Your search keyword '"Gerd, Dercon"' showing total 16 results

1. Use of geochemical fingerprints to trace sediment sources in an agricultural catchment of Argentina

Author

Yanina Garcias, Román Padilla, Hugo Velasco, Gisela Borgatello, Romina Torres Astorga, Lionel Mabit, and Gerd Dercon

Subjects

Pollution, media_common.quotation_subject, 0208 environmental biotechnology, Land management, Soil Science, 02 engineering and technology, Energy dispersive X-ray fluorescence, Mixing models, Fingerprinting, Nature and Landscape Conservation, Water Science and Technology, media_common, Hydrology, Land use, Sediment, 04 agricultural and veterinary sciences, 020801 environmental engineering, Geochemical elements, lcsh:TA1-2040, Soil water, Soil erosion, 040103 agronomy & agriculture, Land degradation, Erosion, 0401 agriculture, forestry, and fisheries, Environmental science, lcsh:Engineering (General). Civil engineering (General), Soil conservation, Agronomy and Crop Science

Abstract

Soil erosion and associated sediment redistribution are key environmental problems in Central Argentina. Specific land uses and management practices, such as intensive grazing and crop cultivation, are considered to be significantly driving and accelerating these processes. This research focuses on the identification of suitable soil tracers from hot spots of land degradation and sediment fate in an agricultural catchment of central Argentina with erodible loess soils. Using Energy Dispersive X-Ray Fluorescence (EDXRF), elemental concentrations were determined and later used as soil tracers for geochemical characterization. The best set of tracers were identified using two artificial mixtures composed of known proportions of soil sources collected from different lands having contrasting soil uses. Barium, calcium, iron, phosphorus, and titanium were identified for obtaining the best suitable reconstruction of source proportions in the laboratory-prepared artificial mixtures. Then, these elements, as well as the total organic carbon, were applied for pinpointing critical hot spots of erosion within the studied catchment. Feedlots were identified to be the main source of sediments, river banks and dirt roads together are the second most important source. This investigation provides key information for optimizing soil conservation strategies and selecting land management practices and land uses which do not generate great contribution of sediment, preventing pollution of the waterways of the region.

Published

2020

2. Combining Isotopic Techniques to Assess Historical Sediment Delivery in a Forest Catchment in Central Chile

Author

Enrique Muñoz-Arcos, Luis Ovando-Fuentealba, Paulina Schuller, Claudio Bravo-Linares, Gerd Dercon, A. Swales, Max M. Gibbs, A. Salinas-Curinao, and Alejandra Castillo

Subjects

0106 biological sciences, Hydrology, geography, geography.geographical_feature_category, Land use, Drainage basin, Soil Science, Sediment, 04 agricultural and veterinary sciences, Plant Science, Sedimentation, Before Present, 01 natural sciences, Eucalyptus, 040103 agronomy & agriculture, Meander, 0401 agriculture, forestry, and fisheries, Environmental science, Agronomy and Crop Science, 010606 plant biology & botany, Riparian zone

Abstract

The purpose of this research was to determine the historical evolution of different sources of sediment by land uses in a forest catchment, through the combination of two isotopic techniques: (i) fallout radionuclides (FRNs) for dating sediment cores and (ii) compound-specific stable isotope (CSSI). Ten 30-cm-deep sediment cores (taken in a meander at the outlet of the forest catchment) were used to reconstruct the sediment delivery history for around 67 years before present (BP), i.e., 2012. Five land uses were considered as potential sources in this analysis: forest roads, pine trees, eucalyptus trees, native forest (buffer or riparian zone), and wheat. Forestry activities incremented the sedimentation rate by about 17% compared to wheat production. Results were consistent with the historical land uses in the catchment. The analysis showed an important sediment contribution of farmland used for wheat from 1945 to about 1974 (~ 20–80%). After the implementation of the public bill, the sediment source changed into the exotic plantations (pine and eucalyptus trees) until present, where harvesting periods were clearly seen as an increment of sediment delivery from the source.

