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Short-term residual effect of municipal sewage sludge on the soil properties and potato yield

Yıl 2022, Cilt: 11 Sayı: 2, 70 - 77, 13.12.2022
https://doi.org/10.21657/soilst.1218413

Öz

Sewage sludge (SS) is one of the significant wastes of modern city lifestyle with environmental consequences. This study was conducted to determine the effect of the municipal sewage sludge on the potato plant’s yield and nutrient elements and heavy metals content in a clay loam textured calcareous soil. The field treatment (corn-wheat-potato rotation) was implemented as fixed randomized blocks with 3 replications. The treatments were: control (without fertilizer), optimum fertilizer (OCF), 20, 40, 80, 100, and 120 ton ha-1 SS incorporation. The third-year results regarding the potato cultivation were presented. Results indicated that 4 ton ha-1 SS treatment resulted in a greater yield than the optimum fertilizer. The sewage sludge influenced the mineral nutrient composition of the leaves and the roots and the heavy metal concentrations in the plants were below the Turkish legal threshold values. Excessive application of SS had an inverse effect on the yield and reduced the essential nutrient concentrations of the leaves of the potato plants. This suggested that the residual effects of SS in the third year were considerable for either heavy metal concentrations or plant nutrients in the soil. Therefore, it can be concluded that a site-specific determination of the SS application rate is required to avoid potential deleterious effects of SS.

Kaynakça

  • Andreoli, C. V., Sperling, M., & Fernandes, F. (2007). Sludge treatment and disposal. Biological Wastewater Treatment Series, 6. IWA Publishing, London. https://library.oapen.org/handle/20.500.12657/31050.
  • Anonymous, (2001). Toprak kirliliğinin kontrolü yönetmeliği. Çevre ve Orman Bakanlığı, Ankara.
  • Bai, Y. C., Zang, C. Y., Gu, M. J., Gu, C. H., Shao, H. B., Guan, Y. X., Wang, X. K., Zhou, X. J., Shan, Y. H., & Feng, K. (2017). Sewage sludge as an initial fertility driver for rapid improvement of mudflat salt-soils. Science of the Total Environment, 578, 47-55. https:// doi:10.1016/j.scitotenv.2016.06.083.
  • Balanica, C. M. D., Simionescu, A. G., Birsan, I. G., Bichescu, C. I., & Muntenita, C. (2018). The assessment of using the sewage sludge in agriculture in Romania. Materiale Plastice, 55, 700-703. https://doi.org/ 10.37358/MP.18.4.5104.
  • Bertoncini, E. I., D’Orazio, V., Senesi, N., & Mattiazzo, M. E. (2008). Effects of sewage sludge amendment on the properties of two Brazilian oxisols and their humic acids. Bioresource Technology, 99(11), 4972–4979. https://doi.org/10.1016/j.biortech.2007.09.024.
  • Boeira, R.C. & Maximiliano, V.C.B. (2009). Organic nitrogen mineralization rate following the fifth sewage sludge application in an Oxisol. Revista Brasileira de Ciencia do Solo, 33(3), 711-722. https://doi.org/ 10.1590/s0100-06832009000300023.
  • Brazauskiene, D. M., Paulauskas, V., & Sabiene, N. (2008). Speciation of Zn, Cu, and Pb in the soil depending on soil texture and fertilization with sewage sludge compost. Journal of Soils and Sediments, 8, 184-192.https://doi. 10.1007/s11368-008-0004-6.
  • Chagas, J. K. M., de Figueiredo, C. C., & Paz-Ferreiro, J. (2021). Sewage sludge biochars effects on corn response and nutrition and on soil properties in a 5-yr field experiment. Geoderma, 401, 10, Article 115323. https://doi.org/10.1016/j.geoderma.2021.115323.
  • Clarke, B. O., & Smith, S.R. (2011). Review of ‘emerging’ organic pollutants in biosolids and assessment of international research priorities for the agricultural use and biosolids. Environment International, 37, 226– 247. https://doi.org/ 10.1016/j.envint.2010.06.004.
