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Reviewed SVALI scientific papers

#73:  Marcer, M., P. Stentoft, E. Bjerre, E. Cimoli, A. A. Bjørk, L. Stenseng and H. Machguth. Three decades of volume change on a small Greenlandic glacier using Ground Penetrating Radar, Structure  from Motion and Aerial Photogrammetry. Arc., Ant. and Alp. Res.

#72: Machguth, H., H. H. Thomsen, A. Weidick, J. Abermann, A. P. Ahlstrøm, M. L. Andersen, S. B. Andersen, A. A. Bjørk, J. E. Box, R. J. Braithwaite, C. E. Bøggild, M. Citterio, P. Clement, W. T. Colgan, R. S. Fausto, K. Gleie, B. Hasholt, B. Hynek, N. T. Knudsen, S. H. Larsen, S. Mernild, J. Oerlemans, H. Oerter, O. B. Olesen, C. J. P. P. Smeets, K. Steffen, M. Stober, S. Sugiyama, D. van As, M. R. van den Broeke and R. S. van de Wal. Greenland surface mass balance observations from the ice sheet ablation area and local glaciers. J. Glaciol.

  -    Greve R., T. Zwinger and Y. Gong. Correspondence: On the pressure dependence of the rate factor in Glen’s flow law. J. Glaciol., 60(220), 397-398, 2014.
doi:10.3189/2014JoG14J019 Published

#70: Magnússon, E., J. M.-C. Belart, F. Pálsson, H. Ágústsson and P. Crochet. Geodetic mass balance record with rigorous uncertainty estimates deduced from aerial photographs and LiDAR data - case study from Drangajökull ice cap, NW-Iceland. Cryosph. Discuss., 9, 4733-4785, 2015.
doi:10.5194/tcd-9-4733-2015 Revision

#69: Andreassen, L. M., M. Huss,  K. Melvold, H. Elvehøy and S. H. Winsvold. Ice thickness measurements and volume estimates for glaciers in Norway. J. Glaciol., 61(228), 763-775, 2015.
doi:10.3189/2015JoG14J161 Published

#68: Einarsson, B., E. Magnússon, M. J. Roberts, F. Pálsson, T. Thorsteinsson and T. Jóhannesson. A spectrum of jökulhlaup dynamics revealed by GPS measurements of glacier surface motion, Ann. Glaciol., 57(72), n/a-n/a, 2016.
doi:10.1017/aog.2016.8 Published

#67: Charalampidis, C., D. van As, W. T. Colgan, R. S. Fausto, M. MacFerrin and H. Machguth. Thermal tracing of retained meltwater in the lower accumulation area of the Southwestern Greenland ice sheet, Ann. Glaciol., 57(72), n/a-n/a, 2016.
doi:10.1017/aog.2016.2 Published  

#66: Lefeuvre, P.-M., T. Zwinger, M. Jackson, O. Gagliardini, G. Lappegard, and J. O. Hagen. Anti-correlated response at the glacier bed explained by load transfer. J. Glaciol.

#65: Pirazzini, R., P. Räisänen, T. Vihma, M. Johansson, and E.-M. Tastula. Measurements and modelling of snow particle size and shortwave infrared albedo over a melting Antarctic ice sheet. Cryosph., 9, 2357-2381, 2015.
doi:10.5194/tc-9-2357-2015 Published

#64: Goelles, T., C. E. Bøggild and R. Greve. Ice sheet mass loss caused by dust and black carbon accumulation. Cryosph., 9, 1845-1856, 2015.
doi:10.5194/tc-9-1845-2015 Published

#63: Charalampidis, C. and D. van As. Observed melt-season snowpack evolution on the Greenland ice sheet. Geol. Surv. Denmark Greenland Bull., 33, 65-68, 2015

#62: Machguth, H., M. MacFerrin, D. van As, J. E. Box, C. Charalampidis, W. T. Colgan, R. S. Fausto, H. A. J. Meijer, E. Mosley-Thompson and R. S. W. van de Wal. Greenland meltwater storage in firn limited by near-surface ice formation. Nat. Clim. Change, 6, n/a-n/a, 2016. 
doi:10.1038/nclimate2899 Published 

