Category talk:IEHIAS
Page in IEHIAS | Page in Opasnet | Status |
Toolkit | ||
Data | ||
Context | ||
Geographic | ||
Administrative | ||
Topography | ||
Population / Demography | ||
Population numbers/distribution | ||
EU population: Eurostat | ||
EU age/sex stratified population: 100 metre grid | ||
Administrative boundaries - EuroBoundaryMap | ||
EU age/sex stratified population: LAU2 | ||
EU population totals: 100 metre grid | ||
EU age- and gender- stratified population data: EMEP grid (2010, 2020, 2030 and 2050) | ||
Behaviour / Lifestyle | ||
Socio-economic status | ||
Environmental | ||
General environmental data sources | ||
ExpoPlatform: Web based platform for exposure assessment | ||
Agents | ||
Chemicals | ||
Heavy metals | ||
POPS | ||
Radiation | ||
Wastes | ||
Electromagnetic radiation | ||
Noise | ||
Sources | ||
Infrastructure | ||
Activities | ||
Land cover / use | ||
Releases | ||
Emission factors | ||
Emission factors for agriculture | ||
Emission scenarios | ||
Emissions | ||
Environmental media / processes | ||
Air pollution | ||
Climate/meteorology | ||
Indoor environments | ||
Soil | ||
Water quality | ||
Exposure / Dose | ||
Exposure | ||
Intake / dose | ||
Biomarkers | ||
ExpoPlatform: Intake fractions | ||
Effects and impacts | ||
Exposure-response relationships | ||
Exposure / Dose / Concentration response functions | ||
Toxicology | ||
Health effects | ||
Morbidity | ||
Mortality | ||
European Detailed Mortality Database | ||
Impacts | ||
Monetary weights and values | ||
Severity weights | ||
Examples and case studies | ||
Examples of assessment methods | ||
Issue-framing | ||
Defining the question: an example from agriculture | ||
Defining the question: an example from waste | ||
Defining the question: an example from water | ||
Stakeholder consultation and engagement | ||
Defining the stakeholders: an example from agriculture | ||
Defining the stakeholders: an example from waste | ||
Defining the stakeholders: an example from water | ||
Engaging stakeholders: an example from water | ||
Scenarios | ||
Creating scenarios: an example from agriculture | ||
Main crop scenarios | ||
The impacts of the CAP | ||
Crop allocation | ||
Energy crop scenarios | ||
Creating scenarios: an example from transport | ||
Creating scenarios: an example from waste | ||
Downscaling IPCC SRES-population scenarios from OECD- to the city-level: London, Rome, Helsinki | ||
Creating scenarios: an example for UVR and skin cancer | ||
Creating scenarios: an example from water | ||
Scoping | ||
Building conceptual models: an example from agriculture | ||
A mind-map | ||
A systems diagram | ||
Customising the causal chain: an example from agriculture | ||
Building a conceptual model: the example of transport | ||
Scoping the assessment: ultraviolet radiation (UVR) and future skin cancer | ||
Indicator selection | ||
Building indicators: an example from agriculture | ||
Computation of health impact indicators for agriculture | ||
Human biomonitoring | ||
Case study lead in Europe | ||
Exploring the full-chain approach for PAHs using 2 case studies in Flanders and the Czech Republic | ||
The Benchmark Dose (BMD) approach for health effects of PCB exposure | ||
Case study PCBs in Slovak Republic | ||
Population modelling | ||
Spatial population modelling: an example using dasymetric disaggregation | ||
Population map: dasymetric disaggregation | ||
Source characterisation | ||
Characterising source intensity: an example from agriculture | ||
Modelling road transport: examples from the Hague and Helsinki | ||
Network modelling: modelling waste transport | ||
Route modelling | ||
Estimating traffic (truck) volumes | ||
Mask area weighting: an example for pesticides | ||
Pesticide maps: mask area weighting | ||
Stochastic allocation: an example for pesticides | ||
Pesticide maps: stochastic allocation | ||
Emission modelling | ||
Modelling contaminant release: an example from agriculture | ||
Modelling contaminant releases: an example from waste | ||
Environmental transport and transformation | ||
Dispersion modelling: an example from agriculture | ||
Dispersion modelling: an example from waste | ||
Dispersion modelling; an example from transport | ||
Focal sum modelling: an example for agriculture
