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Michal Štefánek, Pavel Kovář and Veronika Dlouhá

in Chvaletice . - Ms. [Dipl. Thesis, Department of Botany, Charles University, Praha]. [in Czech] Ebregh, A., Boldewijn, J.A.A.M. (1977). Influence of heavy metals in spruce forest soil onamylase activity, CO2 evolution from starch and soil respiration. - Plants and Soil , 47: pp. 137-148. Evans, R.D., Johansen, J.R. (1999). Microbiotic crusts and ecosystem processes. - Crit. Rev., Plant Sci., 18(2): pp. 183-225. Ewing, A.L., Engle, D.M. (1988). Effects of late summer fire on tallgrass prairiemicroclimate and

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Vincenzo Alagna, Vincenzo Bagarello, Simone Di Prima, Fabio Guaitoli, Massimo Iovino, Saskia Keesstra and Artemi Cerdà

REFERENCES Alagna, V., Bagarello, V., Di Prima, S., Giordano, G., Iovino, M., 2013. A simple field method to measure the hydrodynamic properties of soil surface crust. Journal of Agricultural Engineering, 44, 74–79. https://doi.org/10.4081/jae.2013.(s1):e14 Alagna, V., Bagarello, V., Di Prima, S., Giordano, G., Iovino, M., 2016. Testing infiltration run effects on the estimated water transmission properties of a sandy-loam soil. Geoderma, 267, 24–33. https://doi.org/10.1016/j.geoderma.2015.12.029 Angulo-Jaramillo, R., Bagarello, V., Iovino, M

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Thomas Fischer, Stella Gypser, Maria Subbotina and Maik Veste

microbiotic crusts on inland dunes, Brandenburg, NE Germany. Catena, 80, 47-52. Fischer, T., Veste, M., Bens, O., Hüttl, R.F., 2012. Dew formation on the surface of biological soil crusts in central European sand ecosystems. Biogeosciences, 9, 4621-4628. Guiry, M.D., 2013. AlgaeBase. Retrieved from http://algaebase.org/ on 24.06.2013. Hallett, P.D., Young, I.M., 1999. Changes to water repellence of soil aggregates caused by substrate-induced microbial activity. European Journal of Soil Science, 50, 35-40. Hasse

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Yolanda Cantón, Jose Raúl Román, Sonia Chamizo, Emilio Rodríguez-Caballero and María José Moro

drive Infiltration through biological soil crusts in semiarid ecosystems. Ecosystems, 15, 148-161. Chamizo, S., Cantón, Y., Miralles, I., Domingo, F., 2012b. Biological soil crust development affects physicochemical characteristics of soil surface in semiarid ecosystems. Soil Biol. Biochem., 49, 96-105. Chaudhary, V.B., Bowker, M.A., O'Dell, T.E., Grace, J.B., Redman, A.E., Rillig, M.C., et al., 2009. Untangling the biological contributions to soil stability in semiarid shrublands. Ecol. Appl., 19, 110-122. Delgado

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Hannes Keck, Vincent John Martin Noah Linus Felde, Sylvie Laureen Drahorad and Peter Felix-Henningsen

properties of soil. Water Resour. Res., 39, doi: 10.1029/2003WR002143 Bachmann, J., Arye, G., Deurer, M., Woche, S.K., Horton, R., Hartge, K.-H., Chen, Y., 2006. Universality of a surface tension—contact-angle relation for hydrophobic soils of different texture. J. Plant Nutr. Soil Sci., 169, 745–753. Belnap, J., 2006. The potential roles of biological soil crusts in dryland hydrologic cycles. Hydrol. Process., 20, 3159–3178. Belnap, J., Gillette, D.A., 1998. Vulnerability of desert biological soil crusts to wind erosion: the influences of crust

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Zbigniew Caputa

References Bednarek, R., Dziadowiec, H. & Pokojska U. (2002). Pedological aspect of variability. Ecol. Quest. , 1, 35–41. Belnap, J., Büdel, B. & Lange O.L. (2003). Biological soil crust: Characteristics and distribution. In J. Belnap & O.L. Lange (Eds.), Biological soil crusts: Structure, function, and management. Ecol. Stud. , 150, 3–30. DOI: 10.1007/978-3-642-56475-8. Cabała, J. & Rahmonov O. (2004). Cyanophyta and algae as an important component of biological crust from Pustynia Błędowska Desert (Poland). Pol. Bot. J., 49(1), 93

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Giora J. Kidron

, G.J., Vonshak, A., 2012. The use of microbiotic crusts as biomarkers for ponding, subsurface flow and soil moisture content and duration. Geoderma, 181-182, 56-64. Kidron, G.J., Yair, A., 1997. Rainfall-runoff relationships over encrusted dune surfaces, Nizzana, western Negev, Israel, Earth Surf. Process. Landf., 22, 1169-1184. Kidron, G.J., Yaalon, D.H., Vonshak, A., 1999. Two causes for runoff initiation on microbiotic crusts: hydrophobicity and pore clogging. Soil Sci., 164, 18-27. Kidron, G.J., Yair, A., Vonshak

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Stella Gypser, Maik Veste, Thomas Fischer and Philipp Lange

biological soil crusts on sand dunes: a comparison between arid and temperate climates. Biogeosciences Discuss., 9, 12711–12734. Fischer, T., Yair, A., Veste, M., Geppert, H., 2013. Hydraulic properties of biological soil crusts on sand dunes studied by 13 C-CP/MAS-NMR: A comparison between an arid and a temperate site. Catena, 110, 155–160. Fischer, T., Gypser, S., Subbotina, M., Veste, M., 2014. Synergic hydraulic and nutritional feedback mechanisms control surface patchiness of biological soil crusts on tertiary sands at a post-mining site. J. Hydrol

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Giora J. Kidron

. Radiocarbon dating of playa-lake hydrologic changes: Examples from northwestern China and central Australia. Palaeogeog, Palaeoclim, Palaeoecol., 54, 241–260. Briere, P.R., 2000. Playa, playa lake, sabkha: Proposed definitions for old terms. J. Arid Environ., 45, 1–45. Brock, T.D., 1975. Effect of water potential on a Microcoleous (Cyanophyceae) from a desert crust. J. Phycol., 11, 316–320. Bűdel, B., 2005. Microorganisms of biological crusts on soil surfaces. In: Buscot, F., Varma, A. (Eds.): Microorganisms in Soils: Roles in the Genesis and Functions

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Tomasz Stańczyk and Anna Baryła

. 2011: Laboratory simulation studies on splash erosion and crusting in relation to surface roughness and raindrop size. J. Indian Soc. Soil Sci. 59 (1), 87–93. MILENKOVIĆ M., PFEIFER N., GLIRA P. 2015: Applying terrestrial laser scanning for soil surface roughness assessment. Remote Sens. 7 (2), 2007–2045. NIEMIEC M., JÓŹKÓW G., BORKOWSKI A. 2009: Monitoring land surface changes caused by soil water erosion with terrestrial laser scanning. Arch. Fotogram. Kartogr. i Teledet. 20, 333–342 [in Polish]. ONSTAD C.A. 1984: Depressional storage on