  • de Figueiredo, C. C., Pinheiro, T. D., de Oliveira, L. E. Z., de Araujo, A. S., Coser, T. R., & Paz-Ferreiro, J. (2020). Direct and residual effect of biochar derived from biosolids on soil phosphorus pools: A four-year field assessment. Science of the Total Environment, 739, 10, Article 140013. https://doi.org/10.1016/j.scitotenv.2020.140013.
  • de Figueiredo, C. C., Wickert, E. G., Neves, H. C. V., Coser, T. R., & Paz-Ferreiro, J. (2021). Sewage sludge biochar increases nitrogen fertilizer recovery: Evidence from a N-15 tracer field study. Soil Use and Management, 37(4), 689-697. https://doi.org/10.1111/sum.12672.
  • EC. (2010). Environmental, economic and social impacts of the use of sewage sludge on land. Final Report—Part III: Project Interim Reports. Eds. Milieu Ltd, WRc, RPA. part_iii_report.pdf (europa.eu).
  • Eid, E. M., Alrumman, S. A., El-Bebany, A. F., Fawy, K. F., Taher, M. A., Hesham, A. E., El-Shaboury, G. A., & Ahmed, M. T. (2018). The evaluation of sewage sludge application as a fertilizer for broad bean (Faba sativa Bernh.) crops. Food and Energy Security, 7(3), e00142. https://doi 10.1002/fes3.142.
  • Gedikoğlu, İ., Kalınbacak, K., Yurdakul, İ. & Yalçıklı, A. (1998). Bazı ağır metallerin topraktan extraksiyon yöntemlerinin karşılaştırılması ve buğday yetiştirilerek kalibrasyonu. KHGM. APK Daire Başkanlığı Toprak ve Su Kaynakları Araştırma Şube Müdürlüğü Yayınları yayın no:106. Ankara.
  • Güçdemir, İ. (2006). Türkiye gübre ve gübreleme rehberi (Güncelleştirilmiş ve Genişletilmiş 5. Baskı). Tarım ve Köyişleri Bakanlığı, Tarımsal Araştırmalar Genel Müdürlüğü, Toprak ve Gübre Araştırma Enstitüsü Müdürlüğü Yayınları, Ankara.
  • Hopkins, B. G., Stark, J. C., & Kelling, K.A. (2020). Nutrient management. In: J.C. Stark, M. Thornton & P. Nolte (Eds.), Potato production systems (pp: 155-202). Springer Nature Switserland AG, Cham. https://doi.org/10.1007/978-3-030-39157-7_8.
  • Kacar, B. & Inal, A. (2010). Bitki analizleri. Nobel Akademik Yayıncılık Eğitim Danışmanlık. ISBN 978-605-395036-3. Ankara.
  • Kacar, B. (2012). Toprak analizleri. Nobel Akademik Yayıncılık Eğitim Danışmanlık. ISBN 978-605-395-184-1. Ankara.
  • Kacar, B. (2013). Temel gübre bilgisi. Nobel Akademik Yayıncılık Eğitim Danışmanlık. ISBN 978-605-133-596-4. Ankara.
  • Kacar, B. (2014). Temel bitki besleme. Nobel Akademik Yayıncılık. ISBN 978-605-133-108-9. Ankara.
  • Kominko, H., Gorazda, K., Wzorek, Z., & Wojtas, K. (2018). Sustainable management of sewage sludge for the production of organo-mineral fertilizers. Waste and Biomass Valorization, 9(10), 1817-1826. https://doi.org/ 10.1007/s12649-017-9942-9
  • Kotowska, U., Żalikowski, M., & Isidorov, V.A. (2012). HS-SPME/ GC-MS analysis of volatile and semi-volatile organic compounds emitted from municipal sewage sludge. Environmental Monitoring and Assessment, 184, 2893–2907. https://doi.org/ 10.1007/s10661-011-2158-8
  • Latare, A. M., Kumar, O., Singh, S., & Gupta, A. (2014). Direct and residual effect of sewage sludge on yield, heavy metals content and soil fertility under rice-wheat system. Ecological Engineering, 69, 17–24. https://doi.org/10.1016/j.ecoleng.2014.03.066.
  • Lindsay, W. L. (2001) Chemical equilibria in soils. Blackburn Press, New Jersey.
