ORHAN YÜKSEL
(Tekirdağ Namık Kemal University, Agricultural Faculty, Department of Soil Science and Plant Nutrition, 59030 Tekirdağ, Turkey)
Yasemin KAVDIR
(Çanakkale Onsekiz Mart University,Agricultural Faculty, Department of Soil Science and Plant Nutrition, 17020 Çanakkale, Turkey)
Yıl: 2020Cilt: 8Sayı: 3ISSN: 2148-127X / 2148-127XSayfa Aralığı: 603 - 609İngilizce

0 0
Improvement of Soil Quality Parameters by Municipal Solid Waste Compost Application in Clay-Loam Soil
Organic matter (OM) content of the soils should be improved for sustainable productions. Municipal solid waste compost (MSWC) is an organic material used in several countries to improve soil OM contents. This study was conducted to determine potential use of MSWC as soil amendment. Field experiments were conducted for two years with single MSWC treatments. Experiments were conducted on 18 plots in randomized complete blocks design with 3 replications. Six different MSWC doses (0, 40, 80, 120, 160 and 200 t ha-1 ) were applied to experimental plots. Compost doses were calculated in dry weight basis, applied to 21 m2 plots and sunflower was sown as the experimental plant of the study. Following the sunflower harvest, disturbed and undisturbed soil samples were taken from the experimental plots and soil samples were subjected to various analyses. Applied MSWC doses significantly increased soil OM contents, electrical conductivity (EC) and cation exchange capacity (CEC), aggregate stability (AS) and saturated hydraulic conductivity (Ksat) and reduced soil bulk density (BD). Effects of MSWC on soil pH were not found to be significant. Effects of MSWC treatments were more remarkable with increasing doses. MSWC treatments increased soil OM contents about 3 folds and increased CEC by about 25%. MSWC treatments significantly increased salt contents of the soils. Such increases were found to be significant at 1% level in the first year and 5% level in the second year. Increasing OM contents also increase soil aggregation, thus reduced bulk density and increased hydraulic conductivity. Correlation analysis revealed significant correlations between OM and AS. Present findings revealed that MSWC positively influenced physical and chemical characteristics of clay-loam soils of arid and arid climates, but salt contents should carefully be monitored in repetitive uses.
DergiAraştırma MakalesiErişime Açık
  • Albiach R, Canet, R, Pomares, F, Ingelmo, F. 2001. Organic matter components and aggregate stability after the application of different amendments to a horticultural soil. Bioresource Technology, 76 (2): 125-129.
  • Alvarenga P, Mourinha C, Farto M, Santos T, Palma P, Sengo J, Morais MC, Cunha-Queda C. 2015. Sewage sludge, compost and other representative organic wastes as agricultural soil amendments: benefits versus limiting factors. Waste Management, 40: 44-52.
  • Amlinger F, Peyr S, Geszit J, Dreher P, Weinfurtner K, Nortcliff S. 2007. Beneficial Effects of Compost Application on Fertility and Productivity of Soils: A Literature Study. Federal Ministry for Agriculture and Forestry, Environment and Water Management, Vienna, Austria.
  • Annabi M, Houot S, Francou C, Poitrenaud M, Bissonnais YL. 2007. Soil aggregate stability improvement with urban composts of different maturities. Soil Sci.Soc. Amer. J., 71: 413-423.
  • Atagana IH, Haynes RJ, Wallis FM. 2003. Co-Composting of Soil Heavily Contaminated with Creosote with Cattle Manure and Vegetable Waste for the Bioremediation of CreosoteContaminated Soil. Soil and Sediment Contamination, 12: 885-899.
  • Bastida F, Moreno JL, Garcia C, Hernández T. 2007. Addition of urban waste to semiarid degraded soil: long-term effect. Pedosphere, 17(5): 557-567.
  • Blake GR, Hartge KH. 1986. Bulk Density, (Ed: Klute, A.), Methods of Soil Analysis, Part 1. Physical and Mineralogical Methods. Soil Science Society of America, Madison, p. 363- 375.
  • Carbonell G, De Imperial RM, Torrijos M, Delgado M, Rodriguez JA. 2011. Effects of municipal solid waste compost and mineral fertilizer amendments on soil properties and heavy metals distribution in maize plants (Zea mays L.). Chemosphere, 85: 1614-1623.
  • Civeira G. 2010. Influence of municipal solid waste compost on soil properties and plant reestablishment in Peri-Urban environments. Chilean J. Agricultural Research, 70 (3): 447- 453.
  • Crecchio C, Curci M, Mininni R, Ricciuti P, Ruggiero P. 2001. Short-term effects of municipal solid waste compost amendments on soil carbon and nitrogen content, some enzyme activities and genetic diversity. Biology and Fertility of Soils, 34: 311-318.
  • Diacono M, Montemurro F. 2010. Long-term effects of organic amendments on soil fertility. A review. Agronomy for sustainable development, 30 (2): 401-422.
