Obiettivo The objective is to make progress in the area of the fundamental physical and chemical processes that govern pollutant behaviour in the soil system, integrate the new knowledge with existing knowledge and apply it to soil samples, soil solutions and transport in soil columns and aquifers The effect of calcium competition on cadmium binding on humic acids has been measured using voltammetric methods. Adsorption of humic acids on the mercury aqueous solution interface has been studied. Copper binding to humic acids was measured by ion selective electrode at pH 4, 6 and 8 with copper activities varying from 1E-3 to 1E-14 M. 10 different types of iron oxides were synthesized and characterized for specific surface area and porosity. Binding of cadmium on several of these oxides was measured as a function of pH and metal ion activity. The charging characteristics of these same oxides were determined as a function of pH and ionic strength. Although the charging properties varied considerably for the various materials, the cadmium binding behaviour was quite similar. Adsorption of humic acid on hematite was studied as a function of pH, indicating increased adsorption with decreasing pH. Cadmium binding on 2 different soils was measured using pH stat and a cadmium selective electrode, allowing the exchange stochiometry between hydrogen and cadmium ions to be established. A collection of 28 different soils was intensively characterized and the soil extracts analyzed for approximately 50 elements. A theoretical analysis was made on wetting front instability leading to fingering wetting, profiles. This type of water movement can also affect solute transport in the field. The combination of physical and chemical heterogeneity on solute transport was analysed. A new analytical mathematical solution for this type of problem was derived and results were compared with those of numerical methods. The longitudinal spreading of the retarded plumes is greatly affected by the interplay of physical and chemical heterogeneity. Transverse spreading is unaffected by chemical heterogeneity.In the research project 6 major parts can be distinguished as follows. Measurement and modelling of the interaction of cadmium, zinc, hydrogen and calcium with several purified soil humic and fulvic acids. Measurement and interpretation of the metal speciation in soil extracts using water and 0.01 M calcium chloride as extractants. Preparation and characterization of iron oxides with different surface structures. Measurement and modelling of specific ion adsorption (both cations and anions) on these iron oxides. Characterization of iron oxides in soils, measurement and modelling of ion adsorption to iron oxides in soils. Measurement and interpretation of the interaction of purified humic and fulvic acids with mineral surfaces (metal oxides, clay) in the presence of variable concentrations of metal ions under a series of environmental conditions (eg pH, salt level). Measurement and modelling of metal speciation in these systems. Development of methods to determine the type and number of reactive sites in soils. Measurement of metal adsorption to soils under a series of conditions, test of the applicability of physical chemical adsorption models for estimating metal speciation in soils. Integration of existing and newly developed knowledge with respect to chemical processes in soil (adsorption to several reactive phases, complexation, ion exchange, precipitation) in a multi component chemical model that can be coupled to a transport algorithm. Finally, measurement of heavy metal transport (cadmium and zinc) through soil and aquifer materials. Modelling with the multicomponent transport model to validate parameter sets obtained in the second, third and fourth parts. Extension of measurements and modelling using heterogeneous columns. In situ measurement of tracer and reacting chemical transport in unsaturated soil and in aquifers to characterize preferential flow in natural heterogeneous systems. Modelling with deterministic and stochastic models for soil and aquifers. Campo scientifico natural scienceschemical sciencesinorganic chemistryinorganic compoundsnatural scienceschemical sciencesinorganic chemistrytransition metalsnatural scienceschemical sciencesinorganic chemistryalkaline earth metalsnatural sciencesmathematicsapplied mathematicsnumerical analysis Programma(i) FP2-STEP - Two specific research and technological development programmes (EEC) in the field of the environment STEP/EPOCH - STEP -, 1989-1992 Argomento(i) Data not available Invito a presentare proposte Data not available Meccanismo di finanziamento CSC - Cost-sharing contracts Coordinatore Landbouwuniversiteit Wageningen Contributo UE Nessun dato Indirizzo 10,Dreijenplein 6703 HB Wageningen Paesi Bassi Mostra sulla mappa Costo totale Nessun dato Partecipanti (6) Classifica in ordine alfabetico Classifica per Contributo UE Espandi tutto Riduci tutto Instituto Superior Técnico Portogallo Contributo UE Nessun dato Indirizzo Av.Rovisco Pais 1000 Lisboa Mostra sulla mappa Costo totale Nessun dato Junta de Andalucía Spagna Contributo UE Nessun dato Indirizzo 1,Avda de la Borbolla 41004 Sevilla Mostra sulla mappa Costo totale Nessun dato Landbouwuniversiteit Wageningen Paesi Bassi Contributo UE Nessun dato Indirizzo 6,Dreijenplein 6703 HB Wageningen Mostra sulla mappa Costo totale Nessun dato Natural Environment Research Council Regno Unito Contributo UE Nessun dato Indirizzo NG12 5GG Nottingham Mostra sulla mappa Costo totale Nessun dato TECHNICAL UNIVERSITY OF MUNICH Germania Contributo UE Nessun dato Indirizzo Hohenbachernstraße 85350 FREISING Mostra sulla mappa Costo totale Nessun dato UNIVERSITÀ DEGLI STUDI DI TRENTO Italia Contributo UE Nessun dato Indirizzo Via Mesiano di Povo 77 38100 TRENTO Mostra sulla mappa Costo totale Nessun dato