This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Aizen, VB 2011, ‘Pamir glaciers’ in Encyclopedia of Snow, Ice and Glaciers, eds VP Sigh, P Singh & UK Haritashya, Springer, Dordrecht, pp. 813–815.AizenVB2011‘Pamir glaciers’inEncyclopedia of Snow, Ice and GlaciersedsSighVPSinghPHaritashyaUKSpringerDordrecht81381510.1007/978-90-481-2642-2_672Search in Google Scholar
Baranowski, S 1977, ‘The subpolar glaciers of Spitsbergen seen against the climate of this region’, Acta Universitatis Wratislaviensis, vol. 410, pp. 1–94.BaranowskiS1977‘The subpolar glaciers of Spitsbergen seen against the climate of this region’Acta Universitatis Wratislaviensis410194Search in Google Scholar
Benediktsson, ÍÖ, Ingólfsson, Ó, Schomacker, A & Kjær, KH 2009, ‘Formation of submarginal and proglacial end moraines: implications of ice-flow mechanism during the 1963–64 surge of Brúarjökull, Iceland’, Boreas, vol. 38, pp. 440–457.BenediktssonÍÖIngólfssonÓSchomackerAKjærKH2009‘Formation of submarginal and proglacial end moraines: implications of ice-flow mechanism during the 1963–64 surge of Brúarjökull, Iceland’Boreas3844045710.1111/j.1502-3885.2008.00077.xSearch in Google Scholar
Benn, DI 2021, ‘Surging glaciers in Scotland’, Scottish Geographical Journal, vol. 137, pp. 1–40.BennDI2021‘Surging glaciers in Scotland’Scottish Geographical Journal13714010.1080/14702541.2021.1922738Search in Google Scholar
Benn, DI & Evans, DJA 2010, Glaciers and Glaciation, 2nd ed. Hodder Education, London.BennDIEvansDJA2010Glaciers and Glaciation2nd ed.Hodder EducationLondonSearch in Google Scholar
Benn, DI, Fowler, AC, Hewitt, I & Sevestre, H 2019, ‘A general theory of glacier surges’, Journal of Glaciology, vol. 65, no. 25, pp. 701–716.BennDIFowlerACHewittISevestreH2019‘A general theory of glacier surges’Journal of Glaciology652570171610.1017/jog.2019.62Search in Google Scholar
Benn, DI, Kirkbride, MP, Owen, LA & Brazier, V 2003, ‘Glaciated valley landsystems’ in Glacial landsystems, ed. DJA Evans, Arnold, London, pp. 372–406.BennDIKirkbrideMPOwenLABrazierV2003‘Glaciated valley landsystems’inGlacial landsystemsed.EvansDJAArnoldLondon372406Search in Google Scholar
Bennett, MR, Waller, RI, Midgley, NG, Huddart, D, Gonzalez, S, Cook, SJ & Tomio, A 2003, ‘Subglacial deformation at sub-freezing temperatures? Evidence from Hagafellsjökull-Eystri, Iceland’, Quaternary Science Reviews, vol. 22, no. 8–9, pp. 915–923.BennettMRWallerRIMidgleyNGHuddartDGonzalezSCookSJTomioA2003‘Subglacial deformation at sub-freezing temperatures? Evidence from Hagafellsjökull-Eystri, Iceland’Quaternary Science Reviews228–991592310.1016/S0277-3791(03)00007-6Search in Google Scholar
Błaszczyk, M, Jania, JA & Kolondra, L., 2013, ‘Fluctuations of tidewater glaciers in Hornsund Fiord (Southern Svalbard) since the beginning of the 20th century’, Polish Polar Research, vol. 34, no. 4, pp. 327–352.BłaszczykMJaniaJAKolondraL.2013‘Fluctuations of tidewater glaciers in Hornsund Fiord (Southern Svalbard) since the beginning of the 20th century’Polish Polar Research34432735210.2478/popore-2013-0024Search in Google Scholar
