© Crown copyright Met Office ETC – DRR CCA 1° Core Team Meeting 1.4.1.2 ETC Technical Paper on Extreme Weather and Climate Events Peter Dempsey, 08-03-16,

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Presentation transcript:

© Crown copyright Met Office ETC – DRR CCA 1° Core Team Meeting ETC Technical Paper on Extreme Weather and Climate Events Peter Dempsey, , Copenhagen

© Crown copyright Met Office Extreme Weather and Climate Events (Tech Paper ) Introduction Scope (Temperature, Precipitation, Hail, Drought) Exclusions (Floods, storms and avalanches) How will the Extremes Tech Paper will inform the 2017 EEA report on CCA & DRR in Europe* Define the requirement (what’s required and when?) Questions raised

Contents 1 Introduction 2 Observations 2.1 Data types, European datasets, data gaps, homogeneity and time series, gridded data, climate indices and interrelations, EVA 2.2 Climate modelling and scenarios, Climate models and bias correction, Emissions scenarios, Socio-economic & policy scenarios 3Extremes 3.1 Temperature (Heat Waves) 3.2 Precipitation 3.3 Hail 3.4 Drought Conclusions Technical Appendices Climate Indices Case Studies © Crown copyright Met Office

Observations key messages © Crown copyright Met Office Data types European datasets Data gaps Homogeneity and time series Gridded data Climate indices and interrelations

Key Messages Temperature © Crown copyright Met Office Impacts (e.g. increased mortality, reduced crop yields) Globally, the number of warm extremes has increased and number of cool extremes has decreased over the last 100 years. Cold extremes are changing faster than warm extremes and 2015 were joint warmest year on record in Europe. The length and frequency of summer heat waves has increased during the last century.

Key Messages Temperature © Crown copyright Met Office The number of heat waves is projected to increase, along with their duration and intensity. Summers like 2003 will become commonplace by the 2040s, and could be regarded as cool by the end of the century. The greatest human impacts will be, dependent on topography, land-use and population dynamics.

Precipitation key messages © Crown copyright Met Office Trend in very heavy (>20mm) precipitation days for May (left) and June (right) (source: E-OBS). Generally wetter conditions between and More areas getting more extreme precipitation than those getting less, consistent with a warming atmosphere and an increasing trend in daily rainfall intensity. Increased precipitation observed over northern Europe and decreases over southern Europe in the 20th century. Since 1950 winter wet spells increased in duration in northern Europe but reduced in southern Europe. Summer wet spells have become shorter in northern and eastern Europe. Evidence of lengthening wet spells at the expense of dry spells in some areas (such as the Swiss Alps).

Precipitation key messages © Crown copyright Met Office Spatial distribution (upper panel) and trend in time (lower panel) for precipitation indices including (a) Rx5d (b) R99pTOT & (c) SDII. Units are mm/decade. Source: GHCNDEX data from CLIMDEX ( Extreme precipitation becoming more intense and more frequent in Europe, especially in central and Eastern Europe in winter, resulting in greater magnitude and frequency of flooding. An increasing proportion of total rainfall falls on heavy rainfall days. Extreme events changing at a faster absolute rate in relation to the mean than more moderate events. Modelled projections of extreme precipitation events show an increase in frequency, intensity and/or amount under climate change in Europe. Events currently considered extreme are expected to occur more frequently in the future e.g. globally, a 1-in-20 year annual maximum daily precipitation amount is likely to become a 1-in-5 to 1-in-15 year event by the end of the 21st century.

Key Messages Hail © Crown copyright Met Office Above: Comparison between (a) OT- based climatology (occurrences per year and 100 km² and (b) Hail day density (Hand and Cappelutti, 2011). Left: Spatial distribution of OT observations detected in MSG-SEVIRI IRW-channel temperatures for the period 2004–2011 (>0.69 cm on a 0.1o grid) Punge at al.,2014. There are few ground based hail observation networks, with satellite cloud temperature data and numerical models used to identify hail producing convective or frontal instability. Most extreme hail events occur in the summer over Central Europe where convective energy is greatest. Hail occurs most frequently in mountainous areas, especially the Alps, due to moisture convergence and upward forcing, but is less frequent over the central Alps due to reduced uplift.

Drought Key Messages © Crown copyright Met Office Monthly soil moisture anomaly in Iberia, , Source EDO Drought Report August Drought is a cumulative event and recent severe droughts include Italy ( ), the Baltic countries , the European heatwave of summer 2003, and the widespread European drought of The 1950s were prone to long, intense, Europe-wide meteorological and hydrological droughts. In Northern and Eastern Europe the highest drought frequency and severity was from the early 1950s to the mid-1970s. Southern and western Europe (the Mediterranean) show the highest drought frequency and severity from Small but continuous increase of the European areas prone to drought from the 1980s to the early 2010s.

Drought Key Messages © Crown copyright Met Office Projected changes in summer soil moisture between the periods 1961 to 1990 (baseline) and 2021 to 2050 (scenario) Little evidence of more severe global drought over the last 60 years. Combined indices e.g. combined SPI, SPEI and RDI can improve on single indicators to identify extreme droughts. Drought hotspots in the Mediterranean and southern Europe, the Carpathians and the Balkans. Drought frequency increased during the decade 2001–2010, during which four significant drought events occurred. Regional climate models for Europe project a decrease in summer precipitation until 2100 of 17% on average, and by 30% in June for the period of Dry periods are expected to occur 3 times more often at the end of the current century and to last longer by 1 to 3 days compared to the period of

Questions © Crown copyright Met Office Relevance of outcomes for CCA, DRR and mitigation? Data – what are the most important data and what new data do we need? Uncertainties, gaps in network, access to data etc? Quality of satellite and other remote sensed data? Scope for more consistent use of Improved Indicators? Improved regional and country climate summaries (like the temperature product, UK NCIC maps?). More quantitative risk analysis needed? consistent across Europe. System of vulnerability (risk & impact) classification for prioritisation?