Инд. авторы: Agatova A.R., Khazina I.V., Bronnikova M.A., Uspenskaya O.N., Nepop R.K.
Заглавие: Reconstruction of postglacial landscape evolution within the eastern periphery of Chuya depression on the basis of multidisciplinary analysis of peats in Boguty river basin, SE Altai, Russia
Библ. ссылка: Agatova A.R., Khazina I.V., Bronnikova M.A., Uspenskaya O.N., Nepop R.K. Reconstruction of postglacial landscape evolution within the eastern periphery of Chuya depression on the basis of multidisciplinary analysis of peats in Boguty river basin, SE Altai, Russia // IOP Conference Series: Earth and Environmental Science. - 2018. - Vol.138. - Iss. 1. - Art.012001. - ISSN 1755-1307. - EISSN 1755-1315.
Идентиф-ры: DOI: 10.1088/1755-1315/138/1/012001; SCOPUS: 2-s2.0-85045659511; WoS: 000445774300001;
Реферат: eng: This paper presents the results of multidisciplinary investigations of the peat-bed under hummocky permafrosted boggy meadow within the Boguty basin. For the last 7600 years 4 evolutionary phases of peatbog formation within the drained part of Low Boguty Lake bottom were established and corresponding 4 pollen complexes were described. 18 radiocarbon dates suggest some chronological bench marks of postglacial landscape evolution in the region. After degradation of Sartan glaciation about 14000 BP, trees grew in now forestless areas at 11000 BP and 8500-7800 BP. The climate in the first half of the Holocene was warmer and more humid. Accumulation of lacustrine loams within the studied peatbog occurred before 7600 BP with predominated algae Pediastrum, Zygnemataceae and Botryococcus. After the lake level lowered in the result of destructing moraine dam, two lower peat horizons were developed about 7600-7200 BP. An episode of significant lake desiccation (later than 7200 BP) was recorded in all proxy archives. Further rise of water supply led to increasing the number of water-bog plants, diatomaceous, euglenic and green algae. At the same time, the pollen of xerophytes began to predominate in the pollen complexes, indicating aridization. The final stage reflects stable peatbog drying and its transformation into boggy meadow, decomposition and mineralization of peat. © Published under licence by IOP Publishing Ltd.
Ключевые слова: Radiocarbon dates; Multi-disciplinary analysis; Landscape evolutions; Lake levels; Green alga; Evolutionary phasis; Climate change; Wetlands; Water supply; Peat; Lakes; Glacial geology; Algae; Bog plants; River basins;
Издано: 2018
Физ. хар-ка: 012001
Конференция: Название: 5th International Field Symposium on West Siberian Peatlands and Carbon Cycle: Past and Present, WSPCC 2017 and the International Conference on Carbon Balance of Western Siberian Mires in the Context of Climate Change
Даты проведения: 2017-06-19 - 2017-06-29