Impact of prescribed burning on blanket peat hydrology

J. Holden; S.M. Palmer; K. Johnston; C. Wearing; B. Irvine; L.E. Brown

doi:10.1002/2014WR016782

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Impact of prescribed burning on blanket peat hydrology

Journal article

Open access

Peer reviewed

Impact of prescribed burning on blanket peat hydrology

J. Holden, S.M. Palmer, K. Johnston, C. Wearing, B. Irvine and L.E. Brown

Water Resources Research, Vol.51(8), pp.6472-6484

2015

DOI: https://doi.org/10.1002/2014WR016782

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Abstract

Fire is known to impact soil properties and hydrological flow paths. However, the impact of prescribed vegetation burning on blanket peatland hydrology is poorly understood. We studied 10 blanket peat headwater catchments. Five were subject to prescribed burning, while five were unburnt controls. Within the burnt catchments, we studied plots where the last burn occurred ∼2 (B2), 4 (B4), 7 (B7), or greater than 10 years (B10+) prior to the start of measurements. These were compared with plots at similar topographic wetness index locations in the control catchments. Plots subject to prescribed vegetation burning had significantly deeper water tables (difference in means = 5.3 cm) and greater water table variability than unburnt plots. Water table depths were significantly different between burn age classes (B2 > B4 > B7 > B10+) while B10+ water tables were not significantly different to the unburnt controls. Overland flow was less common on burnt peat than on unburnt peat, recorded in 9% and 17% of all runoff trap visits, respectively. Storm lag times and hydrograph recession limb periods were significantly greater (by ∼1 and 13 h on average, respectively) in the burnt catchments overall, but for the largest 20% of storms sampled, there was no significant difference in storm lag times between burnt and unburnt catchments. For the largest 20% of storms, the hydrograph intensity of burnt catchments was significantly greater than those of unburnt catchments (means of 4.2 × 10-5 and 3.4 × 10-5 s-1, respectively), thereby indicating a nonlinear streamflow response to prescribed burning. Together, these results from plots to whole river catchments indicate that prescribed vegetation burning has important effects on blanket peatland hydrology at a range of spatial scales.

Details

Title: Impact of prescribed burning on blanket peat hydrology
Authors/Creators: J. Holden (Author/Creator)
S.M. Palmer (Author/Creator)
K. Johnston (Author/Creator)
C. Wearing (Author/Creator)
B. Irvine (Author/Creator)
L.E. Brown (Author/Creator)
Publication Details: Water Resources Research, Vol.51(8), pp.6472-6484
Publisher: American Geophysical Union
Identifiers: 991005540285207891
Copyright: © 2015 The Authors
Murdoch Affiliation: School of Veterinary and Life Sciences
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration; International collaboration
Citation topics: 3 Agriculture, Environment & Ecology; 3.45 Soil Science; 3.45.915 Permafrost Carbon
Web Of Science research areas: Environmental Sciences; Limnology; Water Resources
ESI research areas: Environment/Ecology