Published

2019

3. Impact of climate change on land, water and ecosystem quality in polar and mountainous regions: gaps in our knowledge

Author

Gerd Dercon and Tim Stott

Subjects

Hydrology, Atmospheric Science, 010504 meteorology & atmospheric sciences, business.industry, Climate change, 010501 environmental sciences, Snow, Livelihood, 01 natural sciences, Water resources, Geography, Effects of global warming, Agriculture, Environmental Chemistry, Terrestrial ecosystem, Ecosystem, Physical geography, business, 0105 earth and related environmental sciences, General Environmental Science

Abstract

Nowhere are the effects of climate change more visible than in polar and mountainous regions. To initiate the Interregional Technical Co-operation Project INT/5/153 (2014-18) on Assessing the Impact of Climate Change on Land-Water-Ecosystem Quality in Polar and Mountainous Regions (funded by the International Atomic Energy Agency and supported by the Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture), we built a database containing 769 of the most significant journal papers on the effects of climate change in polar and mountainous regions between 2000-2014 (up until the Fifth IPCC Assessment). Using the number of paper citations per year (CPY) we derive the top fifty most cited journal papers published in the 15-year period. Analysis of the focus of these ‘top fifty’ papers is compared to the IPCC Fifth Assessment (AR5) Report (IPCC, 2013) and the full database. Five categories emerged, and by combining the number of papers in each category with the average CPY for the category, research on the impacts of climate change on terrestrial ecosystems (E) in polar and mountainous regions dominated, research on the impact on water resources (W) was second, the impact on people’s livelihood (P) third, with ice and snow (I) fourth and landscape (L) fifth. Landscape (L), in our view, appears to be under researched and is presumably included in the IPCC Terrestrial Ecosystems category. We propose that policy makers should note this under-representation of high impact research into landscape processes (erosion and deposition processes), which needs to be addressed in future. Key words: citation analysis; literature review; climate change impacts; polar regions; mountainous regions; livelihood adaptation; soil-water-ecosystem quality

Published

2019

4. Towards global applicability? Erosion source discrimination across catchments using compound-specific δ13C isotopes

Author

Alejandra Castillo Santana, Lam Nguyen, Christian Brandt, Frank Rasche, Georg Cadisch, Gerd Dercon, Valentin Golosov, Nourredine Amenzou, M. Benmansour, Zhang Xinbao, Claudio Bravo Linares, and Paulina Schuller

Subjects

Hydrology, geography, geography.geographical_feature_category, Ecology, δ13C, Land use, Drainage basin, Sediment, 04 agricultural and veterinary sciences, Soil carbon, 010501 environmental sciences, 01 natural sciences, 040103 agronomy & agriculture, Land degradation, Erosion, 0401 agriculture, forestry, and fisheries, Environmental science, Animal Science and Zoology, Soil conservation, Agronomy and Crop Science, 0105 earth and related environmental sciences

Abstract

Accurate identification of soil erosion hot spots across catchments of different sizes and agro-ecologies through the use of conventional tracing techniques has proven challenging. Since this problem hinders implementation of precise soil conservation measures by land managers and decision-making bodies, novel evidence-based techniques are needed. To meet this need, the International Atomic Energy Agency (IAEA, Vienna, Austria) initiated the Coordinated Research Project entitled “Integrated Isotopic Approaches for an Area-wide Precision Conservation to Control the Impacts of Agricultural Practices on Land Degradation and Soil Erosion – D1.20.11” in 2008. This project emphasized the application of isotopic approaches to identify hot spots of land degradation in agricultural catchments to develop effective soil conservation measures. As one key outcome of this project, we present here an aligned protocol to explore the potential of compound-specific stable isotope (CSSI) analysis of individual fatty acids (FA) combined with Bayesian statistics to discriminate sediment sources across six catchments of different sizes and agro-ecologies. The global applicability of the CSSI approach was first tested on the basis of major land use categories (i.e., forest, cultivated and non-cultivated land) as potential sediment sources in the studied catchments. These land use categories were then further resolved into specific land use types (e.g., cassava and maize fields, orchards) to assess the potential resolution threshold of the CSSI technique. In a final step, the influence of miscellaneous sources (e.g., roads, channel banks) that had the potential to distort proportional contributions to sediment deposition was assessed. The introduced aligned protocol of the CSSI technique was applied to discriminate individual erosion sources based on land use types of tested catchments. Merging catchment-specific land use types with broader land use categories made it possible to determine inter-catchment comparisons of isotopic signatures due to significant differences in δ13C values of fatty acids when cultivated land was present. Notably, no correlations were found between different catchment sizes, agro-ecologies, number and type of land use types, or soil organic carbon concentrations and the number of significant δ13C fatty acid values of the various land use types. Thus, we propose that the presented CSSI technique has the potential to identify soil erosion hot spots in contrasting catchments of different sizes and agro-ecologies.

