goats, sheep and camels, and oil production. Due to the high grazing pressure, the trees show various morphological traits and growth forms that are strongly related to browsing intensity. The overall appearance of Argania spinosa ranges from trees with a large, round crown and single trunk, over multi-stem, umbrella-shaped and hourglass-shaped trees to heavily condensed cone-shaped cushions.30 test sites of 1 ha each in argan woodlands of different degradation stages were surveyed with an unmanned aerial vehicle (UAV) and RGB optical camera using a dedicated flight scheme for capturing full 3D tree shape at approx. 1 cm resolution. Structure-from-Motion (SfM)-photogrammetric processing yielded dense 3D point clouds as well as ultra-high resolution (1.5 cm) digital surface models (DSMs), terrain models (DTMs), crown-height models (CHMs) and orthophoto mosaics. Tree height and crown size were extracted from the CHMs, and 3D point-cloud characteristics (point density, profile shape/layer structure) and canopy structures were analysed within a geographical information system (GIS). Using field-based reference data on tree architecture and browsing features of 2494 trees, we were able to assign characteristic combinations of the GIS-derived structural parameters to three browsing-intensity classes and thus classify each argan tree via the architectural shape captured in its UAV-based 3D point cloud. We found that the majority of argan trees at the study sites are characterised by high browsing intensities. The small percentage of trees in the minimum browsing class are mostly inaccessible to grazing livestock. We conclude that UAV-based remote sensing has a high potential for mapping structural indicators of tree degradation by herbivore browsing in open woodland environments.

Published

2020

17. Experimental detection of subsurface particle transport in coarse steep vineyard soils

Author

Johannes B. Ries, Manuel Seeger, and Thomas Iserloh

Subjects

Soil water, Environmental science, Soil science, Particle transport, Vineyard

Abstract

The Mosel wine region (Rhineland-Palatinate, Germany) is the largest steep vineyard region in the world. Due to extreme slopes (>17°), tillage with heavy machinery, increase in extreme precipitation events and new planting of vines, these vineyards are among the agricultural systems most affected by soil erosion.Due to viticulture since the Roman period and their special characteristics, almost all vineyard soils in the Mosel region are classified as Terric Anthrosols. Soils are characterized by a very high rock fragment content (schists and fluvial sediments) and a loose surface layer over a compact layer due to tillage or weathered parent material. This structure enables subsurface flows between these two layers, especially in periods of very high soil moisture.There is a knowledge gap in the identification and quantification of transported soil particles in this subsurface flow. If these soil particles reach relevant amounts, superficial protective measures may be partially ineffective and the soil degrades despite the existing protection. In consequence, there is a need to develop a method to determine this subsurface particle transport in situ.Here, we present a first experimental approach for assessing the occurrence of sub surface erosion of fine-grained soil particles within soils. With this, it is possible to prove this process and the development of a sediment trap prototype, based on a drainage pipe, for in situ measurements of subsurface soil erosion.

Published

2020

18. Environmental impact of crop diversification in steep vineyards

Author

Sören Thiele-Bruhn, Roman Hüppi, Thomas Iserloh, Felix Dittrich, Manuel Seeger, Cord-Heinrich Treseler, Johann Six, and Katharina Frey-Treseler

Subjects

Geography, Agroforestry, Agricultural diversification, Environmental impact assessment

Abstract

The intensification of European agriculture leads to soil degradation, reduction of biodiversity and an increased economic risk for the farmers. An approach towards solving this problem is crop diversification and the optimized use of resources. Increasing agricultural efficiency/resilience through diversification and the associated falling environmental costs could contribute to the growth of the European agricultural sector by adapting the entire value chain.The EU-funded project DIVERFARMING (Horizon 2020 no 728003) aims to develop and deploy innovative farming and agribusiness models based on crop diversification. Germany is involved with a broad-based study in organic steep slope viticulture in Wawern (Saar Valley).A fundamental issue of steep slope viticulture is related to vegetation management below the vines. In order to overcome problems of soil erosion and soil organic matter depletion, an increasing number of winemakers is establishing cover crops such as grasses and legumes in driving lanes. On the contrary, the area underneath the vines is typically kept free of vegetation to avoid fungal diseases and competition on water. As cover crops do not benefit to the value chain and may compete with vines on water or have other adverse effects on vine performance, an alternative strategy for vegetation management underneath vines in steep slope viticulture is required.Therefore, intercropping vines with perennial herbs like Thyme and Oregano growing underneath is a promising cropping practice to address the abovementioned issues. Both herbs are economically valuable and originate from dry and warm environments, which are typical for most viticultural areas. Furthermore, their relatively low need for water and flat-growing habitus is assumed to be suitable to cover the soil underneath the vines in order to protect against erosion and suppress weeds without having adverse effects on vine growth and -health. They can be marketed directly or indirectly as a concentrate for cosmetics, perfumes, nutritional supplements and food.During the 5-year project, we will investigate impacts on and interactions between crops, soil ecological and physicochemical properties as well as erosion and emission of greenhouse gases to evaluate ecological benefits of crop diversification. Selected results obtained within the first two years of investigation will be presented.

Published

2020

19. Diversifying Steep Slope Viticulture—Towards a Sustainable Intensive Agriculture?

Author

Felix Dittrich, Sören Thiele-Bruhn, Manuel Seeger, and Thomas Iserloh

Subjects

diversification, Land use, Intensive farming, Land consolidation, lcsh:A, Vegetation, viticulture, erosion, Soil quality, Environmental protection, Sustainability, Erosion, Environmental science, value-chain analysis, Viticulture, lcsh:General Works

Abstract

Viticulture is a land use system with a high impact on the environment and the landscape due to the high input of energy and material for soil and plant management. Reducing the input would help to reduce both, the environmental and economic costs, and consequently, increase the sustainability of this crop production. In Germany, especially in the Mosel area, vineyards are also part of the cultural heritage and substantial part of the touristic appeal, especially those located on steep slopes with shallow soils developed on Devonian slate. Within the last decades, the economic sustainability of the vineyards and cellars have been on the focus, by applying land consolidation, increasing the use of machinery and rationalisation of plant protection by e.g. spraying pesticides with helicopters. However, the awareness of the consequences of this kind of high intensive viticulture has also lead to changes in some paradigms, especially regarding soil protection: greening of the lane and selective traffic of machines is becoming more and more widespread, and there is a slowly growing community of wine cellars applying organic production. A careful management of the vegetation within the traffic lanes, and recently the implementation of plants underneath the grapevines is meant to increase soil quality and to reduce the risk of erosion. Here, we will present the concept developed within the EU-H2020 project Diverfarming (H2020-RUR-2016-2/728003), where aromatic herbs (Thymus vulgaris, Origanum vulgare) have been planted underneath grapevines. The purpose is to suppress the growth of plants fostering diseases, to reduce soil disturbance and thus, to increase soil quality as well as to stabilize it against soil erosion. A holistic approach is adopted, as the analysis and monitoring covers plant growth, soil parameters up to product quality and a value chain analysis.

Published

2020

20. Quantification of soil and water losses in an extensive olive orchard catchment in Southern Spain

Author

Manuel Seeger, Jesús Rodrigo-Comino, Encarnación V. Taguas, and Johannes B. Ries

Subjects

Hydrology, geography, geography.geographical_feature_category, Drainage basin, 04 agricultural and veterinary sciences, 010501 environmental sciences, complex mixtures, 01 natural sciences, Spearman's rank correlation coefficient, Infiltration (hydrology), Permeability (earth sciences), Key factors, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Soil horizon, Orchard, Surface runoff, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

A sound understanding of erosive processes at different scales can contribute substantially to the design of suitable management strategies. The main aim of this work was to evaluate key factors at the pedon scale that cause soil erosion to occur. To achieve this goal, we quantified infiltration, permeability, soil losses and runoff volumes in a small Southern Spanish catchment cultivated with olive orchards. To assess which factor contributed most to speeding up soil erosion, a Spearman rank coefficient and principal components analysis were carried out. The results confirmed low infiltration values (11.8 mm h−1) in the surface soil layers and high permeability values (24.6 mm h−1) in the sub-surface soil layers, and produced an average soil loss of 19.7 g m−2 and average runoff coefficients of 26.1%. Statistical analyses showed that: i) the generation of runoff was closely correlated with soil loss; and, ii) an increase in the vegetation cover helped reduce soil erosion. In comparison to larger areas such as a catchment, the pedon scale produced lower or similar soil losses and runoff coefficients in rainfall simulation conditions, although the influence of vegetation cover as a control factor was also detected.

