References

In review

  • Booth, A., Mercer, A., Clark, R., Murray, T., Jansson, P. & Axtell, C., 2013. A comparison of seismic and radar methods to establish the thickness and density of glacier snow cover. Annals of Glaciology
  • Dahlke, H. E., Lyon, S. W., Karlin, T., Rosqvist, G., & P. Jansson. Isotopic investigation of runoff generation in a glacierized catchment. Hydrological Processes.
  • Gusmeroli, A., Murray, T., Clark, R.A., Kulessa, B., & Jansson, P., Vertical seismic profiling of glaciers: Appraising multi-phase mixing models. Annals of Glaciology.
  • Gusmeroli, A., Murray, T., Clark, R.A., Kulessa, B. & Jansson, P., 2013. Vertical seismic profiling of glaciers: appraising multi-phase mixing models. Annals of Glaciology.

New publications since 2007 (41)

  • Aschwanden, A. & Blatter, H., 2009. Mathematical modeling and numerical simulation of polythermal glaciers, Journal of Geophysical Research, 114, F01027, doi:10.1029/2008JF001028
  • Bahr, D.B. and Radi´c, V., 2012. Significant contribution to total mass from very small glaciers. The Cryosphere. 6, 763-770. Doi: 10.5194/tc-6-763-2012.
  • Brugger, K.A., 2007. The non-synchronous response of Rabots Glaciär and Storglaciären, northern Sweden, to recent climate change: a comparative study. Annals of Glaciology, 46, 275–282.
  • Christiansen, H.H., Etzelmüller, B., Isaksen, K., Juliusen, H., Farbrot, H., Humlum, O., Johansson, M., Ingeman-Nielsen, T., Kristensen, L., Hjort, J., Holmlund, P., Sannel, A.B.K., Sigsgard, C., Åkerman, H.J., Foged, N., Blikra, L.H., Pernosky, M.A. & Ødegard, R.S., 2010. The thermal state of permafrost in the nordic area during the International Polar Year 2007–2009. Permafrost and Periglacial Processes. 21, 156–181. doi:10.1002/ppp.687.
  • Cogley, J.G., Arendt, A.A., Bauder, A., Braithwaite, R.J., Hock, R., Jansson, P., Kaser, G., Möller, M., Nicholson, L., Rasmussen, L.A., & Zemp, M., 2011, Glossary of Glacier Mass Balance and Related Terms. IHP-VII Technical Documents in Hydrology No. 86, IACS Contribution No. 2, UNESCO-IHP, Paris.
  • Dahlke, H.E., and Lyon, S.W.. 2013. Early melt season snowpack isotopic evolution in the Tarfala valley, northern Sweden. Annals of Glaciology. 54 (62), 149–156 . doi:10.3189/2013AoG62A232
  • Dahlke, H.E., Lyon, S.W., Stedinger, J.R., Rosqvist, G., & Jansson, P., 2012. Contrasting trends in floods for two sub-arctic catchments in northern Sweden – does glacier presence matter? Hydrology and Earth Systems Science, 16, 2123-2141, doi:10.5194/hess-16-2123-2012.
  • Dobiński, W., Grabiec, M. and Gądek, B., 2011. Spatial relationship in interaction between glacier and permafrost in different mountainous environments of high and mid latitudes, based on GPR research. Geological Quarterly, 55 (4), 375–388.
  • Goodfellow, B.W., 2007. Relict non-glacial surfaces in formerly glaciated landscapes. Earth Science Reviews. 80, 47–73.
  • Goodfellow, B.W., Stroeven, A.P., Hättestrand, C., Kleman, J., & Jansson, K.N., 2008. Deciphering a non-glacial/glacial landscape mosaic in the northern Swedish mountains. Geomorphology, 93: 213-232.
  • Goodfellow, B.W., O. Fredin, M.-H. Derron & A.P. Stroeven, 2009: Weathering processes and Quaternary origin of an alpine blockfield in Arctic Sweden. Boreas, 38: 379-398.
  • Gusmeroli, A., Murray, T., Jansson, P., Pettersson, R., & Aschwanden, A., 2010. Vertical distribution of water within the polythermal glacier Storglaciären, Sweden. Journal of Geophysical Research F, doi:10.1029/2009JF001539.
  • Gusmeroli, A., Clark, R.A., Murray, T., Booth, A.D., Kulessa, B., & Barrett, B.E., 2010. Instruments and Methods. Seismic wave attenuation in the uppermost glacier ice of Storglaciären, Sweden. Journal of Glaciology, 56 (196), 249-256.
  • Gusmeroli, A., Jansson, P., Pettersson, R., & Murray, T., 2012. Twenty years of cold surface layer thinning at Storglaciären, sub-Arctic Sweden, 1989–2009. Journal of Glaciology, 58 (207), 3–10.
  • Hock, R., Kootstra, D., & Reijmer, C., 2007. Deriving glacier mass balance from accumulation area ratio on Storglaciären, Sweden. IAHS Publication 318, 163–170.
  • Hock, R., Radić, V., & de Woul, M. 2007. Climate sensitivity of Storglaciären – An intercomparison of mass balance models using ERA-40 reanalysis and regional climate model data. Annals of Glaciology, 46. 342–348.
  • Hulth, J., Rolstad Denby, C. and Hock, R., 2013. Estimating glacier snow accumulation from backward calculation of melt and snowline tracking. Annals of Glaciology, 54 (62), xxx–xxx. doi: 10.3189/2013AoG62A083
  • Ingvander, S., Rosqvist, G., Svensson, J. & Dahlke, H., 2013. Seasonal and inter-annual variability of elemental carbon in the snowpack of Storglaciären, Northen Sweden. Annals of Glaciology. 54 (63), 50–58. doi: 10.3189/2013AoG62A229.
  • Ingvander, S., Brown, I., Jansson, P., Holmlund, P., Johansson, C. & Rosqvist, G., 2013. Particle size sampling and object-oriented image analysis for field investigations of snow particle size, shape and distribution. Arctic Antarctic and Alpine Research, 45 (3), 330–341. doi:10.1657/1938-4246-45.3.330
  • Isaksen, K., Sollid, J.L., Holmlund, P., & Harris, C., 2007. Recent warming of mountain permafrost in Svalbard and Scandinavia. Journal of Geophysical Research. 112, F02S04, doi:10.1029/2006JF000522.
