Advanced search
Publication Cover
Cogent Geoscience Volume 4, 2018 - Issue 1
Journal homepage
2,066
Views
3
CrossRef citations to date
0
Altmetric
Research Article

The use of terrestrial laser scanning in monitoring and analyses of erosion phenomena in natural and anthropogenically transformed areas

Paweł B. DąbekInstitute of Environmental Development and Protection, Wrocław University of Environmental and Life Sciences, pl. Grunwaldzki 24a, Wrocław50-363, PolandCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-0203-3116View further author information
ORCID Icon,
Ciechosław PatrzałekDepartment of Landscape Management, Wrocław University of Environmental and Life Sciences, ul. Grunwaldzka 53, Wrocław50-363, Poland
,
Bartłomiej ĆmielewskiInstitute of History of Architecture, Wroclaw University of Technology, LabScan3D, ul. Bolesława Prusa 53/55, Wrocław50-317, Poland
&
Romuald ŻmudaInstitute of Environmental Development and Protection, Wrocław University of Environmental and Life Sciences, pl. Grunwaldzki 24a, Wrocław50-363, Poland
|
Louis-Noel MoresiUniversity of Melbourne, Australia
(Reviewing Editor)
Article: 1437684 | Received 04 Aug 2017, Accepted 04 Feb 2018, Published online: 21 Feb 2018

References

  • Afana, A., Solé-Benet, A., Pérez, J. C., Gilkes, R. J., & Prakongkep, N. (2010, August 1–6). Determination of soil erosion using laser scanners. In Proceedings of the 19th World Congress of Soil Science: Soil solutions for a changing world (pp. 39–42). Brisbane. Published on DVD.
  • Badura, J., Zuchiewicz, W., Górecki, A., Sroka, W., Przybylski, B., & Żyszkowska, M. (2003). Morphotectonic properties of the Sudetic Marginal Fault, SW Poland. Acta Montana A, 24(131), 21–49.
  • Ballesteros-Cánovas, J. A., Corona, C., Stoffel, M., Lucia-Vela, A., & Bodoque, J. M. (2015). Combining terrestrial laser scanning and root exposure to estimate erosion rates. Plant and Soil, 394(1–2), 127–137. doi:10.1007/s11104-015-2516-3
  • Barbarella, M., & Fiani, M. (2013). Monitoring of large landslides by Terrestrial Laser Scanning techniques: Field data collection and processing. European Journal of Remote Sensing, 45, 126–151. doi:10.5721/EuJRS20134608
  • Barbarella, M., Fiani, M., & Lugli, A. (2015). Landslide monitoring using multitemporal terrestrial laser scanning for ground displacement analysis. Geomatics, Natural Hazards and Risk, 6(5–7), 398–418. doi:10.1080/19475705.2013.863808
  • Benavides-Solorio, J. D. D., & MacDonald, L. H. (2005). Measurement and prediction of post-fire erosion at the hillslope scale, Colorado Front Range. International Journal of Wildland Fire, 14(4), 457–474. doi:10.1071/WF05042
  • Black, T. A., & Luce, C. H. (2013). Measuring water and sediment discharge from a road plot with a settling basin and tipping bucket (Gen. Tech. Rep. RMRS-GTR-287, 38 pp.). Fort Collins, CO: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station.10.2737/RMRS-GTR-287
  • Brodowska, P. (2012). Comparison of TIN active model and prediction of linear algorithms for terrain points segmentation. Archiwum Fotogrametrii, Kartografii i Teledetekcji, 24, 63–71 (in Polish).
  • Burley, J., Evans, J., & Youngquist, J. A. (Eds.). (2004). Encyclopedia of forest sciences (2061 pp). Cambridge, MA: Academic Press.
  • Chang, M. (2003). Forest hydrology: An introduction to water and forests (p. 373). Boca Raton, FL: CRC Press LLC.
