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Plants and biological soil crust influence the hydrophysical parameters and water flow in an aeolian sandy soil / Vplyv rastlín a biologického pôdneho pokryvu na hydrofyzikálne parametre a prúdenie vody v piesočnatej pôde Cover

Plants and biological soil crust influence the hydrophysical parameters and water flow in an aeolian sandy soil / Vplyv rastlín a biologického pôdneho pokryvu na hydrofyzikálne parametre a prúdenie vody v piesočnatej pôde

Journal of Hydrology and Hydromechanics
Volume 60 (2012): Issue 4 (December 2012)
By: Ľubomír Lichner,  Ladislav Holko,  Natalia Zhukova,  Karsten Schacht,  Kálmán Rajkai,  Nándor Fodor and  Renáta Sándor  
Open Access
|Dec 2012

References

  1. AAMLID T. S., ESPEVIG T., KVALBEIN A., 2009: The potential of a surfactant to restore turfgrass quality on a severely water repellent golf green. Biologia, 64, 620-623.10.2478/s11756-009-0071-1
    Search in Google Scholar
  2. BACHMAIR S., WEILER M., NÜTZMANN G., 2009: Controls of land use and soil structure on water movement: Lessons for pollutant transfer through the unsaturated zone. J. Hydrol., 369, 241-252.10.1016/j.jhydrol.2009.02.031
    Search in Google Scholar
  3. BELNAP J., LANGE O. L. (Eds.), 2003: Biological Soil Crusts: Structure, Function, and Management. Springer Publisher, Berlin.10.1007/978-3-642-56475-8
    Search in Google Scholar
  4. BUCZKO U., BENS O., HÜTTL R. F., 2006: Water infiltration and hydrophobicity in forest soils of a pine-beech transformation chronosequence. J. Hydrol., 331, 383-395.10.1016/j.jhydrol.2006.05.023
    Search in Google Scholar
  5. CAMMERAAT E. L. H., CERDA A., IMESON A. C., 2010: Ecohydrological adaptation of soils following land abandonment in a semi-arid environment. Ecohydrol., 3, 421-430.10.1002/eco.161
    Search in Google Scholar
  6. CZACHOR H., DOERR S. H., LICHNER L., 2010: Water retention of repellent and subcritical repellent soils: new insights from model and experimental investigations. J. Hydrol., 380, 104-111.10.1016/j.jhydrol.2009.10.027
    Search in Google Scholar
  7. DECAGON, 2007: Minidisk Infiltrometer User’s Manual. Version 6. Decagon Devices, Inc., Pullman.
    Search in Google Scholar
  8. DEKKER L. W., RITSEMA C. J., 1994: How water moves in a water repellent sandy soil. 1. Potential and actual water repellency. Water Resour. Res., 30, 2507-2517.10.1029/94WR00749
    Search in Google Scholar
  9. DEKKER L. W., RITSEMA C. J., OOSTINDIE K., 2000: Extent and significance of water repellency in dunes along the Dutch coast. J. Hydrol., 231-232, 112-125.10.1016/S0022-1694(00)00188-8
    Search in Google Scholar
  10. DEKKER L. W., DOERR S. H., OOSTINDIE K., ZIOGAS A. K., RITSEMA C. J., 2001: Water repellency and critical soil water content in a dune sand. Soil Sci. Soc. Am. J., 65, 1667-1674.10.2136/sssaj2001.1667
    Search in Google Scholar
  11. DOERR S. H., 1998: On standardizing the “Water Drop Penetration Time“ and the “Molarity of an Ethanol Droplet“ techniques to classify soil hydrophobicity: a case study using medium textured soils. Earth Surf. Process. Landf., 23, 663-668.10.1002/(SICI)1096-9837(199807)23:7<;663::AID-ESP909>3.0.CO;2-6
    Search in Google Scholar
  12. DOERR S. H., THOMAS A. D., 2000: The role of soil moisture in controlling water repellency: new evidence from forest soils in Portugal. J. Hydrol., 231-232, 134-147.10.1016/S0022-1694(00)00190-6
    Search in Google Scholar
  13. DOERR S. H., SHAKESBY R. A., WALSH R. P. D., 2000: Soil water repellency: its causes, characteristics and hydrogeomorphological significance. Earth-Sci. Rev., 51, 33-65.10.1016/S0012-8252(00)00011-8
    Search in Google Scholar
  14. ELDRIDGE D. J., ZAADY E., SHACHAK M., 2002: Microphytic crusts, shrub patches and water harvesting in the Negev Desert: the Shikim system. Landscape Ecol., 17, 587-597.10.1023/A:1021575503284