#61: Engelhardt M., T. V. Schuler and L. M. Andreassen. Sensitivities of glacier mass balance and runoff to climate perturbations in Norway. Ann. Glaciol., 56(70), 79-88, 2015.
doi:10.3189/2015AoG70A004 Published

#60: Goelles, T. and C. E. Bøggild. Albedo reduction caused by black carbon and dust accumulation: a quantitive model applied to the western margin of the Greenland ice sheet. Cryosph. Discuss., 9, 1345–1381, 2015.
doi:10.5194/tcd-9-1345-2015 Discussion Paper

#59: Hannesdóttir, H., G. Aðalgeirsdóttir, T. Jóhannesson, S. Guðmundsson, P. Crochet, H. Ágústsson, F. Pálsson, E. Magnússon , S. Þ. Sigurðsson and H. Björnsson. Downscaled precipitation applied in modelling of mass balance and the evolution of southeast Vatnajökull, Iceland. J. Glaciol,61(228), 799-813, 2015.
doi:10.3189/2015JoG15J024 Published

#58: Ahlstrøm, A. P. (ed.), M. L. Andersen, S. B. Andersen, D. van As, W. Boot, J. E. Box, M. Braun, P. Christoffersen, M. Citterio, W. Colgan, T. Dunse, B. Einarsson, U. Falk, R. S. Fausto, X. Fettweis, R. Finkelnburg, D. Floricioiu, R. Forsberg, A. Grinsted, J. O. Hagen, A. Hubbard, I. Joughin, A. Kääb, N. B. Karlsson, S. A. Khan, S. J. Kohler, L. Kolondra, S. Kristensen, H. Machguth, E. Magnússon, J. P. Merryman Boncori, A. Messerli, M. Möller, J. C. Moore, T. Nagler, F. M. Nick, J. Oerlemans, M. A. G. den Ouden, F. Pálsson, R. Pettersson, V. A. Pohjola, C. H. Reijmer, M. J. Roberts, M. Schäfer, T. Schellenberger, D. Scherer, C. Schneider, T. V. Schuler, H. Skourup, L. Stenseng, T. Strozzi and R. S. W. van de Wal. Interim report of dynamic changes of land ice in the Arctic and North-Atlantic region. Report from the Nordic centre of excellence SVALI, December 2014.

#57: Schellenberger, T., T. Dunse, A. Kääb, J. Kohler and C. H. Reijmer. Surface speed and frontal ablation of Kronebreen and Kongsbreen, NW Svalbard, from SAR offset tracking. Cryosph., 9, 2339-2355, 2015.
doi:10.5194/tc-9-2339-2015 Published

#56: Schäfer, M., I. Välisuo, T. Vihma, and R. Pirazzini. Analysis of factors controlling inter-annual variability and trends in surface melt over Greenland. Cryosph. Discuss.

#55: van Pelt, W. and J. Kohler. Modelling the long-term mass balance and firn evolution of glaciers around Kongsfjorden, Svalbard. J. Glaciol., 61(228), 731-744, 2015.
doi:10.3189/2015JoG14J223 Published

#54: Dunse, T., T. SchellenbergerJ. O. Hagen, A. KääbT. V. Schuler, and C. H. Reijmer. Glacier-surge mechanisms promoted by a hydro-thermodynamic feedback to summer melt. Cryosph., 9, 197-215, 2015.
doi:10.5194/tc-9-197-2015 Published

#53: Larsen, S. H., S. A. Khan, A. P. Ahlstrøm, C. S. Hvidberg, M. Willis and S. B. Andersen. Increased mass loss and asynchronous behavior of marine terminating outlet glaciers at Upernavik Isstrøm, NW Greenland. J. Geophys. Res. Earth Surf.

#52: Charalampidis, C., D. van As, J. E. Box, M. R. van den Broeke, W. T. Colgan, S. H. Doyle, A. L. Hubbard, M. MacFerrin, H. Machguth and C. J. P. P. Smeets. Changing surface-atmosphere energy exchange and refreezing capacity of the lower accumulation area, West Greenland. Cryosph., 9, 2163–2181, 2015.
doi:10.5194/tc-9-2163-2015 Published  

#51: Schäfer, M., M. Möller, T. Zwinger and J. C. Moore. Dynamic modelling of future glacier changes: mass-balance/elevation feedback in projections for the Vestfonna ice cap, Nordaustlandet, Svalbard. J. Glaciol., 61, 1121-1136, 2015.
doi:10.3189/2015JoG14J184 Published