Published

2018

21. Light pollution: A review of the scientific literature

Author

Johannes B. Ries, Manuel Seeger, Jesús Rodrigo-Comino, and Stephan Seeling

Subjects

Atmosphere, Global and Planetary Change, Human health, Ecology, Environmental protection, Light pollution, Environmental science, Geology, Scientific literature

Abstract

Light pollution is the consequence of elevated lighting emitted by human-made artefacts to the lower atmosphere. Recently, there have been major advances in the assessment and mitigation of light pollution impacts on humans and the natural ecosystems. Severe negative impacts of light pollution have been highlighted while very few mitigation measures have been implemented. People (scientists, policymakers or stakeholders) interested in light pollution may not have a holistic perspective of the problem, and also there is a need for incorporating social and natural dimensions. Therefore, the main goal of this paper is to review the literature on light pollution using ISI Web of Science by paying attention to the (i) type of publication, year and journal; (ii) impacts on specific elements; (iii) location and (iv) methods used. Our results indicated that the elevated number of papers come from a diverse range of disciplines, methods, places and scales. It is clear that light pollution is getting enough attention from the scientific community but decisions on the implementation of mitigation measures are left with the stakeholders, ordinary inhabitants, policymakers and politicians. Nevertheless, light pollution is having impacts on the health of humans and the natural ecosystem as perceived by experts and inhabitants having divergent perspectives. Thus, light pollution is multifaceted but difficult to be faced, mitigated and not holistically understood. This review paper groups the total impacts of light pollution on the Earth presents some contradictory results, summarises mitigation measures, and provides specific future research directions.

Published

2021

22. Temporal changes in soil water erosion on sloping vineyards in the Ruwer- Mosel Valley. The impact of age and plantation works in young and old vines

Author

Jesús Rodrigo-Comino, Christine Brings, José Damián Ruiz-Sinoga, Thomas Iserloh, José María Senciales, Eric C. Brevik, Manuel Seeger, Johannes B. Ries, and Markus Casper

Subjects

Fluid Flow and Transfer Processes, Hydrology, soil erosion, 010504 meteorology & atmospheric sciences, Agroforestry, Mechanical Engineering, rainfall, ruwer-mosel valley, Hydraulic engineering, 04 agricultural and veterinary sciences, 01 natural sciences, old vineyard, young vineyard, Soil water, tillage, 040103 agronomy & agriculture, Erosion, 0401 agriculture, forestry, and fisheries, Environmental science, TC1-978, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

It is well known that rainfall causes soil erosion in sloping German vineyards, but little is known about the effect of age of plantation on soil erosion, which is relevant to understand and design sustainable management systems. In the Ruwer-Mosel valley, young (1- to 4-years) and old (35- to 38-years after the plantation) vineyards were selected to assess soil and water losses by using two-paired Gerlach troughs over three years (2013-2015). In the young vineyard, the overland flow was 107 L m-1 and soil loss 1000 g m-1 in the year of the plantation, and decreased drastically over the two subsequent years (19 L m-1; 428 g m-1). In the old vineyard, soil (from 1081 g m-1 to 1308 g m-1) and water (from 67 L m-1 to 102 L m-1) losses were 1.2 and 1.63 times higher, respectively, than in the young vineyard.

Published

2017

23. Erosion processes on different relief units: the relationship of form and process

Author

Manuel Seeger, Stefan Wirtz, Thomas Iserloh, Irene Marzolff, and Johannes B. Ries

Subjects

Geography, 010504 meteorology & atmospheric sciences, Geography, Planning and Development, 040103 agronomy & agriculture, Earth and Planetary Sciences (miscellaneous), 0401 agriculture, forestry, and fisheries, 04 agricultural and veterinary sciences, Environmental Science (miscellaneous), 01 natural sciences, Humanities, 0105 earth and related environmental sciences

Abstract

Las unidades geomorfologicas estan relacionadas con ciertos procesos y con la historia de su formacion. Ademas, se definen por sus formas y materiales. En este estudio se investigan los procesos de erosion en diferentes unidades de relieve. Simulaciones de lluvia, experimentos en rigolas y seguimientos a traves de fotografia aerea se llevaron a cabo en dunas, glacis, rellenos holocenos, taludes y terrazas franco-arcillosos de origen cuaternario, con el objeto de conocer la variacion en la intensidad de los procesos. Para ello, se evaluaron el impacto de las gotas de lluvia, la generacion de escorrentia, la erosion en inter-rigolas y rigolas durante varios anos. Las areas de estudio se situaron en el NE y SE de Espana, sur de Marruecos y norte de Burkina Faso. Los resultados muestras claramente que los procesos medidos son muy diferentes entre si segun la formacion de las propias unidades de relieve. Las dunas y los rellenos holocenos en los valles son altamente susceptibles a la erosion por el impacto de las gotas de lluvia y la formacion de regueros. Por el contrario, las terrazas sobre materiales franco-arcillosos muestran baja susceptibilidad a los procesos de erosion. Por lo tanto, se puede concluir que las distintas unidades de relieve muestran diferentes dominancia e intensidad de procesos. Las diferencias son mas significativas con el incremento de la escala y la complejidad del proceso erosivo: el crecimiento de las carcavas varia mucho mas entre diferentes unidades que los efectos del impacto de la gota de lluvia y la formacion de rigolas.

Published

2017

24. Experiments as tools in geomorphology

Author

Manuel Seeger

Subjects

soil erosion measurements, Geography (General), soil erosion, 010504 meteorology & atmospheric sciences, Computer science, Geography, Planning and Development, experimental classification, experiments, 04 agricultural and veterinary sciences, Environmental Science (miscellaneous), Process interaction, 01 natural sciences, Variable (computer science), experimental theory, 040103 agronomy & agriculture, Earth and Planetary Sciences (miscellaneous), G1-922, 0401 agriculture, forestry, and fisheries, Geomorphology, 0105 earth and related environmental sciences

Abstract

In this introductory article to the special issue “Experiments in geomorphology”, the fundamentals of experiments in science, and especially in earth science and geomorphology, are discussed. This is of special interest, as geomorphological sciences crosses scales and thus, different types of experiments are applied for highly variable tasks: (i) Real experiments: to test hypotheses on the process interaction of well defined landscape components; (ii) Quasi experiments: the integrated response of pre-defined morphological units is quantified here; (iii) Hybrid experiments: spatial stratification of the landscape according to statistically evaluable characteristics.A short review on different types of experiments in geomorphology is given, focusing on the processes relevant for soil erosion: splash, inter-rill and linear erosion. Finally, the contributions to the special issue are classified according to the classification of experiments given.