  • Lindsay, W. L., & Norvell, W. A., (1978). Development of a DTPA soil test for zinc, iron, manganese and copper. Soil Science Society of America Journal, 42; 421- 428. Lopes, P. A. P., Pegoraro, R. F., Kondo, M. K., dos Santos, S. R., & Fernandes, L. A. (2020). Grain yield and microbiological quality of cowpea plants grown under residual effect of sewage sludge fertilization. Revista Caatinga, 33(1), 21-30. https://doi.org/10.1590/1983-21252020v33n103rc.
  • Mahdi, H. H. M., & Uygur, V. (2018). Effect some soil properties (organic matter, soil texture, lime) on the geochemical phosphorus fractions. Bionatura, 3(4). https://doi.org/ 10.21931/RB/2018.03.04.7.
  • Mahmoud, E., Ghoneim, A., El Baroudy, A., Abd El-Kader, N., Aldhumri, S. A., Othman, S., & El Khamisy, R. (2021). Effects of phosphogypsum and water treatment residual application on key chemical and biological properties of clay soil and maize yield. Soil Use and Management, 37(3), 494-503. https://doi.org/10.1111/sum.12583.
  • Mathews, J. A., & Tan, H. (2016). Lessons from China. Nature, 531, 440– 442. https://doi.org/10.1038/531440a.
  • Mujdeci, M., Simsek, S., & Uygur, V. (2017). The effects of organic amendments on soil water retention characteristics under conventional tillage system. Fresenius Environmental Bulletin, 26(6), 4075-4081.
  • Nogueira, T. A. R., Franco, A., He, Z. L., Braga, V. S., Firme, L. P., & Abreu-Junior, C. H. (2013). Short-term usage of sewage sludge as organic fertilizer to sugarcane in a tropical soil bears little threat of heavy metal contamination. Journal of Environmental Management, 114, 168-177. https://doi.org/ 10.1016/j.jenvman.2012.09.012.
  • Olsen, S. R., Cole, C. V., Watanabe, F. S., & Dean, L. A. (1954). Estimation of available phosphorus in soils by extraction with sodium bicarbonate. U.S. Department of Agriculture, Circ 939.
  • Oral A., & Uygur V. (2018). Effects of low-molecular-mass organic acids on P nutrition and some plant properties of Hordeum vulgare. Journal of Plant Nutrition, 41(11), 1482-1490. https://doi.org/ 10.1080/01904167.2018.1458866.
  • Ören, S., Uygur, V., & Sukuşu, E. (2018). Farklı özelliklerdeki topraklarda redoks potansiyelindeki değişimlerin Fe ve Mn yarayışlılığına etkisi. Mediterranean Agricultural Sciences, 31(3), 301-309. https://doi.org/10.29136/mediterranean.409050
  • Praspaliauskas, M., & Pedisius, N. (2017). A review of sludge characteristics in Lithuania's wastewater treatment plants and perspectives of its usage in thermal processes. Renewable & Sustainable Energy Reviews, 67, 899-907. https://doi.org/ 10.1016/j.rser.2016.09.041.
  • Reuter, D. J., & Robinson, J. B. (1986). Plant analysis: an interpretation manual. Inkata Press Melbourne-Sydney.
  • Şener, S., Gedikoğlu, İ, Bilgin, N, Güngör H., & Üstün, H. 1994. Çeşitli etkenlerle kirlenen sulama sularının toprak özelliklerine ve bitki verimine etkisi. KHGM APK Daire Başkanlığı ve Su Kaynakları Araştırma Şube Müdürlüğü, Yayın No: 80 Ankara.
  • Sharma, B., Sarkar, A., Singh, P., & Singh, R. P. (2017). Agricultural utilization of biosolids: A review on potential effects on soil and plant grown. Waste Management, 64, 117-132. https://doi.org/10.1016/j.wasman.2017.03.002.
  • Snyman, H. G., Terblanche, J. S., & van der Westhuizen, J. L. (2000). Management of land disposal and agricultural reuse of sewage sludge within the framework of the current South African guidelines. Water Science and Technology, 42(9), 13–20. https://doi.org/10.2166/wst.2000.0158.