#50: Berthier, E., C. Vincent, E. Magnússon, Á. Þ. Gunnlaugsson, P. Pitte, E. Le Meur, M. Masiokas, L. Ruiz, F. Pálsson, J. M.-C. Belart, and P. Wagnon. Glacier topography and elevation changes from Pléiades very high resolution stereo images. Cryosph., 8, 2275-2291, 2014.
doi:10.5194/tc-8-2275-2014 Published

#49: Messerli, A., N. B. Karlsson and A. Grinsted. Brief Communication: 2014 velocity and flux for 5 major Greenland outlet glaciers using ImGRAFT and Landsat-8. Cryosph. Discuss., 8, 6235-6250, 2014.
doi:10.5194/tcd-8-6235-2014 Discussion Paper

#48: Aðalgeirsdóttir, G., A. Aschwanden, C. Khroulev, F. Boberg, R. H. Mottram, P. Lucas-Picher and J. H. Christensen. Role of model initialization for projections of 21st-century Greenland ice sheet mass loss. J. Glaciol., 60(222), 782-794, 2014.
doi:10.3189/2014JoG13J202 Published

#47: Nilsson, J., P. Vallelonga, S. B. Simonsen, L. S. Sørensen, R. Forsberg, D. Dahl-Jensen, M. Hirabayashi, K. Goto-Azuma, C. S. Hvidberg, H. A. Kjær and K. Satow. Greenland 2012 melt event effects on CryoSat-2 radar altimetry. Geophys. Res. Lett., 42, 3919–3926, 2015.
doi:10.1002/2015GL063296 Published

#46: Messerli, A. and A. Grinsted. Image georectification and feature tracking toolbox: ImGRAFT. Geosci. Instrum. Method. Data Syst., 4, 23-34, 2015.
doi:10.5194/gi-4-23-2015 Published

#45: Andersen, M. L., L. Stenseng, H. Skourup, W. Colgan, S. A. Khan, S. S. Kristensen, S. B. Andersen, J. E. Box, A. P. Ahlstrøm, X. Fettweis and R. Forsberg. Basin-scale partitioning of Greenland ice sheet mass balance components (2007-2011). Earth Plan. Sc. Lett., 409, 89-95, 2015.
doi:10.1016/j.epsl.2014.10.015 Published

#44: Gong, Y., S. L. Cornford and A. J. Payne. Modeling the response of Lambert Glacier–Amery Ice Shelf system, East Antarctic, to uncertain climate forcing over the 21st and 22nd centuries. Cryosph., 8, 1057–1068, 2014. 
doi:10.5194/tc-8-1057-2014 Published

#43: Winsvold, S. H., L. M. Andreassen and C. Kienholz. Glacier area and length changes in Norway from repeat inventories. Cryosph., 8, 1885-1903, 2014.
doi:10.5194/tc-8-1885-2014 Published

#42: Hannesdóttir, H., H. Björnsson, F. Pálsson, G. Aðalgeirsdóttir and S. Guðmundsson. Changes in the southeast Vatnajökull ice cap, Iceland, between ∼ 1890 and 2010. Cryosph., 9, 565-585, 2015.
doi:10.5194/tc-9-565-2015 Published

#41: Lefeuvre, P.-M., M. Jackson, G. Lappegard and J. O. Hagen. Interannual variability of glacier basal pressure from a 20 year long record. Ann. Glaciol., 56(70), 33-44, 2015.
 doi:10.3189/2015AoG70A019 Published

#40: Machguth, H. and M. Huss. The length of the world’s glaciers – a new approach for the global calculation of center lines. Cryosph., 8, 1741-1755, 2014.
doi:10.5194/tc-8-1741-2014 Published

#39: Langen, P. L., R. H. Mottram, J. H. Christensen, F. Boberg, C. B. Rodehacke, M. Stendel, D. van As, A. P. Ahlstrøm, J. Mortensen, S. Rysgaard, D. Petersen, K. H. Svendsen, G. Aðalgeirsdóttir and J. Cappelen. Quantifying energy and mass fluxes controlling Godthåbsfjord freshwater input in a 5-km simulation (1991–2012). J. Clim., 28, 3694–3713, 2015.
doi:10.1175/JCLI-D-14-00271.1 Published

#38: Andersen, M. L., S. B. Andersen, L. Stenseng, H. Skourup, W. Colgan, S. S. Kristensen, J. P. Merryman Boncori, A. P. Ahlstrøm, X. Fettweis, R. Forsberg, M. Citterio, J. E. Box, D. van As and R. S. Fausto. Mass loss from an ice-sheet drainage basin in West Greenland. Geol. Surv. Denmark Greenland Bull., 31, 87-90, 2014.

