期刊
PALAEOGEOGRAPHY PALAEOCLIMATOLOGY PALAEOECOLOGY
卷 574, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.palaeo.2021.110475
关键词
Highland peat; Carbon; Stable isotopes; Biomarkers; Paleoclimate
资金
- Vetensakpsradet [348 2013 6760]
The multi-proxy records from the Kapsabet peat deposit in western Kenya provide insights into late Holocene climate changes and vegetation evolution, with distinct stages of climatic conditions and their impacts revealed through various proxies.
Multi-proxy high-resolution records relating to climate and dominant vegetation cover have been obtained from a peat deposit retrieved from the Kapsabet swamp in western Kenya. The 4-m long peat sequence provided a continuous sedimentation record spanning ca. 3023 cal yr BP to the present and is representative of the late Holocene changes in the relatively high-altitude part of the Lake Victoria catchment. Paleoenvironmental factors influencing peat formation and organic matter (OM) source inputs in Kapsabet were reconstructed based on total organic carbon, carbon accumulation rate, delta C-13, delta N-15, C/N ratio, and specific biomarker-based n-alkane ratios. The Kapsabet peat sequence was divided into five stages based on different climatic conditions: Stage 1 (3023-1670 cal yr BP) represents a progression from cool dry to wet conditions. Stage 2 (1670-1187 cal yr BP) is a relatively warm and wet period with increased productivity and high OM input. Stage 3 (1187-625 cal yr BP) represents gradual warming coeval to the late Holocene Medieval Warm Period. Stage 4 (625-188 cal yr BP) is a cool and wet period with high variability in precipitation and hydrological conditions representing the Little Ice Age. Stage 5 (188 cal yr BP to present) represents a relatively cool and wet period that coincides with the expansion of agriculture, particularly in the lowlands. The proxies indicate a progressive change from a forested landscape to an open woodland coeval to a decline in terrigenous inputs and the advent of more wet conditions. The climate on the highlands was less variable than in the lowlands, which underwent several periods of drought and intermittent wet conditions. The changes in the catchment coincided with the expansion of agriculture and land clearance marking increased human activities in the lowlands. Overall, the Kapsabet peat sequence tracks the regional climatic changes in East Africa and marks a promising sedimentary archive for palaeoclimate reconstruction from a region with a paucity of palaeoenvironmental and palaeovegetation histories.
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