    Search in Google Scholar
  15. FAŠKO P., LAPIN M., PECHO J., 2008: 20-year extraordinary climatic period in Slovakia. Meteorol. Čas., 11, 99-105.
    Search in Google Scholar
  16. GOEBEL M.-O., BACHMANN J., REICHSTEIN M., JANSSENSZ I. A., GUGGENBERGER G., 2011: Soil water repellency and its implications for organic matter decomposition - is there a link to extreme climatic events? Global Change Biol., 17, 2640-2656.10.1111/j.1365-2486.2011.02414.x
    Search in Google Scholar
  17. HALLETT P. D., 2007: An introduction to soil water repellency. In: Gaskin, R.E. (Ed.), Adjuvants for Agrochemicals. Hand Multimedia, Christchurch, New Zealand,13 pp.
    Search in Google Scholar
  18. HALLETT P. D., BAUMGARTL T., YOUNG I. M., 2001: Subcritical water repellency of aggregates from a range of soil management practices. Soil Sci. Soc. Am. J., 65, 184-190.10.2136/sssaj2001.651184x
    Search in Google Scholar
  19. HOMOLÁK M., CAPULIAK J., PICHLER V., LICHNER Ľ., 2009: Estimating hydraulic conductivity of a sandy soil under different plant covers using minidisk infiltrometer and a dye tracer experiment. Biologia, 64, 600-604.10.2478/s11756-009-0088-5
    Search in Google Scholar
  20. KALIVODOVÁ E., KUBÍČEK F., BEDRNA Z., KALIVODA H., GAVLAS V., KOLLÁR J., GAJDOŠ P., ŠTEPANOVIČOVÁ O., 2002: Sand Dunes of Slovakia. (In Slovak.) Luka-Press, Bratislava.
    Search in Google Scholar
  21. KODEŠOVÁ R., KAPIČKA A., LEBEDA J., GRISON H., KOČÁREK M., PETROVSKÝ E., 2011: Numerical simulation of fly-ash transport in three sands of different particlesize distributions using Hydrus-1D. J. Hydrol. Hydromech., 59, 206-216.10.2478/v10098-011-0017-5
    Search in Google Scholar
  22. KODEŠOVÁ R., NĚMEČEK K., KODEŠ V., ŽIGOVÁ A., 2012: Using dye tracer for visualization of preferential flow at macro- and microscales. Vadose Zone J., 11, DOI: 10.2136/vzj2011.0088.10.2136/vzj2011.0088
    Search in Google Scholar
  23. KRAMERS G., RICHARDS K. G., HOLDEN N. M., 2009: Assessing the potential for the occurrence and character of preferential flow in three Irish grassland soils using image analysis. Geoderma, 153, 362-371.10.1016/j.geoderma.2009.08.021
