Vegetation and environmental changes in tropical South America from the last glacial to the Holocene documented by multiple cave sediment proxies

δ18O values in speleothems have been utilized to document past changes in South American monsoon intensity. However, changes in regional vegetation and ecosystems have not been part of this discussion, and other cave proxies such as speleothem δ13C values, a useful proxy for vegetation reconstruction, have been neglected due to interpretive complexities. Here we report δ13C values and 87Sr/86Sr ratios in stalagmites, together with XRF-derived elemental chemistry, δ13Corg values and carbon content from a sedimentary profile from the same cave where the stalagmites were collected. In combination with a previously published δ18O record, this enables us to clarify climate and environmental shifts that occurred between the Last Glacial Maximum and the Holocene in central South America. We show that vegetation was sparse during the last glacial period in spite of a previously inferred strong monsoon, and that changes in atmospheric pCO2 combined with local hydrological and temperature feedbacks may have determined vegetation development during this time. •Multiple cave sediment proxies for vegetation and environmental reconstructions.•Vegetation was sparse during the last glacial period in Southern Amazon.•Climate and environmental transformation occurred between the LGM and the Holocene.•Atmospheric CO2 have determined vegetation evolution.