Natural Hazards. Integrated Risk Assessment & Scientific Advice Uncertainty in forecasting and risk assessment Hydro-meteorologicalVolcanoesEarthquakes.

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Presentation transcript:

Natural Hazards

Integrated Risk Assessment & Scientific Advice Uncertainty in forecasting and risk assessment Hydro-meteorologicalVolcanoesEarthquakes StormsFloods Droughts, Wildfires & Heatwaves Coastal Erosion & Flooding Subsidence LandslidesVolcanoesEarthquakesTsunami Development of physically- based models Experimental Studies Monitoring & survey Experimental Studies Monitoring & survey Experimental Studies Monitoring & survey Experimental Studies Monitoring & survey Experimental Studies Monitoring & survey Experimental Studies Monitoring & survey Experimental Studies Monitoring & survey Experimental Studies Monitoring & survey Natural Hazard Challenges

Societal needs

Theme drivers 1.Natural hazards and their consequences need to be forecast effectively. 2.The communication of scientific knowledge and understanding of natural hazards needs to be much improved. 3.Much more emphasis and financial resources need to be put into mitigation strategies.

Theme Priorities 1.Risks that are likely to increase in frequency and scale 2.Where new research will do most to reduce risk 3.Risks with core UK expertise or datasets

Initial Actions Fill gaps in current portfolio Will be small to start with, but will ramp-up in size Will be prioritised by SISB on how they stretch the science Are only the initial actions; it is expected that research into ALL challenges will be undertaken over the next 5 years

Framework of Actions Quantifying uncertainty in predictions PG (CS) Risk mitigation through targeted research PDG Storm risk mitigation PG Water cycle hazards PG (CS, SUNR) Ice melt induced sea level rise PDG (CS, ESS) Analysis and communication of uncertainty and risk PDG

Analysis and communication of uncertainty and risk Develop a framework for the handling of uncertainty, risk and complexity across natural hazard research activities to enable improved uptake and usage of NERC science. Improve communication of the distribution, size, uncertainty and complexity of natural hazards to decision-makers. Generate common involvement and co-investment of social scientists and key stakeholders throughout scientific programmes.

Quantifying uncertainty in predictions of regional and local climate change Develop, test and disseminate statistical methods to combine observations and models to quantify the total uncertainty in predictions of regional and local climate change, and climate impacts, especially for the next few decades. Because of their importance for climate impacts, attention must be given to predictions of changes in extreme events.

Risk mitigation through targeted research Develop a prioritised inventory of observational requirements, datasets and models that are required to minimise casualties and economic loss. Develop enhanced hazard and risk forecasting capability. Develop probabilistic hazard assessment techniques and, with joint vulnerability assessments, improved risk models. Case study: Volcanic risk management Will have generic applicability

Storm Risk mitigation Improve the ability to predict hazardous weather associated with mid-latitude cyclonic storms by developing improved representations of the physical processes and their interaction. Predict how enhanced greenhouse gas- induced pre- conditioning of the atmosphere will affect the generation and evolution of mid-latitude storms. Model vulnerability to storms (arising from precipitation and wind) at catchment/ coastal management unit scale through development of high resolution (regional) models.

Ice-melt induced Sea level rise To predict rates of sea level rise based on improved modelling of ice sheet melt processes under a range of climatic scenarios. To predict impacts (including coastal flooding, estuarine interactions, groundwater interactions, erosion), and uncertainties, at a range of scales (e.g. a highly urbanised industrial catchment, the UK and international). Within LWEC, to establish socio-economic scenarios based on the impacts to enable improved communication and modelling of risk for policy-makers

Water cycle hazards Quantify and narrow the uncertainty in predictions for the next few decades of changes in regional precipitation, evaporation, soil moisture, run-off and related water variables that cause floods and droughts. Narrow the uncertainty in predictions for the next few decades. Make key results available in a form that decision makers concerned with adaptation and mitigation can readily use.

Future activities Further activities across all natural hazard challenges are being considered; it is expected that these will be developed once opportunities with the ‘Living with Environmental Change’ Programme (LWEC) are clearer and following further consultation with research users and providers. Questions?