Stability of peatland carbon to rising temperatures

TitleStability of peatland carbon to rising temperatures
Publication TypeJournal Article
Year of Publication2016
AuthorsWilson R.M, Hopple A.M, Tfaily M.M, Sebestyen S.D, Schadt C.W, Pfeifer-Meister L., Medvedeff C., McFarlane K.J, Kostka J.E, Kolton M., Kolka R.K., Kluber L.A, Keller J.K, Guilderson T.P, Griffiths N.A, Chanton J.P, Bridgham S.D, Hanson P.J
JournalNature Communications
Volume7
Start Page13723
Pagination13723
Date Published12/2016
Abstract

Peatlands contain one-third of soil carbon (C), mostly buried in deep, saturated anoxic zones (catotelm). The response of catotelm C to climate forcing is uncertain, because prior experiments have focused on surface warming. We show that deep peat heating of a 2 m-thick peat column results in an exponential increase in CH4emissions. However, this response is due solely to surface processes and not degradation of catotelm peat. Incubations show that only the top 20–30 cm of peat from experimental plots have higher CH4 production rates at elevated temperatures. Radiocarbon analyses demonstrate that CH4 and CO2 are produced primarily from decomposition of surface-derived modern photosynthate, not catotelm C. There are no differences in microbial abundances, dissolved organic matter concentrations or degradative enzyme activities among treatments. These results suggest that although surface peat will respond to increasing temperature, the large reservoir of catotelm C is stable under current anoxic conditions.

URLhttp://www.nature.com/doifinder/10.1038/ncomms13723
DOI10.1038/ncomms13723
Short TitleNat Comms