1. Tropical vegetation productivity and atmospheric methane over the last 40,000 years from model simulations and stalagmites in Sulawesi, Indonesia.
- Author
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Krause, Claire E., Kimbrough, Alena K., Gagan, Michael K., Hopcroft, Peter O., Dunbar, Gavin B., Hantoro, Wahyoe S., Hellstrom, John C., Cheng, Hai, Edwards, R. Lawrence, Wong, Henri, Suwargadi, Bambang W., Valdes, Paul J., and Rifai, Hamdi
- Subjects
STALACTITES & stalagmites ,SOIL respiration ,ANTARCTIC ice ,ICE cores ,SOIL productivity ,ATMOSPHERIC methane ,VEGETATION dynamics - Abstract
Recent research has shown the potential of speleothem δ
13 C to record a range of environmental processes. Here, we report on230 Th-dated stalagmite δ13 C records for southwest Sulawesi, Indonesia, over the last 40,000 yr to investigate the relationship between tropical vegetation productivity and atmospheric methane concentrations. We demonstrate that the Sulawesi stalagmite δ13 C record is driven by changes in vegetation productivity and soil respiration and explore the link between soil respiration and tropical methane emissions using HadCM3 and the Sheffield Dynamic Global Vegetation Model. The model indicates that changes in soil respiration are primarily driven by changes in temperature and CO2 , in line with our interpretation of stalagmite δ13 C. In turn, modelled methane emissions are driven by soil respiration, providing a mechanism that links methane to stalagmite δ13 C. This relationship is particularly strong during the last glaciation, indicating a key role for the tropics in controlling atmospheric methane when emissions from high-latitude boreal wetlands were suppressed. With further investigation, the link between δ13 C in stalagmites and tropical methane could provide a low-latitude proxy complementary to polar ice core records to improve our understanding of the glacial–interglacial methane budget. [ABSTRACT FROM AUTHOR]- Published
- 2024
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