Autogenic and allogenic factors affecting development of a floating Sphagnum-dominated peat mat in a karst pond basin

Lateral expansion of floating vegetation mats over the surface of aquatic ecosystems (terrestrialization) is one of the ways of peatland development. This process was commonly studied in kettle-hole lakes, whereas karst ponds have received less attention. We used a suite of palaeoecological analyses...

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Published inHolocene (Sevenoaks) Vol. 29; no. 1; pp. 120 - 129
Main Authors Tsyganov, Andrey N, Kupriyanov, Dmitry A, Babeshko, Kirill V, Borisova, Tamara V, Chernyshov, Viktor A, Volkova, Elena M, Chekova, Daria A, Mazei, Yuri A, Novenko, Elena Yu
Format Journal Article
LanguageEnglish
Published London, England SAGE Publications 01.01.2019
Sage Publications Ltd
Subjects
Aquatic ecosystems
Aquatic plants
Bottom sediments
Drought
Ecosystems
Fens
Floating
Frameworks
Hydrologic regime
Hydrology
Karst
Kettles (geology)
Lake sediments
Lakes
Mats
Mires
Moisture content
Palaeoecology
Peat
Ponds
Sediments
Sphagnum
Surface wetness
Vegetation
Water levels
multi-proxy
mire
peat
terrestrialization
last millennium
Mordovia
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Summary:Lateral expansion of floating vegetation mats over the surface of aquatic ecosystems (terrestrialization) is one of the ways of peatland development. This process was commonly studied in kettle-hole lakes, whereas karst ponds have received less attention. We used a suite of palaeoecological analyses at Karstovoe mire (Mordovia, Russia) to reconstruct the formation of a floating Sphagnum-dominated peat mat over the karst pond. The results show that the floating peat mat had covered the central part of the pond by ca. AD 1600. Remains of Scirpus sp. and Calamagrostis sp. in the basal layers indicate that these plants might form a framework on which Sphagnum mosses and sedges were established. The terrestrialization could be triggered by the ‘Medieval Warm Period’ (AD 950–1250) as droughts reduce water levels and allow the pioneering plants to colonize exposed bottom sediments on the margins of lakes. Later, the development of the mire was mainly driven by autogenic factors that could be explained by the relatively stable hydrological regime in freely floating or poorly attached vegetation mats. In the mid 19th century, the surface wetness of the mire started to decline that can be related to both increased human activity associated with fires and to a greater thickness of the mat so that autogenic and allogenic effects were difficult to disentangle. In less than a century after that, the fen transformed to a pioneer raised mire. Our results show complex and context-dependent effect of autogenic and allogenic factors on the development of floating peat mats.
ISSN:0959-6836
1477-0911
DOI:10.1177/0959683618804631