Data supporting two papers on chironomid larvae subfossils from Olive-backed Lake, Kamchatka Peninsula, Russian Far East
This dataset is a csv file of abundance data of chironomid larvae subfossils isolated from a lake sediment core collected on the Kamchatka Peninsula, Russian Far East. Olive-backed Lake (unofficial name; 56° 12.0740 N; 158° 51.4930 E) is a closed, high altitude lake situated approximately 30 km nort...
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| Format: | Dataset |
| Language: | English |
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Natural History Museum
2016
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| Online Access: | https://dx.doi.org/10.5519/0093852 http://data.nhm.ac.uk/dataset/fc97ea06-4ea4-4ac6-bc41-b91604d6e66b |
| Summary: | This dataset is a csv file of abundance data of chironomid larvae subfossils isolated from a lake sediment core collected on the Kamchatka Peninsula, Russian Far East. Olive-backed Lake (unofficial name; 56° 12.0740 N; 158° 51.4930 E) is a closed, high altitude lake situated approximately 30 km north of the settlement of Esso in the central mountain range. The core was dated using tephrochronology and radiocarbon dating; details of the methods used to correlate and date the cores, together with the age-depth modelling are given in the following reference: G. Plunkett, S.E. Coulter, V.V. Ponomareva, M. Blaauw, A. Klimaschewski and D. Hammarlund (2015). Distal tephrochronology in volcanic regions: Challenges and insights from Kamchatkan lake sediments. Global and Planetary Change 134, 26–40 The chironomids were analysed, together with pollen, diatoms and selected geochemical parameters to examine the response of the lake to Holocene environmental and climate change. The chironomid data were also used to provide estimates of summer temperatures. The data comprise core depth and percentage abundance data for the core. Further details of the study site, results and their interpretation are given in: A.E. Self, A. Klimaschewski, N. Solovieva, V.J. Jones, E. Andrén, A.A. Andreev, D. Hammarlund and S.J. Brooks (2015). The relative influences of climate and volcanic activity on Holocene lake development inferred from a mountain lake in central Kamchatka. Global and Planetary Change 134 (2015) 67–81 |
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