Land use regression modelling: air pollution in Great Britain Modelling ultraviolet radiation exposures: a European case study Using a Kalman filter to improve a real time air pollution model Exposure modelling Intake and dose Intake fraction: exposure to pesticides in food Intake fractions of cadmium emissions from a large zinc smelter Using a PBPK model to assess population exposure to cadmium Deriving exposure-response functions Combining epidemiology and toxicology for the purpose of deriving ERFs: TCDD-induced dental aberrations Expert elicitation: case study on ultrafine particles Estimating-exposure response functions: an example from transport Estimating exposure-response functions: pesticides, PM and endotoxins from agriculture Health effects Estimating baseline skin cancer incidence for London, Helsinki and Rome Estimating health effects: UVR and skin cancer Health impact modelling: ultraviolet radiation and non-melanoma skin cancer Health impact modelling: ultraviolet radiation and melanoma skin cancer Calculating attributable cancer incidence: an example from waste Estimating health effects: an example from waste Impact analysis Calculating DALYs: an example from waste DALY calculations: UVR and skin cancer Impact analysis: an example from transport Uncertainty analysis Qualitative uncertainty assessment: a worked example Uncertainty in the agriculture case study Sensitivity analysis: ultraviolet radiation (UVR) and skin cancer Uncertainty analysis: an example from waste Examples of integrated assessments Changing ambient UVR and future melanoma and non-melanoma skin cancer in London, Rome and Helsinki Changing ambient UVR and future skin cancer in London, Rome and Helsinki: melanoma skin cancer (CMM) Changing ambient UVR and future skin cancer in London, Rome and Helsinki: non-melanoma skin cancer (BCC and SCC) Health effects of waste management Integrated assessment of heavy metal releases in Europe Models and methods Issue framing tools Indicator selection: a protocol Mind-mapping tools Tools for building system diagrams Collaborative assessment Protocol on stakeholder involvement Scenario modelling Tools for scenario construction Screening tools Spatial analysis and visualisation Focal sum modelling Land use regression Spatial visualisation toolbox Urban simulator - SIENA SIENA - data SIENA - data description Population modelling Source apportionment models Chemical mass balance models Positive matrix factorisation Principal components analysis Emission models Air pollution models ADMS-Urban CAR-International CHIMERE EcoSenseWeb Hydrological and water quality models List of hydrological and water quality models Noise models Electro-magnetic radiation models EMF path loss models Geomorf - Geographical Model of Radio-Frequency Power Density UV radiation models Ultraviolet radiation models and online simulation tools Micro-environmental models CONTAM INDEX: Indoor Exposure Model RISK IAQ model Multi-media models CalTOX PANGEA dynamiCROP Exposure, intake and dose models IndusChemFate - a generic PBPK model PBPK model for cadmium Physiologically based toxicokinetic (PBTK) model for dioxin Exposure-response function methodology Exposure-response functions protocol Exposure-response functions: protocol and guidelines Impact analysis methods and tools Impact calculation tool Uncertainty analysis methods and tools Aguila Protocol on expert elicitation Value of information Generic assessment tools Decision Support Tools metadatabase Monitoring methods Framework for Integrated Monitoring Overview of existing integrated E & H monitoring programs Overview of existing integrated E & H frameworks Concepts For Integrated monitoring Conceptual framework for integrated monitoring Structural framework for integrated monitoring Methods for data integration Development needs for integrated monitoring Case study PAHs in Czech Republic Human biomonitoring Listings Case study summary reports Health impacts of agricultural land use change in Greece and Great Britain Health impacts of regulative policies on use of di-n-butylphthalate (DBP) in consumer products Models and tools Worked examples of assessment techniques Worked examples of complete assessments Guidance System Guidance System The concept The need for IEHIA IEHIA in relation to other assessment methodologies Hazards and benefits Steps in IEHIA Issue framing Challenges in