Braun, M, Pohjola, VA, Pettersson, R, Möller, M, Finkelnburg, R, Falk, U, Scherer D & Schneider, C 2011, ‘Changes of glacier frontal positions of Vestfonna (Nordaustlandet, Svalbard)’, Geografiska Annaler Series A Physical Geography, vol. 93, no. 4, pp. 301–310.BraunMPohjolaVAPetterssonRMöllerMFinkelnburgRFalkUSchererDSchneiderC2011‘Changes of glacier frontal positions of Vestfonna (Nordaustlandet, Svalbard)’Geografiska Annaler Series A Physical Geography93430131010.1111/j.1468-0459.2011.00437.xSearch in Google Scholar
Clarke, GKC 1987, ‘Fast glacier flow: ice streams, surging, and tidewater glaciers’, Journal of Geophysical Research, vol. 92, no. B9, pp. 8835–8841.ClarkeGKC1987‘Fast glacier flow: ice streams, surging, and tidewater glaciers’Journal of Geophysical Research92B98835884110.1029/JB092iB09p08835Search in Google Scholar
Copland, L, Sylvestre, T, Bishop, MP, Shroder, JF, Seong, YB, Owen, LA, Bush, A & Kamp, U 2011, ‘Expanded and recently increased glacier surging in the Karakoram’, Arctic, Antarctic, and Alpine Research, vol. 43, no. 4, pp. 503–516.CoplandLSylvestreTBishopMPShroderJFSeongYBOwenLABushAKampU2011‘Expanded and recently increased glacier surging in the Karakoram’Arctic, Antarctic, and Alpine Research43450351610.1657/1938-4246-43.4.503Search in Google Scholar
Dolgushin, LD & Osipova, GB 1975, ‘Glacier surges and the problem of their forecasting’, IAHS-AISH publication, no. 104, pp. 292–304.DolgushinLDOsipovaGB1975‘Glacier surges and the problem of their forecasting’IAHS-AISH publication104292304Search in Google Scholar
Evans, DJA & Rea, BR 1999, ‘Geomorphology and sedimentology of surging glaciers: A land-systems approach’, Annals of Glaciology, vol. 28, pp. 75–82.EvansDJAReaBR1999‘Geomorphology and sedimentology of surging glaciers: A land-systems approach’Annals of Glaciology28758210.3189/172756499781821823Search in Google Scholar
Evans, DJA & Rea, BR 2003, ‘Surging glacier landsystem’ in Glacial landsystems, ed. DJA Evans, Arnold, London, pp. 259–288.EvansDJAReaBR2003‘Surging glacier landsystem’inGlacial landsystemsed.EvansDJAArnoldLondon259288Search in Google Scholar
Gilewska, S 1968, ‘Project of the unified key to the detailed geomorphological map of the world’, Folia Geographica, Geographica-Physica, vol. 2, Polska Akademia Nauk, Komisja Geograficzna, Kraków.GilewskaS1968‘Project of the unified key to the detailed geomorphological map of the world’Folia Geographica, Geographica-Physica2Polska Akademia Nauk, Komisja GeograficznaKrakówSearch in Google Scholar
Gruber, S 2012, ‘Derivation and analysis of a high-resolution estimate of global permafrost zonation’, Cryosphere, vol. 6, pp. 221–233.GruberS2012‘Derivation and analysis of a high-resolution estimate of global permafrost zonation’Cryosphere622123310.5194/tc-6-221-2012Search in Google Scholar
Gustavsson, M, Kolstrup, E & Seijmonsbergen, AC 2006, ‘A new symbol-and-GIS based detailed geomorphological mapping system: renewal of a scientific discipline for understanding landscape development’, Geomorphology, vol. 77, pp. 90–111.GustavssonMKolstrupESeijmonsbergenAC2006‘A new symbol-and-GIS based detailed geomorphological mapping system: renewal of a scientific discipline for understanding landscape development’Geomorphology779011110.1016/j.geomorph.2006.01.026Search in Google Scholar