  • Suanon, F., Sun, Q., Yang, X. Y., Chi, Q. Q., Mulla, S. I., Mama, D., & Yu, C. P. (2017). Assessment of the occurrence, spatiotemporal variations and geoaccumulation of fifty-two inorganic elements in sewage sludge: A sludge management revisit. Scientific Reports, 7, 5698. https://doi.org/ 10.1038/s41598-017-05879-9.
  • Thornton, M. (2020). Potato growth and development. In: J.C. Stark, M. Thornton and P. Nolte (Eds.) Potato production systems ( pp:19-34), Springer Nature Switserland AG, Cham.
  • Tian, G., Granato, T. C., Dinelli, F. D., & Cox, A. E. (2008). Effectiveness of biosolids in enhancing soil microbial populations and N mineralization in golf course putting greens. Applied Soil Ecology, 40(2), 381–386. https://doi.org/10.1016/j.apsoil.2008.06.005.
  • Tiruneh, A. T., Faridan, A. O., & Mtshali, J. S. (2014). Evaluation of the risk of heavy metals in sewage sludge intended for agricultural application in Swaziland. IJEST, 5(1), 197–206. https://doi.org/10.6088/ijes.2014050100017.
  • Usta, S. (1995) Toprak kimyası. Ankara Üniversitesi Ziraat Fakültesi Yayınları, Ankara.
  • Uygur, V., & Karabatak, İ. (2009). The effect of organic amendments on mineral phosphate fractions in calcareous soils. Journal of Plant Nutrition and Soil Science-Zeitschrift Fur Pflanzenernahrung Und Bodenkunde, 172(3), 336-345. https://doi.org/ 10.1002/jpln.200700326.
  • Uygur, V. (2009). Phosphate sorption in calcareous soils: the role of iron oxide and carbonates. Asian Journal of Chemistry, 21(4), 3001-3009.
  • Wang, X., Chen, T., Ge, Y., & Jia, Y. (2008). Studies on land application of sewage sludge and its limiting factors. Journal of Hazardous Materials, 160 (2–3), 554–558. https://doi.org/ 10.1016/j.jhazmat.2008.03.046.
  • Xu, G. (2014). Analysis of sewage sludge recovery system in EU—in perspectives of nutrients and energy recovery efficiency, and environmental impacts. Norwegian University of Science and Technology, Trondheim. http://hdl.handle.net/11250/235441.
  • Yurtsever, N. (1984). Deneysel istatistik metotları. Toprak ve Gübre Araştırma Enstitüsü Yayınları No 12. Ankara.
Yıl 2022, Cilt: 11 Sayı: 2, 70 - 77, 13.12.2022
https://doi.org/10.21657/soilst.1218413

Öz

Kaynakça

  • Andreoli, C. V., Sperling, M., & Fernandes, F. (2007). Sludge treatment and disposal. Biological Wastewater Treatment Series, 6. IWA Publishing, London. https://library.oapen.org/handle/20.500.12657/31050.
  • Anonymous, (2001). Toprak kirliliğinin kontrolü yönetmeliği. Çevre ve Orman Bakanlığı, Ankara.
  • Bai, Y. C., Zang, C. Y., Gu, M. J., Gu, C. H., Shao, H. B., Guan, Y. X., Wang, X. K., Zhou, X. J., Shan, Y. H., & Feng, K. (2017). Sewage sludge as an initial fertility driver for rapid improvement of mudflat salt-soils. Science of the Total Environment, 578, 47-55. https:// doi:10.1016/j.scitotenv.2016.06.083.
  • Balanica, C. M. D., Simionescu, A. G., Birsan, I. G., Bichescu, C. I., & Muntenita, C. (2018). The assessment of using the sewage sludge in agriculture in Romania. Materiale Plastice, 55, 700-703. https://doi.org/ 10.37358/MP.18.4.5104.
  • Bertoncini, E. I., D’Orazio, V., Senesi, N., & Mattiazzo, M. E. (2008). Effects of sewage sludge amendment on the properties of two Brazilian oxisols and their humic acids. Bioresource Technology, 99(11), 4972–4979. https://doi.org/10.1016/j.biortech.2007.09.024.