    Search in Google Scholar
  24. KUTÍLEK M., NIELSEN D. R., 1994: Soil Hydrology. Catena, Cremlingen-Destedt.
    Search in Google Scholar
  25. LICHNER L., DLAPA P., DOERR S. H., MATAIX-SOLERA J., 2006: Evaluation of different clay minerals as additives for soil water repellency alleviation. Applied Clay Sci., 31, 238-248.10.1016/j.clay.2005.10.012
    Search in Google Scholar
  26. LICHNER Ľ., HALLETT P. D., FEENEY D., ĎUGOVÁ O., ŠÍR M., TESAŘ M., 2007: Field measurement of the impact of hydrophobicity on soil water transport under different vegetation over time. Biologia, 62, 537-541.10.2478/s11756-007-0106-4
    Search in Google Scholar
  27. LICHNER L., HALLETT P. D., ORFÁNUS T., CZACHOR H., RAJKAI K., ŠÍR M., TESAŘ M., 2010: Vegetation impact on the hydrology of an aeolian sandy soil in a continental climate. Ecohydrol., 3, 413-420.10.1002/eco.153
    Search in Google Scholar
  28. LICHNER L., ELDRIDGE D. J., SCHACHT K., ZHUKOVA N., HOLKO L., ŠÍR M., PECHO J., 2011: Grass cover influences infiltration into a sandy soil. Pedosphere, 21, 719-729.10.1016/S1002-0160(11)60175-6
    Search in Google Scholar
  29. LICHNER L., HALLETT P. D., DRONGOVÁ Z., CZACHOR H., KOVACIK L., MATAIX-SOLERA J., HOMOLÁK M., 2012: Algae influence hydrophysical parameters of a sandy soil. Catena, DOI: 10.1016/j.catena.2012.02.01610.1016/j.catena.2012.02.016
    Search in Google Scholar
  30. LIPSIUS K., MOONEY S. J., 2006: Using image analysis of tracer staining to examine the infiltration patterns in a water repellent contaminated sandy soil. Geoderma, 136, 865-875.10.1016/j.geoderma.2006.06.005
    Search in Google Scholar
  31. MOONEY S. J., MORRIS C., 2008: A morphological approach to understanding preferential flow using image analysis with dye tracers and X-ray Computed Tomography. Catena, 73, 204-211.10.1016/j.catena.2007.09.003
    Search in Google Scholar
  32. MOORE D., KOSTKA S. J., BOERTH T. J., FRANKLIN M., RITSEMA C. J., DEKKER L. W., OOSTINDIE K., STOOF C., WESSELING J., 2010: The effect of soil surfactants on soil hydrological behavior, the plant growth environment, irrigation efficiency and water conservation. J. Hydrol. Hydromech., 58, 142-148.10.2478/v10098-010-0013-1
    Search in Google Scholar
  33. MORALES V. L., PARLANGE J.-Y., STEENHUIS T. S., 2010: Are preferential flow paths perpetuated by microbial activity in the soil matrix? A review. J. Hydrol., 393, 29-36.10.1016/j.jhydrol.2009.12.048
    Search in Google Scholar
  34. MORRIS C., MOONEY S. J., YOUNG S. D., 2008: Sorption and desorption characteristics of the dye tracer, Brilliant Blue FCF, in sandy and clay soils. Geoderma, 146, 434-438.10.1016/j.geoderma.2008.06.021
    Search in Google Scholar
  35. NASH D. R., 2008. Process rather than pattern: finding pine needles in the coevolutionary haystack. J. Biol., 7, Article 14.10.1186/jbiol75244753418510785
    Search in Google Scholar
  36. ONDERKA M., WREDE S., RODNÝ M., PFISTER L., HOFFMANN L., KREIN A., 2012: Hydrogeologic and landscape controls of dissolved inorganic nitrogen (DIN) and dissolved silica (DSi) fluxes in heterogeneous catchments. J. Hydrol., 450, 36-47.10.1016/j.jhydrol.2012.05.035
    Search in Google Scholar
  37. ORFÁNUS T., BEDRNA Z., LICHNER Ľ., HALLETT P. D., KŇAVA K., SEBÍŇ M., 2008: Spatial variability of water repellency in pine forest soil. Soil Water Res., 3 (Spec. Issue 1): S123-S129.10.17221/11/2008-SWR
    Search in Google Scholar
  38. PAVELKOVÁ H., DOHNAL M., VOGEL T., 2012: Hillslope runoff generation - comparing different modeling approaches. J. Hydrol. Hydromech., 60, 73-86.10.2478/v10098-012-0007-2
    Search in Google Scholar
  39. PEKÁROVÁ P., ONDERKA M., PEKÁR J., RONČÁK P., MIKLÁNEK P., 2009: Prediction of water quality in the Danube River under extreme hydrological and temperature conditions. J. Hydrol. Hydromech., 57, 3-15.10.2478/v10098-009-0001-5
    Search in Google Scholar
  40. PHILIP J. R., 1957: The theory of infiltration: 1. The infiltration equation and its solution. Soil Sci., 83, 345-357.10.1097/00010694-195705000-00002
    Search in Google Scholar
  41. RAVI S., D’ODORICO P., OKIN G. S., 2007: Hydrologic and aeolian controls on vegetation patterns in arid landscapes. Geophys. Res. Lett., 34, L24S23.10.1029/2007GL031023
    Search in Google Scholar
  42. SOIL SURVEY DIVISION STAFF, 1993: Soil survey manual. Soil Conservation Service. U.S. Department of Agriculture Handbook, 18, 437 pp.