Harrison, WD & Post, AS 2003, ‘How much do we really know about glacier surging?’, Annals of Glaciology, vol. 36, pp. 1–6.HarrisonWDPostAS2003‘How much do we really know about glacier surging?’Annals of Glaciology361610.3189/172756403781816185Search in Google Scholar
Havenith, HB & Bourdeau, C. 2010, ‘Earthquake-induced landslide hazards in mountain regions: a review of case histories from Central Asia’, Geologica Belgica, vol. 13, no. 3, pp. 135–150.HavenithHBBourdeauC.2010‘Earthquake-induced landslide hazards in mountain regions: a review of case histories from Central Asia’Geologica Belgica133135150Search in Google Scholar
Heinecke, L, Mischke, S, Adler, K, Barth, A, Biskaborn, BK, Plessen, B, Nitze, I, Kuhn, G, Rajabov, I & Herzschuh, U 2017, ‘Climatic and limnological changes at Lake Karakul (Tajikistan) during the last ~29 cal ka.’, Journal of Paleolimnology, vol. 58, pp. 17–334.HeineckeLMischkeSAdlerKBarthABiskabornBKPlessenBNitzeIKuhnGRajabovIHerzschuhU2017‘Climatic and limnological changes at Lake Karakul (Tajikistan) during the last ~29 cal ka.’Journal of Paleolimnology581733410.1007/s10933-017-9980-0Search in Google Scholar
Ingólfsson, Ó, Benediktsson, ÍÖ, Schomacker, A, Kjær, KH, Brynjólfsson, S, Jónsson, SA, Korsgaard NJ & Johnson, MD 2016, ‘Glacial geological studies of surge-type glaciers in Iceland – research status and future challenges’, Earth-Science Reviews, vol. 152, pp. 37–69.IngólfssonÓBenediktssonÍÖSchomackerAKjærKHBrynjólfssonSJónssonSAKorsgaardNJJohnsonMD2016‘Glacial geological studies of surge-type glaciers in Iceland – research status and future challenges’Earth-Science Reviews152376910.1016/j.earscirev.2015.11.008Search in Google Scholar
Jiskoot, H, Boyle, P, Murray, T 1998, ‘The incidence of glacier surging in Svalbard: evidence from multivariate statistics’, Computers and Geosciences, vol. 24, no. 4, pp. 389–399.JiskootHBoylePMurrayT1998‘The incidence of glacier surging in Svalbard: evidence from multivariate statistics’Computers and Geosciences24438939910.1016/S0098-3004(98)00033-8Search in Google Scholar
Kabala, C, Chachulski, Ł, Gądek, B, Korabiewski, B, Mętrak, M & Suska-Malawska, M 2021, ‘Soil development and spatial differentiation in a glacial river valley under cold and extremely arid climate of East Pamir Mountains’, Science of the Total Environment, vol. 758, 144–308.KabalaCChachulskiŁGądekBKorabiewskiBMętrakMSuska-MalawskaM2021‘Soil development and spatial differentiation in a glacial river valley under cold and extremely arid climate of East Pamir Mountains’Science of the Total Environment75814430810.1016/j.scitotenv.2020.14430833338793Search in Google Scholar
Katalog Lednikov SSSR (USSR glacier inventory) 1973, vol. 14, no. 3, part 17–18, Gidrometeoizdat, Leningrad.Katalog Lednikov SSSR (USSR glacier inventory)1973143part 17–18, Gidrometeoizdat, Leningrad.Search in Google Scholar
Kayumov, A 2010, Glacier resources of Tajikistan in conditions of the climate change, State Agency for Hydrometeorology of Committee for Environmental Protection under the Government of the Republic of Tajikistan, Dushanbe.KayumovA2010Glacier resources of Tajikistan in conditions of the climate changeState Agency for Hydrometeorology of Committee for Environmental Protection under the Government of the Republic of TajikistanDushanbeSearch in Google Scholar
