Oxygen isotope composition of diatoms from sediments of Lake Kotokel (Buryatia)
Oxygen isotope composition of diatoms from sediments of Lake Kotokel (Buryatia)
Russian Geology and Geophysics (August 2016) 57 (8): 1239-1247
- algae
- Asia
- biogenic processes
- Buryat Russian Federation
- Cenozoic
- climate change
- Commonwealth of Independent States
- diatoms
- evaporation
- global change
- Holocene
- isotope ratios
- isotopes
- lacustrine environment
- lake sediments
- last glacial maximum
- microfossils
- O-18/O-16
- oxygen
- paleoclimatology
- paleotemperature
- Plantae
- Pleistocene
- Quaternary
- reconstruction
- Russian Federation
- sediments
- Siberia
- silica
- stable isotopes
- upper Pleistocene
- Lake Kotokel
This is a summary of new oxygen isotope record of diatoms from Lake Kotokel sediments, with implications for responses of the lake system and its environment to global change over the past 46 kyr. Fossil diatoms in all samples are free from visible contamination signatures and contain no more than 2.5% Al (sub 2) O (sub 3) , which ensures reliable reconstructions. The 5 (super 18) O values in diatoms vary between + 23.7 and + 31.2%c over the record. The results present mainly diatom assemblages of summer blooming periods, except for the time span between 36 and 32 kyr, when the isotopic signal records mainly a shift from summer to spring blooming conditions. Possible water temperature changes only partly explain the changes in the isotopic record. The observed isotopic patterns are produced mainly by isotope changes in lake water in response to variations in air temperature, hydrology, and atmospheric circulation in the region. During Marine Isotope Stage (MIS) 2 (Last Glacial maximum), high 5 (super 18) O (sub diatom) resulted from rapid evaporation and low fluvial inputs. The high 5 (super 18) O (sub diatom) values of about + 29 to + 30%c during the first half of MIS 1 (Holocene interglacial) suggest an increased share of summer rainfalls associated with southern/southeastern air transport. The 5 (super 18) O (sub diatom) decrease to + 24%c during the second half of MIS 1 is due to the overall hemispheric cooling and increased moisture supply to the area by the Atlantic air masses. The record of Lake Kotokel sediments provides an example of complex interplay among several climatic/environmental controls of 5 (super 18) O (sub diatom) during the Late Pleistocene and the Holocene.