The enhanced future Flows and Groundwater dataset: development and evaluation of nationally consistent hydrological projections based on UKCP18
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Published:2023-06-09
Issue:6
Volume:15
Page:2391-2415
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ISSN:1866-3516
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Container-title:Earth System Science Data
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language:en
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Short-container-title:Earth Syst. Sci. Data
Author:
Hannaford JamieORCID, Mackay Jonathan D.ORCID, Ascott Matthew, Bell Victoria A., Chitson Thomas, Cole StevenORCID, Counsell Christian, Durant Mason, Jackson Christopher R.ORCID, Kay Alison L.ORCID, Lane Rosanna A.ORCID, Mansour Majdi, Moore Robert, Parry Simon, Rudd Alison C.ORCID, Simpson Michael, Facer-Childs KatieORCID, Turner StephenORCID, Wallbank John R.ORCID, Wells Steven, Wilcox Amy
Abstract
Abstract. This paper details the development and evaluation of the enhanced future FLows and Groundwater (eFLaG) dataset of nationally consistent hydrological
projections for the UK, based on the latest UK Climate Projections (UKCP18).
The projections are derived from a range of hydrological models. For river flows, multiple models (Grid-to-Grid, PDM (Probability Distributed Model) and GR (Génie Rural; both four- and six-parameter versions, GR4J and GR6J)) are used to provide an indication of hydrological model uncertainty. For groundwater, two models are used, a groundwater level model (AquiMod) and a groundwater recharge model (ZOODRM: zooming object-oriented distributed-recharge model). A 12-member ensemble of transient projections of present and future (up to 2080) daily river flows, groundwater levels and groundwater recharge was produced using bias-corrected data from the UKCP18 regional (12 km) climate ensemble. Projections are provided for 200 river
catchments, 54 groundwater level boreholes and 558 groundwater bodies, all sampling across the diverse hydrological and geological conditions of the UK. An evaluation was carried out to appraise the quality of hydrological model simulations against observations and also to appraise the reliability of hydrological models driven by the regional climate model (RCM) ensemble in terms of their capacity to reproduce hydrological regimes in the current period. The dataset was originally conceived as a prototype climate service for drought
planning for the UK water sector and so has been developed with drought, low river flow and low groundwater level applications as the primary objectives. The evaluation metrics show that river flows and groundwater levels are, for the
majority of catchments and boreholes, well simulated across the flow and
level regime, meaning that the eFLaG dataset could be applied to a wider
range of water resources research and management contexts, pending a full evaluation for the designated purpose. Only a single climate model and one emissions scenario are used, so any applications should ideally contextualise the outcomes with other climate model–scenario combinations. The dataset can be accessed in Hannaford et al. (2022): https://doi.org/10.5285/1bb90673-ad37-4679-90b9-0126109639a9.
Publisher
Copernicus GmbH
Subject
General Earth and Planetary Sciences
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