Source: http://www.aps-polar.org/paper/2018/29/01/A180822000002
Timestamp: 2019-04-21 14:42:13+00:00

Document:
In previous papers, we have presented a method for the assessment of the evolution of mountain glacier systems, in which various climate scenarios were used to study the response of glacier systems to climate change. The aim of this study is to assess the evolution of northeastern Russia glacier systems using output from the A-31 climate scenario, and to compare the responses of the different mountain glacier systems to the scenario. We used temperature and precipitation output from the A-31 scenario to assess future evolution of the glacier systems in the Chukchi and Kolyma highlands (for the projection period of 2011–2030), and the Orulgan, Suntar-Khayata, and Chersky ranges (for the projection period of 2041–2060). The paper provides a brief description of the general method that was used and more details on the data and methods used for each glacier system. Responses of glacier systems were analyzed on the basis of four parameters: mean glacier area, system mean altitudinal range, changes in equilibrium line altitude, and glacier area by the end of the projection period. The relationships between the factors received support an applicability of the A-31 scenario to the study of glacier system evolution.
AÐALGEIRSDÓTTIR G, ANANICHEVA M, MORTEN A L, et al. 2017. Snow, Water, Ice and Permafrost in the Arctic (SWIPA) 2017. Arctic Monitoring and Assessment Programme (AMAP), Oslo, Norway, 269.
ANANICHEVA M D, DAVIDOVICH N V. 2002. Reconstruction of the glaciation of the Suntar-Hayata Range during the Quaternary optimum periods. Data of Glaciological Studies, Moscow, 93: 73-78.
ANANICHEVA M D, KARPACHEVSKY A. 2015. Glaciers of the Orulgan Range: assessment of the current state and possible development for the middle of the 21st century. Environmental Earth Sciences, 74(3): 1985-1995.
ANANICHEVA M D, KAPUSTIN G A, MIKHAILOV A Y. 2012. Present state of the glaciers of the Meynypilgysky Range and its evolution assessment for the nearest future. Ice and Snow, 2 (118): 40-50.
ANANICHEVA M D, KRENKE A N, BARRY R G. 2010. The northeast asia mountain glaciers in the near future by aogcm scenarios. Cryosphere Discussions, 4(4): 435-445.
ANANICHEVA M D, KRENKE A N. 2008. Evolution of spatial patterns of the glaciological parameters at glacier systems in the North-East Siberia//KOTLYAKOV V M. Changes of natural environment and climate: natural and possible consequent human-induced catastrophes. Vol. III. Part 2. Natural processes in polar regions. IG RAS Publishing. Moscow.
ANANICHEVA M D, KRENKE A N. 2007. Mountain glaciation (by the example of Northeastern Siberia and Kamchatka)//KOTLYAKOV V M. Glaciation in North Eurasia in the Recent Past and Immediate Future. Moscow.
ANANICHEVA M D, KAPUSTIN G A, KOREISHA M M. 2006. Glacier changes in Suntar-Khayata Mountains and Chersky Range from the Glacier Inventory of the USSR and satellite images 2001–2003. Data of Glaciologic Studies, 101: 163-169.
BOGDANOVA A G. 1976. Method of for calculation of solid and mixed precipitation proportion in their monthly standard. Data of Glaciological Studies, 26: 202–207 (in Russian with English summary and figure captions).
BOGDANOVA E G, ILYIN B M, DRAGOMILOVA I V. 2002. Application of a comprehensive bias correction model to precipitation measured at Russian North Pole drifting stations. Journal of Hydrometeorology, 3: 700–713.
Catalogue of glaciers of the USSR. 1970–1982. Leningrad: Gydrome¬teoizdat.
Catalogue of glaciers of the USSR. 1972. Orulgan Range 5. 2. Leningrad: Gydrometeoizdat.
COGLEY J G. 2009. A more complete version of the World Glacier Inventory. Annals of Glaciology, 50(53): 32-38.
DAVIDOVICH N V, ANANICHEVA M D. 1996. Prediction of possible changes in glacio-hydrological characteristics under global warming: south-eastern Alaska, USA. J Glaciol, 42(142): 407-412.
DAVIDOVICH N V, ANANICHEVA M D. 2007. Glaciation of the Northern Eurasia mountain glacier countries during the Holocene climatic optimum//KOTLYAKOV V M. Glaciation in North Eurasia in the Recent Past and Immediate Future. Moscow: Nauka.
high-resolution grids of monthly climatic observations – the CRU TS3.10 Dataset. Int J Climatol, 34: 623-642.
KALESNIK S V. 1963. Sketches of glaciology. Uchpedgiz. Moscow.
KATTSOV V M, GOVORKOVA V A. 2013. Expected changes in air temperature. precipitation and annual runoff in Russia in the 21st century: the results of calculations with the help of global climate models (CMIP5). Proceedings of the Voeikov Main Geophysical Observatory, 569: 76-98.
KOREISHA M M. 1963. Present glaciers of the Suntar-Khayta Range. The results of the IGY studies. Glatsiologia, Moscow, 11: 98.
KOREISHA M M. 1991. Glaciation of Verkhoyansk-Kolyma area. The USSR Academy of Sciences, Moscow.
KOTLYAKOV V M, KHROMOVA T E, ZVERKOVA N M, et al. 2011. Two new glacial systems in the North-East of Eurasia. Reports of the Academy of Science. 437(1): 1-6.
KRENKE A N. 1982. Mass exchange in glacier systems on the USSR territory. Leningrad: Hydrometeoizdat.
MIKHAILOV A Y. 1986. The calculation of the integral impact of the relief on the vertical wind velocity. Proceedings of the USSR Academy of Sciences. Physics of the Atmosphere and Ocean, 5: 543-546.
MIKHAILOV A Y. 1985. The role of the orographic vertical motions in the formation of the climatic pattern of summer precipitation. Proceedings of the USSR Academy of Sciences. Geographical Series, 5: 96-103.
MOSS R, BABIKER W, BRINKMAN S, et al. 2017. Towards new scenarios for analysis of emissions climate change impacts and response strategies. IPCC Expert Meeting Report. 2007, 19–21 September, 2007, Noordwijkerhout, the Netherlands: technical summary.
SEDOV R.V. 1997a. Glaciers of Chukotka. Data of Glaciologic Studies, 82: 213-217.
SEDOV R V. 1997b. Glaciers of the Peninsula Taigonos. Data of Glaciologic Studies, 82: 218-221.
SEDOV R V. 2001. Catalogue of glaciers of the North-eastern part of the Koryak Upland. V. 19. Northeast. Chapter 5. Meynypilginsky Range. Data of Glaciologic Studies, 9: 151-162.
PFEFFER W T, ARENDT A A, BLISS A, et al. 2014. The Randolph Glacier Inventory: a globally complete inventory of glaciers. Journal of Glaciology, 60(221): 537-552.
XIE P P, ARKIN P A. 1998. Global monthly precipitation estimates from satellite-observed outgoing longwave radiation. J Climate, 11: 137-164.

References: V. 
 V. 
 V. 
 V. 
 V. 
 V.