43 research outputs found
Combining FDR and ERT for monitoring soil moisture and temperature patterns in undulating terrain in south-eastern Norway
The occurrence of freeze–thaw cycles modifies water infiltration processes and surface runoff generation. Related processes are complex and are not yet fully investigated at field scale. While local weather conditions and soil management practices are the most important factors in both runoff generation and surface erosion processes, local terrain heterogeneities may significantly influence soil erosion processes in catchments with undulating terrain. This paper presents a field-based investigation of spatial and temporal heterogeneities in subsurface soil moisture and soil temperature associated with freezing, thawing, and snowmelt infiltration. The field setup consists of a combination of traditional point measurements performed with frequency domain reflectometry (FDR) and electrical resistivity tomography (ERT). The transect was approximately 70 m long and spanned an entire depression with a north-facing slope (average slope of 11.5%) and a south-facing slope (average slope of 9.7%). The whole depression was entirely covered with stubble. Observed resistivity patterns correspond well to the measured soil moisture patterns. During the observation period, the north facing slope froze earlier and deeper compared with the south facing slope. Freeze–thaw cycles were less pronounced in the north-facing slope than in the south-facing slope. There were also differences in soil temperature and soil moisture patterns between lower and upper parts of the monitored depression. These indicate that initiation and development of runoff related processes, and consequently soil erosion, in regions with freeze–thaw cycles may differ significantly depending on local terrain characteristics. Consequently, it indicates that spatial terrain heterogeneities, especially slope aspects, may be important when studying soil erosion processes, water flow and nutrient leaching in lowlands where patchy snowpacks and dynamic freeze–thaw cycles are predominating.publishedVersio
Flomdempingstiltak i Lierelva - En mulighet for etterbruk av Liermåsan og Bliksrudmåsan etter torvuttak
Liermåsan like nord for Bjørkelangen er et torvuttak som er under avslutning på ca 1,2 km2. Lierelva renner forbi torvuttaket og rett inn i Bjørkelangen sentrum. Området har problemer med flom, og rapporten har utredet potensialet og metoder for hvordan Liermåsan kan brukes til fordrøyning for å dempe flommene. Areal- og volumberegninger viser at Liermåsan kan lagre fra ca 165000 m3 til ca 2400000 m3 etter hvor omfattende tiltak som gjøres. For å redusere en 20-årsflom til en 10-årsflom i en time trengs 26640 m3, for ett døgn ca 640000 m3. Tilsvarende kan en redusere en 100-årsflom til en 50-årsflom i en time med 35000 m3. Dette viser at arealet har potensiale for å dempe flomtoppene.....publishedVersio
MEASURING PRECIPITATION, INFILTRATION AND WATER DISCHARGE ON A CATCHMENT SCALE FOR SOIL EROSION MODELING IN THE SOUTH PACIFIC REGION
Abstract The work presented here was done in the framework of the CROPPRO project. CROPPRO aims to provide assistance to Pacific Island countries with the development of integrated farming approaches for sustainable crop production in environmentally constrained systems. The project focuses on the development of tailor-made farming approaches for major crop-soil units aiming at maximizing agricultural production and minimizing environmental deterioration. Special attention is paid to knowledge transfer and participatory, culture-sensitive training for stakeholders and end-users. One aspect of the work within the framework of CROPPRO projects is the continuous measurement of the dynamic features of the catchment hydrology. These data are needed to calibrate the LISEM model that is used to evaluate different land use scenarios. The work presented in this paper focuses on methods used and results obtained using various measuring methods and equipment, with respect to precipitation, slope hydrology, and catchment discharge. Two catchments on Fiji and Samoa were instrumented with automatic rain gauges to measure precipitation and precipitation intensity spatially, with data loggers equipped with Frequency Domain Reflectometry (FDR) sensors installed on a slope to measure the water content profile and sub-surface flow. At the outlet of the catchments a flume was constructed to measure outflow using ultrasonic water level sensors, and sediment content using automatic samplers. A sample of data collected using these systems is presented
Soil threats in Europe
Although there is a large body of knowledge available on soil threats in Europe, this knowledge is fragmented and incomplete, in particular regarding the complexity and functioning of soil systems and their interaction with human activities. The main aim of RECARE is to develop effective prevention, remediation and restoration measures using an innovative trans-disciplinary approach, actively integrating and advancing knowledge of stakeholders and scientists in 17 Case Studies, covering a range of soil threats in different bio-physical and socio-economic environments across Europe.
Existing national and EU policies will be reviewed and compared to identify potential incoherence, contradictions and synergies. Policy messages will be formulated based on the Case Study results and their integration at European level.
