12,000-Year, preliminary results of the stable nitrogen and carbon isotope record from the Empakai Crater lake sediments, Northern Tanzania

The stable isotope compositions of organic carbon and nitrogen, the contents of organic carbon and nitrogen and C/N ratios for two cores recovered from the Empakai Crater at water depths of 11 and 20 m are used to document climatic changes in northern Tanzania. Eight 14 C AMS dates determined on total organic matter (OM) indicate that the sedimentation rate in this lake is about 30 cm/ka for the late Pleistocene to early Holocene period. There are differences in the d 13 C values of organic carbon between the two cores, which may be a result of differences in location from the present shoreline and of different water depths. In the deeperwater core the d 13 C values show a general downcore decrease to the base of the core with a sharp change to lower values of about 4& at a depth of 100 cm ($8.7 ka). The general trend of downcore decrease in 13 C values can be attributed either to a systematic decrease in the relative proportion of C 4 type of OM, owing to an increase in precipitation and change in vegetation cover from grassland to forest, or to utilization of isotopically enriched carbon during photosynthesis. The d 15 N values show a general downcore increase with again a sharp change of about 5& to lower values at about 8.7 ka. A sharp change of about 5& and 4& to more depleted values at a depth of 100 cm of both 15 N and 13 C, respectively, suggests either hiatus or abrupt change in climatic condition from wetter conditions to drier conditions. There is enhanced preservation of OM in the lake as depicted by high mean values of organic carbon and nitrogen at both sites.