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Tomas Orfanus, Abdel-Monem Mohamed Amer, Grzegorz Jozefaciuk, Emil Fulajtar and Anežka Čelková

References Amer, A.M., 2003. Soil Hydro-Physics. First Part, Al-Dar Alarabia Publishing Foundation, Cairo, Egypt, ISBN 977- 258-179-5. Amer, A.M., 2009. Moisture adsorption capacity and surface area as deduced from vapour pressure isotherms in relation to hygroscopic water of soils. Biologia, 64, 3, 516-521. Avnir, D., 1989. The Fractal Approach to Heterogeneous Chemistry: Surfaces, Colloids, Polymers. Wiley, Chichester, UK. Blanco-Canqui, H., 2011. Does no-till farming induce water repellency

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Abdur Razzaque, Pavla Tesinova and Lubos Hes

Research Journal, Vol. 19, No 1, March 2019, 16(3), 160–164. [12] Mukhopadhyay, A. & Midha, V. (2008). A review on designing the waterproof breathable fabrics. Part-I: Fundamental principles and designing aspects of breathable fabrics. Journal of Industrial Textiles, 37, 225–262. [13] Ozcan, G. (2007). Performance evaluation of water repellent finishes on woven fabric properties. Textile Research Journal, 77, 265–270. [14] Ozen, I. (2012). Multi-layered breathable fabric structures with enhanced water resistance. Journal of Engineered Fibers and Fabrics

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Nasrollah Sepehrnia, Mohammad Ali Hajabbasi, Majid Afyuni and Ľubomír Lichner

References Amezketa, E., 1999. Soil aggregate stability: a review. J. Sustain. Agric., 14, 83-151. Bachmann, J., Deurer, M., Arye, G., 2007. Water-repellent soil: 1. Development of a contact angle-dependent waterretention model. Vadose Zone J., 6, 436-445. Bachmann, J., Goebel M.-O., Woche S.K., 2013. Small-scale contact angle mapping on undisturbed soil surfaces. J. Hydrol. Hydromech., 61, 3-8. Bauters, T.W.J., Steenhuisa T.S., DiCarlo, D.A., Nieber, J.L., Dekker, L.W., Ritsema, C.J., Parlange

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Elena Benito, Eufemia Varela and María Rodríguez-Alleres

REFERENCES Alagna, V., Iovino, M., Bagarello, V., Mataix-Solera, J., Lichner, L., 2017. Application of minidisk infiltrometer to estimate water repellency in Mediterranean pine forest soils. J. Hydrol. Hydromech., 65, 254–263. Alanís, N., Hernández-Madrigal, V.M., Cerdà, A., Zavala, L.M., Jordán, A., 2017. Spatial gradients of intensity and persistence of soil water repellency under different forest types in Central México. Land Degrad. Develop., 28, 317–327. Arcenegui, V., Mataix-Solera, J., Guerrero, C., Zornoza, R., Mayoral, A.M., Morales J

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Lucia Kořenková and Martin Urík

R eferences Bachmann J., Ellies A., Hartge K.H. 2003. Sessile drop contact angle method. In: Soil Water Repellency. Origin, assessment, occurrence, consequences, modeling, and amelioration (eds.: C.J. Ritsema, L.W. Dekker), Elsevier, The Netherlands, 57–65. Bayer J., Schaumann G.E. 2007. Development of soil water repellency in course of isothermal drying and upon pH changes in two urban soils. Hydrological Processes, 21, 2266–2275. Bisdom E.B.A., Dekker L.W., Schoute J.F.T. 1993. Water repellency of sieve fractions from sandy soils and

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Klaas Oostindie, Louis W. Dekker, Jan G. Wesseling, Violette Geissen and Coen J. Ritsema

References Aamlid, T.S., Espevig, T. Kvalbein, A., 2009. The potential of a surfactant to restore turfgrass quality on a severely waterrepellent golf green. Biologia, 64, 3, 620-623. DOI: 10.2478/s11756-009-0071-1. Bauters, T.W.J., Steenhuis, T.S., DiCarlo, D.A., Nieber, J.L., Dekker, L.W., Ritsema, C.J., Parlange, J-Y., Haverkamp, R., 2000. Physics of water repellent soils. Journal of Hydrology, 231-232, 233-243. DOI: 10.1016/S0022-1694(00)00197-9. Benito Rueda, E., Rodríguez-Alleres, M., Varela Teijeiro, E

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Heiner Stoffregen and Gerd Wessolek

-saturation releationships: water-air and oil-air systems. Int. Agrophysics, 17, 157-162. Kool J.B. and Parker J.C., 1987 . Development and evaluation of closed-form expressions for hysteretic soil hydraulic properties. Water Res. Res., 23, 105-114. Kosugi K. and Hopmans J.W., 1998 . Scaling water retention curves for soils with lognormal pore-size distribution. Soil Sci. Soc. Am. J., 62, 1496-1505. Letey J., Carrillo M.L.K., and Pang X.P., 2000 . Approaches to characterize the degree of water repellency. J. Hydrol., 231-232, 61-65. Lipiec J., Walczak R., Witkowska-Walczak B

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Vincenzo Alagna, Massimo Iovino, Vincenzo Bagarello, Jorge Mataix-Solera and Ľubomír Lichner

REFERENCES Alagna, V., Bagarello, V., Di Prima, S., Iovino, M., 2016. Determining hydraulic properties of a loam soil by alternative infiltrometer techniques. Hydrol. Process., 30, 2, 263–275. Bagarello, V., Castellini, M., Di Prima, S., Iovino, M., 2014. Soil hydraulic properties determined by infiltration experiments and different heights of water pouring. Geoderma, 213, 492–501. Beatty, S.M., Smith, J.E., 2013. Dynamic soil water repellency and infiltration in post-wildfire soils. Geoderma 192, 160–172. Buczko, U., Bens, O., Fischer, H

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Vilim Filipović, Thomas Weninger, Lana Filipović, Andreas Schwen, Keith L. Bristow, Sophie Zechmeister-Boltenstern and Sonja Leitner

REFERENCES Ajdary, K., Singh, D.K., Singh, A.K., Khanna, M., 2007. Modelling of nitrogen leaching from experimental onion field under drip irrigation. Agr. Water Manage., 89, 15–28. Armbruster, M., Seegert, J., Feger, K.H., 2004. Effects of changes in tree species composition on water flow dynamics – model applications and their limitations. Plant Soil, 264, 13–24. Bachmann, J., Deurer, M., Arye, G., 2007. Modeling water movement in heterogeneous water-repellent soil: 1. Development of a contact angle–dependent water-retention model. Vadose Zone

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D.A.L. Leelamanie

, J.-Y., 1998. Preferential flow in water-repellent sands. Soil Sci. Soc. Am. J., 62, 1185-1190. Cox, P.M., Betts, R.A., Jones, C.D., Spall, S.A., Totterdell, I.J., 2000. Acceleration of global warming due to carbon-cycle feedbacks in a coupled climate model. Nature, 408, 184-187. Cregger, M.A., Sanders, N.J., Dunn, R.R., Classen, A.T., 2014. Microbial communities respond to experimental warming, but site matters. PeerJ 2:e358, Davidson, E.A., Janssens, I.A., 2006. Temperature sensitivity of