  • EAWAG 1970. Methoden zur Untersuchung Von Abfallstoffen Abteilung für Müllforschung, Schweiz-8600, Düberdorf.
  • Eibisch N, Durner W, Bechtold M, Fuß R, Mikutta R, Woche SK, Helfrich M. 2015. Does water repellency of pyrochars and hydrochars counter their positive effects on soil hydraulic properties?. Geoderma, 245: 31-39.
  • Erhart E, Hartl W. 2010. Compost use in organic farming, (Ed: Lichtfouse E.), Genetic Engineering, Biofertilisation, Soil Quality and Organic Farming. Springer, Netherlands. p. 311- 345.
  • Füleky G, Benedek S. 2010. Composting to recycle biowaste, (Ed: Lichtfouse, E.), Sociology, Organic Farming, Climate Change and Soil Science, Springer, Netherlands, p. 319-346.
  • Gallardo-Lara F, Nogales R. 1987. Effect of the application of town refuse compost on the soil-plant system: a review. Biological Wastes, 19: 35-62.
  • Gee GW, Bauder JW. 1986. Particle-size analysis, (Ed: Klute A.), Methods of soil analysis. Part I: Physical and mineralogical methods. Am. Soc. Agronomy, Madison, p. 383-412.
  • Hamidpour M, Afyuni M, Khadivi E, Zorpas A, Inglezakis V. 2012. Composted municipal waste effect on chosen properties of calcareous soil. Int. Agrophysics, 26: 365–374.
  • Hargreaves JC, Adl MS, Warman PR. 2008. A review of the use of composted municipal solid waste in agriculture. Agr. Ecosyst. Environment, 123: 1-14.
  • Hemmat A, Aghilinategh N, Rezainejad Y, Sadeghi M. 2010. Long-term impacts of municipal solid waste compost, sewage sludge and farmyard manure application on organic carbon, bulk density and consistency limits of a calcareous soil in central Iran. Soil and Tillage Research, 108 (1): 43-50.
  • Hicklenton PR, Rodd V, Warman PR. 2001. The effectiveness and consistency of source-separated municipal solid waste and bark composts as components of container growing media. Sci. Hortic., 91: 365-378.
  • ISTAC 2018. Evaluation of Organic Wastes. http://www.istac.istanbul/en/clean-istanbul/domesticwastes/regaining-compost (accessed 25.06.2017).
  • Karami A, Homaee M, Afzalinia S, Ruhipour H, Basirat S. 2012. Organic resource management: impacts on soil aggregate stability and other soil physico-chemical properties. Agric. Ecosyst. Environ., 148: 22-28.
  • Kavdir Y, Ilay R, Camci Cetin S, Buyukcan MB, Kavdir I. 2020. Monitoring composting process of olive oil solid waste using FT-NIR spectroscopy. Communications in Soil Science and Plant Analysis, 1-13.
  • Kavdır Y, Killi D. 2008. Influence of olive oil solid waste applications on soil pH, electrical conductivity, soil nitrogen transformations, carbon content and aggregate stability. Bioresource Technology, 99: 2326–2332.
  • Kemper WD, Rosenau RC. 1986. Aggregate stability and size distribution, (Ed: Klute, A.), Methods of Soil Analysis, Part 1-Physical and Mineralogical Methods. SSSA, Madison, p. 425-442.
  • Klute A, Dirksen C. 1996. Hydraulic Conductivity and Diffusivity: Laboratory Methods, (Ed: Klute A.), Methods of Soil Analysis, Part 1-Physical and Mineralogical Methods. SSSA, Madison, Wisconsin, p. 687-734.
  • Leroy BLM, Herath HMSK, Sleutel S, De Neve S, Gabriels D, Reheul D, Moens M. 2008. The quality of exogenous organic matter: short-term effects on soil physical properties and soil organic matter fractions. Soil Use and Management, 24: 139- 147.
  • Loeppert RH, Suarez DL. 1996. Carbonate and Gypsum, (Ed: Sparks, DL.), Methods of Soil Analysis, Part 3-Chemical Methods, SSSA, Madison, Wisconsin, p. 437-474.
  • Loveland P, Webb J. 2003. Is there a critical level of organic matter in the agricultural soils of temperate regions: a review. Soil and Tillage Research, 70 (1): 1-18.
  • Mylavarapu RS, Zinati GM. 2009. Improvement of soil properties using compost for optimum parsley production in sandy soils. Scientia Horticulturae, 120 (3): 426-430.
  • Nelson DW, Sommers LE. 1996. Total Carbon, Organic Carbon, and Organic Matter, (Ed: Sparks, DL.), Methods of Soil Analysis, Part 3-Chemical Methods. SSSA, Madison, Wisconsin, p. 961-1010.
  • Neves L, Ferreira V, Oliveira R. 2009. Co-composting cow manure with food waste: The influence of lipids content. World Academy of Science, Engineering and Technology, 34: 986-991.