  • Jansson, P. & Pettersson, R., 2007. Spatial and temporal characteristics of a long mass balance record, Storglaciären, Sweden. Arctic, Antarctic and Alpine Research, 39 (3). doi:10.1657/1523-0430(06-041)[jansson]2.0.co;2
  • Jansson, P., Linderholm, H.W., Pettersson, R., Karlin, T. & Mörth, C.-M., 2007. Assessing the possibility to couple chemical signals in winter snow on Storglaciären to atmospheric climatology. Annals of Glaciology 46, 335–341.
  • Koblet, T., Gärtner-Roer, I., Zemp, M., Jansson, P., Thee, P., Haeberli, W., & Homlund, P., 2010. Reanalysis of multi-temporal aerial images of Storglaciären, Sweden (1959-1999) – Part 1: Determination of length, area and volume changes. The Cryosphere. 4, 345–357. [Open Access journal]
  • Konya, K., Hock, R., & Naruse, R., 2007. Meteorological observations and energy balance at Storglaciären, northern Sweden. IAHS Publication, 318, 186–194.
  • Linderholm, H.W. & Jansson, P., 2007. Reconstruction of Storglaciären glacier mass balance from 1500 AD using tree-ring data. Annals of Glaciology, 46. 261–267.
  • Linderholm, H.W., Jansson, P. & Chen, D., 2007. A high-resolution reconstruction of Storglaciären mass balance back to 1780/81 using tree-ring data and circulation indices. Quaternary Research, 67 (1), 12–20. doi:10.1016/j.ypres.2006.08.005.
  • Marklund, P., 2011. Alpin permafrost i Kebnekaisefjällen: Modellering med logistisk regression och BTS-data. Institutionen för Geovetenskaper, Uppsala universitet. Självständigt arbete Nr 22.
  • Meier, M.F., Dyurgerov, M.B., Rick, U.K., O’Neel, S., Pfeffer, W.T., Anderson, R.S., Anderson, S.P., Glazovsky, A.F., 2007. Glaciers Dominate Eustatic Sea-Level Rise in the 21st Century. Science, 317 (5841) 1064–1067. 10.1126/science.1143906
  • Mingxing Xu, Ming Yang, Jiancheng Kang & Jiawen Ren, 2012. Comparative studies of glacier mass balance and their climatic implications in Svalbard, Northern Scandinavia, and southern Norway. Environmental Earth Science. doi: 10.1007/s12665-012-1585-3.
  • Moore, P.L., Iverson, N.R., & Cohen, D., 2010. Conditions for thrust faulting in a glacier. Journal of Geophysical Research, 115, F2, F02005 doi:10.1029/2009JF001307.
  • Moore, P.L, Iverson, N.R., Brugger, K.A., Cohen, D., Hooyer, T.S., & Jansson, P., 2011. Effect of a cold margin on ice flow at the terminus of Storglaciären, Sweden: implications for sediment transport. Journal of Glaciology, 57 (201), 77–87.
  • Moore. P.L., Iverson, N.R., Uno, K.T., Dettinger, M.P., Brugger, K.A., & Jansson, P., 2012. Entrainment and emplacement of englacial debris bands near the margin of Storglaciären, Sweden. Boreas. doi: 10.1111/j.1502-3885.201200274.x
  • Ohmura, A., 2010. Mass balance of glaciers and ice sheets during the observational period and climate change. Journal of Geography, 119 (3), 466–481.
  • Pettersson, R., Jansson, P., Blatter, H. & Huwald, H., 2007. Spatial pattern and stability of the cold surface layer of Storglaciären, Sweden. Journal of Glaciology, 53 (180): 99–109.
  • Radić, V. & Hock, R., 2011. Regionally differentiated contribution of mountain glaciers and ice caps to future sea-level rise. Nature Geoscience, 4 (2), 91–94. doi:10.1038/NGEO1052.
  • Rippin, D.M., Carrivick, J.L., & Williams, C., 2011. Evidence towards a thermal lag in the response of Kårsaglaciären, northern Sweden, to climate change. Journal of Glaciology, 57 (205), 895–903.
  • Reijmer, C.H., & Hock, R., 2008. Internal accumulation on Storglaciären, Sweden, in a multi-layer snow model coupled to a distributed energy- and mass-balance model. Journal of Glaciology, 54 (184): 61–72.
  • Sedlar, J., & Hock, R., 2009. Testing longwave radiation parametrizations under clear and overcast skies at Storglaciären, Sweden. The Cryosphere. 3, 75–84.
  • Sicart, J.E., Hock, R. and Six, D., 2008. Glacier melt, air temperature, and energy balance in different climates: The Bolivian Tropics, the French Alps, and northern Sweden. J. Geophys.Res. 113, D24113, doi: 10.1029/2008JD010406.
  • Sörlin, S., 2009. Narratives and counter-narratives of climate change: North Atlantic glaciology and meteorology, c.1930–1955. Journal of Historical Geography. 35 (2), 237–255.
  • Uno, K.T., 2009. A geochemical study of the origin of debris bands at Storglaciären, Sweden. MS diss. Department of Geology and Geophysics, University of Utah, USA
  • Wilson, S.D. and Nilsson, C., 2009. Arctic alpine vegetation change over 20 years. Global Biological Change, 15, 1676–1684. doi:10.1111/j.1365-2486.2009.01896.x.
  • Zemp, M., Jansson, P., Holmlund, P., Gärtner-Roer, I., Koblet, T., Thee, P., & Haeberli, W., 2010. Reanalysis of multi-temporal aerial images of Storglaciären, Sweden (1959–1999) – Part 2: Comparison of glaciological and volumetric mass balances. The Cryosphere. 4, 333–343.
  • Zemp, M., Thibert, E., Huss, M., Stumm, D., Rolstad Denby, C., Nuth, C., Nussbaumer, S.U., Moholdt, G., Mercer, A., Mayer, C., Joerg, P.C., Jansson, P., Hynek, B., Fischer, A., Escher-Vetter, H., Elvehøy, H., & Andreassen, L.M., 2013. Reanalysing glacier mass balance measurement series. The Cryosphere, 7, 1227--1245, doi:10.5194/tc-7-1227-2013

