This research was column pot experiment with turfgrass was Kentucky bluegrass (Poa pratensis) plant irrigated saline irrigation and the column soaked in saline water. Rootzone profile consisted of 20 cm using saline lake dredged up sand. The sand amendments of the root zone were soil, zeolite, bottom ash, and peat. The mixtures of topsoil were; 90% sand + 10% peat moss, 80% sand + 10% soil + 10 % bottom ash, 80% sand + 20% soil, 90% sand + 5% peat + 5% zeolite, and 80% sand + 20% bottom ash. Interruption layer with coarse sand with diameters over 2 mm of 20 cm and 10 cm loamy soil as the bottom layer of the column. The result showed that Kentucky bluegrass could grow in sand based growing media amended by peat, sandy loam soils, bottom ash and zeolite being irrigated by 2 dS m^-1 saline water. Sand-based growing media amended by peat resulted in the highest clipping weigh but showed the highest salt accumulations. Sand amended by bottom ash and applied gypsum decreased clipping weigh, decreased SAR and increased calcium (Ca) when compared to the soil + peat (SP).  Sand amended by zeolite and gypsum decreased clipping weight, decreased sodium adsorption ratio (SAR) and higher Ca. Higher soil moisture retention of growing media promoted the growth of Kentucky bluegrass in spring, and lower moisture content promoted the growth in summer and fall season.

amendment; salinity; turfgrass; water content

Ahmad, P., Azooz, M. M., & Prasad, M. N. V. (2013). Ecophysiology and Responses of Plants under Salt Stress (P. Ahmad, M. M. Azooz, & M. N. V. Prasad, Eds.). New York: Springer 10.1007/978-1-4614-4747-4

Al-Busaidi, A., Yamamoto, T., Inoue, M., Eneji, A. E., Mori, Y., & Irshad, M. (2008). Effects of Zeolite on Soil Nutrients and Growth of Barley Following Irrigation with Saline Water. Journal of Plant Nutrition, 31(7), 1159–1173. 10.1080/01904160802134434

Barrett-Lennard, E. G. (2003). The interaction between waterlogging and salinity in higher plants: causes, consequences, and implications. Plant and Soil, 253(1), 35–54. 10.1023/A:1024574622669

Bigelow, C. A., Bowman, D. C., Cassel, D. K., & Rufty, T. W. (2001). Creeping Bentgrass Response to Inorganic Soil Amendments and Mechanically Induced Subsurface Drainage and Aeration. Crop Science, 41(3), 797–805.

Buck, J. K., CPSSc, & Labuz, L. L. (2005). Bottom Ash Fines as a Soil Amendment for Turfgrass and Site Closure-Laboratory and Mesocosm Studies at PPL Brunner Island and Montour Steam Electric Station. Retrieved from http://www.flyash.info

Corwin, D. L., & Lesch, S. M. (2003). Application of Soil Electrical Conductivity to Precision Agriculture. Agronomy Journal, 95(3), 455–471. 10.2134/agronj2003.0455

Haisheng, H., Wenjie, W., Hong, Z., Yuangang, Z., Zhonghua, Z., Yu, G., … Xingyang, Y. (2008). Influences of addition of different krilium in saline-sodic soil on the seed germination and growth of cabbage. Acta Ecologica Sinica, 28(11), 5338–5346. 10.1016/S1872-2032(09)60009-3

Harivandi, M. A., Butler, J. D., & Wu, L. (1992). Salinity and Turfgrass Culture. In Turfgrass- Agronomy Monograph USA: American Society of Agronomy, Crop Science Society of America, Soil Science Society of America (pp. 207–229). 10.2134/agronmonogr32.c6

Huang, Z. T., & Petrovic, A. M. (1994). Physical Properties of Sand as Affected by Clinoptilolite Zeolite Particle Size and Quantity. Journal of Turfgrass Management, 1(1), 1–15. 10.1300/J099v01n01_01

Ilyas, M., Miller, R. W., & Qureshi, R. H. (1993). Hydraulic Conductivity of Saline-Sodic Soil after Gypsum Application and Cropping. Soil Science Society of America Journal, 57(6), 1580–1585. 10.2136/sssaj1993.03615995005700060031x

Johnson, C. A., & Furrer, G. (2002). Influence of Biodegradation Processes on The Duration of CaCO3 as a pH Buffer in Municipal Solid Waste Incinerator Bottom Ash. Environmental Science & Technology, 36(2), 215–220.

Kjelgren, R., Rupp, L., & Kilgren, D. (2000). Water Conservation in Urban Landscapes. Hort. Science, 35(6), 1037–1040.