Published

2018

5. Adapting the Caesium-137 technique to document soil redistribution rates associated with traditional cultivation practices in Haiti

Author

D. Joseph, Arsenio Toloza, J.S. Antoine, Lionel Mabit, H. Velasco, R. Torres Astorga, Gerd Dercon, and Des E. Walling

Subjects

Conservation of Natural Resources, Farms, business.product_category, 010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, Otras Ciencias de la Tierra y relacionadas con el Medio Ambiente, 010501 environmental sciences, 01 natural sciences, Ciencias de la Tierra y relacionadas con el Medio Ambiente, Plough, Soil Pollutants, Radioactive, Environmental Chemistry, Transect, Waste Management and Disposal, 0105 earth and related environmental sciences, Hydrology, 137CS, RADIONUCLIDE TECHNIQUE, Agriculture, General Medicine, Pollution, Haiti, CONVERSION MODEL, Tillage, Cesium Radioisotopes, Caesium-137, Soil water, Erosion, Environmental science, Spatial variability, business, Soil conservation, SOIL EROSION, CIENCIAS NATURALES Y EXACTAS, Environmental Monitoring, HAITI

Abstract

Large-scale deforestation, intensive land use and unfavourable rainfall conditions are responsible for significant continuous degradation of the Haitian uplands. To develop soil conservation strategies, simple and cost-effective methods are needed to assess rates of soil loss from farmland in Haiti. The fallout radionuclide caesium-137 (137Cs) provides one such means of documenting medium-term soil redistribution rates. In this contribution, the authors report the first use in Haiti of 137Cs measurements to document soil redistribution rates and the associated pattern of erosion/sedimentation rates along typical hillslopes within a traditional upland Haitian farming area. The local 137Cs reference inventory, measured at an adjacent undisturbed flat area, was 670 Bq m−2 (SD = 100 Bq m−2, CV = 15%, n = 7). Within the study area, where cultivation commenced in 1992 after deforestation, three representative downslope transects were sampled. These were characterized by 137Cs inventories ranging from 190 to 2200 Bq m−2. Although, the study area was cultivated by the local farmers, the 137Cs depth distributions obtained from the area differed markedly from those expected from a cultivated area. They showed little evidence of tillage mixing within the upper part of the soil or, more particularly, of the near-uniform activities normally associated with the plough layer or cultivation horizon. They were very similar to that found at the reference site and were characterized by high 137Cs activities at the surface and much lower activities at greater depths. This situation is thought to reflect the traditional manual tillage practices which cause limited disturbance and mixing of the upper part of the soil. It precluded the use of the conversion models normally used to estimate soil redistribution rates from 137Cs measurements on cultivated soils and the Diffusion and Migration conversion model frequently used for uncultivated soils was modified for application to the cultivated soils of the study area, in order to take account of the unusual local conditions. The model was also modified to take account of the fact that cultivation in the study area commenced in 1992, rather than predating the period of weapons test fallout which extended from the mid 1950s to the 1970s. Erosion rates on the upper parts of the hillside involved in the study were found to be relatively high and ca. −23 t ha−1 y−1 with low spatial variability. In the lower, flatter areas at the bottom of the slope, deposition occurred. Deposition rates were characterized by high spatial variability, ranging from 6.0 to 71 t ha−1 y−1. Soil redistribution rates of this magnitude are a cause for concern and there is an urgent need to implement soil conservation measures to ensure the longer-term sustainability of the local agricultural practices. Fil: Velasco, Ricardo Hugo. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - San Luis. Instituto de Matemática Aplicada de San Luis "Prof. Ezio Marchi". Universidad Nacional de San Luis. Facultad de Ciencias Físico, Matemáticas y Naturales. Instituto de Matemática Aplicada de San Luis "Prof. Ezio Marchi"; Argentina Fil: Torres Astorga, Romina Vanesa. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - San Luis. Instituto de Matemática Aplicada de San Luis "Prof. Ezio Marchi". Universidad Nacional de San Luis. Facultad de Ciencias Físico, Matemáticas y Naturales. Instituto de Matemática Aplicada de San Luis "Prof. Ezio Marchi"; Argentina Fil: Joseph, D.. Faculté D'agronomie et de Médecine Vétérinaire; Haití. Ministère de L'agriculture; Haití Fil: Antoine, J. S.. Faculté D'agronomie et de Médecine Vétérinaire; Haití. Ministère de L'agriculture; Haití Fil: Mabit, L.. International Atomic Energy Agency; Austria Fil: Toloza, A.. International Atomic Energy Agency; Austria Fil: Dercon, G.. International Atomic Energy Agency; Austria Fil: Walling, Des E.. University of Exeter; Reino Unido