  • Chaplot, V., Darboux, F., Bourennane, H., Leguédois, S., Silvera, N., & Phachomphon, K. (2006). Accuracy of interpolation techniques for the derivation of digital elevation models in relation to landform types and data density. Geomorphology, 77(1–2), 126–141. doi:10.1016/j.geomorph.2005.12.010
  • Chorowska, M., & Radlicz, K. (1994). Revision of the age of the Lower Carboniferous deposits of the northern part of the Góry Bardzkie (Sudetes). Geological Quarterly, 38(2), 249–288.
  • Chorowska, M., & Wajsprych, B. (1995). Góry Bardzkie Mts. Unit. In: The Carboniferous System in Poland. Prace Pafstwowego Instytutu Geologicznego, 148, 137–139.
  • Coppa, U., Guarnieri, A., Pirotti, F., Tarolli, P., & Vettore, A. (2013). Comparing data acquisition methodologies for DTM production. International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives, 40(5W3), 59–62. doi:10.5194/isprsarchives-XL-5-W3-59-2013
  • Croke, J., Hairsine, P., & Fogarty, P. (2001). Soil recovery from track construction and harvesting changes in surface infiltration, erosion and delivery rates with time. Forest Ecology and Management, 143, 3–12. doi:10.1016/S0378-1127(00)00500-4
  • Cwojdziński, S., & Pacuła, J. (2009). Objaśnienia do arkusza Ząbkowice Śląskie (869) Szczegółowej mapy geologicznej Polski. Warszawa: Narodowe Archiwum Geologiczne (in Polish).
  • Czamara, W. (1992). Prognoza erozji powierzchniowej w zlewniach zbiorników wodnych zlokalizowanych na przedgórzu sudeckim. Zeszyty Naukowe Akademii Rolniczej w Krakowie, 271, 79–89 (in Polish).
  • Dąbek, P., Żmuda, R., Ćmielewski, B., & Szczepański, J. (2014). Analysis of water erosion processes using terrestrial laser scanning. Acta Geodynamica et Geomaterialia, 11(1, 173), 45–52. doi:10.13168/AGG.2013.0054
  • Denora, D., Romano, L., & Cecaro, G. (2013). Terrestrial laser scanning for the Montaguto landslide (Southern Italy). In C. Margottini, P. Canuti, & K. Sassa (Eds.), Landslide science and practice (Vol. 2, pp. 33–38). doi:10.1007/978-3-642-31445-2_4
  • Eltner, A., Mulsow, C., & Maas, H. G. (2013). Quantitative measurement of soil erosion from tls and uav data. ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XL-1/W2(2), 119–124.10.5194/isprsarchives-XL-1-W2-119-2013
  • Finckh, L. (1932). Erlaeuterungen zur geologischen Karte von Preussen und benachbarten deutschen Laendern 1:25 000. Blatt Frankenstein. Preussische Geologische Landesanstalt, 343.
  • Guzzetti, F., Mondini, A. C., Cardinali, M., Fiorucci, F., Santangelo, M., & Chang, K.-T. (2012). Landslide inventory maps: New tools for an old problem. Earth-Science Reviews, 112(1–2), 42–66. doi:10.1016/j.earscirev.2012.02.001
  • Jała, Z., & Cieślakiewicz, D. (2004). Potential erosion of soils in the Karkonosze National Park. In Geoekologicke problemy Krkonoš. Mez. Věd. Konf. November 2003, Szklarska Poręba. Opera Corcontica, 41, 66–73 (in Polish).
  • Jordán, A., & Martínez-Zavala, L. (2008). Soil loss and runoff rates on unpaved forest roads in southern Spain after simulated rainfall. Forest Ecology and Management, 255(3–4), 913–919. doi:10.1016/j.foreco.2007.10.002
  • Krzyszkowski, D., Migoń, P., & Sroka, W. (1995). Neotectonic quaternary history of the Sudetic marginal fault, SW Poland. Folia Quartern, 66, 73–98.
  • Kusiak, W., & Jaszczak, R. (2009). Propedeutyka leśnictwa (143 pp.). Wyd. Uniwersytetu Przyrodniczego w Poznaniu (in Polish).
