Saturated hydraulic conductivity in northern peats inferred from other measurements

P. J. Morris*, M. L. Davies, A. J. Baird, N. Balliston, M.‐A. Bourgault, R. S. Clymo, R. E. Fewster, A. K. Furukawa, J. Holden, E. Kessel, S. J. Ketcheson, B. Kløve, M. Larocque, H. Marttila, M. W. Menberu, P. A. Moore, J. S. Price, A.‐K. Ronkanen, E. Rosa, M. StrackB. W. J. Surridge, J. M. Waddington, P. Whittington, S. L. Wilkinson

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

18 Citations (Scopus)
21 Downloads (Pure)

Abstract

In northern peatlands, near-saturated surface conditions promote valuable ecosystem services such as carbon storage and drinking water provision. Peat saturated hydraulic conductivity (Ksat) plays an important role in maintaining wet surface conditions by moderating drainage and evapotranspiration. Peat Ksat can exhibit intense spatial variability in three dimensions and can change rapidly in response to disturbance. The development of skillful predictive equations for peat Ksat and other hydraulic properties, akin to mineral soil pedotransfer functions, remains a subject of ongoing research. We report a meta-analysis of 2,507 northern peat samples, from which we developed linear models that predict peat Ksat from other variables, including depth, dry bulk density, von Post score (degree of humification), and categorical information such as surface microform type and peatland trophic type (e.g., bog and fen). Peat Ksat decreases strongly with increasing depth, dry bulk density, and humification; and increases along the trophic gradient from bog to fen peat. Dry bulk density and humification are particularly important predictors and increase model skill greatly; our best model, which includes these variables, has a cross-validated r2 of 0.75 and little bias. A second model that includes humification but omits dry bulk density, intended for rapid field estimations of Ksat, also performs well (cross-validated r2 = 0.64). Two additional models that omit several predictors perform less well (cross-validated r2 ∼ 0.5), and exhibit greater bias, but allow Ksat to be estimated from less comprehensive data. Our models allow improved estimation of peat Ksat from simpler, cheaper measurements.

Original languageEnglish
Article numbere2022WR033181
Number of pages18
JournalWater Resources Research
Volume58
Issue number11
Early online date12 Oct 2022
DOIs
Publication statusPublished - Nov 2022
Externally publishedYes

Fingerprint

Dive into the research topics of 'Saturated hydraulic conductivity in northern peats inferred from other measurements'. Together they form a unique fingerprint.

Cite this