Published

2018

6. Using Cosmic-Ray Neutron Probes to Monitor Landscape Scale Soil Water Content in Mixed Land Use Agricultural Systems

Author

Peter Strauss, Ammar Wahbi, Gerd Dercon, Lee Heng, Darin Desilets, Georg Weltin, Markus Oismueller, Trenton E. Franz, and Mariette Vreugdenhil

Subjects

lcsh:GE1-350, Hydrology, Article Subject, Land use, business.industry, Nutrient management, 0208 environmental biotechnology, Soil Science, 02 engineering and technology, lcsh:S1-972, Natural resource, 020801 environmental engineering, Neutron probe, Agriculture, Agricultural land, Farm water, Environmental science, lcsh:Agriculture (General), Agricultural productivity, Water resource management, business, lcsh:Environmental sciences, Earth-Surface Processes

Abstract

With an ever-increasing demand for natural resources and the societal need to understand and predict natural disasters, soil water content (SWC) observations remain a critical variable to monitor in order to optimally allocate resources, establish early warning systems, and improve weather forecasts. However, routine agricultural production practices of soil cultivation, planting, and harvest make the operation and maintenance of direct contact point sensors for long-term monitoring challenging. In this work, we explore the use of the newly established Cosmic-Ray Neutron Probe (CRNP) and method to monitor landscape average SWC in a mixed agricultural land use system in northeast Austria. The calibrated CRNP landscape SWC values compare well against an independentin situSWC probe network (MAE = 0.0286 m3/m3) given the challenge of continuousin situmonitoring from probes across a heterogeneous agricultural landscape. The ability of the CRNP to provide real-time and accurate landscape SWC measurements makes it an ideal method for establishing long-term monitoring sites in agricultural ecosystems to aid in agricultural water and nutrient management decisions at the small tract of land scale as well as aiding in management decisions at larger scales.

Published

2016

7. First use of a compound-specific stable isotope (CSSI) technique to trace sediment transport in upland forest catchments of Chile

Author

Oscar Alarcón, Roberto Meigikos dos Anjos, Gerd Dercon, Enrique Muñoz-Arcos, Alejandra Castillo, Renan Pereira Cardoso, Luis Ovando-Fuentealba, Marcelo Costa Muniz, Sergio de los Santos-Villalobos, Paulina Schuller, Claudio Bravo-Linares, and Ramón Bustamante-Ortega

Subjects

Hydrology, Environmental Engineering, 010504 meteorology & atmospheric sciences, Soil test, Forest management, Sediment, 010501 environmental sciences, 01 natural sciences, Pollution, Land degradation, Erosion, Environmental Chemistry, Environmental science, Soil conservation, Surface runoff, Waste Management and Disposal, Sediment transport, 0105 earth and related environmental sciences

Abstract

Land degradation is a problem affecting the sustainability of commercial forest plantations. The identification of critical areas prone to erosion can assist this activity to better target soil conservation efforts. Here we present the first use of the carbon-13 signatures of fatty acids (C14 to C24) in soil samples for spatial and temporal tracing of sediment transport in river bodies of upland commercial forest catchments in Chile. This compound-specific stable isotope (CSSI) technique was tested as a fingerprinting approach to determine the degree of soil erosion in pre-harvested forest catchments with surface areas ranging from 12 to 40ha. For soil apportionment a mixing model based on a Bayesian inference framework was used (CSSIAR v.2.0). Approximately four potential sediment sources were used for the calculations of all of the selected catchments. Unpaved forestry roads were shown to be the main source of sediment deposited at the outlet of the catchments (30-75%). Furthermore, sampling along the stream channel demonstrated that sediments were mainly comprised of sediment coming from the unpaved roads in the upper part of the catchments (74-98%). From this it was possible to identify the location and type of primary land use contributing to the sediment delivered at the outlet of the catchments. The derived information will allow management to focus efforts to control or mitigate soil erosion by improving the runoff features of the forest roads. The use of this CSSI technique has a high potential to help forestry managers and decision makers to evaluate and mitigate sources of soil erosion in upland forest catchments. It is important to highlight that this technique can also be a good complement to other soil erosion assessment and geological fingerprinting techniques, especially when attempting to quantify (sediment loads) and differentiate which type of land use most contributes to sediment accumulation.

