4.7 Article

A large set of potential past, present and future hydro-meteorological time series for the UK

Journal

HYDROLOGY AND EARTH SYSTEM SCIENCES
Volume 22, Issue 1, Pages 611-634

Publisher

COPERNICUS GESELLSCHAFT MBH
DOI: 10.5194/hess-22-611-2018

Keywords

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Funding

  1. Natural Environment Research Council (NERC)
  2. project team spanning the University of Oxford [NE/L010364/1]
  3. University of Bristol [NE/L010399/1]
  4. Cranfield University [NE/L010186/1]
  5. Met Office
  6. Centre for Ecology and Hydrology [NE/L010208/1]
  7. NERC [NE/L010399/1, NE/K002309/1, NE/L010208/1] Funding Source: UKRI
  8. Natural Environment Research Council [NE/L010399/1, NE/K002309/1, NE/L010208/1] Funding Source: researchfish

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Hydro-meteorological extremes such as drought and heavy precipitation can have large impacts on society and the economy. With potentially increasing risks associated with such events due to climate change, properly assessing the associated impacts and uncertainties is critical for adequate adaptation. However, the application of risk-based approaches often requires large sets of extreme events, which are not commonly available. Here, we present such a large set of hydro-meteorological time series for recent past and future conditions for the United Kingdom based on weather@home 2, a modelling framework consisting of a global climate model (GCM) driven by observed or projected sea surface temperature (SST) and sea ice which is down-scaled to 25 km over the European domain by a regional climate model (RCM). Sets of 100 time series are generated for each of (i) a historical baseline (1900-2006), (ii) five near-future scenarios (2020-2049) and (iii) five far-future scenarios (2070-2099). The five scenarios in each future time slice all follow the Representative Concentration Pathway 8.5 (RCP8.5) and sample the range of sea surface temperature and sea ice changes from CMIP5 (Coupled Model Intercomparison Project Phase 5) models. Validation of the historical baseline highlights good performance for temperature and potential evaporation, but substantial seasonal biases in mean precipitation, which are corrected using a linear approach. For extremes in low precipitation over a long accumulation period (> 3 months) and shorter-duration high precipitation (1-30 days), the time series generally represents past statistics well. Future projections show small precipitation increases in winter but large decreases in summer on average, leading to an overall drying, consistently with the most recent UK Climate Projections (UKCP09) but larger in magnitude than the latter. Both drought and high-precipitation events are projected to increase in frequency and intensity in most regions, highlighting the need for appropriate adaptation measures. Overall, the presented dataset is a useful tool for assessing the risk associated with drought and more generally with hydro-meteorological extremes in the UK.

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