References
- [1] Anghel, T., Bilasco, St. (2008), The Motru Mining Basin – Gis application on sheet erosion. Geographia Napocensis 2(1), 90–108.
- [2] Bilasco, St., Horváth, Cs., Cocean, P., Sorocovschi, V., Oncu, M. (2009), Implementation of the USLE model using GIS techniques. Case study the Someșan Plateau. Carpathian Journal of Earth and Environmental Sciences, 123–132.
- [3] Browning, G. M., Parish, C. L., Glass, J. (1947), A method for determining the use and limitations of rotation and conservation practices in the control of soil erosion. Iowa. J. Am. Soc. Agron. 39(1), 65–73.
- [4] Csiszér, L. (2015), Depresiunea Baraoltului – studiu integrat de geografie fizică. Editura Presa Universitară Clujeană, Cluj-Napoca.
- [5] Csiszér, L., Petrea, D. (2012), The reflection of the geological factors within the morphology of the Baraolt Depression. Revista de geomorfologie 14, 57–66. Editura Universităţii din Bucureşti, Bucharest.
- [6] Desmet, P. J. J., Govers, G. (1996), A GIS procedure for automatically calculating the USLE LS factor on topographically complex landscape units. Journal of Soil and Water Cons. 51, 427–433.
- [7] Filip, S. (2008), Depresiunea şi Munceii Băii Mari. Studiu de geomorfologie environmentală. Editura Presa Universitară Clujeană, Cluj-Napoca.
- [8] Lloyd, C. H., Eley, G. W. (1952), Graphical solution of probable soilloss formula for Northeastern Region. J. Soil Water Conserv. 7, 189–191.
- [9] Mitasova, H., Hofierka, J., Zlocha, M., Iverson, L. R. (1996), Modeling topographic potential for erosion and deposition using GIS. Int. Journal of Geographical Information Science 10(5), 629–641.
- [10] Mitasova, H., Mitas, L., Brown, W. M., Johnston, D. 1998. Multidimensional soil erosion/deposition modeling and visualization using GIS. Final report for USA CERL. University of Illinois, Urbana-Champaign. Online tutorial.
- [11] Moore, I. D., Wilson, J. P., 1992. Length-slope factors for the Revised Universal Soil Loss Equation: simplified method of estimation. Journal of Soil and Water Conservation 47, 423–428.
- [12] Moţoc, M., Munteanu, S., Băloiu, V., Stănescu, P., Mihai, Gh. (1975), Eroziunea solului și metode de combatere. Editura Ceres, Bucharest.
- [13] Moţoc, M., Sevastel, M., (2002), Evaluarea factorilor care determină riscul eroziunii hidrice în suprafaţă. Editura Bren, Bucharest.
- [14] Patriche, C. V., Căpăţână, V., Stoica, D. L. (2006), Aspects regarding soil erosion spatial modeling using the USLE/RUSLE within GIS. Geographia Technica 2. Cluj-Napoca.
- [15] Renard, K. G., Foster, G. R., Weesies, G. A., McCool, D. K., Yoder, D. C. (1997), Predicting soil erosion by water – A guide to conservation planning with the revised universal soil loss equation (RUSLE). U.S. Dept. of Agric., Agr. Handbook No 703. University of Illinois, Urbana-Champaign, p. 24.
- [16] Wischemeier, W. H., Smith, D. D. (1965), Predicting rainfall-erosion losses from cropland east of the Rocky Mountains. Guide for selection practices for soil land water conservations. US Department of Agriculture in cooperation with Purdue Agricultural Experiment Station. Agriculture Handbook 282, 47.
- [17] Zingg, A. V. (1940), Degree and length of land slope as it affects soil loss in runoff. Agr. Ing. 21.
- [18] * * * (2006), RUSLE online. 2006. http://www.iwr.msu.edu/rusle.
- [19] https://books.google.ro/books?id=l5MHCAAAQBAJ&pg=PA196&lpg=PA196&dq=Eurosem+1992&source=bl&ots=GKM9BbyZK9&sig=IQzgBnf5rJJiBopiEVWEl_9sJCo&hl=hu&sa=X&ved=0ahUKEwj_kpD7_qrbAhWE_ywKHeXVBAAQ6AEIPzAC#v=onepage&q=Eurosem%201992&f=false.
- [20] * * * https://www.ars.usda.gov/southeast-area/oxford-ms/national-sedimentation-laboratory/watershed-physical-processes-research/docs/revised-universal-soil-loss-equation-rusle-welcome-to-rusle-1-and-rusle-2/.
- [21] * * * https://www.ars.usda.gov/southeast-area/oxford-ms/national-sedimentation-laboratory/watershed-physical-processes-research/research/rusle2/revised-universal-soil-loss-equation-2-overview-of-rusle2/.
- [22] * * * http://www4.ncsu.edu/~hmitaso/gmslab/reports/cerl01/finalreport/report01/default.htm