Published

2017

25. Soil erosion in sloping vineyards under conventional and organic land use managements (Saar-Mosel Valley, Germany)

Author

Jesús Rodrigo-Comino, Mario Kirchhoff, Manuel Seeger, and Johannes B. Ries

Subjects

Geography, Planning and Development, 010501 environmental sciences, Environmental Science (miscellaneous), 01 natural sciences, Vineyard, Soil management, gerlach trough, Earth and Planetary Sciences (miscellaneous), organic vineyards, conventional vineyards, 0105 earth and related environmental sciences, Hydrology, Geography (General), soil erosion, Land use, Sediment, 04 agricultural and veterinary sciences, rainfall simulation, Tillage, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, G1-922, Trampling, Soil conservation, Surface runoff

Abstract

German vineyards are one of the land uses most prone to soil erosion. Due to their placement on mainly steep slopes and non-conservative cultivation practices, runoff and soil loss are a serious problem for wine growers. In the Saar-Mosel valley (Rhineland-Palatinate, Germany), there is a tendency towards organic management of vineyards with protective grass cover in the inter-rows. Since there is a lack of information about organic-conventional tillage in German vineyards related to soil erosion processes, this study presents a comparison between these two soil management practices. For this purpose, 22 rainfall simulations were performed as well as a medium-term monitoring by using 4-paired Gerlach troughs in two experimental sites in the Saar-Mosel valley. The mean simulated runoff coefficient and suspended sediment load in conventional vineyards amounted up to 23.3% and 33.75 g m -2 , respectively. In the organic site, runoff and soil loss were only recorded in one out of the 11 simulations. Runoff and sediment was collected in the Gerlach troughs for 33 natural rainfall events. In the conventional vineyard, the total measured soil loss was 3314.63 g m -1 and 6503.77 g m -1 and total runoff volumes were 105.52 L m -1 and 172.58 L m -1 . In the organic site, total soil losses reached 143.16 g m -1 and 258.89 g m -1 and total runoff was 21.65 L m -1 and 12.69 L m -1 . When soil loss was measured without corresponding runoff or precipitation, soil erosion was activated by tillage or trampling. Finally, the conventional vineyard showed a higher variability in soil loss and runoff suggesting less predictable results.

Published

2017

26. Geomorphodynamics in Argan Woodlands, South Morocco

Author

Manuel Seeger, Irene Marzolff, Mario Kirchhoff, Lars Engelmann, Ali Aït Hssaine, Johannes B. Ries, and Lutz Leroy Zimmermann

Subjects

lcsh:Hydraulic engineering, 010504 meteorology & atmospheric sciences, Soil test, Geography, Planning and Development, Woodland, Aquatic Science, Firewood, 01 natural sciences, Biochemistry, Vegetation cover, soil degradation, lcsh:Water supply for domestic and industrial purposes, Agricultural land, lcsh:TC1-978, Soil retrogression and degradation, ddc:550, south morocco, 0105 earth and related environmental sciences, Water Science and Technology, argan, lcsh:TD201-500, soil erosion, Forestry, 04 agricultural and veterinary sciences, tree, Infiltration (hydrology), 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Surface runoff, intertree

Abstract

The endemic argan tree (Argania spinosa) populations in South Morocco are highly degraded due to their use as a biomass resource in dry years and illegal firewood extraction. The intensification and expansion of agricultural land lead to a retreat of the wooded area, while the remaining argan open woodlands are often overgrazed. Thus, canopy-covered areas decrease while areas without vegetation cover between the argan trees increase. In total, 36 rainfall simulation experiments as well as 60 infiltration measurements were conducted to investigate the potential difference between tree-covered areas and bare intertree areas. In addition, 60 soil samples were taken under the trees and in the intertree areas parallel to the contour lines. Significant differences using a t-test were found between tree and intertree areas for the studied parameters Ksat, Kh, pH, electric conductivity, percolation stability, total C-content, total N-content, K-content, Na-content, and Mg-content. Surface runoff and soil losses were not as conclusive but showed similar trends. The results showed that argan trees influence the soil underneath significantly, while the soil in intertree areas is less protected and more degraded. It is therefore reasonable to assume further degradation of the soil when intertree areas extend further due to lack of rejuvenation of argan trees.

Published

2019

27. High variability of soil erosion and hydrological processes in Mediterranean hillslope vineyards (Montes de Málaga, Spain)

Author

Antonio Guerra-Merchán, Johannes B. Ries, J. D. Ruiz Sinoga, J. Rodrigo Comino, Manuel Seeger, and J. M. Senciales Gonzalez

Subjects

Hydrology, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Soil test, Soil science, 04 agricultural and veterinary sciences, Silt, 01 natural sciences, Rill, Tillage, Infiltration (hydrology), Hydraulic conductivity, 040103 agronomy & agriculture, Erosion, 0401 agriculture, forestry, and fisheries, Environmental science, Surface runoff, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Conventional Mediterranean vineyards from the Montes de Malaga (Axarquia region, Spain) are characterized by high average temperatures, extreme rainfall events during autumn and winter, elevated stoniness and steep slopes (20–50°). Traditionally, several problems of high soil loss, rill and ephemeral gully generation, and elevated runoff are observed by farmers, which are increasing land degradation processes and a decrease of the productivity. According to this, the main aims of this paper were: i) to quantify the initial soil loss, surface flow and infiltration processes; ii) to characterize and describe the hydrological and geomorphological dynamics; iii) to detect the key factors, which control the soil erosion processes. For this purpose, a combined methodology was applied, using soil analysis, a small portable rainfall simulator and a Guelph permeameter on one experimental plot cultivated with vineyards with steep slopes. Results showed a high variability of soil erosion and permeability processes. Soil analysis showed an elevated concentration of silt particles and stoniness, with higher contents of sand particles between 0 and 5 cm, and clays from 5 cm. With a Guelph permeameter, high average of permeability and saturated hydraulic conductivity with elevated standard deviation were observed. Furthermore, an increase of these parameters from the upper to the foot slope was registered. By using rainfall simulations, on the upper and the foot slope positions the highest runoff coefficient and soil loss were registered. The most elevated peak of sediment concentration was obtained on the middle slope. In general, high infiltration coefficients between 66.5 and 100% were observed. In conclusion it was observed that the activation of the soil erosion processes was due to the distribution of the surface soil components (high roughness, several cracks and high stoniness and silt content), the steep slopes and the impact of the soil traditional tillage practices. These Mediterranean hillslope vineyards registered a mixed Hortonian-Hewlettian model, which combines surface and sub-surface flow conditioned by the micro-topographical changes and its saturation degree.

Published

2016

28. Smartstones: A small 9-axis sensor implanted in stones to track their movements

Author

Oliver Gronz, Jochen Aberle, Markus Casper, Manuel Seeger, Thomas Iserloh, Kerstin Becker, Stefan Wirtz, Priska Helene Hiller, Johannes B. Ries, and Christine Brings

Subjects

010504 meteorology & atmospheric sciences, Computer science, Acoustics, 0211 other engineering and technologies, 02 engineering and technology, Stone movement, 01 natural sciences, law.invention, Clipping (photography), law, Active tracer, 0105 earth and related environmental sciences, Earth-Surface Processes, 021110 strategic, defence & security studies, Orientation (computer vision), business.industry, Quantization (signal processing), Geomorphology, Gyroscope, Robotics, Hydraulic engineering, Kalman filter, Noise, Active RFID (radio frequency identification), Artificial intelligence, Antenna (radio), business, Cartography

Abstract

The movement of stones is important in a variety of disciplines such as geomorphology or hydraulic engineering. Plenty of different sensors, visual, active or passive tracers exist to capture movements in various ways. However, none of them is sufficiently small to be implanted in pebbles with a longest axis of approx. 60 mm. In this article, a sufficiently small probe is introduced: the Smartstone probe. It consists of a metal cylinder (diameter 8 mm, length 55 mm) with a flexible antenna and contains a Bosch BMX055 sensor composed of a triaxial accelerometer, magnetometer and gyroscope, respectively. Additional components inside the probe are memory to store data, active RFID (Radio-frequency identification) technique to transmit data and two button cells as power supply. Mounted into a pebble, the applicability of this probe was tested in laboratory flume experiments by determining the pebble movement using the Smartstone measurements and comparing them to the movement pattern captured by a high-speed camera. The derived orientations and positions in these test experiments resulted in deviations of 32.4% compared to the visual footage. The different reasons for deviations are noise, quantization error, integration error, orientation error and clipping. The error sources were divided with supplementary experiments resulting in mean absolute deviation (MAE) of 3.3% due to noise, quantization, and integration errors; orientation errors result in an increased MAE of 13.7% in natural environment and 21.7% in laboratory. The MAE of all experiments containing clipping was 63.2%. These deviations will be reduced in future by application of methods like Kalman filtering or Markov models, which are established in other disciplines like computer science, robotics or (pedestrian) navigation.