Complete list of peer-reviewed papers

  • *Ackert, R., 1984. Ice-cored lateral moraines in Tarfala Valley, Swedish Lappland. Geografiska Annaler: Series A, Physical Geography, 66 (1–2), 79–88.
  • *Ahlmann, H. W:son., 1948. Glaciological Research on the North Atlantic Coasts. The Royal Geographical Society Research series, 1: 83 p.
  • *Ahlmann, H. W:son., 1949. De glaciologiska undersökningarna i Kebnekajse 1946-49. Svensk geografisk årsbok 1949. 25: 106–127.
  • *Ahlmann, H. W:son., 1951. Scientific investigations in the Kebnekajse Massif, Swedish Lappland. I. General outline of the investigations in 1946-51. Geografiska Annaler, 33 (1–2): 90–94.
  • *Ahlmann, H. W:son., 1953. Glacier Variations and Climatic Fluctuations. Bowman Memorial Lectures, series three. The American Geographical Society, New York, 51p.
  • *Ahlmann, H. W:son. & Droessler E. G., 1949. Glacier ice crystal measurements at Kebnekajse, Sweden. Journal of Glaciology, 1 (5): 268–274.
  • Albrecht, O., Jansson, P., & Blatter, H., 2000. Modelling glacier response to measured mass balance forcing. Annals of Glaciology, 31: 91–96.
  • Åmark,M., 1980. Glacial flutes at Isfallsglaciären, Tarfala, Swedish Lapland. GFF. 102 (3): 251–259.
  • *Andreasson, P.-G., & Gee, D. G., 1989. Bedrock geology and morphology of the Tarfala area, Kebnekaise Mts., Swedish Caledonides. Geografiska Annaler: Series A, Physical Geography, 71 (3–4): 235–239.
  • Aschwanden, A. & Blatter, H., 2005. Meltwater production due to strain heating in Storglaciären, Sweden, Journal of Geophysical Research, 110, F04024, doi:10.1029/2005JF000328
  • Aschwanden, A. & Blatter, H., 2009. Mathematical modeling and numerical simulation of polythermal glaciers, Journal of Geophysical Research, 114, F01027, doi:10.1029/2008JF001028
  • Bahr, D.B. and Radi´c, V., 2012. Significant contribution to total mass from very small glaciers. The Cryosphere. 6, 763-770. Doi: 10.5194/tc-6-763-2012.
  • Bergström, E., 1955. Studies of the variations in size of Swedish glaciers in recent centuries. -UGGI: IASH Assemblee Generale de Rome 1954 (4): 356–366.
  • *Björnsson, H., 1981. Radio-echo sounding maps of Storglaciären, Isfallsglaciären and Rabots Glaciär, northern Sweden. Geografiska Annaler: Series A, Physical Geography, 63 (3–4): 225–231.
  • Bodin, A., 1993. Physical properties of the Kårsa glacier, Swedish Lapland. Naturgeografiska institutionen vid Stockholms universitet, Forskningsrapport nr ,(ISSN 0346-7406), p.
  • Braithwaite, R.J., 1984. Can the mass balance of a glacier be estimated from its equilibrium-line altitude? Short notes. Journal of Glaciology, 30 (106): 364–368.
  • Braithwaite, R.J. & Zhang, Y., 1999. Modelling changes in glacier mass balance that may occur as a result of climate changes. Geografiska Annaler: Series A, Physical Geography, 81 (4): 489–496.
  • Braithwaite, R.J. & Zhang, Y., 1999. Relationships between interannual variability of glacier mass balance and climate. Journal of Glaciology, 45 (151): 456–462.
  • *Brand, G., Pohjola, V., & Hooke, R.LeB., 1987. Evidence for a till layer beneath Storglaciären, Sweden, based on electrical resistivity measurements: Journal of Glaciology, 33 (115): 311–314.
  • *Bronge, C., 1985. Hydrologisk verksamhet i Tarfala, 1974–1982. Dept. Physical Geography, University of Stockholm Forskningsrapport 62, (ISSN 0346-7406), 81 p.
  • Bronge, C., 1996. The excavation of the Storglaciären trough during Quaternary. Geografiska Annaler: Series A, Physical Geography, 78 (2–3): 163–170.
  • *Brugger, K.A. 1997. Predicted response of Storglaciären, Sweden, to climatic warming. Annals of Glaciology, 24, 217–222.
  • Brugger, K.A., 2007. The non-synchronous response of Rabots Glaciär and Storglaciären, northern Sweden, to recent climate change: a comparative study. Annals of Glaciology, 46, 275—282.
  • Brugger, K.A., Refsnider, K.A. and Whitehill. M.F. 2005. Variation in glacier length and ice volume of Rabots Glaciär, Sweden, in response to climate change, 1910–2003. Annals of Glaciology, 42, 180–188.
  • *Brzozowski, J., & Hooke, R.LeB., 1981. Seasonal variations in surface velocity of the lower part of Storglaciären, Kebnekaise, Sweden. Geografiska Annaler: Series A, Physical Geography, 63 (3–4): 233–240.
  • *Cewe, T., & Norrbin, J., 1965. Tarfalajåkka; Ladtjojåkka och Ladtjojaure. Vattenföring, slamtransport och sedimentation. Ymer (1–2): 85–111.
  • Chow, W.T. (Ed.), 1971: Advances in Hydroscience. Vol.7-1971. Academic press, New York and London. 81-167.
  • Christiansen, H.H., Etzelmüller, B., Isaksen, K., Juliusen, H., Farbrot, H., Humlum, O., Johansson, M., Ingeman-Nielsen, T., Kristensen, L., Hjort, J., Holmlund, P., Sannel, A.B.K., Sigsgard, C., Åkerman, H.J., Foged, N., Blikra, L.H., Pernosky, M.A. & Ødegard, R.S., 2010. The thermal state of permafrost in the nordic area during the International Polar Year 2007–2009. Permafrost and Periglacial Processes. 21, 156–181. doi:10.1002/ppp.687.
  • Clark, P.U., 1995. News and Views. Fast glacier over slow beds. Science 267 (5195): 43–44.
  • *Clarke, G.K.C., 2005. Subglacial Processes. Annual Review of Earth and Planetary Sciences, 33, 247–76.
  • Cogley, J.G., Arendt, A.A., Bauder, A., Braithwaite, R.J., Hock, R., Jansson, P., Kaser, G., Möller, M., Nicholson, L., Rasmussen, L.A., & Zemp, M., 2010, Glossary of Glacier Mass Balance and Related Terms. IHP-VII Technical Documents in Hydrology No. 86, IACS Contribution No. 2, UNESCO-IHP, Paris.
  • Criado Hernández, C., 1995. La estacion cientifica del Valle de Tarfala (Laponia sueca). Alisios, Canary Journal of Geography, (3): 108–113.
  • Cutler, P., 1998. Modelling the evolution of subglacial tunnels due to varying water input. Journal of Glaciology, 44 (148): 485–497.
  • Dahlke, H.E., and Lyon, S.W.. 2013. Early melt season snowpack isotopic evolution in the Tarfala valley, northern Sweden. Ann. Glaciol. 54 (62), 149–156 . doi:10.3189/2013AoG62A232
  • Dahlke, H.E., Lyon, S.W., Stedinger, J.R., Rosqvist, G., & Jansson, P., 2012. Contrasting trends in floods for two sub-arctic catchments in northern Sweden – does glacier presence matter? Hydrology and Earth Systems Science, 16, 2123-2141, doi:10.5194/hess-16-2123-2012.
  • Danfors, E., Fleetwood, Å., & Schytt, V., 1962. Application of the neutron scattering method for measuring snow density. Geografiska Annaler, 44 (3–4): 409–411.
  • Dobiński, W., Grabiec, M. and Gądek, B., 2011. Spatial relationship in interaction between glacier and permafrost in different mountainous environments of high and mid latitudes, based on GPR research. Geological Quarterly, 55 (4), 375–388.
