Details

Autor(en) / Beteiligte

• Hawthorne, Donna
• Lawson, Ian T.
• Dargie, Greta C.
• Bocko, Yannick E.
• Ifo, Suspense A.
• Garcin, Yannick
• Schefuß, Enno
• Hiles, William
• Jovani-Sancho, Antonio Jonay
• Tyrrell, Genevieve
• Biddulph, George E.
• Boom, Arnoud
• Chase, Brian M.
• Gulliver, Pauline
• Page, Susan E.
• Roucoux, Katherine H.
• Sjögersten, Sofie
• Young, Dylan M.
• Lewis, Simon L.

Titel

Genesis and development of an interfluvial peatland in the central Congo Basin since the Late Pleistocene

Ist Teil von

• Quaternary science reviews, 2023-04, Vol.305, p.107992, Article 107992

Ort / Verlag

Elsevier Ltd

Erscheinungsjahr

2023

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• The central Congo Basin contains the largest known peatland complex in the tropics. Here we present a detailed multi-proxy record from a peat core, CEN-17.4, from the centre of a 45 km wide interfluvial peatland (Ekolongouma), the first record of its kind from the central Congo peatlands. We use pollen, charcoal, sedimentological and geochemical data to reconstruct the site's history from the late Pleistocene to the present day. Peat began accumulating at the centre of the peatland ∼19,600 cal BP (∼17,500–20,400 cal BP, 95% confidence interval), and between ∼9500 (9430–9535 cal BP) and 10,500 (10,310–10,660 cal BP) cal BP towards the margins. Pollen data from the peatland centre show that an initial grass- and sedge-dominated vegetation, which burned frequently, was replaced by a Manilkara-type dominated flooded forest at ∼12,640 cal BP, replaced in turn by a more mixed swamp forest at ∼9670 cal BP. Mixed swamp forest vegetation has persisted to the present day, with variations in composition and canopy openness likely caused at least in part by changes in palaeo-precipitation. Stable isotope data (δDn-C29-v&icecorr) indicate a large reduction in precipitation beginning ∼5000 and peaking ∼2000 cal BP, associated with the near-complete mineralization of several metres of previously accumulated peat and with a transition to a drier, more heliophilic swamp forest assemblage, likely with a more open canopy. Although the peatland and associated vegetation recovered from this perturbation, the strong response to this climatic event underlines the ecosystem's sensitivity to changes in precipitation. We find no conclusive evidence for anthropogenic activity in our record; charcoal is abundant only in the Pleistocene part of the record and may reflect natural rather than anthropogenic fires. We conclude that autogenic succession and variation in the amount and seasonality of precipitation have been the most important drivers of ecological change in this peatland since the late Pleistocene. •Peat began accumulating at the centre of the interfluvial peatland ∼19,600 cal BP (∼17,500–20,400 cal BP).•Peat initiated at locations towards the margins between ∼9500 and 10,500 cal BP (according to central age estimates).•Peat initiated in a grass- and sedge-dominated floodplain environment with frequent fires.•Forest dominated by Manilkara-type established ∼12,650 cal BP, moving to a more mixed swamp forest ∼9670 cal BP.•Forest composition fluctuated over time in response to variations in wetness (precipitation amount and seasonality).