Published

2016

29. Variación espacio-temporal de los procesos hidrológicos del suelo en viñedos con elevadas pendientes (Valle del Ruwer-Mosela, Alemania)

Author

José Damián Ruiz-Sinoga, Jesús Rodrigo-Comino, Johannes B. Ries, Manuel Seeger, and José María Senciales

Subjects

infiltración, Geography (General), 010504 meteorology & atmospheric sciences, Geography, Planning and Development, procesos hidrológicos, viñedos, 04 agricultural and veterinary sciences, valle del ruwer-mosela, Environmental Science (miscellaneous), permeámetro de guelph, 01 natural sciences, 040103 agronomy & agriculture, Earth and Planetary Sciences (miscellaneous), 0401 agriculture, forestry, and fisheries, G1-922, 0105 earth and related environmental sciences

Abstract

Los suelos de los vinedos del valle del Ruwer-Mosela (Alemania) cultivados en elevadas pendientes muestran una alta variabilidad espacio-temporal en su dinamica hidrologica. A traves del uso del permeametro de Guelph se realizaron un total de cuarenta y dos experimentos en vinedos jovenes y viejos para medir las tasas de infiltracion, la conductividad hidraulica y el potencial del flujo matricial. Los ensayos fueron realizados antes de la vendimia coincidiendo con la primavera y el verano (con el suelo relativamente seco y sin actividad reciente de pisadas y maquinaria), y tras la cosecha en otono (con un manto edafico humedo, con senales de compactacion y un menor contenido de materia organica). En general, todos los parametros analizados fueron mucho mas elevados en los vinedos jovenes que en los viejos y aumentaron tras la vendimia. En las vinas jovenes los tres parametros analizados mostraron sus mayores valores en la parte media (398,5 mm h -1 de tasa de infiltracion, 89,2 mm h -1 de conductividad hidraulica y 62,8 mm 2 h -1 de potencial del flujo matricial). Por su parte, en las vinas viejas se observo un descenso de la infiltracion desde la parte superior a la inferior de la parcela (desde 42,5 a 16,8 mm h -1 ). Los resultados de la conductividad hidraulica y el potencial del flujo matricial marcaron tambien una dinamica hidrologica parecida: descenso de los parametros conforme se desciende en la parcela (13,2 a 5,4 mm h -1 y desde 5,5 a 2,5 mm 2 h -1 ). Por ultimo, se observo como el factor que mayor coeficiente de determinacion obtuvo con estas dinamicas hidrologicas fue la variacion del contenido de agua en el suelo y las practicas agricolas.

Published

2016

30. 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

31. Experimental validation of some basic assumptions used in physically based soil erosion models

Author

Manuel Seeger, Johannes B. Ries, Stefan Wirtz, and Jean-Frank Wagner

Subjects

Hydrology, Rill, geography, geography.geographical_feature_category, Range (statistics), Environmental science, Soil science, WEPP, Experimental validation, Crop rotation, Constant (mathematics), Surface runoff, Sediment concentration

Abstract

In spring 2009, four rill experiments were accomplished on a fallow land. Most external factors as well as discharge quantity (9 L min-1) were held constant or at least in the same range. Following most process based soil erosion models, detachment or runoff values should therefore be similar, but the experimental results show clear differences in sediment concentration, runoff and other measured and calculated values. This fact underlines the problems of process based models: concerning rill erosion, different processes take part and the process described by the models is only responsible for a part of the eroded material.

Published

2018

32. Development and Analysis of Soil Water Infiltration Global Database

Author

Mehdi Rahmati, Lutz Weihermüller, Jan Vanderborght, Yakov A. Pachepsky, Lili Mao, Seyed Hamidreza Sadeghi, Niloofar Moosavi, Hossein Kheirfam, Carsten Montzka, Kris Van Looy, Brigitta Toth, Zeinab Hazbavi, Wafa Al Yamani, Ammar A. Albalasmeh, Ma'in Z. Alghzawi, Rafael Angulo-Jaramillo, Antônio Celso Dantas Antonino, George Arampatzis, Robson André Armindo, Hossein Asadi, Yazidhi Bamutaze, Jordi Batlle-Aguilar, Beatrice Bechet, Fabian Becker, Günter Blöschl, Klaus Bohne, Isabelle Braud, Clara Castellano, Artemi Cerdà, Maha Chalhoub, Rogerio Cichota, Milena Císlerová, Brent Clothier, Yves Coquet, Wim Cornelis, Corrado Corradini, Artur Paiva Coutinho, Muriel Bastista de Oliveira, José Ronaldo de Macedo, Matheus Fonseca Durães, Hojat Emami, Iraj Eskandari, Asghar Farajnia, Alessia Flammini, Nándor Fodor, Mamoun Gharaibeh, Mohamad Hossein Ghavimipanah, Teamrat A. Ghezzehei, Simone Giertz, Evangelos G Hatzigiannakis, Rainer Horn, Juan José Jiménez, Diederik Jacques, Saskia Deborah Keesstra, Hamid Kelishadi, Mahboobeh Kiani-Harchegani, Mehdi Kouselou, Madan Kumar Jha, Laurent Lassabatere, Xiaoyan Li, Mark A. Liebig, Lubomír Lichner, María Victoria López, Deepesh Machiwal, Dirk Mallants, Micael Stolben Mallmann, Jean Dalmo de Oliveira Marques, Miles R. Marshall, Jan Mertens, Félicien Meunier, Mohammad Hossein Mohammadi, Binayak P. Mohanty, Mansonia Pulido Moncada, Suzana Montenegro, Renato Morbidelli, David Moret-Fernández, Ali Akbar Moosavi, Mohammad Reza Mosaddeghi, Seyed Bahman Mousavi, Hasan Mozaffari, Kamal Nabiollahi, Mohammad Reza Neyshabouri, Marta Vasconcelos Ottoni, Theophilo Benedicto Ottoni Filho, Mohammad Reza Pahlavan Rad, Andreas Panagopoulos, Stephan Peth, Pierre-Emmanuel Peyneau, Tommaso Picciafuoco, Jean Poesen, Manuel Pulido, Dalvan José Reinert, Sabine Reinsch, Meisam Rezaei, Francis Parry Roberts, David Robinson, Jesús Rodrigo-Comino, Otto Corrêa Rotunno Filho, Tadaomi Saito, Hideki Suganuma, Carla Saltalippi, Renáta Sándor, Brigitta Schütt, Manuel Seeger, Nasrollah Sepehrnia, Ehsan Sharifi Moghaddam, Manoj Shukla, Shiraki Shutaro, Ricardo Sorando, Ajayi Asishana Stanley, Peter Strauss, Zhongbo Su, Ruhollah Taghizadeh-Mehrjardi, Encarnación Taguas, Wenceslau Geraldes Teixeira, Ali Reza Vaezi, Mehdi Vafakhah, Tomas Vogel, Iris Vogeler, Jana Votrubova, Steffen Werner, Thierry Winarski, Deniz Yilmaz, Michael H. Young, Steffen Zacharias, Yijian Zeng, Ying Zhao, Hong Zhao, and Harry Vereecken

Abstract

In this paper, we present and analyze a global database of soil infiltration measurements, the Soil Water Infiltration Global (SWIG) database, for the first time. In total, 5023 infiltration curves were collected across all continents in the SWIG database. These data were either provided and quality checked by the scientists who performed the experiments or they were digitized from published articles. Data from 54 different countries were included in the database with major contributions from Iran, China, and USA. In addition to its global spatial coverage, the collected infiltration curves cover a time span of research from 1976 to late 2017. Basic information on measurement location and method, soil properties, and land use were gathered along with the infiltration data, which makes the database valuable for the development of pedo-transfer functions for estimating soil hydraulic properties, for the evaluation of infiltration measurement methods, and for developing and validating infiltration models. Soil textural information (clay, silt, and sand content) is available for 3842 out of 5023 infiltration measurements (~76 %) covering nearly all soil USDA textural classes except for the sandy clay and silt classes. Information on the land use is available for 76 % of experimental sites with agricultural land use as the dominant type (~40 %). We are convinced that the SWIG database will allow for a better parameterization of the infiltration process in land surface models and for testing infiltration models. All collected data and related soil characteristics are provided online in *.xlsx and *.csv formats for reference, and we add a disclaimer that the database is for use by public domain only and can be copied freely by referencing it. Supplementary data are available at doi:10.1594/PANGAEA.885492. Data quality assessment is strongly advised prior to any use of this database. Finally, we would like to encourage scientists to extend/update the SWIG by uploading new data to it.