  • Ozcan H, Ekinci H, Yuksel O, Kavdir Y, Kaptan H. 2004. Dardonos Yerleşkesi Toprakları. ÇOMU Ziraat Fakultesi, Canakkale.
  • Pedra F, Polo A, Ribeiro A, Domingues H. 2007. Effects of municipal solid waste compost and sewage sludge on mineralization of soil organic matter. Soil Biol. Biochemistry, 39: 1375-1382.
  • Piccolo A, Zaccheo P, Genevini PG. 1992. Chemical characterization of humic substances extracted from organicwaste-amended soils. Bioresource Technology, 40 (3): 275- 282.
  • Sanchez A, Gabarrell X, Artola A, Barrena R, Colon J, Font X, Komilis D. 2016. Composting of Wastes, (Eds: Taherzadeh MJ, Richards T.), Resource Recovery to Approach Zero Municipal Waste. CRC Press, Boca Raton (FL), p. 77-116.
  • Soil Survey Staff. 1996. Keys to soil taxonomy, 7th ed. U.S. Gov. Print. Office, Washington, DC.
  • Steel RGD, Torrie JH. 1960. Principles and Procedures of Statistics with Special Reference to the Biological Approach. McGraw-Hill, New York.
  • Sumner ME, Miller WP. 1996. Cation Exchange Capacity and Exchange Coefficients, (Ed: Sparks, DL.), Methods of Soil Analysis, Part 3-Chemical Methods, SSSA, Madison, Wisconsin, p. 1201-1229.
  • Sutherland RA. 1998. Loss-on-ignition estimates of organic matter and relationships to organic carbon in fluvial bed sediments. Hydrobiologia, 389 (1): 153-167.
  • Tejada M, Gonzalez JL. 2007. Influence of organic amendments on soil structure and soil loss under simulated rain. Soil and Tillage Research, 93 (1): 197-205.
  • TUIK. 2017. Turkish Statistical Institute, Statistics of Waste Disposal and Recovery Facilities 2016. Ankara, Turkey. http://www.tuik.gov.tr/PreHaberBultenleri.do?id=24877 (accessed 16.06.2018).
  • Weber J, Karczewska A, Drozd J, Licznar M, Licznar S, Jamroz E. 2007. Agricultural and ecological aspects of a sandy soil as affected by the application of municipal solid waste composts, Soil Biology and Biochemistry, 39: 1294-1302.
  • Weber J, Kocowicz A, Bekier J, Jamroz E, Tyszka R, Debicka M, Parylak D, Kordas L. 2014. The effect of a sandy soil amendment with municipal solid waste (MSW) compost on nitrogen uptake efficiency by plants. Eur J Agron., 54: 54-60
  • Westerman PW, Bicudo JR. 2005. Management considerations for organic wastes use in agriculture. Bioresource Technology, 96: 215-221.
  • Yazdanpanah N, Mahmoodabadi M, Cerdà A. 2016. The impact of organic amendments on soil hydrology, structure and microbial respiration in semiarid lands. Geoderma, 266: 58-65.
  • Yuksel O, Kavdir Y, Bahtiyar M. 2004. The effect of municipal waste compost on physical characteristics of clay soils. Fresenius Environmental Bulletin, 13 (11): 1094-1098.
  • Yuksel O, Turhan H, Kavdir Y. 2011. Çanakkale koşullarında çöp kompostunun ayçiçeği tarımında kullanılması. Çanakkale Tarımı Sempozyumu (Dünü, Bugünü ve Geleceği). ÇOMÜ. Ziraat Fakültesi, Çanakkale, Turkey, p. 453-45 (in Turkish)
  • Yuksel O. 2012. Effect of Waste Compost on Physical Properties in Xerofluvent Soils. Journal of Tekirdag Agricultural Faculty, 9(2): 92-97.
  • Yuksel O. 2015. Influence of municipal solid waste compost application on heavy metal content in soil, Environmental Monitoring and Assessment, 187:313–320
  • Zamani J, Afyuni M, Sepehrnia N, Schulin R. 2016. Opposite effects of two organic wastes on the physical quality of an agricultural soil. Archives of Agronomy and Soil Science, 62(3): 413-427.
  • Zhang M, Heaney D, Henriquez B, Solberg E, Bittner E. 2006. A Four-Year Study on Influence of Biosolids/MSW Cocompost Application in Less Productive Soils in Alberta: Nutrient Dynamics. Compost Science and Utilization, 14: 68-80.
  • Zheljazkov V, Warman PR. 2004. Source-separated municipal soil waste compost application to Swiss chard and basil. J. Environ. Qual., 33: 542-552.

TÜBİTAK ULAKBİM Ulusal Akademik Ağ ve Bilgi Merkezi Cahit Arf Bilgi Merkezi © 2019 Tüm Hakları Saklıdır.