  • *Dowdeswell, J.A., Hagen, J.O., Björnsson, H., Glazovsky, A.F., Harrison, W.D., Holmlund, P., Jania, J., Koerner, R.M., Lefauconnier, B., Ommanney, C.S.L. & Thomas, R.H., 1997. The mass balance of circum-artic glaciers and recent climate change. Quaternary Research, 48: 1–14.
  • Dyurgerov, M. & Meier, M., 1999. Analysis of winter and summer glacier mass balances. Geografiska Annaler: Series A, Physical Geography, 81 (4): 541–554.
  • Eckerbom, E. & Palosuo, E., 1963. A study of ice crystals at Storglaciären, Kebnekajse. In: Kingery, W. D. (ed.): Ice and snow, properties, processes, and applications. Proc. Conf. Mass. Inst. Tech., M.I.T. Press. 56–62.
  • Eklund, A. & Hart, J.K., 1996. Glaciotektonik deformation within a flute from the Isfallsglaciären, Sweden. Journal of Quaternary Science, 11(4) 299–310.
  • *Ekman, S.-R., 1961. Thermal Drilling in Isfallsglaciären, Kebnekajse. Geografiska Annaler, 43 (3–4): 422–423.
  • Eriksson, M.G., Björnsson, H., Herzfeld, U.C., & Holmlund, P., 1993. The bottom topography of Storglaciären. A new map based on old and new ice depth measurements, analyzed with geostatistical methods. Forskningsrapportserien STOU–NG 95, (ISSN 0346–7406), 48 p.
  • Etienne, J.L., Glasser, N.F. & Hambrey, M.J., 2003. Proglacial sediment-landform associations of a polythermal glacier: Storglaciaren, Northern Sweden. Geografiska Annaler: Series A, Physical Geography, 85 (2), 149–164.
  • Fabel, D., Stroeven, A.P., Harbor, J., Kleman, J., Elmore, D., Fink, D., 2002. Landscape preservation under Fennoscandian ice sheets determined from in situ produced 10Be and 26Al. Earth and Planetary Science Letters, 201, 397–406.
  • Fabel D., Fink, D., Fredin, O., Harbor, J., Land, M., Stroeven, A.P., 2006. Exposure ages from relict lateral moraines overridden by the Fennoscandian ice sheet. Quaternary Research, 65, 136–146.
  • Fischer, U.H., Iverson, N.R., Hanson, B., Hooke, R.LeB. & Jansson, P., 1998. Estimation of hydraulic properties of subglacial till from ploughmeter measurements. Journal of Glaciology, 44 (148): 517–522.
  • Fleetwood, Å., & Thomas, J., 1990. Weathering and ion flow in Tarfala drainage basin, Lapland, N. Sweden. Geografiska Annaler: Series A, Physical Geography, 72 (1): 125–127.
  • *Fountain, A.G. & Walder. J.S., 1998. Water flow through temperate glaciers. Reviews of Geophysics, 36, 3: 299–328.
  • Fountain, A.G., Jacobel, R.W., Schlichting, R. & Jansson, P., 2005. Fractures as the main pathways of water flow in temperate glaciers. Nature. 433 (7026): 618–621.
  • Fountain, A.G., Jansson, P. Kaser, G. & Dyurgerov, M., 1999. Summary of the workshop on methods of mass balance measurements and modelling, Tarfala, Sweden August 10–12, 1998. Geografiska Annaler: Series A, Physical Geography, 81 (4): 461–465.
  • Fountain, A.G., Schlichting, R., Jansson, P. & Jacobel, R.W., 2005. Observations of englacial flow passages – a fracture dominated system. Annals of Glaciology, 40, 25–30.
  • *Fredin, O. & Hättestrand, C. 2002. Relict lateral moraines in northern Sweden - evidence for an early mountain centered Fennoscandian ice sheet. Sedimentary Geology, 149: 145–156.
  • Fuenzalida, H. & Holmlund, P., 1995. Anomalous responses to 20th century climatic changes in the Darwin Cordilliera, southern Chile. Journal of Glaciology, 41 (139): 465–473.
  • *Glasser, N.F., Hambrey, M.J., Etienne, J.L., Jansson, P. & Pettersson, R., 2003. The origin and significance of debris-charged ridges at the surface of Storglaciären, northern Sweden. Geografiska Annaler: Series A, Physical Geography, 85 (2), 127–147.
  • Goodfellow, B.W., 2007. Relict non-glacial surfaces in formerly glaciated landscapes. Earth Science Reviews, 80, 47–73.
  • Goodfellow, B.W., Stroeven, A.P., Hättestrand, C., Kleman, J., & Jansson, K.N., 2008. Deciphering a non-glacial/glacial landscape mosaic in the northern Swedish mountains. Geomorphology, 93: 213-232.
  • Grainger, M.E. & Lister, H., 1966: Wind speed, stability and eddy viscosity over melting ice surfaces. Journal of Glaciology, 6 (43): 101–127.
  • Grove, J.M., 1988. The Little Ice Age , Methuen & Co, London. 498 p.
  • *Grudd, H., 1990. Small glaciers as sensitive indicators of climatic fluctuations. Geografiska Annaler: Series A, Physical Geography, 72 (1): 119–123.
  • *Grudd, H. & Schneider, T., 1996. Air temperature at Tarfala Research Station 1946-1995. Geografiska Annaler: Series A, Physical Geography, 78 (2–3): 115–120.
  • Grust, K. & Hock, R., 2004. Glaciers. In: W. Käss (ed.): Tracing Techniques in Geohydrology. Balkema Publishers, Rotterdam. Text book chapter (German edition), in press.
  • Gusmeroli, A., Jansson, P., Pettersson, R., & Murray, T., 2012. Twenty years of cold surface layer thinning at Storglaciären, sub-Arctic Sweden, 1989–2009. Journal of Glaciology, 58 (207), 3–10.
  • Gusmeroli, A., Clark, R.A., Murray, T., Booth, A.D., Kulessa, B., & Barrett, B.E., 2010. Instruments and Methods. Seismic wave attenuation in the uppermost glacier ice of Storglaciären, Sweden. Journal of Glaciology, 56 (196), 249-256.
  • Günter, R., & Widlewski, D., 1986. Die korrelation verschiedener Klimaelemente mit dem Massenhaus­halt alpiner und Skandinavischer Gletscher. Z. Gletscherkd Glazialgeol. 22 (2): 125–147.
  • Haeberli, W., 1985. Fluctuation of Glaciers 1975–1980. A compilation of national reports to “The Permanent Service on the Fluctuations of Glaciers of the IUGG – FAGS/ICSU“, 265 p.
  • Haeberli, W., 1987. Fluctuation of Glaciers 1980–1985. A compilation of national reports to “the Permanent Service on the Fluctuations of Glaciers of the IUGG – FAGS/ICSU“.
  • Haeberli, W., 1993. Fluctuation of Glaciers 1985-1990. A compilation of national reports to “the Permanent Service on the Fluctuations of Glaciers of the IUGG – FAGS/ICSU”, 322 p.
  • Haeberli, W., 1997. Fluctuation of Glaciers 1990-1995. A compilation of national reports to “the Permanent Service on the Fluctuations of Glaciers of the IUGG – FAGS/ICSU”, 296 p.
  • Haeberli, W., Zemp, M., Frauenfelder, R., Hoelzle, M., & Kääb, A., 2005. Fluctuation of Glaciers 1995-2000 (Vol. VIII). A compilation of national reports to “the Permanent Service on the Fluctuations of Glaciers of the IUGG – FAGS/ICSU”, 288 p.
  • Haeberli, W., & Herren, E., 1991. Glacier mass balance bulletin. A contribution to the Global Environment Monitoring System (GEMS) and the International Hydrological Programme. IAHS(ICSI)-UNEP-UNESCO. Bulletin No. 1 (1988–1989), 70 p.
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Doctor of Philosophy dissertations

