about
Soil quality in the Lomellina area using in vitro models and ecotoxicological assays.Chemical characterization and ecotoxicity of three soil foaming agents used in mechanized tunneling.Air quality in the Olona Valley and in vitro human health effects.A combined approach to investigate the toxicity of an industrial landfill's leachate: chemical analyses, risk assessment and in vitro assays.Application of ERICA index to evaluation of soil ecosystem health according to sustainability threshold for chemical impact.ERICA: A multiparametric toxicological risk index for the assessment of environmental healthiness.Assessing the environmental risks associated with contaminated sites: Definition of an Ecotoxicological Classification index for landfill areas (ECRIS).(Eco)toxicological maps: A new risk assessment method integrating traditional and in silico tools and its application in the Ledra River (Italy)Toxicological Characterization of Waste-Related Products Using Alternative Methods: Three Case StudiesPhytotoxicity of wear debris from traditional and innovative brake padsNew in silico models to predict in vitro micronucleus induction as marker of genotoxicityIn vitro approaches to environmental pollutants: New models, endpoints, and strategiesQSAR modeling of Daphnia magna and fish toxicities of biocides using 2D descriptorsEcotoxicological QSAR modeling of organic compounds against fish: Application of fragment based descriptors in feature analysisOrganoids are promising tools for species-specific in vitro toxicological studiesChemometric modeling to predict air half-life of persistent organic pollutants (POPs)Investigating landfill leachate toxicity in vitro: A review of cell models and endpoints
P50
Q38980988-86EF7366-6EF6-45E0-B4FB-62653D15E855Q41007540-273A4E2E-4375-4E78-9A74-29B3CAE4798AQ42804823-18A4543A-BCD6-4345-9C63-A3266AF281ADQ43326403-055EC825-CDDD-455C-B3A6-479658628672Q44481593-DAB5F454-4ECC-4163-B3E8-2F14B170C6CAQ46948209-FC67E158-E6DB-486D-BCE9-D55102E9ED1EQ51631824-207294D0-D739-4695-9B6D-66A0566A1083Q57137422-0DBA3E2A-92F5-419E-8E76-B98B0B3AC5D3Q60584733-EA9631B6-FF58-48EF-A0E6-84505CB78DB7Q90360262-73396D73-F73F-4B9C-A693-36560A0F6A3BQ91403351-B7ABBBFD-C43E-4F99-8325-C8D451AB3DB2Q91590748-81368BC0-2021-4E51-854A-F8E5A4B74505Q91824786-403E9727-5790-47A0-B0B4-D6FCB2447D25Q92289914-0B020697-0C4C-4775-A6C5-F6CEE3E460ACQ92553418-772F3209-1794-43D6-87A7-D71000505F13Q92872143-5A11BBEF-C250-4476-8874-E6DE5AE1FD94Q93193580-A38B5192-C6AD-4437-8C56-91BD131C2848
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Diego Baderna
@ast
Diego Baderna
@en
Diego Baderna
@es
Diego Baderna
@nl
Diego Baderna
@sl
type
label
Diego Baderna
@ast
Diego Baderna
@en
Diego Baderna
@es
Diego Baderna
@nl
Diego Baderna
@sl
prefLabel
Diego Baderna
@ast
Diego Baderna
@en
Diego Baderna
@es
Diego Baderna
@nl
Diego Baderna
@sl
P108
P106
P1153
35809736200
P21
P31
P3835
diego-baderna
P496
0000-0003-4217-9005