Khromova, TE, Osipova, GB, Tsvetkov, DG, Dyurgerov, MB & Barry, G 2006, ‘Changes in glacier extent in the eastern Pamir, Central Asia, determined from historical data and ASTER imagery’, Remote Sensing of Environment, vol. 102, pp. 24–32.KhromovaTEOsipovaGBTsvetkovDGDyurgerovMBBarryG2006‘Changes in glacier extent in the eastern Pamir, Central Asia, determined from historical data and ASTER imagery’Remote Sensing of Environment102243210.1016/j.rse.2006.01.019Search in Google Scholar
Komatsu, T & Tsukamoto, S 2015, ‘Late Glacial lake-level changes in the Lake Karakul basin (a closed glacierized-basin), eastern Pamirs, Tajikistan’, Quaternary Research, vol. 83, pp. 137–149.KomatsuTTsukamotoS2015‘Late Glacial lake-level changes in the Lake Karakul basin (a closed glacierized-basin), eastern Pamirs, Tajikistan’Quaternary Research8313714910.1016/j.yqres.2014.09.001Search in Google Scholar
Kotlyakov, VM, Osipova, GB & Tsvetkov, DG 2008, ‘Monitoring surging glaciers of the Pamirs, central Asia, from space’, Annals of Glaciology, vol. 48, pp. 125–134.KotlyakovVMOsipovaGBTsvetkovDG2008‘Monitoring surging glaciers of the Pamirs, central Asia, from space’Annals of Glaciology4812513410.3189/172756408784700608Search in Google Scholar
Krüger, J, Kjær, KH & Schomacker, A 2010, ‘Dead-ice environments: a landsystems model for a debris-charged stagnant lowland glacier margin, Kötlujökull’ in The Mýrdalsjökull Ice Cap, Iceland: Glacial Processes, Sediments and Landforms on an Active Volcano, eds A Schomacker, J Krüger & KH Kjær, Elsevier, Amsterdam, pp. 105–126.KrügerJKjærKHSchomackerA2010‘Dead-ice environments: a landsystems model for a debris-charged stagnant lowland glacier margin, Kötlujökull’inThe Mýrdalsjökull Ice Cap, Iceland: Glacial Processes, Sediments and Landforms on an Active VolcanoedsSchomackerAKrügerJKjærKHElsevierAmsterdam10512610.1016/S1571-0866(09)01307-4Search in Google Scholar
Lambrecht, A, Mayer, C, Aizen, V, Floricioiu, D & Surazakov, A 2014, ‘The evolution of Fedchenko glacier in the Pamir, Tajikistan, during the past eight decades’, Journal of Glaciology, vol. 60, no. 220, pp. 233–244.LambrechtAMayerCAizenVFloricioiuDSurazakovA2014‘The evolution of Fedchenko glacier in the Pamir, Tajikistan, during the past eight decades’Journal of Glaciology6022023324410.3189/2014JoG13J110Search in Google Scholar
Li, Y, Li, Y, Chen, Y & Lu, X 2016, ‘Presumed Little Ice Age glacial extent in the eastern Tian Shan, China’, Journal of Maps, vol. 12, no. 1, pp. 71–78.LiYLiYChenYLuX2016‘Presumed Little Ice Age glacial extent in the eastern Tian Shan, China’Journal of Maps121717810.1080/17445647.2016.1158595Search in Google Scholar
Lozev, WP 1968, ‘Geologicheskoye stroyeniye’ (Geological structure) in Atlas Tadzhikskoy SSR, ed IK Narzikulov, Dushanbe-Moscow, pp. 14–15.LozevWP1968‘Geologicheskoye stroyeniye’ (Geological structure)inAtlas Tadzhikskoy SSRedNarzikulovIKDushanbe-Moscow1415Search in Google Scholar