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  • Bronge, C., 1989. Climatic Aspects of Hydrology and Lake Sediments with Examples from Northern Scandinavia and Antarctica. Naturgeografiska institu­tionen vid Stockholms universitet, Meddelande nr A 241 (ISBN 91-7146-785-8), 166 p.
  • Brugger, K., 1992. A comparative study of the response of Rabots Glaciär and Storglaciären to recent climate change in Sweden, PhD dissertation, Department of Geology and Geophysics, University of Minnesota, USA. 287 p.
  • Creyts, T.T., 2007. A numerical model of glaciohydraulic supercooling. Thermodynamics and sediment entrainment. PhD dissertation, Department of Geophysica and Astronomy, The University of British Columbia.209 p.
  • Cutler, P.M., 1996. Water input and subglacial tunnel evolution at Storglaciären, northern Sweden. PhD dissertation, Department of Geology and Geophysics, University of Minnesota, xx pp.
  • Goodfellow, B., 2008. Relict non-glacial surfaces and autochtonous blockfields in the northern Swedish Mountains. Dissertations from the Department of Physical Geography and Quaternary Geology no. 14. ISSN 1653-7211. ISBN 978-91-7155-620-2. 35 p.
  • Gusmeroli, E., 2010. Polythermal glacier dynamics at Storglaciären, Arctic Sweden, inferred using in situ geophysical techniques. School of the Environment and Society, Swansea University. 239 p.
  • Hauck, C., 2001. Geophysical methods for detecting permafrost in high mountains. PhD dissertation. Mitteilungen 171. VAW, ETH Zürich. Switzerland. 204 p.
  • Hedfors, J., 2004: Force Budget Analysis of Glacier Flow: Ice Dynamical Studies on Storglaciären, Sweden, and Ice Flow Investigations of Outlet Glaciers in Dronning Maud Land, Antarctica. Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology, ISSN 1104-232X ; 963, ISBN: 91-554-5936-6. Acta Universitatis Upsaliensis. 71 p.
  • Hock, R., 1998. Modelling of glacier melt and discharge. PhD dissertation, no 12430, Department of Geography, ETH Zürich, Switzerland. 126 p.
  • Holmlund, P., 1988. Studies of the drainage and the response to climatic change of Mikkaglaciären and Storglaciären. Department of Physical Geography, Stockholm University. Meddelande nr A 220 (ISSN 0348-9264). PhD dissertation (ISBN 91-7146-590-1), 75 p.
  • Isaksen, K., 2001. Past and present ground thermal regime, distribution and creep of permafrost - case studies in Svalbard, Sweden and Norway. Series of dissertations submitted to the Faculty of Mathematics and Natural Sciences, University of Oslo, No 144 (ISSN 1501-7710), Unipub forlag, Oslo, 2001.
  • Jansson, P., 1993. Interpretation of short-term variations in ice dynamics, Storglaciären, Kebnekaise, Northern Sweden. PhD dissertation, Department of Geology and Geophysics University of Minnesota, USA,
  • Jansson, P., 1994. Studies of short-term variations in ice dynamics, Storglaciären, northern Sweden. Department of Physical Geography, Stockholm University, Dissertation series (ISSN 1104-7208), Dissertation no.1 (ISBN 91-7153-247-1).
  • Jonsson, S., 1970. Strukturstudier av subpolär glaciäris från Kebnekaiseområdet. Department of Physical Geography, Stockholm University, Research Report 8, (ISSN 0346-7406). 200 p.
  • Karlén, W., 1976. Holocene climatic fluctuations indicated by glacier and tree-limit variations in northern Sweden. Department of Physical Geography, Stockholm University. Research Report 23, (ISSN 0346-7406).
  • Kennett, M., 1987. An analysis of the scattering of radio waves within a temperate glacier. Department of Physics, University of Bristol. 176 p.
  • Klingbjer, P., 2004. Glaciers and climate in northern Sweden during the 19th and 20th century. Doctoral thesis. Department of Physical Geography and Quaternary Geology. Stockholm University. ISSN 1650-4992. ISBN 91-7265-845-2. 96 p.
  • Kneisel, C., 1999. Permafrost in Gletschervorfeldern: Eine vergleichende Untersuchung in den Ostschweizer Alpen und Nordschweden. PhD dissertation. Trier Geographische Studien 22. University of Trier, Germany. 156 p.
  • Kohler, J.C., 1992. Glacial hydrology of Storglaciären, Northern Sweden. PhD dissertation, Department of Geology and Geophysics, University of Minnesota, USA, 147 p.
  • Matthews, T.K.R., 2013. Glacier-climate interactions: A synoptic approach. PhD diss. Loughborough University, UK. 315 p.
  • Østrem, G., 1965. Studies of Ice-cored moraines. Department of Physical Geography, Stockholm University, Esselte AB, Stockholm 1965.
  • Pettersson, R., 2004. Dynamics of the cold surface layer of polythermal Storglaciären, Sweden. Doctoral thesis. Department of Physical Geography and Quaternary Geology. Stockholm University. ISSN 1650-4992. ISBN 91-7265-907-6. 96 p.
  • Pohjola, V. A., 1993. Ice Dynamical Studies on Storglaciären, Sweden. A study based on TV-video observations of englacial Structures and deformation measurements within boreholes. Institutionen för geovetenskap vid Uppsala universitet. Acta universitatis Upsaliensis, Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science 470 (ISBN 91-554-3173-9).
  • Rapp, A., 1961. Studies of the postglacial development of mountain slopes. Geografiska institutionen vid Uppsala universitet. meddelande nr 159.
  • Richardson-Näslund, C., 2001. Spatial distribution of snow in Antarctica and other glacier studies using ground-penetration radar. Department of Physical Geography and Quaternary Geology, Stockholm University, Dissertation series (ISSN 1650-4992), Dissertation no.18 (ISBN 91-7265-265-9).
  • Schneider, T., 2001. Hydrological processes in firn on Storglaciären, Sweden. Department of Physical Geo­graphy and Quaternary Geology, Stockholm University, Dissertation series (ISSN 1650-4992), Dissertation no.19 (ISBN 91-7265-264-0).
  • Stenberg, M.M., 2000. Spatial variability and temporal changes in snow chemistry, Dronning Maud Land, Antarctica. Department of Physical Geography, Stockholm University, Dissertation series (ISSN 1104-7208, Dissertation no.15 (ISBN 91-7265-075-3).
  • Stenborg, T., 1970. Studies of the hydrological characteristics of glaciers. Meddelanden från Uppsala universitets geografiska institutioner. Ser. A 245.
  • De Woul, M., 2008. Response of glaciers to climate change. Mass balance sensitivity, sea level rise and runoff. Dissertations from the Department of Physical Geography and Quaternary Geology no. 13. ISSN 1653-7211. ISBN 978-91-7155-639-4. 20 p.