Published

2018

33. Supplementary material to 'Development and Analysis of Soil Water Infiltration Global Database'

Author

Mehdi Rahmati, Lutz Weihermüller, Jan Vanderborght, Yakov A. Pachepsky, Lili Mao, Seyed Hamidreza Sadeghi, Niloofar Moosavi, Hossein Kheirfam, Carsten Montzka, Kris Van Looy, Brigitta Toth, Zeinab Hazbavi, Wafa Al Yamani, Ammar A. Albalasmeh, Ma'in Z. Alghzawi, Rafael Angulo-Jaramillo, Antônio Celso Dantas Antonino, George Arampatzis, Robson André Armindo, Hossein Asadi, Yazidhi Bamutaze, Jordi Batlle-Aguilar, Beatrice Bechet, Fabian Becker, Günter Blöschl, Klaus Bohne, Isabelle Braud, Clara Castellano, Artemi Cerdà, Maha Chalhoub, Rogerio Cichota, Milena Císlerová, Brent Clothier, Yves Coquet, Wim Cornelis, Corrado Corradini, Artur Paiva Coutinho, Muriel Bastista de Oliveira, José Ronaldo de Macedo, Matheus Fonseca Durães, Hojat Emami, Iraj Eskandari, Asghar Farajnia, Alessia Flammini, Nándor Fodor, Mamoun Gharaibeh, Mohamad Hossein Ghavimipanah, Teamrat A. Ghezzehei, Simone Giertz, Evangelos G Hatzigiannakis, Rainer Horn, Juan José Jiménez, Diederik Jacques, Saskia Deborah Keesstra, Hamid Kelishadi, Mahboobeh Kiani-Harchegani, Mehdi Kouselou, Madan Kumar Jha, Laurent Lassabatere, Xiaoyan Li, Mark A. Liebig, Lubomír Lichner, María Victoria López, Deepesh Machiwal, Dirk Mallants, Micael Stolben Mallmann, Jean Dalmo de Oliveira Marques, Miles R. Marshall, Jan Mertens, Félicien Meunier, Mohammad Hossein Mohammadi, Binayak P. Mohanty, Mansonia Pulido Moncada, Suzana Montenegro, Renato Morbidelli, David Moret-Fernández, Ali Akbar Moosavi, Mohammad Reza Mosaddeghi, Seyed Bahman Mousavi, Hasan Mozaffari, Kamal Nabiollahi, Mohammad Reza Neyshabouri, Marta Vasconcelos Ottoni, Theophilo Benedicto Ottoni Filho, Mohammad Reza Pahlavan Rad, Andreas Panagopoulos, Stephan Peth, Pierre-Emmanuel Peyneau, Tommaso Picciafuoco, Jean Poesen, Manuel Pulido, Dalvan José Reinert, Sabine Reinsch, Meisam Rezaei, Francis Parry Roberts, David Robinson, Jesús Rodrigo-Comino, Otto Corrêa Rotunno Filho, Tadaomi Saito, Hideki Suganuma, Carla Saltalippi, Renáta Sándor, Brigitta Schütt, Manuel Seeger, Nasrollah Sepehrnia, Ehsan Sharifi Moghaddam, Manoj Shukla, Shiraki Shutaro, Ricardo Sorando, Ajayi Asishana Stanley, Peter Strauss, Zhongbo Su, Ruhollah Taghizadeh-Mehrjardi, Encarnación Taguas, Wenceslau Geraldes Teixeira, Ali Reza Vaezi, Mehdi Vafakhah, Tomas Vogel, Iris Vogeler, Jana Votrubova, Steffen Werner, Thierry Winarski, Deniz Yilmaz, Michael H. Young, Steffen Zacharias, Yijian Zeng, Ying Zhao, Hong Zhao, and Harry Vereecken

Published

2018

34. Characterization of complex pebble movement patterns in channel flow – a laboratory study

Author

Manuel Seeger, Markus Casper, Christine Brings, Kerstin Becker, Thomas Iserloh, Stefan Wirtz, Johannes B. Ries, and Oliver Gronz

Subjects

Hydrology, geography, Geography (General), geography.geographical_feature_category, Geography, Planning and Development, Image processing, Geometry, Environmental Science (miscellaneous), Open-channel flow, Rill, Flow velocity, Rock fragment, Saltation (geology), Earth and Planetary Sciences (miscellaneous), Erosion, G1-922, Pebble, pebble movement forms, pebble movement patterns, cross-section shape, channel flow, laboratory channel study

Abstract

For a long time, studies concerning erosion caused by concentrated overland flow mainly dealt with the erosion and the transport of fine material. More recent studies have shown that rock fragments reduce the intensity of soil erosion processes on the one hand, but on the other hand rock fragment movements also have been observed both in the rill- and interrill erosion processes. However, there is little knowledge about the movement process of rock fragments in shallow channel flow. Are certain movement patterns typical for different shapes? Are there relationships between movement patterns and slope and flow velocity? Are all these patterns and relationships reproducible? To answer these questions, we performed laboratory channel experiments. With these experiments, we could obtain information about movement patterns of pebbles, by varying the following parameters: shape (flat, ellipsoidal, nearly spherical), size (diameter between 1.97 and 4.0 cm) and channel slope (5°, 10°). During the experiments, a high-speed camera was used to capture the motion of eight specially painted pebbles. The resulting image sequences were processed using both automatic image processing and manual visual inspection. Besides the movement patterns, the pebbles velocity, the water velocity and the water depth were estimated. We could show that there were different movement patterns depending on the shape and the slope. For the 5° experiments, the big, flat pebbles lie at the beginning of the tests. After the following yawing, the pebbles mainly showed the movement form rolling around the longest axis. For the 10° experiments the big, flat pebbles showed the same movement pattern firstly, but later in the sequence, they started to roll around their shortest axis and in the end this movement form was combined with saltation. These patterns are described using a simple symbolic language: sequences of pictograms describe the consecutive movement forms. Furthermore, we detected five different velocity groups of the pebbles for each slope: different cross-section shapes of the pebbles result in different acceleration behavior. The methodology is limited to clear water in laboratory use. Even a larger water depth restricts the image processing. Thus, in the future the experiments will be combined with a small sensor that is implanted in the pebbles and measures forces (acceleration), compass (magnetic flux density) and rotations (gyroscope).

Published

2015

35. 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

36. Estudio de procesos geomorfodinámicos en campos cultivados de viñedos sobre laderas en pendientes en el valle del Ruwer (Alemania)

Author

Jesús Rodrigo Comino, Tamás Lassu, José María Senciales González, José Damián Ruiz Sinoga, Manuel Seeger, and Ries, Johannes B.

Subjects

lcsh:GE1-350, lcsh:G1-922, lcsh:Environmental sciences, lcsh:Geography (General)

Abstract

El presente trabajo pretende examinar la respuesta erosiva del suelo en áreas cultivadas de viñe-dos sobre laderas en pendientes elevadas en el Valle del Ruwer (Alemania) a través de diferentes técnicas. Los experimentos se desarrollan entre los meses de septiembre y diciembre durante di-ferentes épocas de manejo del suelo: antes, durante y después de la vendimia. En primer lugar, se realiza un análisis de la variación geométrica de tres rills para cuantificar su expansión lateral (de 7 a 13 cm) y vertical (1 a 4 cm). El movimiento del suelo confirma una elevada variabilidad en los procesos hidro-geomorfológicos de la ladera. A continuación, a través del cálculo del coeficiente teórico de escorrentía a partir del número de curva y lluvias simuladas en diferentes épocas del año, se observan unas elevadas tasas de infiltración, aunque con resultados muy diferentes entre técnicas. Por último, con el cálculo de la RUSLE (Revised Universal Soil Loss Ecuation) y el aná-lisis de las marcas botánicas en los tocones de las parras, se calcula el impacto negativo de la ero-sión con el manejo agrícola del ser humano sobre los suelos de los viñedos. Con ambos métodos, se han obtenido 11.28 t ha-1 y 3.4 t ha-1 año de pérdida de suelo, respectivamente.

