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Sinninghe Damsté, Jaap S; Verschuren, Dirk; Ossebaar, Jort; Blokker, Jord; van Houten, Rianne; van der Meer, Marcel T J; Plessen, Birgit; Schouten, Stefan (2011): Stable carbon isotope record of Lake Challa. PANGAEA, https://doi.org/10.1594/PANGAEA.881214, Supplement to: Sinninghe Damsté, JS et al. (2011): A 25,000-year record of climate-induced changes in lowland vegetation of eastern equatorial Africa revealed by the stable carbon-isotopic composition of fossil plant leaf waxes. Earth and Planetary Science Letters, 302(1-2), 236-246, https://doi.org/10.1016/j.epsl.2010.12.025

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Abstract:
The debate of climate versus CO2 in controlling the long-term dynamics of tropical African vegetation has focused on events at the upper tree-line, since the relevant paleodata tend to be from mid-elevation sites (~2000-3000 m). Less well known is the relative importance of CO2 in regulating the dynamics of tropical lowland (<1500 m) vegetation, particularly that of the dry open woodlands, bush- and grasslands covering much of eastern equatorial Africa. Here we examine the stable carbon isotopic composition of n-alkanes in the sediment record of Lake Challa, a lowland crater lake near Mt. Kilimanjaro, covering the last 25,000 years. The distributions of the n-alkanes, with dominance of the long-chain odd-carbon-numbered components, and their isotopic composition reveal a mixed origin. The C23 and C25 n-alkanes are depleted in 13C, with d13C values between-30 and-50 per mil. In shallow lakes these n-alkanes are thought to derive from non-emergent aquatic plants, but this is unlikely in this steep-sided crater lake as it lacks a significant littoral habitat. The C27+ n-alkanes are predominantly derived from leaf wax lipids of terrestrial plants, brought into the lake predominantly by local soil run-off. Their d13C values, in particular that of the n-C31 alkane, reveal a marked transition in local lowland vegetation from being dominated (~70-100%) by C4 plants during the glacial period until 16.5 cal kyr BP, to a more mixed C3/C4 composition (~30-60% C4) during the Holocene. The start of the late-glacial trend towards a greater proportion of C3 plants coincided with the start of increasing monsoon rainfall, ~1500 years after the onset of the rise in atmospheric CO2 and ~3500 years after the onset of post-glacial warming. The transition was interrupted during the dry Younger Dryas period (13.0-11.7 cal kyr BP), when C4 plants again became much more prevalent, almost reaching their glacial-period abundance. Notably, the principal trend in leaf-wax ?13C values infers C4 dominance during both wet and dry phases of the glacial period, and a mixed C3/C4 vegetation during both wet and dry phases of the Holocene. Our results indicate that long-term variation in pCO2 exerted important control on the composition of drought-adapted savanna vegetation in this currently semi-arid lowland region of equatorial East Africa.
Coverage:
Latitude: -3.320000 * Longitude: 37.700000
Event(s):
Lake_Challa * Latitude: -3.320000 * Longitude: 37.700000 * Elevation: 880.0 m * Recovery: 21.65 m * Location: Mount Kilimanjaro, Tanzania * Method/Device: Piston corer, UWITEC (PCUWI)
Size:
2 datasets

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