Filosofie licentiat avhandlingar,
Master of Science dissertations or equivalent work, after 1980

  • Aschwanden, A., 2004. On the melt water production due to strain heating in Storglaciären, Sweden. Diplomarbeit, Institute for Atmospheric and Climate Science, Swiss federal Institute of Technology (ETH), Zürich, Swittzeland. 42 p.
  • Bronge, C., 1985. Hydrologisk verksamhet i Tarfala, 1974–1982. En analys av bearbetningsmetoder och resultat. Naturgeografiska institutionen, Stockholms universitet. Forkningsrapportserien STOU-NG 62, (ISSN 0346-7406), 81 p
  • Böhm, Lucie, 1999. Die Massenbilanzmessungen an Skandinavischen Gletschern mit besonderer Berücksichtingung des Storglaciären (Schweden). Diplomarbeit, Naturwissenschaftlichen Fakultät, Universität Salzburg, Austria.
  • Dobiński, W., 2011. Wieloletnia zmarzlina w wybranych obszarach Tatr, Gór Skandynawskich i Spitsbergenu w świetle kompleksowych badań geofizycznych i analiz klimatologicznych [Permafrost in selected areas of the Tatra Mountains, the Scandinavian mountains and Spitzbergen in the light of extensive geophysical studies and climatological analyses]. Wydawnictwo Uniwersytetu Śląskiego, Katowice, Poland. 172 p.
  • Goerke, U., 1993. Geologische untersuchungen im südlichen Kebnekaise-gebiet, Tarfala, in den Skandinavischen Kaledoniden, Nordschweden. Diplomarbeit, Department of Geology/Paleontology, Ruprecht-Karls University, Heidelberg, Germany.
  • Hedfors, J., 2002. Investigations of ice flow in polar regions. Licentiate thesis. Department of Earth Sciences. Uppsala University. 97 p.
  • Hock, R., 1991. Aspects of the internal drainage system of Storglaciären, Sweden, as indicated by dye-trace studies. Diplomarbeit at the Department of Physical Geography, University of Freiburg, Germany.
  • Iseppi, M., 2002. Zür dynamik des polythermen Stor­glaciären, Schweden. Diplomarbeit D-PHYS, ETH, Zürich, Switzerland.
  • Jansson, E. P., 1992. Interpretation of short-term variations in ice-dynamics, Storglaciären, Kebnekaise, northern Sweden. NGSU Research Report 89.
  • Klingbjer, P., 2001. Paleoklimat och recenta glaciärer i norra Skandinavien. Licentiatavhandling. Institutionen för naturgeografi och kvartärgeologi. Stockholms universitet. 16 p.
  • Koblet, T., 2009. Volumenänderungen am Storglaciären. Photogrammetrische Auswertung von Luftbildern zur Analyse von glaziologischen Prozessen im Tarfala Tal, Schweden. Diplomarbeit, geographischen Institut der Universität Zürich, Schweiz. 123 p.
  • Krüger, G., 1985. Aktuelle Schneefleckenformung in den Skanden am beispiel des Kebnekaise (67° 55’ N, 10° 32’ E), Nord-Lappland. Diplomarbeit im Fach Geo­graphie der matematisch-naturwissenschaftligen Facharbereiche der Georg August Universität, Göttingen. 55 p.
  • Kuriger, E. M., 2002. Analysis of structural features in the context of measured strain-rates, Storglaciären, Sweden. Diploma Thesis, Institute for Atmospheric and Climate Science. Swiss Federal Institute of Technology (ETH), Zürich, Switzerland. 47 p.
  • Mattes, M., 1998: Modell der temperaturverteilung der kalten schicht eines polythermalen gletschers. Diplomarbeit, Geographisches institut, ETH, Zürich.
  • Noetzli, C., 1996. Modellierung des Abflusses am Storglaciären (Nordschweden) mit einem linearspeichermodell. Diplomarbeit am Geographischen institut der ETH–Zürich. 108 p.
  • Richardson, C., 1996. Klimatinriktade georadarstudier på glaciärer i svenska fjällen och på den antarktiska inlandsisen. Naturgeografiska institutionen, Stockholms universitet.
  • Rosquist, G., 1989. Studies of glacier fluctuations and climatic change. Naturgeografiska institutionen vid Stockholms universitet.
  • Schneeberger, C., 1998. Glacier balance modeling using a GCM. Diploma Thesis, Institute of Geography. Swiss Federal Institute of Tech­nology (ETH), Zürich, Switzerland. 56 p.
  • Schneider, C., 1992. GIS based modelling of the energy balance from Landsat-TM. Diplomarbeit at the Department of Physical Geography, University of Freiburg, Germany.
  • Schneider, T., 1994. Water movement and storage in the firn of Storglaciären, northern Sweden. Diplomarbeit at the Department of Physical Geography, University of Freiburg, Germany. 74 p.
  • Schneider, T., 1998. Hydrological processes in the firn of Storglaciären. Naturgeografiska institutionen vid Stockholms Universitet.
  • Shimko, K. A., 1987. A study on structures in two valley glaciers in northern Sweden by observation and computer modelling. MS diss., Department of Geology and Geophysics, University of Minnesota, USA,
  • Uno, K.T., 2009. A geochemical study of the origin of debris bands at Storglaciären, Sweden. MS diss. Department of Geology and Geophysics, University of Utah, USA
  • Zimmerer, S., 1987. A study of the englacial and subglacial hydrology of Storglaciären, northern Sweden. MS diss., Department of Geology and Geophysics, University of Minnesota, USA,

