Abstract
Evaporation is an important component of the hydrological cycle. Potential evaporation (PE) from a vegetated surface is the amount of water that would be lost to the atmosphere were the supply unlimited; actual evaporation (AE) is a fraction of PE dependent on soil wetness. Many formulae exist for estimating PE from meteorological data. PE is usually a required input, with rainfall, for hydrological modelling, but PE accuracy is generally considered less important than rainfall accuracy for model performance. Few studies investigate historical evaporation trends in Britain, but generally indicate increases. Most studies presenting future PE projections for Britain indicate increased annual PE, but some suggest small decreases in some months. Limited consensus on the best formulae to derive PE projections from climate model data is further complicated by possible changes in plant behaviour (transpiration and growth) under higher carbon dioxide concentrations. Appropriate PE estimation could be particularly important in regions where precipitation and PE are in close balance, but PE uncertainty could be less important than climate model uncertainty for hydrological impacts. Further research is needed into which PE formulae are likely to be most reliable when applied with climate model data, and into climate change and plant feedbacks.
Highlights
Evaporation transfers water from the land-surface to the atmosphere, so is an important part of the hydrological cycle
This paper provides some background on actual evaporation (AE) and Potential evaporation (PE) in Britain, influence of PE in hydrological modelling, and the ways in which environmental change can affect PE
Penman–Monteith forms part of MORECS, which converts daily synoptic weather station data into estimates of weekly and monthly PE, AE and soil moisture deficit (SMD) for short grass on a 40 × 40 km grid over Britain, for a range of soils defined by their available water capacity (AWC; Hough & Jones )
Summary
Evaporation transfers water from the land-surface to the atmosphere, so is an important part of the hydrological cycle. L. Kay et al | Evaporation trends, future projections and hydrology in Britain. Penman–Monteith is recommended by the United Nations Food and Agricultural Organisation (FAO) for deriving grass reference PE (Pereira et al ), and is used by the UK Climate Projections 09 (UKCP09) weather generator (Jones et al ). This paper provides some background on AE and PE in Britain, influence of PE in hydrological modelling, and the ways in which environmental change can affect PE. Future PE projections in Britain are reviewed, with estimation difficulties and effects of PE uncertainty on hydrological climate change impacts discussed. The focus here is the hydrological perspective, evaporation is of interest in other areas (e.g., agriculture and ecology; Fisher et al ), and many of the same issues will apply
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