  • Boeira, R.C. & Maximiliano, V.C.B. (2009). Organic nitrogen mineralization rate following the fifth sewage sludge application in an Oxisol. Revista Brasileira de Ciencia do Solo, 33(3), 711-722. https://doi.org/ 10.1590/s0100-06832009000300023.
  • Brazauskiene, D. M., Paulauskas, V., & Sabiene, N. (2008). Speciation of Zn, Cu, and Pb in the soil depending on soil texture and fertilization with sewage sludge compost. Journal of Soils and Sediments, 8, 184-192.https://doi. 10.1007/s11368-008-0004-6.
  • Chagas, J. K. M., de Figueiredo, C. C., & Paz-Ferreiro, J. (2021). Sewage sludge biochars effects on corn response and nutrition and on soil properties in a 5-yr field experiment. Geoderma, 401, 10, Article 115323. https://doi.org/10.1016/j.geoderma.2021.115323.
  • Clarke, B. O., & Smith, S.R. (2011). Review of ‘emerging’ organic pollutants in biosolids and assessment of international research priorities for the agricultural use and biosolids. Environment International, 37, 226– 247. https://doi.org/ 10.1016/j.envint.2010.06.004.
  • de Figueiredo, C. C., Pinheiro, T. D., de Oliveira, L. E. Z., de Araujo, A. S., Coser, T. R., & Paz-Ferreiro, J. (2020). Direct and residual effect of biochar derived from biosolids on soil phosphorus pools: A four-year field assessment. Science of the Total Environment, 739, 10, Article 140013. https://doi.org/10.1016/j.scitotenv.2020.140013.
  • de Figueiredo, C. C., Wickert, E. G., Neves, H. C. V., Coser, T. R., & Paz-Ferreiro, J. (2021). Sewage sludge biochar increases nitrogen fertilizer recovery: Evidence from a N-15 tracer field study. Soil Use and Management, 37(4), 689-697. https://doi.org/10.1111/sum.12672.
  • EC. (2010). Environmental, economic and social impacts of the use of sewage sludge on land. Final Report—Part III: Project Interim Reports. Eds. Milieu Ltd, WRc, RPA. part_iii_report.pdf (europa.eu).
  • Eid, E. M., Alrumman, S. A., El-Bebany, A. F., Fawy, K. F., Taher, M. A., Hesham, A. E., El-Shaboury, G. A., & Ahmed, M. T. (2018). The evaluation of sewage sludge application as a fertilizer for broad bean (Faba sativa Bernh.) crops. Food and Energy Security, 7(3), e00142. https://doi 10.1002/fes3.142.
  • Gedikoğlu, İ., Kalınbacak, K., Yurdakul, İ. & Yalçıklı, A. (1998). Bazı ağır metallerin topraktan extraksiyon yöntemlerinin karşılaştırılması ve buğday yetiştirilerek kalibrasyonu. KHGM. APK Daire Başkanlığı Toprak ve Su Kaynakları Araştırma Şube Müdürlüğü Yayınları yayın no:106. Ankara.
  • Güçdemir, İ. (2006). Türkiye gübre ve gübreleme rehberi (Güncelleştirilmiş ve Genişletilmiş 5. Baskı). Tarım ve Köyişleri Bakanlığı, Tarımsal Araştırmalar Genel Müdürlüğü, Toprak ve Gübre Araştırma Enstitüsü Müdürlüğü Yayınları, Ankara.
  • Hopkins, B. G., Stark, J. C., & Kelling, K.A. (2020). Nutrient management. In: J.C. Stark, M. Thornton & P. Nolte (Eds.), Potato production systems (pp: 155-202). Springer Nature Switserland AG, Cham. https://doi.org/10.1007/978-3-030-39157-7_8.
  • Kacar, B. & Inal, A. (2010). Bitki analizleri. Nobel Akademik Yayıncılık Eğitim Danışmanlık. ISBN 978-605-395036-3. Ankara.
  • Kacar, B. (2012). Toprak analizleri. Nobel Akademik Yayıncılık Eğitim Danışmanlık. ISBN 978-605-395-184-1. Ankara.