Undergraduate papers (examensarbeten),
after 1980

  • Bodin, A., 1991. Kårsaglaciärens reträtt under 1900-talet. Naturgeografiska institutionen, Stockholms universitet. 24 p.
  • Bomark, M., och Lundberg, C., 1995. GPS-mätning i Tarfala 1994. Stomnät, metodförsök, amnslutning till RR92. Institutionen för Geodesi och Fotogrammetri, Kungliga Tekniska Högskolan, Stockholm. Examensarbete i Geodesi. 49 p.
  • Burman, H., och Rost. T., 1991. Uppmätning av erosion och sedimentation i Tarfaladalen med analytisk fotogrammetri. Institutionen för fotogrammetri, Kungl Tekniska Högskolan, Stockholm. Examensarbete i fotogrammetri nr 95, 37 p.
  • Calla, P., 1988. Datering av snökärnor borrade på Grönlands inlandsis. Naturgeografiska institutionen, Uppsala universitet. 24 p.
  • Eriksson, M., 1990. Storglaciärens bottentopografi uppmätt genom radioekosondering. Naturgeografiska institutionen, Stockholms universitet. 28 p.
  • Finnander, M.-L., 1989. Vädrets betydelse för snöavsmältningen i Tarfaladalen. Naturgeografiska institutionen, Lunds universitet. 41 p.
  • Fredin, O., 1997. Kortidsvariationer i isrörelse på Storglaciären. Naturgeografiska institutionen, Stockholms universitet. 43 p.
  • Frisk, A. & Ståhl, L., 1985. Kalibrering av mätränna i Tarfala. Kungliga Tekniska Högskolan, 42 p
  • Frödin, S. 2000. Spårämnesförsök i ackumulationsområdet på Storglaciären i en beräkning av smältvattnets flödesväg och hastighet. Naturgeografiska institutionen, Stockholms Universitet. 64 p.
  • Heckels, R., 2012. VSP analysis of Storglaciären, a polythermal glacier in northern Sweden, using forward modelling and waveform separation techniques. School of Earth and Environment, University of Leeds. 100 p.
  • Hedin, M., 1984: Tarfalavagge - former och deglaciation. Naturgeografiska institutionen, Stockholms universitet. 31 p.
  • Hieltala, M., 1989. En utvärdering av areella nederbördsmetoder och mätarplaceringar i Tarfaladalen. Naturgeografiska institutionen, Stockholms universitet. 41 p.
  • Hjelm, D., 2002. A comparison of the glacial hydrology of Storglaciären, northern Sweden, and Haut Glacier D’Arolla, Valais, Switzerland, by means of tracer investigations. Institutionen för naturgeografi och kvartärgeologi och institutionen för kulurgepografi. Examensarbete i geografi G-1.
  • Holmberg, P., 2002. Glacier mass balances in the Arctic and their relation to climate. Department of Meteorology. Stockholm University. 28 p.
  • Holmlund, P., 1982: Glaciärbrunnars genes och morfologi. Naturgeografiska institutionen, Stockholms universitet. 41 p.
  • Hugelius, C.-G., 2005. Dissolved elements of water draining subarctic alpine and mire ecosystems - major patterns and small-scale heterogeneity. Institutionen för systemekologi, Stockholms universitet. Examensarbete 2005:20.
  • Hulth, J., 2006. Ackumulationsmönster på Storglaciären 1966-2005. En statistisk analys av vintermassbalansens spatiala och temporala variationer. Institutionen för naturgeografi och kvartärgeologi, Stockholms universitet. Examensarbete i naturgeografi N-68.
  • Huss, E., 1997. Glaciärfrontsreträtter under 1900-talet - en detaljstudie av Räitaglaciärerna, norra Lappland. Naturgeografiska institutionen, Stockholms universitet. 73 p.
  • Jansson, P., 1986. Variations in surface tilt on Storglaciären, Kebnekaise, Northern Sweden. Naturgeografiska institutionen, Stockholms universitet. 16 p.
  • Jellis, T., 2008. A micro-history of ice: The case of Storglaciären. Department of Geography. Cambridge University, UK. 60 p.
  • Johansson, M., 2000: Climate conditions required for reglaciation of cirques in Rassepautasjtjåkka massif, northern Sweden. Examensarbete vid Naturgeografiska Institutionen, Lunds Universitet. Seminarie­uppsats NR. 66, 47 s.
  • Jonsell, U., 2000. Temporal and spatial variations in albedo on a valley glacier. Naturgeografiska Institution, Uppsala universitet.
  • Jonson, K., 2000. Hydrologisk modellering i ett glacialt präglat avrinningsområde, Tarfaladalen, norra Sverige. Naturgeografiska institutionen, Stockholms universitet.
  • Karlöf, L., 1997. Densitetsutvecklingen i snö och firn på Storglaciären under ett massbalansår kopplat till vädrets förändringar. Naturgeografiska institutionen, Stockholms universitet.
  • Kjessel, R., 1986. Blöta lössnölaviner och slasklaviner. Naturgeografiska institutionen, Stockholms universitet. 56 p.
  • Klingbjer, P., 1996. Jökellopp vid Sälka. Naturgeografiska institutionen, Stockholms universitet. 56 p.
  • Kootstra, D.-S., 2005. Determining glacier mass balance from surrogate variables. A case study on Storglaciären using ELA and AAR. Institutionen för naturgeografi och kvartärgeologi, Stockholms universitet. Examensarbete I naturgeografi N-57.
  • Kramer, Y., 2001. Investigation on surface energy fluxes and their relationship to synoptic weather patterns on Storglaciären, northern Sweden. Naturgeografiska Institution, Uppsala universitet. Examensarbete vid institutionen för geovetenskaper. Nr 5.
  • Lind, L., 1982. Studier av basal isrörelse på Isfallsglaciären, Kebnekaise, 1980-1981. Naturgeografiska institutionen, Lunds universitet. 47 p.
  • Lindstrand, O., 1986. Sediment från Storglaciären, Kebnekaise. En kvalitativ bestämning. Geologiska institutionen, Göteborgs universitet. 35 p.
  • Marklund, P., 2011. Alpin permafrost i Kebnekaisefjällen: Modellering med logistisk regression och BTS-data. Institutionen för Geovetenskaper, Uppsala universitet. Självständigt arbete Nr 22.
  • Mattisson, E., 2003: Modellering av Storglaciärens avrinning och dess reaktion på klimatförändringar. MSc thesis. Royal Institute of Technology (KTH), Land and Water Resources Engineering. TRITA-LWR Master Thesis: 03-24. ISSN 1651-0604X. 26 p.
  • Mercer, A., 2008. Glacier front detection in the context of Sweden and GLIMS. Institutionen för naturgeografi och kvartärgeologi. Stockholms universitet. 60 p.
  • Moberg, A., 1984. Massbalansundersökningar på Björlings glaciär, Kebnekaise, 1983. Naturgeografiska institutionen, Stockholms universitet. 24 p.
  • Neidhart, F., 1997. Die kartierung des Pårteglaciären und die analyse seine veränderung von 1963 bis 1996. Fachhochschule Stuttgart – Hochschule für technik. Germany.
  • Näslund, J.-O., 1989. En studie av proglaciala lakustrina sediment från Valfojaure, norra Sverige. Naturgeografiska institutionen, Stockholms universitet. 14 p.
  • Orbring, L., 2000. Frontvariationer hos isfallsglaciären under 1900-talet. Naturgeografiska institutionen, Stockholms universitet. 67 p
  • Pettersson, R., 1996. Studier av isstrukturer och deras koppling till klimatet på två subpolära glaciärer i Kebnekaise. Naturgeografiska institutionen, Stockholms universitet. 47 p.
  • Pohjola, V., 1986. Mätningar av hastighetsfördelningar, längs en profil i Storglaciären, Kebnekaise, 1985. Naturgeografiska institutionen, Uppsala universitet. 34 p.
  • Richardson, C., 1993. Nischbildningsprocesser – En fältstudie vid Passglaciären, Kebnekaise. Naturgeografiska institutionen, Lunds universitet, Seminarieuppsats nr 30, 58 p.
  • Schneider, T., 1992. Suspended sediment transport in the proglacial stream of Storglaciären, northern Sweden, 1980–1990. Avdelningen för hydrologi, Uppsala universitet, C-uppsats, 27 p.
  • Starck, M, 2006. Simulation of Storglaciären in FEMLAB. MSc thesis. Royal Institute of Technology (KTH) Stockholm, Sweden. TRITA-CSC-E 2006:141. 36 p.
  • Strömberg, K., 1987. Vattentillskott till Storglaciären från snösmältning på omgivande dalsidor. Naturgeografiska institutionen, Göteborgs universitet.
  • Thillman, T., 2003. Geochemical characteristics of proglacial meltwater from Storglaciären, Kebnekaise massif, Sweden. Intitutionen för Geologi och Geokemi, Stockholms Universitet. 32 p.
  • Thorgren, A.-M., 1999. Kartering av jordarter och geomorfologi i Kebnekaisefjällen. Samband analuýserade i en GIS-miljö. Naturgeografiska institutionen, Stockholms universitet.
  • Törnberg, H., 2002. Klastisk lamination av glaciolakustrina ytsediment i Paittasjärvi - Lappland. Institutionen för naturgeografi och kvartärgeologi, Stockholms universitet. Examensarbete i naturgeografi N-28.
  • Troëng, S., 1993. Glacialmorfologiska studier vid Pårtejekna, Sarek – en jämförelse mellan två frontområden. Natur­geo­grafiska institutionen, Stockholms universitet. 27 p.
  • Wennberg, S., 1986. Nederbördsmätning i Tarfaladalen – extremvärden och nederbördsfördelning. Naturgeografiska institutionen, Stockholms universitet. 38 p.
  • de Woul, M., 2003: Glacier response to climate change using a degree-day approach. Undergraduate thesis in Physical Geography, Degree Project N-47, 2003. Stockholm University. 70 p.
  • Östling, M., 1986. Vattenbalansen i Storglaciären. Naturgeografiska institutionen, Stockholms universitet. 31 p.