Lv, M, Guo, H, Lu, X, Liu, G, Yan, S, Ruan, Z, Ding, Y & Quincey, DJ 2019, ‘Characterizing the behaviour of surge- and non-surge-type glaciers in the Kingata Mountains, eastern Pamir, from 1999 to 2016’, Cryosphere, vol. 13, pp. 219–236.LvMGuoHLuXLiuGYanSRuanZDingYQuinceyDJ2019‘Characterizing the behaviour of surge- and non-surge-type glaciers in the Kingata Mountains, eastern Pamir, from 1999 to 2016’Cryosphere1321923610.5194/tc-13-219-2019Search in Google Scholar
Mansell, D, Luckman, A and Murray, T 2012, ‘Dynamics of tidewater surge-type glaciers in northwest Svalbard’, Journal of Glaciology, vol. 58, no. 207, pp. 110–118.MansellDLuckmanAMurrayT2012‘Dynamics of tidewater surge-type glaciers in northwest Svalbard’Journal of Glaciology5820711011810.3189/2012JoG11J058Search in Google Scholar
Mayer, C, Lambrecht, A, Belo, M, Smiraglia, C & Diolaiuti, G 2006, ‘Glaciological characteristics of the ablation zone of Baltoro glacier, Karakoram, Pakistan’, Annals of Glaciology, vol. 43, pp. 123–131.MayerCLambrechtABeloMSmiragliaCDiolaiutiG2006‘Glaciological characteristics of the ablation zone of Baltoro glacier, Karakoram, Pakistan’Annals of Glaciology4312313110.3189/172756406781812087Search in Google Scholar
Meier, MF & Post, A 1969, ‘What are glacier surges?’, Canadian Journal of Earth Sciences, vol. 6, no. 4, pp. 807–817.MeierMFPostA1969‘What are glacier surges?’Canadian Journal of Earth Sciences6480781710.1139/e69-081Search in Google Scholar
Mętrak, M, Szwarczewski, P, Bińka, P, Rojan, E, Karasiński, J, Górecki, G & Suska-Malawska, M 2019, ‘Late Holocene development of Lake Rangkul (Eastern Pamir, Tajikistan) and its response to regional climatic changes’, Palaeogeography, Palaeoclimatology, Palaeoecology, vol. 521, pp. 99–113.MętrakMSzwarczewskiPBińkaPRojanEKarasińskiJGóreckiGSuska-MalawskaM2019‘Late Holocene development of Lake Rangkul (Eastern Pamir, Tajikistan) and its response to regional climatic changes’Palaeogeography, Palaeoclimatology, Palaeoecology5219911310.1016/j.palaeo.2019.02.013Search in Google Scholar
Microsoft Bing, Maps. Available from: <https://www.bing.com/maps>. [20. 04. 2022]Microsoft Bing, MapsAvailable from: <https://www.bing.com/maps>. [20. 04. 2022]Search in Google Scholar
Mischke, S, Rajabov, I, Mustaeva, N, Zhang, C, Herzschuh, U, Boomer, I, Brown, ET, Anderson, N, Myrbo, A, Ito, E & Schudack, ME 2010, ‘Modern hydrology and late Holocene history of Lake Karakul, eastern Pamirs (Tajikistan): a reconnaissance study’, Palaeogeography, Palaeoclimatology, Palaeoecology, vol. 289, pp. 10–24.MischkeSRajabovIMustaevaNZhangCHerzschuhUBoomerIBrownETAndersonNMyrboAItoESchudackME2010‘Modern hydrology and late Holocene history of Lake Karakul, eastern Pamirs (Tajikistan): a reconnaissance study’Palaeogeography, Palaeoclimatology, Palaeoecology289102410.1016/j.palaeo.2010.02.004Search in Google Scholar
Oliva, M & Fritz, M 2018, ‘Permafrost degradation on a warmer Earth: Challenges and perspectives’, Current Opinion in Environmental Science and Health, vol. 5, pp. 14–18.OlivaMFritzM2018‘Permafrost degradation on a warmer Earth: Challenges and perspectives’Current Opinion in Environmental Science and Health5141810.1016/j.coesh.2018.03.007Search in Google Scholar