A comprehensive dissemination and communication strategy, including the development of a web-based Dissemination and Communication Hub, will accompany the other activities to ensure that project results are disseminated to a variety of stakeholders at the right time and in the appropriate formats to stimulate renewed care for European soils.JRC.H.5-Land Resources Managemen
Soil Functions & Ecosystem Services
In order to fulfil RECARE’s aim to quantify in a harmonized, spatially explicit way impacts of degradation and conservation on soil functions and ecosystem services, it is important to understand the concept and review the current scientific debate. This will lay the foundation for the development and selection of appropriate methods to measure, evaluate, communicate and negotiate the services we obtain from soils with stakeholders in order to improve land management.
Despite various research activities in the last decades across the world, many challenges remain to integrate the concept of ecosystem services (ES) in decision-making, and a coherent approach to assess and value ES is still lacking (de Groot et al., 2010). There are many different, often context-specific, ES frameworks with their own definitions and understanding of terms. This chapter therefore aims to identify the state of the art and knowledge gaps in order to develop an operational framework of the ES concept for the RECARE project. It will provide an overview on existing soil functions and ES frameworks and on approaches to monitor and value ES, with a special focus on soil aspects. Furthermore, it will address the question how the ES concept is operationalized in research projects and land management in Europe so far. Based on this review, the chapter concludes with a suggestion of an adapted ES framework for RECARE and on how to operationalize it for practical application in preventing and remediating degradation of soils in Europe
Soil Functions & Ecosystem Services
In order to fulfil RECARE’s aim to quantify in a harmonized, spatially explicit way impacts of degradation and conservation on soil functions and ecosystem services, it is important to understand the concept and review the current scientific debate. This will lay the foundation for the development and selection of appropriate methods to measure, evaluate, communicate and negotiate the services we obtain from soils with stakeholders in order to improve land management.
Despite various research activities in the last decades across the world, many challenges remain to integrate the concept of ecosystem services (ES) in decision-making, and a coherent approach to assess and value ES is still lacking (de Groot et al., 2010). There are many different, often context-specific, ES frameworks with their own definitions and understanding of terms. This chapter therefore aims to identify the state of the art and knowledge gaps in order to develop an operational framework of the ES concept for the RECARE project. It will provide an overview on existing soil functions and ES frameworks and on approaches to monitor and value ES, with a special focus on soil aspects. Furthermore, it will address the question how the ES concept is operationalized in research projects and land management in Europe so far. Based on this review, the chapter concludes with a suggestion of an adapted ES framework for RECARE and on how to operationalize it for practical application in preventing and remediating degradation of soils in Europe
Do Agricultural Advisory Services in Europe have the Capacity to Support the Transition to Healthy Soils?
The need to provide appropriate information, technical advice and facilitation to support
farmers in transitioning towards healthy soils is increasingly clear, and the role of the Agricultural
Advisory Services (AAS) in this is critical. However, the transformation of AAS (plurality, commercialisation, fragmentation, decentralisation) brings new challenges for delivering advice to support
soil health management. This paper asks: To what extent do agricultural advisory services have
the capacity to support the transition to healthy soils across Europe? Using the ‘best fit’ framework,
analytical characteristics of the AAS relevant to the research question (governance structures, management, organisational and individual capacities) were identified. Analysis of 18 semi-structured
expert interviews across 6 case study countries in Europe, selected to represent a range of contexts,
was undertaken. Capacities to provide soil health management (SHM) advice are constrained by
funding arrangements, limited adviser training and professional development, adviser motivations
and professional cultures, all determined by institutional conditions. This has resulted in a narrowing
down of access and content of soil advice and a reduced capacity to support the transition in farming
to healthy soils. The extent to which emerging policy and market drivers incentivise enhanced
capacities in AAS is an important area for future research
Soil-Improving Cropping Systems for Sustainable and Profitable Farming in Europe
Soils form the basis for agricultural production and other ecosystem services, and soil management should aim at improving their quality and resilience. Within the SoilCare project, the concept of soil-improving cropping systems (SICS) was developed as a holistic approach to facilitate the adoption of soil management that is sustainable and profitable. SICS selected with stakeholders were monitored and evaluated for environmental, sociocultural, and economic effects to determine profitability and sustainability. Monitoring results were upscaled to European level using modelling and Europe-wide data, and a mapping tool was developed to assist in selection of appropriate SICS across Europe. Furthermore, biophysical, sociocultural, economic, and policy reasons for (non)adoption were studied. Results at the plot/farm scale showed a small positive impact of SICS on environment and soil, no effect on sustainability, and small negative impacts on economic and sociocultural dimensions. Modelling showed that different SICS had different impacts across Europe-indicating the importance of understanding local dynamics in Europe-wide assessments. Work on adoption of SICS confirmed the role economic considerations play in the uptake of SICS, but also highlighted social factors such as trust. The project's results underlined the need for policies that support and enable a transition to more sustainable agricultural practices in a coherent way