Methanotrophic symbionts provide carbon for photosynthesis in peat bogs
Publication date
2005-08-25
Authors
Raghoebarsing, A.A.
Smolders, A.J.P.
Schmid, M.C.
Rijpstra, W.I.C.
Wolters-Arts, M.
Derksen, J.
Jetten, M.S.M.
Schouten, S.
Sinninghe Damsté, J.S.
Lamers, L.P.M.
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Abstract
Wetlands are the largest natural source of atmospheric methane,
the second most important greenhouse gas. Methane flux to the
atmosphere depends strongly on the climate; however, by far the
largest part of the methane formed in wetland ecosystems
is recycled and does not reach the atmosphere. The biogeochemical
controls on the efficient oxidation of methane are still
poorly understood. Here we show that submerged Sphagnum
mosses, the dominant plants in some of these habitats, consume
methane through symbiosis with partly endophytic methanotrophic
bacteria, leading to highly effective in situ methane
recycling. Molecular probes revealed the presence of the bacteria
in the hyaline cells of the plant and on stem leaves. Incubationwith
13C-methane showed rapid in situ oxidation by these bacteria to
carbon dioxide, which was subsequently fixed by Sphagnum, as
shown by incorporation of 13C-methane into plant sterols. In this
way, methane acts as a significant (10–15%) carbon source for
Sphagnum. The symbiosis explains both the efficient recycling of
methane and the high organic carbon burial in these wetland
ecosystems.