Published

2015

37. Momentum or kinetic energy – How do substrate properties influence the calculation of rainfall erosivity?

Author

Manuel Seeger, Steffen Seitz, Thomas Scholten, Piet Peters, Philipp Goebes, Tamás Lassu, Christian Geißler, and Karin Nadrowski

Subjects

Splash, Drop size, Materials science, Momentum, Drop (liquid), Soil science, Rainfall erosivity, Bodemfysica en Landbeheer, Silt, Kinetic energy, Rainfall simulation, Soil Physics and Land Management, Splash cup, Geotechnical engineering, Water Science and Technology

Abstract

Summary Rainfall erosivity is a key component in soil erosion by water. While kinetic energy and momentum are used to describe the erosivity of rainfall, and both are derived from mass and velocity of raindrops, it is not clear how different substrates transform this energy. In our study we conducted rainfall simulation experiments to determine splash detachment amounts of five substrates (coarse sand, medium sand, fine sand, PE balls, silt) for seven different rainfall intensities (52–116 mm h−1). We used linear mixed-effect modeling (LME) to calculate erosivity predictors for each substrate. Additionally, we separated drop-size-velocity relationship into lower left and upper right quarter to investigate the effect of small and slow just as big and fast raindrops on splash detachment amounts. We suggest using momentum divided by drop diameter as a substrate-independent erosivity predictor. To consider different substrates specific erosivity parameters are needed. Heavier substrates like sand are best described by kinetic energy multiplied by diameter whereas lighter substrates like silt point to momentum divided by diameter to the power of 1.5. Furthermore, our results show that substrates are differently affected by the size and velocity of drops. While splash detachment of light substances can be reliably predicted by drop size and velocity for small and slow drops, drop size and velocity loses its predictive power in heavier substrates like sand.

Published

2014

38. Sheep and goat erosion – experimental geomorphology as an approach for the quantification of underestimated processes

Author

J. Tumbrink, M. Burczyk, T. Wilms, Stefan Wirtz, Johannes B. Ries, Manuel Seeger, K. Andres, Klaus Daniel Peter, and V. Butzen

Subjects

Hydrology, Geography, Erosion, Geomorphology

Published

2014

39. Dynamics of Runoff and Soil Erosion on Abandoned Steep Vineyards in the Mosel Area, Germany

Author

Thomas Iserloh, Jesús Rodrigo-Comino, Manuel Seeger, Johannes B. Ries, and Christine Brings

Subjects

Sustainable land management, 010504 meteorology & atmospheric sciences, Geography, Planning and Development, Land management, runoff, Aquatic Science, 01 natural sciences, Biochemistry, Vineyard, Soil management, steep sloping vineyards, rainfall simulation experiments, 0105 earth and related environmental sciences, Water Science and Technology, Hydrology, soil erosion, Land use, Mosel Wine Region, land abandonment, Sediment, 04 agricultural and veterinary sciences, 040103 agronomy & agriculture, Erosion, 0401 agriculture, forestry, and fisheries, Environmental science, Surface runoff

Abstract

The Mosel Wine region has suffered during the last decades a decrease in productive area, mostly on steep sloping vineyards. To avoid the spread of diseases, the extraction of grapevines on abandoned vineyards is mandatory in Rhineland-Palatinate. At the same time, the organic production of wine is growing slowly, but well established in the area. We assess in this paper the degree of the land-use changes, as well as their effect on runoff generation and sediment production, depending on the age of the abandonment, as well as the type and age of the land management, whether organic or conventional. Land use data were obtained to identify land-use change dynamics. For assessment of runoff generation and soil erosion, we applied rainfall simulation experiments on the different types of vineyard management. These were organically managed, conventionally managed and abandoned ones, all of varying ages. During the last decades of the last century, a decrease of around 30% of vineyard surface could be observed in Germany&rsquo, s Mosel Wine Region, affecting mostly the steep sloping vineyards. Despite a high variability within the types of vineyard management, the results show higher runoff generation, and soil erosion associated with recently installed or abandoned vineyards when compared to organic management of the vineyards, where erosion reached only 12%. In organic management, runoff and erosion are also reduced considerably, less than 16%, after a decade or more. Thus, organic vineyard management practices show to be very efficient for reduction of runoff and erosion. Consequently, we recommend to adopt as far as possible these soil management practices for sustainable land management of steep sloping vineyards. In addition, soil protection measures are highly recommended for vineyard abandonment according to the law.

Published

2019

40. On-Site Water and Wind Erosion Experiments Reveal Relative Impact on Total Soil Erosion

Author

Manuel Seeger, Miriam Marzen, Johannes B. Ries, Wolfgang Fister, Thomas Iserloh, and Jesús Rodrigo-Comino

Subjects

Mediterranean climate, Hydrology, soil erosion, 010504 meteorology & atmospheric sciences, Land use, rain erosion, Climate change, Sediment, 04 agricultural and veterinary sciences, 01 natural sciences, geomorphological experiments, Soil water, 040103 agronomy & agriculture, Erosion, 0401 agriculture, forestry, and fisheries, General Earth and Planetary Sciences, Aeolian processes, Environmental science, wind erosion, Trampling, 0105 earth and related environmental sciences

Abstract

The relative impact of water and wind on total erosion was investigated by means of an experimental-empirical study. Wind erosion and water erosion were measured at five different sites: (1) Mediterranean fallow, (2) Mediterranean orchard, (3) wheat field, (4) vineyard and (5) sand substrate. Mean erosion rates ranged from 1.55 to 618 g&middot, m&minus, 2&middot, h&minus, 1 for wind and from 0.09 to 133.90 g&middot, 1 for rain eroded material over all tested sites. Percentages (%) of eroded sediment for wind and rain, respectively, were found to be 2:98 on Mediterranean fallow, 11:89 on Mediterranean orchard, 3:97 on wheat field, 98:2 on vineyard and 99:1 on sand substrate. For the special case of soil surface crust destroyed by goat trampling, the measured values emphasize a strong potential impact of herding on total soil erosion. All sites produced erosion by wind and rain, and relations show that both erosive forces may have an impact on total soil erosion depending on site characteristics. The results indicate a strong need to focus on both wind and water erosion particularly concerning soils and substrates in vulnerable environments. Measured rates show a general potential erosion depending on recent developments of land use and climate change and may raise awareness of scientist, farmers and decision makers about potential impact of both erosive forces. Knowledge about exact relationship is key for an adapted land use management, which has great potential to mitigate degradation processes related to climate change.

Published

2019

41. Quantification of Hortonian overland flow generation and soil erosion in a Central European low mountain range using rainfall experiments

Author

Manuel Seeger, M. Huemann, Carsten W. Mueller, Markus Casper, Johannes B. Ries, Stefan Wirtz, and V. Butzen

Subjects

Hydrology, geography, geography.geographical_feature_category, Flood myth, Soil water, Erosion, Environmental science, Climate change, Sediment, Context (language use), Surface runoff, Mountain range, Earth-Surface Processes

Abstract

In the framework of the EU-INTERREG-IVb-project ForeStClim (Transnational Forestry Management Strategies in Response to Regional Climate Change Impacts) a combination of experimental methods has been applied for the investigation of the spatial and temporal variation and intensity of overland flow generation and soil erosion processes. In the presented study, the influences of land-use type and land-management practices on overland flow generation and soil erosion are investigated for three low mountain range catchments in Luxembourg and in Rhineland-Palatinate, Germany. The key questions of the study can be summarized as follows: Can Hortonian overland flow generation be observed on all land-use types in the investigated areas in the Central European low mountain range? How can the contribution of forested areas to the flood and erosion dynamics be evaluated under humid climate conditions in Central Europe and what are the most important factors of influence? The results of the presented study show that forest areas can also be sources for overland flow and sediment, particularly artificial linear structures like unpaved roads and harvester tracks, where runoff coefficients between 41.2 and 97.1%, and erosion values between 2.6 and 122.5 g m− 2 were determined using rainfall experiments. Another important factor is soil water repellency, this factor can pre-eminently be observed under rather dry soil moisture conditions in summer and can have severe influence on overland flow generation particularly in forested areas. The results of the rainfall experiments in coniferous forests show runoff coefficients ranging from 0 to 86.9%, here the high values can all be traced back to water repellency influence, as the field observations suggest. In the context of flood generation, it is becoming more and more important to improve knowledge on overland flow generation and soil erosion processes occurring in forested catchments, particularly considering the expected climate change.

