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Linking two centuries of tree growth and glacier dynamics with climate changes in Kamchatka |
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| Authors: | Jiri Dolezal Jan Altman Valentina P Vetrova Toshihiko Hara |
| Institution: | 1. Department of Functional Ecology, Institute of Botany of the Academy of Sciences of the Czech Republic, Dukelska 135, 379 82, Trebon, Czech Republic 2. Faculty of Science, Department of Botany, University of South Bohemia, Na Zlaté Stoce 1, 37005, ?eské Budějovice, Czech Republic 3. Laboratory of Plant Ecology, Kamchatka Branch of Pacific Institute of Geography, Far-Eastern Branch of Russian Academy of Sciences, Rybakov pr. 19a, Petropavlovsk-Kamchatsky, 683024, Russia 4. Institute of Low Temperature Science, Hokkaido University, Kita-ku, Sapporo, 060-0819, Japan |
| Abstract: | Glaciers around the world retreated as the climate warmed substantially. For the majority of alpine and arctic areas, however, the lack of meteorological data over a long period makes it difficult to build long-term climate and glacial fluctuation relationships, emphasizing the importance of natural proxy archives. Here we use the 230-year record of stem radial growth of birch trees (Betula ermanii) from the treeline forests above the receding glaciers in eastern maritime Kamchatka to analyse temporal variations of climate as well as glacial advance and retreat. Glaciers in Kamchatka Peninsula represent the southern limit of glaciation in far eastern Eurasia, which makes them prone to global warming. Using instrumental climate data (1930–1996) from local meteorological stations, we find that the July temperature had most prominent positive impact on birch growth. On the contrary, smaller ring increments are associated with the positive summer and net annual ice mass balance of Koryto Glacier. The prevailing trend of higher summer temperatures and lower snowfall over the past 70 years has enhanced tree growth while causing the glacier’s surface to lower by about 35 m and its front to retreat by about 490 m. Assuming these same relationships between climate, tree growth, and glacier mass balance also existed in the past, we use tree rings as a proxy record of climatically induced temporary halts in the glacier’s retreat over the past two centuries, which in total was over 1,000 m. Both direct observations and tree ring proxies indicate several prolonged warm periods (1990s, 1960s, 1930–1940s, 1880–1900s) interspersed with cooler periods (1984–1985, 1970–1976, 1953–1957, 1912–1926, 1855–1875, 1830–1845, 1805–1820 and 1770–1780) when the glacier re-advanced, creating several consecutive terminal moraine ridges. We conclude that birch tree-rings are suitable for assessing tree growth/climate/glacial relationships over a longer timescale in maritime Kamchatka. |
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