  • Kacar, B. (2013). Temel gübre bilgisi. Nobel Akademik Yayıncılık Eğitim Danışmanlık. ISBN 978-605-133-596-4. Ankara.
  • Kacar, B. (2014). Temel bitki besleme. Nobel Akademik Yayıncılık. ISBN 978-605-133-108-9. Ankara.
  • Kominko, H., Gorazda, K., Wzorek, Z., & Wojtas, K. (2018). Sustainable management of sewage sludge for the production of organo-mineral fertilizers. Waste and Biomass Valorization, 9(10), 1817-1826. https://doi.org/ 10.1007/s12649-017-9942-9
  • Kotowska, U., Żalikowski, M., & Isidorov, V.A. (2012). HS-SPME/ GC-MS analysis of volatile and semi-volatile organic compounds emitted from municipal sewage sludge. Environmental Monitoring and Assessment, 184, 2893–2907. https://doi.org/ 10.1007/s10661-011-2158-8
  • Latare, A. M., Kumar, O., Singh, S., & Gupta, A. (2014). Direct and residual effect of sewage sludge on yield, heavy metals content and soil fertility under rice-wheat system. Ecological Engineering, 69, 17–24. https://doi.org/10.1016/j.ecoleng.2014.03.066.
  • Lindsay, W. L. (2001) Chemical equilibria in soils. Blackburn Press, New Jersey.
  • Lindsay, W. L., & Norvell, W. A., (1978). Development of a DTPA soil test for zinc, iron, manganese and copper. Soil Science Society of America Journal, 42; 421- 428. Lopes, P. A. P., Pegoraro, R. F., Kondo, M. K., dos Santos, S. R., & Fernandes, L. A. (2020). Grain yield and microbiological quality of cowpea plants grown under residual effect of sewage sludge fertilization. Revista Caatinga, 33(1), 21-30. https://doi.org/10.1590/1983-21252020v33n103rc.
  • Mahdi, H. H. M., & Uygur, V. (2018). Effect some soil properties (organic matter, soil texture, lime) on the geochemical phosphorus fractions. Bionatura, 3(4). https://doi.org/ 10.21931/RB/2018.03.04.7.
  • Mahmoud, E., Ghoneim, A., El Baroudy, A., Abd El-Kader, N., Aldhumri, S. A., Othman, S., & El Khamisy, R. (2021). Effects of phosphogypsum and water treatment residual application on key chemical and biological properties of clay soil and maize yield. Soil Use and Management, 37(3), 494-503. https://doi.org/10.1111/sum.12583.
  • Mathews, J. A., & Tan, H. (2016). Lessons from China. Nature, 531, 440– 442. https://doi.org/10.1038/531440a.
  • Mujdeci, M., Simsek, S., & Uygur, V. (2017). The effects of organic amendments on soil water retention characteristics under conventional tillage system. Fresenius Environmental Bulletin, 26(6), 4075-4081.
  • Nogueira, T. A. R., Franco, A., He, Z. L., Braga, V. S., Firme, L. P., & Abreu-Junior, C. H. (2013). Short-term usage of sewage sludge as organic fertilizer to sugarcane in a tropical soil bears little threat of heavy metal contamination. Journal of Environmental Management, 114, 168-177. https://doi.org/ 10.1016/j.jenvman.2012.09.012.
  • Olsen, S. R., Cole, C. V., Watanabe, F. S., & Dean, L. A. (1954). Estimation of available phosphorus in soils by extraction with sodium bicarbonate. U.S. Department of Agriculture, Circ 939.
  • Oral A., & Uygur V. (2018). Effects of low-molecular-mass organic acids on P nutrition and some plant properties of Hordeum vulgare. Journal of Plant Nutrition, 41(11), 1482-1490. https://doi.org/ 10.1080/01904167.2018.1458866.
  • Ören, S., Uygur, V., & Sukuşu, E. (2018). Farklı özelliklerdeki topraklarda redoks potansiyelindeki değişimlerin Fe ve Mn yarayışlılığına etkisi. Mediterranean Agricultural Sciences, 31(3), 301-309. https://doi.org/10.29136/mediterranean.409050
  • Praspaliauskas, M., & Pedisius, N. (2017). A review of sludge characteristics in Lithuania's wastewater treatment plants and perspectives of its usage in thermal processes. Renewable & Sustainable Energy Reviews, 67, 899-907. https://doi.org/ 10.1016/j.rser.2016.09.041.
