Difference between revisions of "Talk:IEHIAS"
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|+ '''Plan to move IEHIEAS pages | |+ '''Plan to move IEHIEAS pages | ||
!Original page !! New page !! Status | !Original page !! New page !! Status | ||
− | |----- | + | |--- |
− | | || || | + | |colspan="3"| Toolkit |
+ | |--- | ||
+ | |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 | ||
+ | |--- | ||
+ | |colspan="3"| 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 | ||
+ | |--- | ||
+ | |colspan="3"|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 | ||
|} | |} |
Revision as of 11:09, 4 August 2014
Original page | New page | Status |
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Toolkit | ||
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 |