    Search in Google Scholar
  43. ŠOMŠÁK L., ŠIMONOVIČ V., KOLLÁR J., 2004. Phytocoenoses of pine forests in the central part of the Záhorská nížina Lowland. Biologia, 59, 101-113.
    Search in Google Scholar
  44. TÄUMER K., STOFFREGEN H., WESSOLEK G., 2006: Seasonal dynamics of preferential flow in a water repellent soil. Vadose Zone J., 5, 405-411.10.2136/vzj2005.0031
    Search in Google Scholar
  45. WANG Z., WU Q. J., WU L., RITSEMA C. J., DEKKER L. W., FEYEN J., 2000: Effects of soil water-repellency on infiltration rate and flow instability. J. Hydrol., 231-232, 265-276.10.1016/S0022-1694(00)00200-6
    Search in Google Scholar
  46. WESSOLEK G., SCHWÄRZEL K., GREIFFENHAGEN A., STOFFREGEN H., 2008: Percolation characteristics of a water-repellent sandy forest soil. Eur. J. Soil Sci., 59, 14-23.
    Search in Google Scholar
  47. WESSOLEK G., STOFFREGEN H., TÄUMER K., 2009: Persistency of flow patterns in a water repellent sandy soil - Conclusions of TDR readings and a time-delayed double tracer experiment. J. Hydrol., 375, 524-535.10.1016/j.jhydrol.2009.07.003
    Search in Google Scholar
  48. WINE M. L., OCHSNER T. E., SUTRADHAR A., PEPIN R., 2012: Effects of eastern redcedar encroachment on soil hydraulic properties along Oklahoma’s grassland-forest ecotone. Hydrol. Process., 26, 1720-1728.10.1002/hyp.8306
    Search in Google Scholar
  49. WRB, 2006: World reference base for soil resources 2006. 2nd edition. World Soil Resources Reports No. 103. FAO, Rome, 128 pp.
    Search in Google Scholar
  50. YAIR A., 2003: Effects of biological soil crusts on water redistribution in the Negev Desert, Israel: a case study in longitudinal dunes. In: Belnap J., Lange O. L. (eds): Biological Soil Crusts: Structure, Function, and Management. 2nd edition. Springer-Verlag, Berlin, 303-314.10.1007/978-3-642-56475-8_22
    Search in Google Scholar
  51. ZHANG R., 1997: Determination of soil sorptivity and hydraulic conductivity from the disk infiltrometer. Soil Sci. Soc. Am. J., 61, 1024-1030.10.2136/sssaj1997.03615995006100040005x
    Search in Google Scholar
DOI: https://doi.org/10.2478/v10098-012-0027-y | Journal eISSN: 1338-4333 | Journal ISSN: 0042-790X
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Language: English
Page range: 309 - 318
Published on: Dec 14, 2012
Published by: Slovak Academy of Sciences, Institute of Hydrology
In partnership with: Paradigm Publishing Services
Publication frequency: 4 issues per year
Keywords:
Sandy Soil,
Vegetation,
Water Repellency,
Hydrophysical Parameters,
Water Flow.
Related subjects:
Engineering,
Introductions and overviews,
Engineering, other

© 2012 Ľubomír Lichner, Ladislav Holko, Natalia Zhukova, Karsten Schacht, Kálmán Rajkai, Nándor Fodor, Renáta Sándor, published by Slovak Academy of Sciences, Institute of Hydrology
This work is licensed under the Creative Commons License.

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