Osipova, GB & Tsvetkov, DG 2002, ‘Lednik Oktyabr'sky, Vostochny Pamir, v 1945–1990. Ocobennocti evolyutsii v ctadii vosstanovlenya b podvizhki. Mater’ (Oktyabr'skiy Glacier, Eastern Pamirs, in 1945–1990. Development trends in recovery and surge stages), Materialy Glyatsiologičeskih Issledovani, vol. 93, pp. 25–34.OsipovaGBTsvetkovDG2002‘Lednik Oktyabr'sky, Vostochny Pamir, v 1945–1990. Ocobennocti evolyutsii v ctadii vosstanovlenya b podvizhki. Mater’ (Oktyabr'skiy Glacier, Eastern Pamirs, in 1945–1990. Development trends in recovery and surge stages)Materialy Glyatsiologičeskih Issledovani932534Search in Google Scholar
Osipova, GB, Tsvetkov, DG, Schetinnikov, AS & Rudak M 1998, ‘Katalog pul'siruyushikh lednikov Pamira’ (Inventory of surging glaciers of the Pamirs), Materialy Glyatsiologičeskih Issledovanij, vol. 85, pp. 3–136.OsipovaGBTsvetkovDGSchetinnikovASRudakM1998‘Katalog pul'siruyushikh lednikov Pamira’ (Inventory of surging glaciers of the Pamirs)Materialy Glyatsiologičeskih Issledovanij853136Search in Google Scholar
Paul, F 2015, ‘Revealing glacier flow and surge dynamics from animated satellite image sequences: examples from the Karakoram’, Cryosphere, vol. 9, pp. 2201–2214.PaulF2015‘Revealing glacier flow and surge dynamics from animated satellite image sequences: examples from the Karakoram’Cryosphere92201221410.5194/tc-9-2201-2015Search in Google Scholar
Raymond, CF 1987, ‘How do glaciers surge? A review’, Journal of Geophysical Research, vol. 92, no. B9, pp. 9121–9134.RaymondCF1987‘How do glaciers surge? A review’Journal of Geophysical Research92B99121913410.1029/JB092iB09p09121Search in Google Scholar
Savoskul, OS 1997, ‘Modern and Little Ice Age glaciers in “humid” and “arid” areas of the Tien Shan, Central Asia: two different patterns of fluctuation’, Annals of Glaciology, vol. 24, pp. 142–147.SavoskulOS1997‘Modern and Little Ice Age glaciers in “humid” and “arid” areas of the Tien Shan, Central Asia: two different patterns of fluctuation’Annals of Glaciology2414214710.3189/S0260305500012076Search in Google Scholar
Schomacker, A & Benediktsson, ÍÖ 2018, ‘Supraglacial environments’ in Past Glacial Environments, eds J Menzies & JJM van der Meer, Elsevier, pp. 159–179.SchomackerABenediktssonÍÖ2018‘Supraglacial environments’inPast Glacial EnvironmentsedsMenziesJvan der MeerJJMElsevier15917910.1016/B978-0-08-100524-8.00005-1Search in Google Scholar
Serrano, E & Martín-Moreno, R 2018, ‘Surge glaciers during the Little Ice Age in the Pyrenees’, Cuadernos de Investigacion Geografica, vol. 44, no. 1, pp. 213–244.SerranoEMartín-MorenoR2018‘Surge glaciers during the Little Ice Age in the Pyrenees’Cuadernos de Investigacion Geografica44121324410.18172/cig.3399Search in Google Scholar
Sevestre, H & Benn, DI 2015, ‘Climatic and geometric controls on the global distribution of surge-type glaciers: implications for a unifying model of surging’, Journal of Glaciology, vol. 61, no. 228, pp. 646–662.SevestreHBennDI2015‘Climatic and geometric controls on the global distribution of surge-type glaciers: implications for a unifying model of surging’Journal of Glaciology6122864666210.3189/2015JoG14J136Search in Google Scholar
