CO2- and temperature-controlled altitudinal shifts of C4- and C3-dominated grasslands allow reconstruction of palaeoatmospheric pCO2

During the Pleistocene the vegetation changes in the high Colombian Andes included changes from C-3 to C-4 plants. This is inferred from delta(13)C values of the C-31 n-alkane from the Funza-2 sedimentary record taken from the high plain of Bogota at 2550 m elevation. The environmental factors thought to be responsible for these changes were investigated using a single point simulation of the BIOME3 vegetation model, including changes in precipitation, temperature and atmospheric CO2 concentrations. The model shows that changes are for a major part caused by these latter two factors. The isotopic signature of the n-alkanes of several extant C-3 and C-4 grasses from the area were determined to calibrate the interpretation of the isotopic record. From the geochemical record, we estimated the altitudinal distribution of C-3 and C-4 plants, using present grass distribution patterns based on floristic data as a template. This information, in combination with palaeotemperature estimates, enabled the reconstruction of atmospheric CO2 concentrations. The reconstructed CO2 concentrations follow the trends of the Vostok Antarctic ice core through three glacial and two interglacial stages. The lowest calculated CO2 concentration is ca. 210 ppmV for the glacial maxima and within the range of lowest values from Vostok, our highest value (310 ppmV) is for interglacial MIS 7. This represents a new method to reconstruct palaeoatmospheric pCO(2). It is less accurate than measurements from ice cores, but has potential to be used for sediments that are much older than the ice cores. (C) 2002 Elsevier Science B.V. All rights reserved.