  • Larsen, I. J., MacDonald, L. H., Brown, E., Rough, D., & Welsh, M. J. (2009). Causes of post-fire runoff and erosion: Water repellency, cover, or soil sealing? Soil Science Society of America Journal, 73(4), 1393–1407. doi:10.2136/sssaj2007.0432
  • Martínez-Zavala, L., Jordán López, A., & Bellinfante, N. (2008). Seasonal variability of runoff and soil loss on forest road backslopes under simulated rainfall. Catena, 74(1), 73–79. doi:10.1016/j.catena.2008.03.006
  • Oberc, J. (1987). Struktura bardzka jako reper rozwoju waryscydów wschodniej części Sudetów Zachodnich i ich przedpola. Przew, 58, 165–180 (in Polish).
  • Oliver, M. A., & Webster, R. (1990). Kriging: A method of interpolation for geographical information systems. International journal of geographical information systems, 4(3), 313–332. doi:10.1080/02693799008941549
  • Pawłuszek, K., & Borkowski, A. (2016, July 12–19). Landslides identification using airborne laser scanning data derived topographic terrain attributes and support vector machine classification. In The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XXIII ISPRS Congress (Volume XLI-B8). Prague. doi:10.5194/isprsarchives-XLI-B8-145-2016
  • Pierzgalski, E., Janek, M., Kucharska, K., Tyszka, J., & Wróbel, M. (2007). Badania hydrologiczne w leśnych zlewniach sudeckich (84 pp.). Sękocin: IBL (in Polish).
  • Prochal, P. (Eds.). (1987). Podstawy melioracji rolnych. PWRiL, Warszawa, 2, 419 (in Polish).
  • Prochal, P., Maślanka, K., & Koreleski, K. (2005). Ochrona środowiska przed erozją wodną (126 pp). Kraków (in Polish).
  • Rejman, J., & Usowicz, B. (2002, October). Ocena erozji wodnej gleb lessowych w oparciu o pomiary poletkowe. In Proccedings of conference: “Erozja gleb i transport rumowiska rzecznego”. Zakopane (in Polish).
  • Ruiz-Sinoga, J. D., Romero-Diaz, A., Ferre-Bueno, E., & Martínez-Murillo, J. F. (2010). The role of soil surface conditions in regulating runoff and erosion processes on a metamorphic hillslope (Southern Spain). Catena, 80(2), 131–139. doi:10.1016/j.catena.2009.09.007
  • Smolska, E. (2002, October). Erozja powierzchniowa gleb na Pojezierzu Suwalskim i niektóre jej uwarunkowania klimatyczno-topograficzne. In Proccedings of conference “Erozja gleb i transport rumowiska rzecznego”. Zakopane (in Polish).
  • Stenberg, L., Tuukkanen, T., Finér, L., Marttila, H., Piirainen, S., Kløve, B., & Koivusalo, H. (2016). Evaluation of erosion and surface roughness in peatland forest ditches using pin meter measurements and terrestrial laser scanning. Earth Surface Processes and Landforms, 41, 1299–1311. doi:10.1002/esp.3897
  • Vosselman, G., & Maas, H. G. (2010). Airborne and terrestrial laser scanning (p. 336). Dunbeath, Scotland: Whittles Publishing.
  • Wajsprych, B. (1978). Allochthonous Paleozoic rocks in the Visean of the Bardzkie Mts. (Sudetes). Rocz Pol Tow Geol, 38(1), 99–128 (in Polish).
  • Wajsprych, B. (1986). Sedimentary record of tectonic activity on a Devonian—Carboniferous continental margin (Sudetes). In IAS 7th European Meeting. Kraków – Poland. (pp. 141–164). Wrocław: Excursion Guide Book.
  • Wajsprych, B. (1995). The Bardo Mts. rock complex: The Famennian – Lower Carboniferous preflysch (platform)-to-flysch (foreland) basin succession, the Sudetes. In O. Kumpera, M. Paszkowski, B. Wajsprych, J. Foldyna, J. Malec, & H. Zakowa (Eds.), Transition of the early carboniferous pelagic sedimentation into synorogenic flysch. An example from the Silesian-Moravian zone and adjacent areas. XIII International Geological Congress on Carboniferous-Permian (Vol. B2, pp. 23–42). Kraków: Guide to Excursion.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.