loading page

Higher incidence of strongly evaporative days drives severe water deficit for ombrotrophic peatlands
  • Hannah T. Lehnhart-Barnett,
  • Richard C. Chiverrell
Hannah T. Lehnhart-Barnett
University of Liverpool School of Environmental Sciences

Corresponding Author:hannah.lehnhart-barnett@universityofgalway.ie

Author Profile
Richard C. Chiverrell
University of Liverpool School of Environmental Sciences
Author Profile

Abstract

“‘latex The capacity of peatlands to sequester and store atmospheric carbon is coupled to their hydrological functioning but is threatened by increases in the frequency and severity of extreme weather. The hydrological functioning of a near-intact water-shedding ombrotrophic blanket bog is characterised here using a decade-long (2010 – 2021) hydro-meteorological series. This period includes the substantial drawdown of water tables during the 2018 UK summer heatwave. Annual peatland water balances were calculated for three consecutive hydrological years (2017/18, 2018/19 and 2019/20) and comprised, on average, 930 mm of precipitation (P), 335 mm evapotranspiration (ET), 371 mm runoff and −7 mm change in water storage (ΔS). Average annual water table depth (WTD) relates primarily to available energy (net radiation – soil heat flux), while monthly average WTD is driven mainly by the vapour pressure deficit (VPD). Summer water availability (P – ET) is controlled more by precipitation than evapotranspiration and drives much of summer changes in ΔS. Deeper summer WTD patterns associate with greater incidence of warm, highly evaporative days, and the 2018 summer drawdown (−427 mm) reflects both low water availability (P – ET) and high incidence of evaporative days. By winter 2018/19 the water balance had recovered, demonstrating the resilience of this near-intact blanket bog to hydrological extremes. However, the increased risk of summer heatwaves, milder winters and trends towards reduced winter-spring precipitation will impact interannual hydrological regimes, particularly affecting the extent of winter recharge and summer water table drawdown potentially jeopardising the longer-term stability of peatlands.
13 Nov 2024Submitted to Hydrological Processes
13 Nov 2024Submission Checks Completed
13 Nov 2024Assigned to Editor
13 Nov 2024Reviewer(s) Assigned
14 Nov 2024Reviewer(s) Assigned
20 Dec 2024Review(s) Completed, Editorial Evaluation Pending