Published

2014

42. Thermal shock and splash effects on burned gypseous soils from the Ebro Basin (NE Spain)

Author

Manuel Seeger, M.T. Echeverría, Piet Peters, David Badía, and Javier León

Subjects

Soil salinity, Stratigraphy, Soil Science, erosion processes, Soil science, sediment yield, wildfire, lcsh:Stratigraphy, Geochemistry and Petrology, Organic matter, physical-properties, organic-matter, Earth-Surface Processes, lcsh:QE640-699, aggregate stability, chemistry.chemical_classification, Hydrology, Topsoil, Soil organic matter, lcsh:QE1-996.5, Paleontology, ash, Geology, Soil classification, Bodemfysica en Landbeheer, Soil type, gypsum, lcsh:Geology, Soil Physics and Land Management, semiarid environment, Geophysics, chemistry, Soil water, Erosion, fire

Abstract

Fire is a natural factor of landscape evolution in Mediterranean ecosystems. The middle Ebro Valley has extreme aridity, which results in a low plant cover and high soil erodibility, especially on gypseous substrates. The aim of this research is to analyze the effects of moderate heating on physical and chemical soil properties, mineralogical composition and susceptibility to splash erosion. Topsoil samples (15 cm depth) were taken in the Remolinos mountain slopes (Ebro Valley, NE Spain) from two soil types: Leptic Gypsisol (LP) in a convex slope and Haplic Gypsisol (GY) in a concave slope. To assess the heating effects on the mineralogy we burned the soils at 105 and 205 °C in an oven and to assess the splash effects we used a rainfall simulator under laboratory conditions using undisturbed topsoil subsamples (0–5 cm depth of Ah horizon). LP soil has lower soil organic matter (SOM) and soil aggregate stability (SAS) and higher gypsum content than GY soil. Gypsum and dolomite are the main minerals (>80%) in the LP soil, while gypsum, dolomite, calcite and quartz have similar proportions in GY soil. Clay minerals (kaolinite and illite) are scarce in both soils. Heating at 105 °C has no effect on soil mineralogy. However, heating to 205 °C transforms gypsum to bassanite, increases significantly the soil salinity (EC) in both soil units (LP and GY) and decreases pH only in GY soil. Despite differences in the content of organic matter and structural stability, both soils show no significant differences (P < 0.01) in the splash erosion rates. The size of pores is reduced by heating, as derived from variations in soil water retention capacity.

Published

2014

43. European small portable rainfall simulators: A comparison of rainfall characteristics

Author

L. Ortigosa, Roberto Lázaro, J. Fernández-Gálvez, David Regüés, Manuel Seeger, José Damián Ruiz-Sinoga, Miriam Marzen, Artemi Cerdà, Christian Geißler, Wolfgang Fister, Helena Gómez-Macpherson, Thomas Scholten, José Arnáez, Albert Solé-Benet, Piet Peters, R. Wengel, Juan F. Martínez-Murillo, Stefan Wirtz, V. Butzen, Carolina Boix-Fayos, María Martínez-Mena, José A. Gómez, M.T. Echeverría, Johannes B. Ries, F. J. León, Nikolaus J. Kuhn, Thomas Iserloh, and M.D. Mingorance

Subjects

Hydrology, Drop size, Drop (liquid), Rainfall simulator comparison, Spatial rainfall distribution, Bodemfysica en Landbeheer, Spatial distribution, Rainfall simulation, Soil Physics and Land Management, Drop velocity, Process dynamics, Erosion, Environmental science, Research questions, Precipitation, Water erosion, Kinetic energy, Earth-Surface Processes

Abstract

28 páginas, 6 figuras, 2 tablas.- The definitive version is available on: http://www.sciencedirect.com/science/article/pii/S0341816213001252, [EN] Small-scale portable rainfall simulators are an essential research tool for investigating the process dynamics of soil erosion and surface hydrology. There is no standardisation of rainfall simulation and such rainfall simulators differ in design, rainfall intensities, rain spectra and research questions, which impede drawing a meaningful comparison between results. Nevertheless, these data become progressively important for soil erosion assessment and therefore, the basis for decision-makers in application-oriented erosion protection. The artificially generated rainfall of the simulators used at the Universities Basel, La Rioja, Malaga, Trier, Tübingen, Valencia, Wageningen, Zaragoza, and at different CSIC (Spanish Scientific Research Council) institutes (Almeria, Cordoba, Granada, Murcia and Zaragoza) was measured with the same methods (Laser Precipitation Monitor for drop spectra and rain collectors for spatial distribution). Data are very beneficial for improvements of simulators and comparison of simulators and results. Furthermore, they can be used for comparative studies, e.g. with measured natural rainfall spectra. A broad range of rainfall data was measured (e.g. intensity: 37–360 mm h− 1; Christiansen Coefficient for spatial rainfall distribution: 61–98%; median volumetric drop diameter: 0.375–6.5 mm; mean kinetic energy expenditure: 25–1322 J m− 2 h− 1; mean kinetic energy per unit area and unit depth of rainfall: 0.77–50 J m− 2 mm− 1). Similarities among the simulators could be found e.g. concerning drop size distributions (maximum drop numbers are reached within the smallest drop classes < 1 mm) and low fall velocities of bigger drops due to a general physical restriction. The comparison represents a good data-base for improvements and provides a consistent picture of the different parameters of the simulators that were tested., The research for this study was funded by the Deutsche Forschungsgemeinschaft (DFG) project number Ri-835/6-1. We would like to thank the anonymous reviewers for their remarks.

Published

2013

44. Runoff generation on abandoned fields in the Central Ebro Basin. Results from modelling

Author

Johannes B. Ries and Manuel Seeger

Subjects

Runoff coefficient, Hydrology, Geography (General), Geography, Geography, Planning and Development, Earth and Planetary Sciences (miscellaneous), G1-922, Forestry, Environmental Science (miscellaneous), Structural basin, Surface runoff

Abstract

The results from several rainfall simulations performed on two abandoned fields of different ages in the Central Ebro Depression have been analysed by application of the physically based hydraulic model HILLFLOW 1D. The data gained by the simulations was used to parame - terise the model. Afterwards, the runoff generation characteristics were determined by simulation of different rainfall intensities and different macroporosities of the soil. The young fallow land shows a minimum inten - sity for runoff generation of 6 mm h-1. An increase of the rainfall intensity leads rapidly to a growing runoff coefficient, being the value modelled for 30 mm h-1 nearly the same as the simulated one (40 mm h-1). Another con - clusion of the simulations and their modelling is the homogeneity of the soils on the young fallow land, with no macroporosity all over the profile. On the other hand, the rainfall simulations and the modelling on the old fallow land show a high variability of rainfall-runo ff response patterns, strongly conditioned by the presence of macropores. They are distributed very irregularly throughout the soil of the old fallow land. In both cases, water infiltrates only little into the soil matrix, for that measures for enhan- cing soil hydraulic properties are needed. RESUMEN: Se han analizado los resultados de numerosas simulacio - nes de lluvia en campos abandonados de diferente antuguedad en la Depresion central del Ebro aplicando el modelo hidrologico de base fisi ca HILLFLOW 1D. Los datos de las simulaciones se utilizaron para para - metrizar el modelo. A continuacion, las caracteristicas de la generacion de escorrentia se analizaron modelizando diferentes intensidades de lluvia y volumenes de macroporos en el suelo. En el campo recientemente aban - donado se pudo calcular una intensidad de llluvia minima para la gene- racion de escor rentia de 6 mm h-1. Una intensidad de precipitacion cr e - ciente produce un incremento muy fuerte del coeficiente de escor rentia, de modo que precipitaciones de 30 mm h-1 se diferencian poco de las simu- ladas con 40 mm h-1. Otra conclusion es que los suelos del campo recien - temente abandonado son muy homogeneos y estan caracterizados por la ausencia de macroporos. La respuesta de la generacion de escor rentia a la precipitacion es en cambio muy variable en el campo abandonado anti