Korcak, R. F. (1995). Utilization of Coal Combustion by-Products in Agriculture and Horticulture. In D. L. Karlen, R. J. Wright, & W. O. Kemper (Eds.), Agricultural Utilization of Urban and Industrial By-Products. USA: American Society of Agronomy, Crop Science Society of America, Soil Science Society of America (pp. 107–130).

Läuchli, A., & Grattan, S. R. (2014). Plant Abiotic Stress: Salt. In Encyclopedia of Agriculture and Food Systems (pp. 313–329). 10.1016/B978-0-444-52512-3.00171-6

Lim, M., Han, G.-C., Ahn, J.-W., & You, K.-S. (2010). Environmental remediation and conversion of carbon dioxide (CO(2)) into useful green products by accelerated carbonation technology. International Journal of Environmental Research and Public Health, 7(1), 203–228. 10.3390/ijerph7010203

Mancino, C. F., & Pepper, I. L. (1992). Irrigation of Turfgrass with Secondary Sewage Effluent: Soil Quality. Agronomy Journal, 84(4), 650.

Marcum, K. B. (2006). Use of saline and non-potable water in the turfgrass industry: Constraints and developments. Agricultural Water Management, 80(1–3), 132–146.

McCoy. (2006). Golf Course Soils and Water Science. USA: Ohio State Univ.

Miyamoto, S., Chacon, A., Hossain, M., & Martinez, I. (2005). Soil Salinity of Urban Turf Areas Irrigated with Saline Water I. Spatial Variability. Landscape and Urban Planning, 71(2–4), 233–241. 10.1016/j.landurbplan.2004.03.006

Mzezewa, J., Gotosa, J., & Nyamwanza, B. (2003). Characterisation of A Sodic Soil Catena for Reclamation and Improvement Strategies. Geoderma, 113(1–2), 161–175. 10.1016/S0016-7061(02)00337-3

Ok, C.-H., Anderson, S. H., & Ervin, E. H. (2003). Amendments and Construction Systems for Improving the Performance of Sand-Based Putting Greens. Agronomy Journal, 95(6), 1583–1590. 10.2134/agronj2003.1583

Qian, Y. L., Wilhelm, S. J., & Marcum, K. B. (2001). Comparative Responses of Two Kentucky Bluegrass Cultivars to Salinity Stress. Crop Science, 41(6), 1895–1900. 10.2135/cropsci2001.1895

Rytwo, G., Banin, A., & Nir, S. (1996). Exchange Reactions in the Ca-Mg-Na-Montmorillonite System. Clays and Clay Minerals, 44(2), 276–285. 10.1346/CCMN.1996.0440212

Shainberg, I., Sumner, M. E., Miller, W. P., Farina, M. P. W., Pavan, M. A., & Fey, M. V. (1989). Use of Gypsum on Soils: A Review. In B.. Stewart (Ed.), Advances in Soil Science. New York: Springer (pp. 1–111). 10.1007/978-1-4612-3532-3_1

Silvertooth, J. C. (2001). Saline and Sodic Soil Identification and Management for Cotton. Retrieved June 29, 2019, from University of Arizona website: https://cals.arizona.edu/crop/cotton/soilmgt/saline_sodic_soil.html

Thiel, G., Lynch, J., & Läuchli, A. (1988). Short-term Effects of Salinity Stress on the Turgor and Elongation of Growing Barley Leaves. Journal of Plant Physiology, 132(1), 38–44. 10.1016/S0176-1617(88)80180-9

Thompson, R. B., Gallardo, M., Fernández, M. D., Valdez, L. C., & Martínez-Gaitán, C. (2007). Salinity Effects on Soil Moisture Measurement Made with a Capacitance Sensor. Soil Science Society of America Journal, 71, 1647–1657. 10.2136/sssaj2006.0309

Waltz, F. C., Quisenberry, V. L., & McCarty, L. B. (2003). Physical and Hydraulic Properties of Rootzone Mixes Amended with Inorganics for Golf Putting Greens. Agronomy Journal, 95(2), 395–404.

Wasura, J. P., & Petrovic, A. M. (2001). Physical stability of inorganic amendments used in turfgrass rootzones. Int. Turfgrass Soc. J. Research, 9, 637–641.

Wilhelm, S., Alshammary, S., & Qian, Y. (2010). Establishment, Growth and Irrigation Requirements of Kentucky Bluegrass and Tall Fescue as Influenced by Two Irrigation Water Sources. Research Journal of Environmental Sciences, 4(5), 443–451. 10.3923/rjes.2010.443.451

Yoon, Y. B., & Lee, J. S. (1992). The Growth and Thatch Accumulation of Kentucky Bluegrasses As Affected By Cutting Management 1. Varietal Differences Under Removing Clipping Residues. Korea Journal of Turfgrass Science, 6(1), 29–37.