Lancaster EPrints

Increased temperature sensitivity of net DOC production from ombrotrophic peat due to water table draw-down.

Clark, J. M. and Ashley, D. and Wagner, D. M. and Chapman, P. J. and Lane, S. N. and Evans, C. J. and Heathwaite, A. Louise (2009) Increased temperature sensitivity of net DOC production from ombrotrophic peat due to water table draw-down. Global Change Biology, 15 (4). pp. 794-807. ISSN 1354-1013

Full text not available from this repository.

Abstract

The production and release of dissolved organic carbon (DOC) from peat soils is thought to be sensitive to changes in climate, specifically changes in temperature and rainfall. However, little is known about the actual rates of net DOC production in response to temperature and water table draw-down, particularly in comparison to carbon dioxide (CO2) fluxes. To explore these relationships, we carried out a laboratory experiment on intact peat soil cores under controlled temperature and water table conditions to determine the impact and interaction of each of these climatic factors on net DOC production. We found a significant interaction (P < 0.001) between temperature, water table draw-down and net DOC production across the whole soil core (0 to −55 cm depth). This corresponded to an increase in the Q10 (i.e. rise in the rate of net DOC production over a 10 °C range) from 1.84 under high water tables and anaerobic conditions to 3.53 under water table draw-down and aerobic conditions between −10 and − 40 cm depth. However, increases in net DOC production were only seen after water tables recovered to the surface as secondary changes in soil water chemistry driven by sulphur redox reactions decreased DOC solubility, and therefore DOC concentrations, during periods of water table draw-down. Furthermore, net microbial consumption of DOC was also apparent at − 1 cm depth and was an additional cause of declining DOC concentrations during dry periods. Therefore, although increased temperature and decreased rainfall could have a significant effect on net DOC release from peatlands, these climatic effects could be masked by other factors controlling the biological consumption of DOC in addition to soil water chemistry and DOC solubility. These findings highlight both the sensitivity of DOC release from ombrotrophic peat to episodic changes in water table draw-down, and the need to disentangle complex and interacting controls on DOC dynamics to fully understand the impact of environmental change on this system.

Item Type: Article
Journal or Publication Title: Global Change Biology
Uncontrolled Keywords: climate change • DOC • drought • Moor House • organic carbon • peat • Q 10 • temperature • water table
Subjects: G Geography. Anthropology. Recreation > GE Environmental Sciences
Departments:
ID Code: 31431
Deposited By: Mr Richard Ingham
Deposited On: 18 Jan 2010 09:24
Refereed?: Yes
Published?: Published
Last Modified: 23 Jul 2014 14:50
Identification Number:
URI: http://eprints.lancs.ac.uk/id/eprint/31431

Actions (login required)

View Item