#37: Hannesdóttir, H., H. Björnsson, F. Pálsson, G. Aðalgeirsdóttir and S. Guðmundsson. Variations of SE-Vatnajökull ice cap 1650-1890 and reconstruction of the Little Ice Age extent. Geogr. Ann. A, Phys. Geogr., 97(2), 237-264, 2015.
doi:10.1111/geoa.12064 Published  

#36: Seitola, T. and H. Järvinen. Decadal climate variability and potential predictability in the Nordic region: a review. Bor. Env. Res., 19, 387-407, 2014.

#35: Sun, S., S. L. Cornford, Yan Liu and J. C. Moore. Dynamic response of Antarctic ice shelves to bedrock uncertainty. Cryosph., 8, 1561–1576, 2014.
doi:10.5194/tc-8-1561-2014 Published

#34: Giesen, R. H., L. M. Andreassen, M. R. van den Broeke, and J. Oerlemans. Surface energy balance in the ablation zone of Langfjordjøkelen, an arctic, maritime glacier in northern Norway. J. Glaciol., 60(219), 57-70(14), 2014. 
doi:10.3189/2014JoG13J063 Published

#33: Åström J. A., D. Vallot, M. Schäfer, E.-Z. Welty, S. O'Neel, T. C. Bartholomaus, Yan Liu, T. I. Riikilä, T. Zwinger, J. Timonen and J. C. Moore. Termini of calving glaciers as self-organized critical systems, Nat. Geosci., 7, 874-878, 2014.
doi:10.1038/ngeo2290 Published  

#32: Østby, T. I., T. V. Schuler and S. Westermann. Severe cloud contamination of MODIS Land Surface Temperatures over an Arctic ice cap, Svalbard. Rem. Sens. Env., 142, 95-102, 2014. 
doi:10.1016/j.rse.2013.11.005 Published

#31: Gladstone R., M. Schäfer, T. Zwinger, J. C. Moore, Y. Gong, and T. Strozzi. Importance of basal processes in simulations of a surging Svalbard outlet glacier. Cryosph., 8, 1393–1405, 2014.
doi:10.5194/tc-8-1393-2014 Published    

#30: Nilsson, J., L. S. Sørensen, V. R. Barletta and R. Forsberg. Mass changes in Arctic ice caps and glaciers: implications of regionalizing elevation changes. Cryosph., 9, 139-150, 2015. 
doi:10.5194/tc-9-139-2015 Published

#29: Engelhardt, M., T. V. Schuler and L. M. Andreassen. Contribution of snow and glacier melt to the discharge for highly glacierised catchments in Norway. Hydrol. Earth Syst. Sci., 18, 511-523, 2014. 
doi:10.5194/hess-18-511-2014 Published

#28: Nuth, C., J. Kohler, M. König, A. von Deschwanden, J. O. Hagen, A. Kääb, G. Moholdt and R. Pettersson. Decadal changes from a multi-temporal glacier inventory of Svalbard. Cryosph., 7, 1603–1621, 2013.
doi:10.5194/tc-7-1603-2013 Published

#27: Cook, S., I. C. Rutt, T. Murray, A. Luckman, N. Selmes, A. Goldsack, and T. Zwinger. Modelling environmental influences on calving at Helheim Glacier in eastern Greenland. Cryosph., 8, 827–841, 2014. 
doi:10.5194/tc-8-827-2014 Published

#26: van Pelt, W. J. J., R. Pettersson, V. A. Pohjola, S. Marchenko, B. Claremar and J. Oerlemans. Inverse estimation of snow accumulation along a radar transect on Nordenskiöldbreen, Svalbard. J. Geophys. Res. Earth Surf., 119, 816-835. 
doi:10.1002/2013JF003040 Published

