about
Widespread Environmental Contamination with Mycobacterium tuberculosis Complex Revealed by a Molecular Detection Protocol.Definition of redox and pH influence in the AMD mine system using a fuzzy qualitative tool (Iberian Pyrite Belt, SW Spain).Stratification of Metal and Sulphate Loads in Acid Mine Drainage Receiving Water Dams - Variables Regionalization by Cluster Analysis.Occurrence, properties and pollution potential of environmental minerals in acid mine drainage.Relationships between sources of acid mine drainage and the hydrochemistry of acid effluents during rainy season in the Iberian Pyrite Belt.Polonium behaviour in reservoirs potentially affected by acid mine drainage (AMD) in the Iberian Pyrite Belt (SW of Spain).Characterization of water reservoirs affected by acid mine drainage: geochemical, mineralogical, and biological (diatoms) properties of the water.Bromine soil/sediment enrichment in tidal salt marshes as a potential indicator of climate changes driven by solar activity: New insights from W coast Portuguese estuaries.Metal uptake by native plants and revegetation potential of mining sulfide-rich waste-dumps.Enrichment of trace elements in the clay size fraction of mining soils.Geochemistry of rare earth elements in a passive treatment system built for acid mine drainage remediation.Bromine enrichment in marsh sediments as a marker of environmental changes driven by Grand Solar Minima and anthropogenic activity (Caminha, NW of Portugal).Hydrochemical characterization of a river affected by acid mine drainage in the Iberian Pyrite Belt.Spatial evolution of an AMD stream in the Iberian Pyrite Belt: process characterization and control factors on the hydrochemistryAre Cu isotopes a useful tool to trace metal sources and processes in acid mine drainage (AMD) context?Dilution Versus Pollution in Watercourses Affected by Acid Mine Drainage: A Graphic Model for the Iberian Pyrite Belt (SW Spain)A Statistical Determination of the Transit Speed of Pollutants in a Water Reservoir Affected by Acid Mine Drainage from the Iberian Pyrite BeltSpatial distribution of major and trace elements in a mining dam: sources and relationships among elements of environmental concernStudy of the transit and attenuation of pollutants in a water reservoir receiving acid mine drainage in the Iberian Pyrite Belt (SW Spain)Iron and arsenic-rich nanoprecipitates associated with clay minerals in sulfide-rich waste dumpsAcid mine drainage in semi-arid regions: the extent of the problem in the waters of reservoirs in the Iberian Pyrite Belt (SW Spain)Erratum to: Characterization of water reservoirs affected by acid mine drainage: geochemical, mineralogical, and biological (diatoms) properties of the waterHydrochemical changes in a reservoir that receives water contaminated by acid mine drainageMineralogy and geochemistry of a clogged mining reservoir affected by historical acid mine drainage in an abandoned mining areaCharacterization of acid mine drainage sources in the Iberian Pyrite Belt: base methodology for quantifying affected areas and for environmental managementFuzzy Intelligence Approach for Modeling the Migration of Contaminants in a Reservoir Affected by AMD PollutionHydrochemical characterization of an acid mine drainage-affected reservoir: the Sancho Reservoir, Huelva, southwest SpainRecycling of manganese gangue materials from waste-dumps in the Iberian Pyrite Belt – Application as filler for concrete productionCharacterisation of AMD Pollution in the Reservoirs of the Iberian Pyrite BeltHydrogeochemical variables regionalization – applying cluster analysis for a seasonal evolution model from an estuarine system affected by AMDImpact of AMD Processes on the Water Dams of the Iberian Pyrite Belt: Overall Hydrochemical Characterization (Huelva, SW Spain)Mineralogy and environmental relevance of AMD-precipitates from the Tharsis mines, Iberian Pyrite Belt (SW, Spain)pH, electric conductivity and sulfate as base parameters to estimate the concentration of metals in AMD using a fuzzy inference systemStatistical Contrast Analysis of Hydrochemical Parameters Upstream of the Tidal Influence in Two AMD-Affected RiversNatural stabilization of mine waste-dumps — Evolution of the vegetation cover in distinctive geochemical and mineralogical environmentsApplication of Fuzzy Logic to Qualify the Environmental Impact in Abandoned Mining SitesGeochemistry and mineralogy of ochre-precipitates formed as waste products of passive mine water treatmentImpacto del drenaje ácido de mina en las características hidrogeoquímicas del estuario de los ríos Tinto y Odiel (SO España)Instability of AMD samples and evolution of ochre precipitates under laboratory conditionsEnvironmental constraints of foraminiferal assemblages distribution across a brackish tidal marsh (Caminha, NW Portugal)
P50
Q35839418-716AE9E7-ED3F-4AF9-ABDB-26D579F1492AQ39195230-07AE1737-5266-474B-A44C-7F002E588F5CQ39196117-9465A4E9-0161-43C9-B29F-2D9E733DB0AFQ39210133-FAA8E1DA-4066-4F47-BA93-F8446291CFA5Q40050681-78B03BF1-13E0-4F12-866C-AA92E081930EQ40228825-4297356A-BC4D-4194-BC89-33EE24E14F7FQ40881067-FF53AF95-B0F7-4E44-BBBD-495D58131D86Q41936985-CDB8F888-DFCB-48D0-B0C6-6FB5862C422DQ43318829-42897253-1923-407B-89A0-227A6B5F813EQ43329859-951B0D4F-A9FF-4647-B064-8F80A4C26C76Q46689403-6515F4C8-A161-4CD1-8DFF-CC4221ED7AA6Q46808992-97C637D8-FC66-4620-8DE9-FF343D106A30Q48004386-D7B674C8-02A3-492A-950C-7F2422ECACA6Q57607408-0838100C-E9B7-46A2-8D95-BEEFA8726D8BQ57871327-490C8C5E-6E70-4BDF-BC8F-BB1F2DAFAE66Q57871333-F20EA1F0-C325-4F06-9B9F-D4BADCCA0293Q57871337-4A7DB0F3-EF92-478C-96AF-89D53D564E57Q57871345-7BB5FB4F-3BC7-4B4D-AF30-ABED359ACDE4Q57871350-4103ECAA-98BD-4428-9B3D-642ED19D69FEQ57871356-B1CFBB1E-1E7B-4BE6-84C0-1B9E8FDE5F5BQ57871360-940A3022-42FE-41B0-B6F9-B8B60F85817FQ57871369-6325EDA2-B959-4DB7-87B0-DCA49BE73F02Q57871373-A0879267-9BF9-49B8-83E8-7CD20B666376Q57871379-26E1CDA4-1E8E-4454-BF47-CC576E2D5F81Q57871386-5749AF72-4429-4AB6-A00C-FDEC4BDF1655Q57871391-4B260FA3-A98F-44FE-AEE9-7D0D13D140EEQ57871397-080BEB99-ACDE-4D95-AF68-82BA5818028DQ57871405-AFC57DEB-CE92-4152-9BBF-6F60ED50588AQ57871411-B1065431-59C3-4983-B874-577B5B45EC7EQ57871419-5C1EF8D7-1025-409A-BBAC-164A929E54BFQ57871429-18C9CA3E-AC10-4609-9788-0F67A328EBC2Q57871440-BF7C4F59-6A48-46BD-99C7-D9F57B28C9B4Q57871447-212281DD-D765-453C-9228-FC07DC6555EDQ57871454-CEA631D9-3C1B-45AC-9C65-306BFF548DF0Q57871460-93824D38-5C60-4D4B-B973-1901BF865E42Q57871464-9D923719-71B4-4E14-8074-CEC905847C44Q57871470-0E987527-A8A7-46C1-B007-01A4D4AD4AF7Q57871474-51516A7A-B22D-4AF7-BB66-DF01203011C4Q57871483-6C695BB9-7904-4334-BABD-46400630167EQ57871488-5AB8309C-213E-4B85-8183-AC7E041CBE79
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Teresa Valente
@ast
Teresa Valente
@en
Teresa Valente
@es
Teresa Valente
@nl
Teresa Valente
@sl
type
label
Teresa Valente
@ast
Teresa Valente
@en
Teresa Valente
@es
Teresa Valente
@nl
Teresa Valente
@sl
altLabel
T.M. Valente
@en
Teresa Maria Valente
@en
prefLabel
Teresa Valente
@ast
Teresa Valente
@en
Teresa Valente
@es
Teresa Valente
@nl
Teresa Valente
@sl
P1053
M-4688-2013
P106
P1153
20735450900
P21
P31
P3829
P496
0000-0002-7293-3825