Published

2017

8. Methodological perspectives on the application of compound-specific stable isotope fingerprinting for sediment source apportionment

Author

Gerd Dercon, William H. Blake, Marco Griepentrog, Lionel Mabit, Brian C. Stock, Hari Ram Upadhayay, Max M. Gibbs, Pascal Boeckx, Roshan M. Bajracharya, Dries Huygens, Wim Cornelis, Brice X. Semmens, and Samuel Bodé

Subjects

Hydrology, 010504 meteorology & atmospheric sciences, Chemistry, Stable isotope ratio, Stratigraphy, Fingerprint (computing), Sampling (statistics), Sediment, Soil science, 010501 environmental sciences, 15. Life on land, 01 natural sciences, 6. Clean water, Catchment hydrology, 13. Climate action, Apportionment, TRACER, Erosion, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Compound-specific stable isotope (CSSI) fingerprinting of sediment sources is a recently introduced tool to overcome some limitations of conventional approaches for sediment source apportionment. The technique uses the 13C CSSI signature of plant-derived fatty acids (δ13C-fatty acids) associated with soil minerals as a tracer. This paper provides methodological perspectives to advance the use of CSSI fingerprinting in combination with stable isotope mixing models (SIMMs) to apportion the relative contributions of different sediment sources (i.e. land uses) to sediments. CSSI fingerprinting allows quantitative estimation of the relative contribution of sediment sources within a catchment at a spatio-temporal resolution, taking into account the following approaches. First, application of CSSI fingerprinting techniques to complex catchments presents particular challenges and calls for well-designed sampling strategies and data handling. Hereby, it is essential to balance the effort required for representative sample collection and analyses against the need to accurately quantify the variability within the system. Second, robustness of the CSSI approach depends on the specificity and conservativeness of the δ13C-FA fingerprint. Therefore, saturated long-chain (>20 carbon atoms) FAs, which are biosynthesised exclusively by higher plants and are more stable than the more commonly used short-chain FAs, should be used. Third, given that FA concentrations can vary largely between sources, concentration-dependent SIMMs that are also able to incorporate δ13C-FA variability should be standard operation procedures to correctly assess the contribution of sediment sources via SIMMs. This paper reflects on the use of δ13C-FAs in erosion studies and provides recommendations for its application. We strongly advise the use of saturated long-chain (>20 carbon atoms) FAs as tracers and concentration-dependent Bayesian SIMMs. We anticipate progress in CSSI sediment fingerprinting from two current developments: (i) development of hierarchical Bayesian SIMMs to better address catchment complexity and (ii) incorporation of dual isotope approaches (δ 13C- and δ 2H-FA) to improve estimates of sediment sources.

Published

2017

9. Impacts of soil and groundwater salinization on tree crop performance in post-tsunami Aceh Barat, Indonesia

Author

Carsten Marohn, Wahyunto, A. Distel, Meine van Noordwijk, R. Tomlinson, Georg Cadisch, and Gerd Dercon

Subjects

Hydrology, lcsh:GE1-350, Soil salinity, Water table, lcsh:QE1-996.5, lcsh:Geography. Anthropology. Recreation, Sowing, Saline water, lcsh:TD1-1066, Salinity, Crop, lcsh:Geology, lcsh:G, General Earth and Planetary Sciences, Environmental science, lcsh:Environmental technology. Sanitary engineering, Transect, Groundwater, lcsh:Environmental sciences

Abstract

The Indian Ocean tsunami of December 2004 had far reaching consequences for agriculture in Aceh province, Indonesia, and particularly in Aceh Barat district, 150 km from the seaquake epicentre. In this study, the spatial distribution and temporal dynamics of soil and groundwater salinity and their impact on tree crops were monitored in Aceh Barat from 2006 to 2008. On 48 sampling points along ten transects, covering 40 km of coastline, soil and groundwater salinity were measured and related to mortality and yield depression of the locally most important tree crops. Given a yearly rainfall of over 3000 mm, initial groundwater salinity declined rapidly from over 10 to less than 2 mS cm−1 within two years. On the other hand, seasonal dynamics of the groundwater table in combination with intrusion of saline water into the groundwater body led to recurring elevated salinity, sufficient to affect crops. Tree mortality and yield depression in the flooded area varied considerably between tree species. Damage to coconut (65% trees damaged) was related to tsunami run-up height, while rubber (50% trees damaged) was mainly affected by groundwater salinity. Coconut yields (−35% in average) were constrained by groundwater Ca2+ and Mg2+, while rubber yields (−65% on average) were related to groundwater chloride, pH and soil sodium. These findings have implications on planting deep-rooted tree crops as growth will be constrained by ongoing oscillations of the groundwater table and salinity.