#25: Schäfer, M., F. Gillet-Chaulet, R. Gladstone, R. Pettersson, V. A. Pohjola, T. Strozzi, and T. Zwinger. Assessment of heat sources on the control of fast flow of Vestfonna Ice Cap, Svalbard. Cryosph., 8, 1951–1973, 2014.
doi:10.5194/tc-8-1951-2014 Published

#24: Korhonen, N., A. Venäläinen, H. Seppä and H. Järvinen. Statistical downscaling of a climate simulation of the last glacial cycle: temperature and precipitation over Northern Europe. Clim. Past, 10, 1489–1500, 2014.
doi:10.5194/cp-10-1489-2014 Published

#23: Gagliardini, O., T. Zwinger, F. Gillet-Chaulet, G. Durand, L. Favier, B. de Fleurian, R. Greve, M. Malinen, C. Martín, P. Råback, J. Ruokolainen, M. Sacchettini, M. Schäfer, H. Seddik and J. Thies. Capabilities and performance of Elmer/Ice, a new-generation ice sheet model. Geosci. Model Dev., 6, 1299-1318, 2013. 
doi:10.5194/gmd-6-1299-2013 Published

#22: Åström, J. A., T. I. Riikilä , T. Tallinen, T. Zwinger, D. Benn, J. C. Moore, and J. Timonen. A particle based simulation model for glacier dynamics. Cryosph., 7, 1591–1602, 2013.
doi:10.5194/tc-7-1591-2013 Published

#21: Björnsson, H., F. Pálsson, S. Guðmundsson, E. Magnússon, G. Aðalgeirsdóttir, T. Jóhannesson, E. Berthier, O. Sigurðsson and T. Thorsteinsson. Contribution of Icelandic ice caps to sea level rise: trends and variability since the Little Ice Age. Geophys. Res. Lett., 40, 1–5, 2013. 
doi:10.1002/grl.50278 Published

  -    Hulth, J., C. Rolstad Denby, and R. Hock. Estimating glacier snow accumulation from backward calculation of melt and snowline tracking. Ann. Glaciol., 54(62), 1-7(7), 2013.
doi:10.3189/2013AoG62A083 Published

#19: Välisuo, I., T. Vihma, and J. C. King. Surface energy budget on Larsen and Wilkins ice shelves in the Antarctic Peninsula: results based on reanalyses in 1989–2010. Cryosph., 8, 1519–1538, 2014.
doi:10.5194/tc-8-1519-2014 Published  

#18: Schuler, T. V., T. Dunse, T. Østby and J. O. Hagen. Meteorological conditions at an Arctic ice cap - eight years of automatic weather station data from Austfonna, Svalbard. Int. J. Climatol., 34, 2047–2058, 2014.
doi:10.1002/joc.3821 Published

   -   Guðmundsson, S., H. Hannesdóttir and H. Björnsson. Post-Little Ice Age (1891-2011 AD) volume loss of Kotárjökull glacier, southeastern Iceland, as established from historical photography. Jökull, 62, 97-110, 2012. 

#16: Magnússon, E., F. Pálsson, H. Björnsson and S, Guðmundsson. Removing the ice cap of Öræfajökull central volcano, SE-Iceland: Mapping and interpretation of bedrock topography, ice volumes, subglacial troughs and implications for hazards assessments. Jökull, 62, 131-150, 2012. 

#15: Pálsson, F., Sv. Guðmundsson, H. Björnsson, E. Berthier, E. Magnússon, Sn. Guðmundsson and H. H. Haraldsson. Mass and volume changes of Langjökull ice cap, Iceland, ~1890 to 2009, deduced from old maps, satellite images and in situ mass balance measurements. Jökull, 62, 81-96, 2012. 

#14: Andersen, S. A. (ed), L. M. Andreassen, H. Björnsson, M. Citterio, R. Forsberg, S. Guðmundsson, J. O. Hagen, S. M. Hvidegaard, P. Jansson, T. Johanneson, J. Kohler, H. Machguth, F. Pálsson, and L. S. Sørensen. Interim report on current changes of land ice in the Arctic/N-Atlantic region. Report from the Nordic centre of excellence SVALI, October 2012. 