Published

2013

45. Do deterministic sediment detachment and transport equations adequately represent the process-interactions in eroding rills? An experimental field study

Author

Stefan Wirtz, Manuel Seeger, R. Wengel, Jean-Frank Wagner, Johannes B. Ries, and Alexander Remke

Subjects

Observational error, Shear force, Shear stress, Erosion, Sediment, Geotechnical engineering, WEPP, Plunge pool, Sediment transport, Geology, Earth-Surface Processes

Abstract

This paper tackles two main questions by linking observations, determination of hydraulic parameters and measurement of sediment transport with the formulae used in soil erosion models. First, do constant shear stress values in different rills with constant soil parameters result in the same soil detachment values? Secondly, deterministic soil erosion models make the assumption that there is a relationship (often further assumed to be linear) between shear stress and soil detachment; is this suitable for representing real erosion process combinations in natural rills? Following most process based deterministic soil erosion models, derived hydraulic and erosion parameters should be similar. However, the results from the different experiments showed clear differences in sediment concentration, transport rates and other measured as well as calculated values. In contrast to our experimental results, a model simulation would produce erosion parameters with low variations, represented by the relative measurement error and the empirical variation coefficient. This reveals the general problems of using process based deterministic models for erosion in shallow rills. While soil erosion models simulate the processes resulting from the shear forces of flowing water on the soil surface, other processes like side wall failure, headcut retreat and plunge pool dynamics are not taken into account. Our results suggested that these other processes may contribute substantially to rill erosion processes. The results of this study strongly suggested that the model concept of most physical based soil erosion models is inadequate for modeling rill erosion processes. Measured total rill erosion rates were the sum of erosion rates caused by a combination of different soil erosion processes with different spatial and temporal distribution. This combination cannot be described by a single equation.

Published

2013

46. Soil Erosion on Abandoned Land in Andalusia: A Comparison of Interrill- and Rill Erosion Rates

Author

R. Hansen, S. Betz, R. Wengel, Manuel Seeger, V. Butzen, Stefan Wirtz, Thomas Iserloh, Alexander Remke, Gilles Rock, Johannes B. Ries, and Miriam Marzen

Subjects

Hydrology, Rill, geography, Soil loss, geography.geographical_feature_category, Article Subject, Aerial photography, Flooding (psychology), Erosion, Sediment, Environmental science, Rill erosion, Surface runoff

Abstract

The present paper is based on several field investigations (monitoring soil and rill erosion by aerial photography, rainfall simulations with portable rainfall simulators, and manmade rill flooding) in southern Spain. Experiments lead now to a closer understanding of the dynamics and power of different soil erosion processes in a gully catchment area. The test site Freila (Andalusia, Spain) covers an area of 10.01 ha with a rill density of 169 m ha−1, corresponding to a total rill length of 1694 m. Assuming an average rill width of 0.15 m, the total rill surface can be calculated at 250 m2 (0.025 ha). Given that, the surface covered by rills makes up only 0.25% of the total test site. Since the rill network drains 1.98 ha, 20% of the total runoff comes from rills. The rills’ sediment erosion was measured and the total soil loss was then calculated for detachment rates between 1685 g m−2 and 3018 g m−2. The interrill areas (99.75% of the test site) show values between 29 and 143 g m−2. This suggests an important role of rill erosion concerning runoff and soil detachment.

Published

2012

47. 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

48. A small portable rainfall simulator for reproducible experiments on soil erosion

Author

Manuel Seeger, Johannes B. Ries, Wolfgang Fister, Heribert Willger, and Thomas Iserloh

Subjects

Hydrology, Drop size, Drop (liquid), Soil Science, Kinetic energy, Atmospheric sciences, Homogeneous, Rainfall simulator, Erosion, Environmental science, Precipitation, Surface runoff, Agronomy and Crop Science, Earth-Surface Processes

Abstract

The importance of distinguishing and discretely studying the subprocesses of runoff generation and erosion has led to the development of rainfall simulations on small plots. We methodically upgraded a small portable rainfall simulator with particular respect to (1) rainfall characteristics that include homogeneous spatial rainfall distribution and drop spectrum, (2) handling, and (3) control of test conditions. We measured simulator characteristics with rain gauges, calibration plate and Laser Precipitation Monitor by Thies (LPM). The upgraded small rainfall simulator, and measurements of the improved rainfall characteristics are presented in this paper.The upgraded configuration shows the desired improvements: regarding drop size distribution, a close relationship to natural rainfall (Marshall & Palmer Distribution) can be observed. Due to low fall heights, measured drop fall velocities are slow; maximum velocities range between 3.4 and 5 m s1. Mean kinetic energy expenditure, mean kinetic energy per unit area and unit depth of rainfall and mean momentum are 214 J m2 h1, 5.8 J m2 mm1 and 0.016 kg m s1, respectively. The spatial rainfall distribution of the upgraded simulator is homogenous with a Christiansen-Uniformity Coefficient of 91%. The measured variables show extremely low variation throughout all tests and should therefore be reproducible in field investigations at any time.

Published

2012

49. The rill experiment as a method to approach a quantification of rill erosion process activity

Author

Stefan Wirtz, Manuel Seeger, and Johannes B. Ries

Subjects

Hydrology, geography, geography.geographical_feature_category, Geography, Planning and Development, ephemeral gully erosion, Drainage basin, areas, Leerstoelgroep Land degradatie en ontwikkeling, Rill erosion, PE&RC, sediment transport, soil, Catchment hydrology, Rill, resistance, Infiltration (hydrology), Earth and Planetary Sciences (miscellaneous), Land Degradation and Development, mine, Surface runoff, Sediment transport, Geology, concentrated flow erosion

Abstract

Within this paper a standardized method to quantify sediment transport and runoff in natural rills is described. In order to achieve this, several rill experiments (RE) were accomplished in March 2007 in the Arnás catchment in the Spanish Pyrenees. Both, anthropogenically initiated and naturally developed rills were flushed with a total water quantity of 72 l in 8 minutes (equivalent to 9 l min-1). For the characterisation of the rill, slope is measured and micromorphological features like scours are registered. The experiments are characterised by the flow velocities along the whole flushed rill, sediment concentrations at different points and different times during the experiment. Runoff is measured after 25 m continuously. With this data, a set of characteristic variables is generated, which reflects the infiltration and flow behaviour along the rill. By means of rainfall simulations within the rills catchments, their contributing runoff was estimated also. The tested rills were developed on average slopes oscillating between 7.6° and 11.3°, the steepest slope reached 16°. The sediment concentrations reached average values between 0.69 and 2.21 g l-1, the maximum values ranged between 1.59 and 6.31 g l-1. Comparing the sediment concentrations measured in the rills to the sediment concentrations in the runoff of the river Arnás, it can be stated that the concentrations in the rills are usually higher. Though, the runoff was to low to cause erosion. Accordingly, the runoff amount that can be produced within the rills catchments was found to be about 10-25 times higher. By means of the developed rill experiments, for which easy to handle devices were built and are described in detail, it becomes possible to assess the effectivity of individual rills in a catchment and to evaluate their hydraulic functioning as well as their geomorphodynamic activity

Published

2010

50. 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