Use of 137 Cs isotopic technique in soil erosion studies in Central Greece

The 137Cs technique was used to study soil erosion and deposition rates in soils in the Viotia prefecture, central Greece. Three sites with different soil types were selected and studied. Soils were sampled along transects and analyzed for 137Cs. The main goal of this field investigation was to study the 137Cs 3-D distribution pattern within key sites and to apply this information for the assessment of soil redistribution. The erosion and deposition rates were estimated using the proportional and the simplified mass balance models (Walling and He, 1997). Erosion and deposition rates predicted through the spatial distribution of 137Cs depended on the location of the profile studied in the landscape and were determined by the soil plough depth, the soil structure (bulk density), and the calibration model used to conve rt soil 137Cs measurements to estimates of soil redistribution rates. Estimated erosion rates for the Mouriki area site, varied from 16.62 to 102.56 t ha-1 y-1 for the top of the slope soil profile and from 5.37 to 25.68 t ha-1 y-1 for the middle of the slope soil profile. The deposition rates varied from 7.26 to 42.95 t ha-1 y-1 for the bottom of the slope soil profile

Tell formation processes as indicated from geoarchaeological and geochemical investigations at Xeropolis, Euboea, Greece

Xeropolis is a tell site on the island of Euboea, Greece just to the east of the village of Lefkandi, and was occupied from the Early Bronze Age to the Early Iron Age. Excavations in recent years have provided an opportunity to investigate site formation processes using geoarchaeological and geochemical techniques. Sediments derived from the tell on the southern side have been lost by coastal erosion whilst those on the north mantle the flanking slope. Of particular interest is a homogeneous and unstratified deposit of over 2 m which overlies the archaeology near the southern perimeter of the summit area. The soil structure as evident in thin sections indicates a high degree of bioturbation, probably stimulated by recent manuring and cultivation. The implication is that tillage erosion has had a major impact on the morphology as well as on the surface soils of the tell. Despite such reworking and redeposition of near surface materials, it is still possible from multi-element analysis to identify the geochemical distinctiveness of six archaeological contexts (pit, house, plaster floor, alley, road and yard); pits and floors have high loadings of all elements except Pb; in contrast pits and floors have the lowest elemental concentrations

The contribution of the European Society for Soil Conservation (ESSC) to scientific knowledge, education and sustainability

Soil is an integral component of the global environmental system that supports the quality and diversity of terrestrial life on Earth. Therefore, it is vital to consider the processes and impacts of soil degradation on society, especially on the provision of environmental goods and services, including food security and climate change mitigation and adaptation. Scientific societies devoted to Soil Science play significant roles in promoting soil security by advancing scientific knowledge, education and environmental sustainability. The European Society for Soil Conservation (ESSC) was founded in Ghent (Belgium) on 4 November 1988 by a group of 23 researchers from several European countries. It is an interdisciplinary, non-political association with over 500 members in 56 countries. The ESSC produces and distributes a hardcopy Newsletter twice a year and maintains both a website and Facebook page: http://www.soilconservation.eu/ https://www.facebook.com/European-Society-for-Soil-Conservation-ESSC-100528363448094/ The ESSC aims to: \u2022 Support research on soil degradation, soil protection and soil and water conservation. \u2022 Provide a network for the exchange of knowledge about soil degradation processes and soil conservation research and practises. \u2022 Produce publications on major issues relating to soil degradation and soil and water conservation. \u2022 Advise regulators and policy-makers on soil issues, especially soil degradation, protection and conservation. The ESSC held its First International Congress in Silsoe (UK) in 1992. Further International Congresses were held in Munich (1996), Valencia (2000), Budapest (2004), Palermo (2007), Thessaloniki (2011) and Moscow (2015). The Eighth International Congress will be held in Lleida (Spain) in June 2017: http://www.consowalleida2017.com/ Interspersed between these international congresses, the ESSC organizes annual international conferences on specific topics. These include Imola, Italy (Biogeochemical Processes at Air-Soil-Water Interfaces and Environmental Protection) in 2015 and Cluj-Napoca, Romania (Soil: Our Common Future) in 2016. Since its inception, the Society has made significant advances, including developing a strong and growing global network of soil scholars. The ESSC honours major individual contributions to soil conservation through two awards made every four years at its Congresses, namely: \u2022 The \u2018Gerold Richter Award,\u2019 awarded to a person who has, over their career, made significant and internationally recognized contributions to the investigation and/or promotion of soil conservation in Europe. \u2022 The \u2018Young Person\u2019s Award\u2019 is presented to a member of the Society, aged 40 years or less, who over the previous four years has made important contributions to soil conservation in Europe through research, practise, policy-making or another relevant activity. The ESSC provides grants to young members to attend its conferences and promotes the organization of scientific meetings, soil conservation research, and co-operation between numerous institutions and individuals on soil conservation initiatives. The societal challenges that can be addressed through better soil protection, as well as developing new knowledge and scientific approaches to soil protection and sustainable management, mean the ESSC embraces the on-going development, application, review and criticism of highly innovative scientific methods for soil conservation. It is in this context that the ESSC analyses and publicizes the roles and functions of soil in natural and human-modified systems and the functional optimization of soils to ensure sustainable environmental protection

Traceabilty of environmental soil measurements

Traceability is a key concept in environmental soil measurements, and should be linked with any soil measurement, especially long-term soil monitoring, which needs to demonstrate measurement quality. This article presents the main soil measurements of environmental concern, including traceability, uncertainties and possible errors, for each step in the process. It starts with sampling the soil in the field, treatment and conditioning in the field, transportation, storage and preservation of the sample in the laboratory, then goes on to the pre-analytical treatment and preparation for analyses, including the main extraction methods and analytical techniques and instruments employed. The article highlights the traceability links that should be considered for soil measurements to achieve data comparability. (C) 2004 Elsevier Ltd. All rights reserved