Strecker, MR, Frisch, W, Hamburger, MW, Ratschbacher, L, Semiletkin, S, Zamoruyev, A & Sturchio, N 1995, ‘Quaternary deformation in the Eastern Pamirs, Tadzhikistan and Kyrgyzstan’, Tectonics, vol. 14, no. 5, pp. 1061–1079.StreckerMRFrischWHamburgerMWRatschbacherLSemiletkinSZamoruyevASturchioN1995‘Quaternary deformation in the Eastern Pamirs, Tadzhikistan and Kyrgyzstan’Tectonics1451061107910.1029/95TC00927Search in Google Scholar
Tielidze, LG, Bolch, T, Wheate, RD, Kutuzov, SS, Lavrentiev, II & Zemp, M 2020, ‘Supra-glacial debris cover changes in the Greater Caucasus from 1986 to 2014’, Cryosphere, vol. 14, pp. 585–598.TielidzeLGBolchTWheateRDKutuzovSSLavrentievIIZempM2020‘Supra-glacial debris cover changes in the Greater Caucasus from 1986 to 2014’Cryosphere1458559810.5194/tc-14-585-2020Search in Google Scholar
Trofimov, AK 1968, ‘Paleogeografiya: drevneye oledeneniye’ (Paleogeography: former glaciation) in Atlas Tadzhikskoy SSR, ed. IK Narzikulov, Dushanbe-Moscow, pp. 2–8.TrofimovAK1968‘Paleogeografiya: drevneye oledeneniye’ (Paleogeography: former glaciation)inAtlas Tadzhikskoy SSRed.NarzikulovIKDushanbe-Moscow28Search in Google Scholar
USGS Earth Explorer, Landsat satellite scenes. Available from: <https://earthexplorer.usgs.gov>. [20. 04. 2022].USGS Earth Explorer, Landsat satellite scenesAvailable from: <https://earthexplorer.usgs.gov>. [20. 04. 2022].Search in Google Scholar
Yao, X, Dai, F, Javed, I, Li, L, Wang Z, Ling, S & Zhou, Z 2016, ‘A close observation to a typical continental valley glacier surge in Northeastern Pamir’, Cryosphere Discussion, pp. 1–16.YaoXDaiFJavedILiLWangZLingSZhouZ2016‘A close observation to a typical continental valley glacier surge in Northeastern Pamir’Cryosphere Discussion11610.5194/tc-2015-235Search in Google Scholar
Zaharov, SA, Kuhtikov, MM, Leven, EY & Vinnichenko, GP 1968, ‘Tektonika’ (Tectonics) in Atlas Tadzhikskoy SSR, ed. IK Narzikulov, Dushanbe-Moscow, pp. 18–19.ZaharovSAKuhtikovMMLevenEYVinnichenkoGP1968‘Tektonika’ (Tectonics)inAtlas Tadzhikskoy SSRed.NarzikulovIKDushanbe-Moscow1819Search in Google Scholar
Zemp, M, Frey, H, Gärtner-Roer, I, Nussbaumer, SU, Hoelzle, M, Paul, F, Haeberli, W, Denzinger, F, Ahlstrøm, AP, Anderson, B, Bajracharya, S, Baroni, C, Braun, LN, Cáceres, BE, Casassa, G, Cobos, G, Dávila, LR, Delgado Granados, H, Demuth, MN, Espizua, L, Fischer, A, Fujita, K, Gadek, B, Ghazanfar, A, Hagen, JO, Holmlund, P, Karimi, N, Li, Z, Pelto, M, Pitte, P, Popovnin, VV, Portocarrero, CA, Prinz, R, Sangewar, CV, Severskiy, I, Sigurđsson, O, Soruco, A, Usubaliev, R & Vincent, C 2015, ‘Historically unprecedented global glacier changes in the early 21st century’, Journal of Glaciology, vol. 61, no. 228, pp. 745–762.ZempMFreyHGärtner-RoerINussbaumerSUHoelzleMPaulFHaeberliWDenzingerFAhlstrømAPAndersonBBajracharyaSBaroniCBraunLNCáceresBECasassaGCobosGDávilaLRDelgado GranadosHDemuthMNEspizuaLFischerAFujitaKGadekBGhazanfarAHagenJOHolmlundPKarimiNLiZPeltoMPittePPopovninVVPortocarreroCAPrinzRSangewarCVSeverskiyISigurđssonOSorucoAUsubalievRVincentC2015‘Historically unprecedented global glacier changes in the early 21st century’Journal of Glaciology6122874576210.3189/2015JoG15J017Search in Google Scholar