Abstract
The anhydrosugars, levoglucosan, mannosan and galactosan, are regarded as suitable molecular indicators of natural biomass combustion. Here, we evaluate summed anhydrosugars (SAS) as a paleofire indicator in a 6000 year-long fossil core from Agios Floros fen, Peloponnese, Greece, by analyzing charcoal fragments in parallel, throughout the sediment sequence. Modern surface soil samples from the same region were analysed for the presence of SAS, confirming the biomarker as an indicator of recent fire activity. The highest SAS concentrations in the fossil core were found in sections representing periods of wet conditions, both on local and regional scales and regionally widespread arboreal vegetation. Low amounts, or the absence, of SAS in the fossil core were associated with periods of dryness, regional dominance of non-arboreal vegetation and the presence of a fen rather than a lake ecosystem at the site. Micro-charcoal fragments were generally more abundant under these conditions. This suggests that SAS yield and deposition may vary with fuel availability and fire behavior, which in turn is affected by climate, local moisture and vegetation type. Forest fires result in more SAS compared to grass fires. SAS yield is also favored by low-temperature fires sustained under wet climate conditions. Preservation of SAS is likely to be compromised in the only seasonally wet fen ecosystem under the dry and warm Mediterranean climate conditions. The moist and shallow conditions in the wetland during hot summer months probably promote oxidation and biodegradation of the labile SAS molecules, compared to the more robust charcoal fragments. Thus, a multiproxy approach - using several proxies, both for fire, hydroclimate and vegetation change - is preferred when aiming to reconstruct past biomass burning from wetland ecosystems in a Mediterranean environment. The micro-charcoal record from Agios Floros reveals significant fire activity between 4400 and 2800 cal yr BP. This partly overlaps the Bronze Age period, associated with intense human environmental interaction and climate change in this area of Peloponnese, Greece.
Highlights
IntroductionIsomers of LVG are formed; the two most important being mannosan (1,6-Anhydro-b -D-mannopyranose, MAN) and galactosan (1,6-Anhydro-b-D-galac topyranose, GAL) (Shafizadeh, 1982; Simoneit, 2002)
Paleofire research contributes to the understanding of vegetation and environmental responses to fire as a natural element in⇑ Corresponding author at: Department of Physical Geography, Stockholm ecosystems and can disentangle potential links between fire frequency, human activity and climate in the past
The anhydrosugar abundance is reported in relation to the total organic carbon content (TOC), the latter varying between 1 and 30% in the modern samples (Supplementary Material ), and between ca 1 and 40% in the fossil samples (Fig. 2, after Katrantsiotis et al, 2016a,b)
Summary
Isomers of LVG are formed; the two most important being mannosan (1,6-Anhydro-b -D-mannopyranose, MAN) and galactosan (1,6-Anhydro-b-D-galac topyranose, GAL) (Shafizadeh, 1982; Simoneit, 2002). MAN and GAL generally occur with concentrations one to two magnitudes lower than LVG (Simoneit et al, 1999; Fine et al, 2001, 2002), as the hemicellulose content in plants is lower and varies more with vegetation type than the cellulose content (Shafizadeh, 1982; Scheller and Ulvskov, 2010)
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