Published

2012

10. Influence of coastal vegetation on the 2004 tsunami wave impact in west Aceh

Author

Juan Carlos Laso Bayas, Georg Cadisch, Sonya Dewi, L. Joshi, Carsten Marohn, Hans-Peter Piepho, Gerd Dercon, and Meine van Noordwijk

Subjects

Hydrology, Models, Statistical, Multidisciplinary, Geography, Land use, Elevation, Vegetation, Land cover, Plants, Debris, Floods, Trees, Disasters, Indonesia, Tsunamis, Commentaries, Human settlement, Water Movements, Satellite imagery, Submarine pipeline, Indian Ocean, Ecosystem, Environmental Monitoring

Abstract

In a tsunami event human casualties and infrastructure damage are determined predominantly by seaquake intensity and offshore properties. On land, wave energy is attenuated by gravitation (elevation) and friction (land cover). Tree belts have been promoted as “bioshields” against wave impact. However, given the lack of quantitative evidence of their performance in such extreme events, tree belts have been criticized for creating a false sense of security. This study used 180 transects perpendicular to over 100 km on the west coast of Aceh, Indonesia to analyze the influence of coastal vegetation, particularly cultivated trees, on the impact of the 2004 tsunami. Satellite imagery; land cover maps; land use characteristics; stem diameter, height, and planting density; and a literature review were used to develop a land cover roughness coefficient accounting for the resistance offered by different land uses to the wave advance. Applying a spatial generalized linear mixed model, we found that while distance to coast was the dominant determinant of impact (casualties and infrastructure damage), the existing coastal vegetation in front of settlements also significantly reduced casualties by an average of 5%. In contrast, dense vegetation behind villages endangered human lives and increased structural damage. Debris carried by the backwash may have contributed to these dissimilar effects of land cover. For sustainable and effective coastal risk management, location of settlements is essential, while the protective potential of coastal vegetation, as determined by its spatial arrangement, should be regarded as an important livelihood provider rather than just as a bioshield.

Published

2011

11. First use of the 137Cs technique in Nigeria for estimating medium-term soil redistribution rates on cultivated farmland

Author

Karl Stahr, Desmond E. Walling, Lionel Mabit, Robert C. Abaidoo, David Chikoye, B. Junge, and Gerd Dercon

Subjects

Hydrology, business.product_category, Soil Science, Sediment, Soil science, Soil quality, Plough, Tillage, Soil water, Erosion, Environmental science, Soil fertility, business, Soil conservation, Agronomy and Crop Science, Earth-Surface Processes

Abstract

Soil erosion is a serious problem in the forest-savanna transition zone or derived savanna of West Africa and Nigeria and needs to be reduced to maintain soil quality and to ensure food security. In 2007, the use of the fallout radionuclide 137 Cs as a tracer for estimating the magnitude of medium-term (40–50 years) rates of soil redistribution was tested at a research station in Ibadan, Nigeria, to investigate, for the first time, its applicability in the derived savanna of West Africa. Because of the traditional tillage practice for cassava cultivation of creating downslope oriented ridges and furrows during the annual ploughing, there was a need to adapt the 137 Cs approach to these specific condition. The mean inventory was determined for cores collected from both ridges and furrows at different positions down the slope and this value was used to estimate the downslope variation in the longer term soil redistribution rate. The mean 137 Cs reference inventory obtained for an undisturbed site was 568 ± 138 Bq m −2 . The average inventory for the upper slope of the cassava field (423 ± 323 Bq m −2 ) was generally lower than the average inventory for the middle slope (509 ± 166 Bq m −2 ) and for the lower slope (606 ± 245 Bq m −2 ) and these results provided clear evidence of the downslope movement of soil. The mean 137 Cs inventory for the study area within the cassava field (496 ± 273 Bq m −2 ) was 13% lower than the reference inventory, indicating that some of the soil mobilised and redistributed by erosion had been exported beyond the field. Using 137 Cs data set and the conversion model mass balance model 2 (MBM2), the gross erosion rate from the cultivated site was estimated to be 18.3 t ha −1 year −1 and the net erosion rate 14.4 t ha −1 year −1 , providing a sediment delivery ratio of 78%. These estimates are comparable to the rates generated by conventional soil loss measurements made close to the study site. The study demonstrates that the 137 Cs technique can be successfully used to obtain data on medium-term soil redistribution in the derived savanna of Nigeria, and that it could be a useful tool for supporting the improvement of soil conservation on farmland in West Africa.