Compilations of data from Tarfala (Available at the department)

  • Bergman, V., 1988. Sommarnederbörd vid Tarfalastationen och i dess omgivningar 1965–1984. 39 p.
  • Grudd, H., and Jansson, P., 1986. The 1984/85 mass balance of Storglaciären, Kebnekaise, Swedish Lappland. 13p.
  • Årsrapport från Tarfala forskningsstation, 1986. Peter Jansson (ed.), 95 p.
  • Årsrapport 1987. Tarfala Research Station. Gunhild Rosqvist (ed.), 103 p.
  • Årsrapport 1988. Tarfala Research Station. Arjen Stroeven (ed.), 85 p.
  • Årsrapport 1989. Tarfala Research Station. Arjen Stroeven and Mats Eriksson (eds). 76 p.
  • Årsrapport 1990. Tarfala Reserach station. Håkan Grudd and Axel Bodin (eds.), 96 p.
  • Årsrapport 1990–1991. Tarfala research station. Håkan Grudd (ed.), Forskningsrapport STOU-NG 92 73 p.
  • Årsrapport 1991–1992. Tarfala research station. Axel Bodin (ed.), Forskningsrapport STOU-NG 96 64 p.
  • Tarfala Research Station Annual Report, 1992–93. Peter Jansson, (ed.), NGSU Forskningsrapport 100. 50 p.
  • Tarfala Research Station Annual Report, 1993–94. Peter Jansson, (ed.), NGSU Forskningsrapport 102. 66 p.
  • Tarfala Research Station Annual Report, 1994–95. Peter Jansson, (ed.), NGSU Forskningsrapport 103. 66 p.
  • Tarfala Research Station Annual Report, 1995–96. Per Klingbjer, (ed.), NGSU Forskningsrapport 104. 76 p.
  • Tarfala Research Station Annual Report 1996–97. Per Klingbjer, (ed.), NGSU Research report no. 105. 76 p.
  • Tarfala Research Station Annual Report 1997–98. Per Klingbjer, (ed.), NGSU Research report no. 110. 50 p.
  • Tarfala Research Station Annual Report 1998–99. Per Klingbjer, (ed.), NGSU Research report no. 111. 61 p
  • Tarfala Research Station Annual Report 1999–2000 and 2000–2001. Per Klingbjer, (ed.), INK Report no. 1. 92 p.
  • Tarfala Research Station Annual Report 2001–2002. Per Klingbjer, (ed.), INK Report no. 2. 75p.
  • Tarfala Research Station Annual Report 2002–2003. Per Klingbjer, (ed.), INK Report no. 3. 47p.

Publications in popular science

  • Ahlmann, H. W:son, 1952. Kebnekajse. Svenska turist­föreningens årsskrift 1952: 265–288.
  • Holmlund, P., 1986. Glaciärforskning i Tarfala. Till Fjälls, Svenska Fjällklubbens årsskrift, 58: 48–53.
  • Holmlund, P., 1991. Valter Schytt och Tarfalastationen., Till Fjälls, Svenska Fjällklubbens årsskrift, 61–62: 48–53.
  • Holmlund, P., 1992. Glaciärer och forskare i Tarfala under ett halvt sekel. Geologklubben vid Stockholms universitet, Geologklubben 100 år, 61–67.
  • Holmlund, P., 1995. Mikkaglaciären – dess liv, leverne och framtid. Till Fjälls, Svenska Fjällklubbens årsskrift 65–66: 12–27.
  • Holmlund, P., 1995. Vi går mot en ny istid. Populär vetenskap 4: 34–39.
  • Holmlund, P., 1995. Tarfala –Tarfalaverksamheten 50 år. En jubileumsskrift med anledning av Tarfalaverksam­hetens 50-årsjubileum. Stockholms universitet. 48 p.
  • Holmlund, P., 2000. Växthusvärme eller istidskyla På resande fot. 23 forskare skriver om turism och upplevelser. Etour, Sellins förlag. (ISBN 91–7055–253–3). 182–189.
  • Holmlund, P., 2003: Djupfryst – men levande. Hett om kalla fakta. Aktuell forskning om temperaturen, människan och naturen. Vetenskapsrådets årsbok 2003, red. Leif Åberg (ISBN: 91-7307-033-5): 81-90
  • Holmlund, P., 2004: Sydtoppen, Kebnekaise, Fjällklubbsnytt (4): 20-23.
  • Holmlund, P., 2007: Historik kring stationerna i Kebnekaise. Till Fjälls 76-78 (ISSN 0348-5617) : 9-17
  • Holmlund, P. and Jansson, P., 2002. Glaciological Research at Tarfala Research Station. Stockholm University. (ISBN 91–7540–141–X). 48 p.
  • Holmlund, P., and Schytt, A., 1989. Glaciärer – En kunskapsvandring på Storglaciären, Kebnekaise. Småskrift nr. 1 Ajtte museum. Jokkmokk 1989. 32 p.
  • Lundqvist, G., 1944. De svenska fjällens natur. STF:s förlag, Stockholm 1944. 440 p.
  • Lundqvist, G., 1948. De svenska fjällens natur (2:nd edition). STF:s förlag, Stockholm 1948. 502 p.
  • Karlén, W., & Holm, F., 1989. Glaciärerna smälter - istiden kommer ändå. Forskning och framsteg 1989 (4): 4–11.
  • Klingbjer, P., 1998. Återställ Pårteobservatoriet. Fjället, Svenska Fjällklubbens tidskrift 2:31–32.
  • Mannerfelt, C. M:son., 1940. I Kebnekaise. En Naturhistorisk rundvandring. Svenska turistföreningens årsskrift 1940: 312–338.
  • Rosquist, G. & Karlén, W., 1996. Värmeböljor och fimbulvintrar: klimatet de senaste 10 000 åren. Jordens klimat. Naturvetenskapliga forskningsrådets årsbok 1996, 97–105.
  • Rosqvist, G. 2007. Svenska glaciärer på allt snabbare reträtt. Miljöforskning, FORMAS. 29-31.
  • Rosqvist, G. 2008. Tarfala en forskningsplattform i Arktiska Sverige. Schedula Ranae nr 1.
  • Rosqvist, G., Mercer, A, & Jansson, P. 2010. Glaciärvariationer på olika tidsskalor. Till fjälls 4, .
  • Rosqvist, G. & Sörlin, S. 2009. SSAG och polarforskning, Ymer 2009.
  • Schytt, V., 1963. Glaciärernas liv. Svenska turistföreningens årsskrift 1963: 144–158.
  • Schytt, V., 1963. Lapplands glaciärer. Natur i Lappland. Uppsala. 158–171.
  • Schytt, V., 1973. Glaciologiska metoder i klimatforskningens tjänst. Svensk Naturvetenskap 1973. 14 p.
  • Schytt, V., 1981. Det föränderliga klimatet. Här är vi hemma. Rolf Edberg (ed.) Bra Böcker, 1982, 90–105.
  • Stockholms Universitet 2010. Storglaciärens bokslut. En film om Tarfala forskningsstation.

Web-based popular science

  • Jansson, P., 2002. Glaciärer (www.universeum.se/glaciar). Developed in collaboration with the Jason-Project of Universeum, Gothenburg.