issue framing Defining the question Who defines the question? What types of questions can be assessed? Consulting with stakeholders Types of stakeholder Engaging stakeholders Methods for stakeholder engagement Open assessment Formulating scenarios The role of scenarios Scenarios and the causal chain Types of scenario Prescriptive scenarios Descriptive scenarios Predictive scenarios Probabilistic scenarios Creating scenarios for IEHIA European policy scenarios Scoping the assessment Building a conceptual model Setting boundaries Guidelines on boundary setting Mind-maps System diagrams The causal chain Expanding the causal chain Customising the causal chain Other conceptual frameworks The DPSIR framework The DPSEEA framework The MEME framework Selecting indicators Types of indicator Position in the causal chain DALYs and QALYs Monetary costs Structure Perspective Building good indicators Design Key issues in design Learning from examples Accuracy and uncertainty Dealing with complex exposures Dealing with complex exposures: an example for water Matching exposure and health metrics Information needs Vulnerable and susceptible groups Socio-economic status Value systems Geographic variation Geographic location and extent Spatial resolution Effects of spatial resolution: worked example Zone design Timeframe Ethical issues: environmental justice Screening Expert estimation Expert elicitation methodology Delphi surveys Extrapolation Transferring results from other studies Temporal (trend) extrapolation methods Spatial interpolation and extrapolation methods Triangulation Rapid modelling Proxies Proxies: the example of traffic-related air pollution Analogues Developing simple models Intake fractions Piloting Finding and evaluating data Environmental and exposure data Representivity of environmental monitoring networks Exposure-response functions Human biomonitoring data Case studies in human biomonitoring Interpreting human biomonitoring data Population, demographic and socio-economic data Health data Selecting and evaluating models Model linkage Defining and describing uncertainties Framework for uncertainty classification Location of uncertainty Protocol development Examples of assessment protocols Execution Managing the assessment Collaborating on an assessment Liaising with stakeholders Participating in assessment Documentation and auditing Data management Managing uncertainties Assessment performance Modelling the causal chain Contaminant sources Characterising sources Data sources Source distribution Source intensity Modelling source activity Spatial disaggregation Contaminant release Release pathways and processes Release inventories Modelling contaminant releases Development of emission scenarios Development of emission mitigation scenarios Emission factors Transport and transformation in environmental media Air pollution Atmospheric dispersion models Statistical air pollution models Indoor air pollution models Water quality Non-ionising radiation Noise GIS-based models Source attribution Multimedia models Exposure, intake and uptake Exposure modelling Population modelling Exposure factors Intake fractions Consumer products exposure models Time micro-environment activity modelling Exposure-to-intake modelling Internal dose estimation PBPK modelling Health effects Estimating exposure-response functions Estimating health effects Impact analysis Key issues in impact analysis Methods and measures for impact analysis Health-based impact measures Monetisation methods Deriving and applying monetary values Deriving non-market values Discounting Value transfers Treatment of uncertainty Uncertainty analysis Framework for uncertainty classification Methods for uncertainty analysis Value of information Appraisal Reporting assessment results Myths in risk communication Designing effective assessment reports Indicator scorecards Mapping Effective map design Comparing and ranking outcomes Cost-effectiveness analysis Cost-benefit analysis Multi-criteria assessment Help Help About the IEHIAS Structure User groups Users and permissions Editing your user account Contributing to IEHIAS Content types Where to put the contributed pages? Glossary Tutorials Tutorial: Text editor Tutorial: Using the "Read more" Style Tutorial: How to insert hyperlinks Tutorial: Creating equations |