Bacterial tetraether membrane lipids in peat and coal: Testing the MBT-CBT temperature proxy for climate reconstruction
Publication date
2011
Authors
Weijers, J.W.H.
Steinmann, P.
Hopmans, E.C.
Schouten, S.
Sinninghe Damsté, J.S.
Editors
Advisors
Supervisors
Document Type
Article
Metadata
Show full item recordCollections
License
(c) UU Universiteit Utrecht, 2011
Abstract
Peatlands are widespread and important natural archives of environmental change. Here we explore the
potential of the recently introduced MBT–CBT proxy (methylation index and cyclisation ratio of branched
tetraethers) to estimate past annual mean air temperature (MAT) based on the distribution of bacteriallyderived
branched glycerol dialkyl glycerol tetraether (GDGT) membrane lipids in peat and coal. To this
end, branched GDGTs in an ombrotrophic peat bog from Switzerland and three coal deposits of increasing
maturity were analysed.
For the surface of the bog, reconstructed annual MAT is higher than both measured annual MAT and
measured in situ pore water temperature. Changes in the CBT ratio, considered a proxy for pH, with depth
in the bog do not match with present day in situ pore water pH, but coincide with a peat stratigraphic
boundary. This indicates that GDGTs down the bog profile are predominantly fossil and not derived from
extant biomass. The MBT–CBT derived annual MAT record also shows a large drop at this stratigraphic
boundary, which likely relates to past change in trophic status of the bog. Branched GDGTs are abundant
in an immature lignite (vitrinite reflectance, Ro 0.25%), but occur in low amount in a slightly more mature
coal (Ro 0.32%). Annual MAT could be reconstructed for the lignite alone and is higher than other proxybased
estimates from approximately the same time and location.
Our results indicate potential for the application of the MBT–CBT proxy in peat and immature coals, but
improved constraints on the effects of different types of peat on branched GDGT distributions as well as
improved calibration of MAT estimates are needed before the method can be confidently applied.