Published

2010

12. Impact of land use changes on the hydrological properties of volcanic ash soils in South Ecuador

Author

Jean Poesen, Gerard Govers, Wouter Buytaert, Gerd Dercon, B. De Bièvre, and Jozef Deckers

Subjects

chemistry.chemical_classification, Hydrology, Soil organic matter, Soil Science, Soil science, Vegetation, Pollution, Andosol, Water retention, Permanent wilting point, Hydrology (agriculture), chemistry, Soil water, medicine, Environmental science, Organic matter, medicine.symptom, Agronomy and Crop Science

Abstract

The effect of land use on the water retention capacity of Umbric Andosols in south Ecuador was studied. The objective was to acquire a better insight into the hydrological processes of the ecosystem and the role of the soil, in order to assess the impact of changing soil properties due to land use change on the hydrology of the high Andes region. Field data on the water retention capacity at wilting point of Umbric Andosols were collected for both cultivated field conditions and original bush vegetation. The pH in water and in NaF, texture, organic matter content and dry bulk density were measured to show which physicochemical soil characteristics are responsible for the water retention of the Umbric Andosols and for the irreversible loss in water retention due to air drying. Organic matter content appears to be very important and certainly more important than allophane clay content. Water retention of the organic litter layer was calculated to be 16 mm, this would be lost when vegetation was cleared and the land cultivated.

Published

2006

13. River channel response to short-term human-induced change in landscape connectivity in Andean ecosystems

Author

Jean Poesen, Gerard Govers, Gerd Dercon, Armando Molina, Veerle Vanacker, and Seppe Deckers

Subjects

Hydrology, geography, geography.geographical_feature_category, Environmental change, Agricultural land, Drainage basin, River morphology, Land use, land-use change and forestry, Land cover, Channel (geography), Geology, Earth-Surface Processes, Landscape connectivity

Abstract

The drainage basin of the Deleg River (88 km(2)), located in the southern Ecuadorian Andes, was studied to assess the geomorphic and hydrologic response of a fluvial system to human-induced environmental change in its contributing area. Historical data on land use, channel morphology and sedimentology were collected, based on a spatial analysis of aerial photographs (1963-1995) and a field survey (2002). Analysis of channel cross-sectional profiles and sedimentological data revealed a major change in morphology and sedimentology of the Deleg River during the past four decades: (i) the active river channel narrowed by over 45%, (ii) the riverbed incised on average by over 1.0 m and (iii) the median grain size of the bed surface decreased from 13.2 cm to 4.7 cm. The spatial pattern of land cover within the Deleg catchment also changed considerably: highly degraded agricultural land in the low-lying areas was abandoned and partially afforested for timber and wood production, whereas secondary upland forest was increasingly cleared for expansion of cropland and pastures. Notwithstanding large changes in the spatial organization of land use within the catchment, the overall land use did not change significantly during the past four decades. This suggests that the response of the Deleg River to land-use change not only depends on the overall land-use change, but also on the spatial pattern of land-use/cover change within the catchment. Although forestation and regeneration of bare gully slopes and floors throughout the catchment only represented a minor part of the total land-use change, these land-use/cover changes had a major impact on the hydrological and sediment connectivity in the landscape. (c) 2005 Elsevier B.V. All rights reserved.

Published

2005

14. Formation of sandy anthropogenic soils in NW Europe: identification of inputs based on particle size distribution

Author

Gerd Dercon, T. Spek, J. Thomas, Kristian Dalsgaard, Ian A. Simpson, and Donald A. Davidson

Subjects

Hydrology, Land use, Soil water, Land management, Aeolian processes, Environmental science, Soil science, Woodland, Loss on ignition, Arable land, Saturation (chemistry), Earth-Surface Processes

Abstract

Anthropogenic sandy soils in Scotland, Denmark and The Netherlands were studied to determine the extent to which they had been influenced by inputs of materials and current land management. Particle size distribution, pH, loss on ignition, ECEC, base saturation and total P were determined for eight profiles under different land uses (arable, meadow and woodland). Inputs of materials were identified by comparison of particle size distributions of the deepened cultivated horizons with those of parent materials. At all three sites turf derived from local sources was the main input though there were other mineral additions including an aeolian component. Overall, the anthropogenic soils are remarkably similar in field and some analytical properties, though land use has influenced pH, base saturation and total P.

