Abstract
Soil water repellency (SWR) is a common phenomenon on sand-based golf greens. Soils are considered severely water repellent if water droplets remain on the surface of undisturbed, air-dried soil samples for more than 600 seconds before penetrating. The objective of this research was to evaluate the potential of a surfactant to overcome SWR and restore turfgrass quality on a green with severe drought symptoms. The surfactant Aqueduct® was applied at a rate of 25 L ha−1 at weekly intervals from 4 June through 25 June 2008, either alone or after aeration with solid tines to 5 cm depth before each application. The experiment was irrigated uniformly corresponding to 1.65 times pan evaporation values from 4 June till 12 June, after which irrigation was not necessary due to natural rainfall. Conspicuous and statistically significant improvements in turfgrass quality occurred 10–12 days after the first application of surfactant, and the difference from untreated control plots continued to increase for about two and a half months after the completion of treatments. The improvement was accompanied by a significant increase in the SWC of the 0–20 cm soil layer and a deeper root system. The difference in WDPT between treated and untreated plots was significant at 1 cm, but not at 2, 3, 5 or 10 cm soil depths which were always far more water repellent than the thatch layer. Repeated aeration had no significant effect on turfgrass quality, and there was no significant interaction between surfactant and aeration treatments.
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Aamlid T.S., Larsbo M. & Jarvis N. 2009. Effects of surfactant use and peat amendment on leaching of fungicides and nitrate from golf greens. Biologia 64: 419–423.
Cisar J.L. 2001. Evaluation of Aquatrols Aqueduct® for recovery from localized dry spot. Research summary. http://www.aquatrols.com/Research/Aqueduct/Aqueduct-Cisar2000-21Dec06.pdf. Accessed 23 Nov. 2008.
Cisar J.L., Snyder R.H. & Snyder G.H. 1997. Alleviating soilwater repellency. Proceedings of the 8th International Turfgrass Research Conference 8: 139–145.
Cisar J.L., Williams K.E., Vives H.E. & Haydu J.J. 2000. The occurrence and alleviation by surfactants of soil-water repellency on sand-based turfgrass systems. J. Hydrol. 231–232:352–358.
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.
Dekker L.W., Oostindie K., Kostka S.J. & Ritsema C.J. 2005. Effects of surfactant treatments on the wettability of a water repellent grass-covered dune sand. Austral. J. Soil Res. 43:383–395.
Doerr S.H., Shakesby R.A. & Walsh R.P.D. 2000. Soil water repellency: its causes, characteristics and hydro-geomorphological significance. Earth Sci. Rev. 51: 33–65.
Fidanza, M.A. 2007. Characterization of soil properties associated with type-I fairy ring symptoms in turfgrass. Biologia 62: 533–536.
Karnok K.J & Tucker K.A. 1999. Dry spots return with summer. Golf Course Manag. 67: 49–52.
Karnok K.J & Tucker K.A. 2001. Fight localized dry spots through the roots: Using wetting agents to treat an entire green may be the best way to combat localized dry spots. Golf Course Manag. 69: 58–60.
Kostka S.J. 2000. Amelioration of water repellency in highly managed soils and the enhancement of turfgrass performance through the systematic application of surfactants. J. Hydrol. 231–232: 359–368.
Larsbo M., Aamlid T.S., Persson L. & Jarvis N. 2008. Fungicide leaching from golf greens: Effects of root zone composition and surfactant use. J. Envir. Qual. 37: 1527–1535.
Leinauer B., Karcher D., Barrick T., Ikemura Y., Hubble H. & Makk J. 2007. Water repellency in sandy rootzones treated with wetting agents. USGA Turfgrass and Environ. Res. Online 6(6). 9 pp.
Miller C. 2001. Comparing wetting agents: Long-term vs. shortterm. Golf Course Manag. 69: 60–64.
SAS Institute 2002. SAS/STAT user’s guide. Version 9.1. SAS Inst., Cary, NC.
Schlossberg M., Mcnitt A.S. & Fidanza M.A. 2005. Developemtn of water repellencuy in sand-based root zones. Inter. Turfgrass Soc. Res. J. 10: 1123–1130.
Throssell C. 2005. GCSAA-USGA wetting agent evaluation. USGA Turfgrass and Environ. Res. Online 4(15). 36 pp.
US Golf Association. 2004. Available at http://www.usga.org/turf/course_construction/green_articles/putting_green_guidelines.html (verified 6 Dec. 2008).
Wilkinson J.F. & Miller R.H. 1978. Investigation and treatment of localized dry spots on sand based golf greens. Agron. J. 70: 299–304.
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Aamlid, T.S., Espevig, T. & Kvalbein, A. The potential of a surfactant to restore turfgrass quality on a severely water-repellent golf green. Biologia 64, 620–623 (2009). https://doi.org/10.2478/s11756-009-0071-1
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DOI: https://doi.org/10.2478/s11756-009-0071-1