Posters from the DAIMON Final Conference on 7th February 2019 in Bremerhaven
Abstract book
A2.1 Information systems of dumped chemical and conventional munitions
A2.1 The rate of corrosion of munitions dumped in the Baltic Sea
A2.1 Munition Payload Identification via Neutron Activation Analysis
A2.2 Leakage rate of the nerve agent tabun from sea-dumped ammunition
A2.2 HRDM (High Resolution Dispersion Model) as a part of DSS
A2.3 Contamination of marine sediments with arsenic and heavy metals originating from dumped munitions
A2.3 Concentration of methylmercury in marine sediments collected in munition
dumpsite
A2.3 Sea-dumped ammunition as a source of mercury to the Baltic Sea sediments
A2.5 Toxic effects of dissolved TNT on the Baltic mussels (Mytilus spp.): first results from lab exposure studies
A2.5 A novel method for detection, identification and quantification of explosives compounds in fish
A2.5 DAIMON Toolbox for the assessment of marine munitions impact on biota
A2.5 Ecological impact of sea dumped chemical warfare on Baltic Sea ecosystem
A2.5 Detection of Chemical Warfare Agent-Related Phenylarsenic Chemicals From
Different Marine Biota samples
A2.5 Toxicity of an oxidation product and a metabolite of the chemical warfare agent
Clark I/II determined using the rainbow trout liver cell line RTL-W1
A2.5 In vitro effects of Trinitrotoluene on fish liver enzymes
A2.5 Genotoxicity of nitroaromatic compounds in zebrafish embryos
A2.5 Fluorescence measurements of the marine flatworm Macrostomum lignano during exposure to the TNT derivatives 2ADNT and 4ADNT
A2.6 Risk assessment model for dumped Chemical Warfare Agents – VRAKA-CWA
A3.1 Blue mussels (Mytilus spp.) transplanted at a German munition dumping site in the Baltic Sea for biomonitoring of TNT and degradation products
A3.1 Biological effects in mussels (Mytilus sp.) growing on depth charges in the Gulf of
Finland
A3.1 Studies on the health status of dab (Limanda limanda) from a dumpsite of
conventional munitions in Kiel Bight, Baltic Sea
A3.1 Dumped munitions in the Baltic Sea – Detection and effects of explosives in fish
A3.2 Using the hagfish (Myxine glutinosa) to study biological effects of a wreck filled with chemical munitions
A3.3 Overview of the results of the monitoring campaigns for analysis of Baltic Sea
sediment samples for sea-dumped chemical warfare agents
A3.3 Integrated biomarker analysis and assessment in cod (Gadus morhua) from
dumpsites of chemical munitions in the Baltic Sea
A4.2 IDUM – evaluation the costs of different management options (e.g. sediment
covering, remediation, etc.), and list of possible environmental impacts according to
available technology used
A4.3 IDUM – legal situation, how are dumped items/sites and responsibilities regulated, what are the consequences for dump site in national/international waters due to existing legal framework, what is missing in the legal framework, etc.
A5.1 Specialist munitions software and database
A5.2 Innovative Neural Network Technology for DAIMON Decision Support System
A5.3 Integration of DAIMON in AMUCAD: the actual status
Abstract book
A2.1 Information systems of dumped chemical and conventional munitions
A2.1 The rate of corrosion of munitions dumped in the Baltic Sea
A2.1 Munition Payload Identification via Neutron Activation Analysis
A2.2 Leakage rate of the nerve agent tabun from sea-dumped ammunition
A2.2 HRDM (High Resolution Dispersion Model) as a part of DSS
A2.3 Contamination of marine sediments with arsenic and heavy metals originating from dumped munitions
A2.3 Concentration of methylmercury in marine sediments collected in munition
dumpsite
A2.3 Sea-dumped ammunition as a source of mercury to the Baltic Sea sediments
A2.5 Toxic effects of dissolved TNT on the Baltic mussels (Mytilus spp.): first results from lab exposure studies
A2.5 A novel method for detection, identification and quantification of explosives compounds in fish
A2.5 DAIMON Toolbox for the assessment of marine munitions impact on biota
A2.5 Ecological impact of sea dumped chemical warfare on Baltic Sea ecosystem
A2.5 Detection of Chemical Warfare Agent-Related Phenylarsenic Chemicals From
Different Marine Biota samples
A2.5 Toxicity of an oxidation product and a metabolite of the chemical warfare agent
Clark I/II determined using the rainbow trout liver cell line RTL-W1
A2.5 In vitro effects of Trinitrotoluene on fish liver enzymes
A2.5 Genotoxicity of nitroaromatic compounds in zebrafish embryos
A2.5 Fluorescence measurements of the marine flatworm Macrostomum lignano during exposure to the TNT derivatives 2ADNT and 4ADNT
A2.6 Risk assessment model for dumped Chemical Warfare Agents – VRAKA-CWA
A3.1 Blue mussels (Mytilus spp.) transplanted at a German munition dumping site in the Baltic Sea for biomonitoring of TNT and degradation products
A3.1 Biological effects in mussels (Mytilus sp.) growing on depth charges in the Gulf of
Finland
A3.1 Studies on the health status of dab (Limanda limanda) from a dumpsite of
conventional munitions in Kiel Bight, Baltic Sea
A3.1 Dumped munitions in the Baltic Sea – Detection and effects of explosives in fish
A3.2 Using the hagfish (Myxine glutinosa) to study biological effects of a wreck filled with chemical munitions
A3.3 Overview of the results of the monitoring campaigns for analysis of Baltic Sea
sediment samples for sea-dumped chemical warfare agents
A3.3 Integrated biomarker analysis and assessment in cod (Gadus morhua) from
dumpsites of chemical munitions in the Baltic Sea
A4.2 IDUM – evaluation the costs of different management options (e.g. sediment
covering, remediation, etc.), and list of possible environmental impacts according to
available technology used
A4.3 IDUM – legal situation, how are dumped items/sites and responsibilities regulated, what are the consequences for dump site in national/international waters due to existing legal framework, what is missing in the legal framework, etc.
A5.1 Specialist munitions software and database
A5.2 Innovative Neural Network Technology for DAIMON Decision Support System
A5.3 Integration of DAIMON in AMUCAD: the actual status