  -    van Pelt, W. J. J., J. Oerlemans, C. H. Reijmer, R. Pettersson, V. A. Pohjola, E. Isaksson, and D. Divine. An iterative inverse method to estimate basal topography and initialize ice flow models. Cryosph., 7, 987–1006, 2013.
doi:10.5194/tc-7-987-2013 Published

#12: Sato, T., T. Shiraiwa, R. Greve, H. Seddik, E. Edelmann, and T. Zwinger. Accumulation reconstruction and water isotope analysis for 1735–1997 of an ice core from the Ushkovsky volcano, Kamchatka, and their relationships to North Pacific climate records. Clim. Past, 10, 393-404, 2014.
doi:10.5194/cp-10-393-2014 Published

#11: Grinsted, A. An estimate of global glacier volume. Cryosph., 7, 141–151, 2013.
doi:10.5194/tc-7-141-2013 Published

#10: Moore, J. C., A. Grinsted, T. Zwinger and S. Jevrejeva. Semi-empirical and process-based global sea level projections. Rev. Geophys., 51, 484–522, 2013.
doi:10.1002/rog.20015 Published

#9: Jóhannesson, T., H. Björnsson, E. Magnússon, S. Guðmundsson, F. Pálsson, O. Sigurðsson, T. Thorsteinsson and E. Berthier. Ice-volume changes, bias estimation of mass-balance measurements and changes in subglacial lakes derived by lidar mapping of the surface of Icelandic glaciers. Ann. Glaciol., 54(63), 63-74, 2013.
doi:10.3189/2013AoG63A422 Published

#8: Engelhardt, M., T. V. Schuler and L. M. Andreassen. Glacier mass balance of Norway from 1961–2010 calculated by a temperature-index model. Ann. Glaciol., 63, 32-40, 2013. 
doi:10.3189/2013AoG63A245 Published

#7: Østby, T. I., T. V. Schuler, J. O. Hagen, R. Hock, and C. H. Reijmer. Parameter uncertainty, refreezing and surface energy balance modelling at Austfonna ice cap, Svalbard, 2004-2008. Ann. Glaciol., 54(63), 229-240, 2013.
doi:10.3189/2013AoG63A280 Published

#6: Claremar, B., F. Obleitner, C. H. Reijmer, V. Pohjola, A. Waxegård, F. Karner and A. Rutgersson. Applying a meso-scale atmospheric model to Svalbard glaciers. Adv. Meteorol., 321649, 22pp, 2012.
doi:10.1155/2012/321649 Published

#5: Schäfer, M., T. Zwinger, P. Christoffersen, F. Gillet-Chaulet, K. Laakso, R. Pettersson, V. A. Pohjola, T. Strozzi, and J. C. Moore. Sensitivity of basal conditions in an inverse model: Vestfonna Ice-Cap, Nordaustlandet/Svalbard. Cryosph., 6, 771–783, 2012.
doi:10.5194/tc-6-771-2012 Published

#4: Einarsson, B., T. Jóhannesson, T. Thorsteinsson and E. Gaidos. Flood discharge and subglacial water storage during a rapidly-rising jökulhlaup from the western Skaftá cauldron, Vatnajökull, Iceland. J. Glaciol.

#3: Jóhannesson, T., H. Björnsson, F. Pálsson, O. Sigurðsson and T. Thorsteinsson. LiDAR mapping of the Snæfellsjökull ice cap, western Iceland. Jökull, 61, 19–32, 2011. 

#2: Pettersson, R., P. Christoffersen, J. A. Dowdeswell, V. A. Pohjola, A. Hubbard and T. Strozzi. Ice thickness and basal conditions of Vestfonna Ice Cap, eastern Svalbard. Geogr. Ann. A, Phys. Geogr., 93(4), 311–322, 2011.
doi: 10.1111/j.1468-0459.2011.00438.x. Published

#1: Pohjola, V. A., P. Christoffersen, L. Kolondra, J. C. Moore, R. Pettersson, M. Schäfer, T. Strozzi and C. H. Reijmer. Spatial distribution and change in the surface ice-velocity field of Vestfonna Ice Cap, Nordaustlandet, Svalbard, 1995–2010 using geodetic and satellite interferometry data. Geogr. Ann. A, Phys. Geogr., 93(4), 323–335, 2011.
doi: 10.1111/j.1468-0459.2011.00441.x. Published

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