Published

2005

15. Spatial variability in soil properties on slow-forming terraces in the Andes region of Ecuador

Author

Jozef Deckers, Marco Ramírez, Raúl Vanegas, Gerard Govers, H Sanchez, G Loaiza, Gerd Dercon, and Jean Poesen

Subjects

Hydrology, Erosion control, Soil Quality, Soil Science, Andes, Soil quality, Tillage, Slow-Forming Terraces, Spatial Variability, Oxisol, Soil water, Environmental science, Spatial variability, Ecuador, Soil fertility, Soil conservation, Agronomy and Crop Science, Site-Specific Management, Earth-Surface Processes

Abstract

Due to severe land degradation problems, soil conservation is a matter of major concern in the Ecuadorian Andes. Slow-forming terraces, a variation of hedgerow agro-forestry systems composed by contour grass barrier strips, can be considered as the most frequently used technique in Andean rural communities of Ecuador. However, due to shallow soils, terrace development often has the disadvantage causing gradients in soil properties from the upper to the lower elevations within the terrace. The main objectives of this study were to assess (i) spatial variability in soil properties on slow-forming terraces in the Andes and (ii) implications of variability for the management of this soil conservation technique. In order to measure spatial variability, soil sampling (0–15 cm) was carried out in bands following the contour, which were located every 1 m beginning at the highest point of elevation and including the lowest point on the terrace. Soil properties, such as pH(H2O), pH(NaF), organic carbon, total nitrogen, NO3−, P, K, exchangeable aluminium, P fixation, exchangeable bases, cationic exchange capacity, base saturation and texture, were monitored on eight terraces, having slopes from 15 to 30%, a length of 4–8 m and soils ranging from Cambisols to Phaeozems, in the Ecuadorian Andes (Gima, Azuay). Terraces, which were 2–4 years, were managed in a traditional or more intensified way (i.e. without or with the application of organic manure). Bufferstrips were composed by (i) Pennisetum clandestinum and Lolium multiflorum or (ii) Phalaris tuberosa. Spatial variability was analysed by stepwise multiple regression analysis, where position on the terrace was the independent variable and soil property was the dependent variable. Factor analysis was carried out in order to compare spatial variability patterns of the terraces and formulate management strategies. High spatial variability in soil properties was found. Although spatial variation was site dependent, it was clear that soil fertility increased from the upper to the lower part of the terraces. The present study shows that management strategy could influence the pattern and magnitude of spatial variation. Site-specific soil fertility improvement is suggested as means to combat variation caused by tillage erosion in slow-forming terraces. Cuenca volumen 72; número 1

Published

2003

16. The impact of environmental change on the intensity and spatial pattern of water erosion in a semi-arid mountainous Andean environment

Author

Veerle Vanacker, Jean Poesen, Gerd Dercon, Jozef Deckers, Gerard Govers, and G Loaiza

Subjects

Water resources, Hydrology, Environmental change, Land use, Land use, land-use change and forestry, Vegetation, Arable land, Arid, Surface irrigation, Earth-Surface Processes

Abstract

Aerial photographs taken in 1976 and 1989 and a field survey in 1999 showed that land use in a 900-ha catchment in the southern part of the Ecuadorian Andes is highly dynamic. Over 23 years, ca. 83 ha of arable land was abandoned and ca. 70 ha was taken into agricultural production. Changes in land use were not spatially homogeneous. Parcels on unstable geologic formations and close to village centres were preferably set-aside. Land taken into cultivation was preferably located on gently sloping areas close to newly built sites and arterial roads. The area with bush vegetation increased by regeneration of natural vegetation on fields set-aside in the late 1970s and early 1980s. There was a complex interaction between water erosion and environmental change in the study area. Land taken into production was levelled for furrow irrigation: this led to a net reduction in the area susceptible to water erosion. However, one quarter of the area affected only by sheet and rill erosion 23 years ago has since become incised by deep gullies. This increase in gully density was related to inadequate construction and management of irrigation infrastructure, rather than to change in vegetation cover and/or soil erodibility caused by agricultural practices. This factor is often overlooked in studies of the effects of environmental change on geomorphologic processes. (C) 2002 Elsevier Science B.V. All rights reserved.

Published

2003