Abbelán A., Jaboyedoff M., Oppikofer T., Vilaplana J.M., 2009: Detection of millimetric deformation using a terrestrial laser scanner: experiment and application to a rockfall event. Natural Hazards and Earth System Sciences, 9, 365–372.

Bartoszewski S., 1998: Reżim odpływu rzek Ziemi Wedel Jarlsberga (Spitsbergen). Wydawnictwo UMCS, Lublin, 167 p.

Besl P., McKay N., 1992: A method for registration of 3-D shapes. IEEE Transactions on Pattern Analysis and Machine Intelligence, 14, 239–256.

Bremer M., Sass O., 2012: Combining airborne and terrestrial laser scanning for quantifying erosion and deposition by a debris flow event. Geomorphology, 138, 49–60.

Chen Y., Medioni G., 1991: Object modeling by registration of multiple range images. IEEE International Conference on Robotics and Automation, 3, 2724–2729.

Fischer L., Huggel C., 2008: Methodical design for stability assessments of permafrost-affected high-mountain rock walls. In: Kane, D.L., Hinkel, K.M. (eds.), 9th International Conference on Permafrost, Institute of Northern Engineering, Fairbanks, Alaska, 439–444.

Harasimiuk M., Król T., 1992: The dynamics of morphogenetic and sedimentary processes in the estuary segments of river valleys in the Recherche Fiord (Western Spitsbergen). In: J. Repelewska-

Pękalowa, K. Pękala (eds.), Spitsbergen Geographical Expeditions, Arctic Natural Environment Problems, MCSU Press, Lublin, 59–66.

Kenner R., Philips M., Danioth C., Denier C., Thee P., Zgraggen A., 2011: Investigation of rock and ice loss in a recently deglaciated mountain rock wall using terrestrial laser scanning: Gemsstock, Swiss Alps. Cold Regions Science and Technology, 67, 157–164.

Kociuba W., Janicki G., 2014: Continuous measurements of bedload transport rates in a small glacial river catchment in the summer season (Spitsbergen). Geomorphology, 212, 58–71.

Kociuba W., Kubisz W., Zagórski P., 2014. Use of terrestrial laser scanning (TLS) for monitoring and modelling of geomorphic processes and phenomena at a small and medium spatial scale in Polar environment (Scott River — Spitsbergen). Geomorphology, 212, 84–96.

Kociuba W., Janicki G., 2013a: Fluvial Processes. In: P. Zagórski, M. Harasimiuk, J. Rodzik (eds.), The Geographical Environment of NW Part of Wedel Jarlsberg Land (Spitsbergen, Svalbard), Wydawnictwo UMCS, Lublin, 192–211.

Marsz A.A., Pękala K., Repelewska-Pękalowa J., Styszyńska A., 2011: Zmienność maksymalnej miąższości czynnej warstwy zmarzliny w rejonie Bellsundu (W Spitsbergen) w okresie 1986– 2009. Problemy Klimatologii Polarnej, 21, 133–154.

Oppikofer M., Jaboyedoff T., Blikra L., Derron M.H., Metzger R., 2009: Characterization and monitoring of the Åknes rockslide using terrestrial laser scanning. Natural Hazards and Earth System Sciences, 9, 1003–1019.

Pękala K., Repelewska-Pękalowa J., 2007: Dynamics of active layer of permafrost. Landform Analysis, 5, 168–169.

Rabatel A., Deline P., Jaillet S., Ravanel L., 2008: Rock falls in high-alpine rock walls quantified by terrestrial LiDAR measurements: a case study in the Mont Blanc area. Geophysical Research Letters, 35, L10502.

Teza G., Galgaro A., Zaltron N., Genevois R., 2007: Terrestrial laser scanner to detect landslide displacement fields: a new approach. International Journal of Remote Sensing, 28, 3425–3446.

Teza G., Pesci A., Genevois R., Galgaro A., 2008: Characterization of landslide ground surface kinematics from terrestrial laser scanning and strain field computation. Geomorphology, 97, 424–437.

Travelletti J., Oppikofer T., Delacourt C., Malet J.-P., Jaboyedoff M. 2008: Monitoring landslide displacements during a controlled rain experiment using a long-range terrestrial laser scanning (TLS). International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 37 (B5), 485–490.

Zagórski P., Siwek K., Gluza A., Bartoszewski S., 2008: Changes in the extent and geometry of the Scott Glacier, Spitsbergen. Polish Polar Research, 29, 163–185.