  • Reuter, D. J., & Robinson, J. B. (1986). Plant analysis: an interpretation manual. Inkata Press Melbourne-Sydney.
  • Şener, S., Gedikoğlu, İ, Bilgin, N, Güngör H., & Üstün, H. 1994. Çeşitli etkenlerle kirlenen sulama sularının toprak özelliklerine ve bitki verimine etkisi. KHGM APK Daire Başkanlığı ve Su Kaynakları Araştırma Şube Müdürlüğü, Yayın No: 80 Ankara.
  • Sharma, B., Sarkar, A., Singh, P., & Singh, R. P. (2017). Agricultural utilization of biosolids: A review on potential effects on soil and plant grown. Waste Management, 64, 117-132. https://doi.org/10.1016/j.wasman.2017.03.002.
  • Snyman, H. G., Terblanche, J. S., & van der Westhuizen, J. L. (2000). Management of land disposal and agricultural reuse of sewage sludge within the framework of the current South African guidelines. Water Science and Technology, 42(9), 13–20. https://doi.org/10.2166/wst.2000.0158.
  • Suanon, F., Sun, Q., Yang, X. Y., Chi, Q. Q., Mulla, S. I., Mama, D., & Yu, C. P. (2017). Assessment of the occurrence, spatiotemporal variations and geoaccumulation of fifty-two inorganic elements in sewage sludge: A sludge management revisit. Scientific Reports, 7, 5698. https://doi.org/ 10.1038/s41598-017-05879-9.
  • Thornton, M. (2020). Potato growth and development. In: J.C. Stark, M. Thornton and P. Nolte (Eds.) Potato production systems ( pp:19-34), Springer Nature Switserland AG, Cham.
  • Tian, G., Granato, T. C., Dinelli, F. D., & Cox, A. E. (2008). Effectiveness of biosolids in enhancing soil microbial populations and N mineralization in golf course putting greens. Applied Soil Ecology, 40(2), 381–386. https://doi.org/10.1016/j.apsoil.2008.06.005.
  • Tiruneh, A. T., Faridan, A. O., & Mtshali, J. S. (2014). Evaluation of the risk of heavy metals in sewage sludge intended for agricultural application in Swaziland. IJEST, 5(1), 197–206. https://doi.org/10.6088/ijes.2014050100017.
  • Usta, S. (1995) Toprak kimyası. Ankara Üniversitesi Ziraat Fakültesi Yayınları, Ankara.
  • Uygur, V., & Karabatak, İ. (2009). The effect of organic amendments on mineral phosphate fractions in calcareous soils. Journal of Plant Nutrition and Soil Science-Zeitschrift Fur Pflanzenernahrung Und Bodenkunde, 172(3), 336-345. https://doi.org/ 10.1002/jpln.200700326.
  • Uygur, V. (2009). Phosphate sorption in calcareous soils: the role of iron oxide and carbonates. Asian Journal of Chemistry, 21(4), 3001-3009.
  • Wang, X., Chen, T., Ge, Y., & Jia, Y. (2008). Studies on land application of sewage sludge and its limiting factors. Journal of Hazardous Materials, 160 (2–3), 554–558. https://doi.org/ 10.1016/j.jhazmat.2008.03.046.
  • Xu, G. (2014). Analysis of sewage sludge recovery system in EU—in perspectives of nutrients and energy recovery efficiency, and environmental impacts. Norwegian University of Science and Technology, Trondheim. http://hdl.handle.net/11250/235441.
  • Yurtsever, N. (1984). Deneysel istatistik metotları. Toprak ve Gübre Araştırma Enstitüsü Yayınları No 12. Ankara.
Toplam 48 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Ziraat, Veterinerlik ve Gıda Bilimleri
Bölüm Research Articles
Yazarlar

Mehmet Keçeci Bu kişi benim 0000-0003-1665-4677

Mustafa Usul Bu kişi benim 0000-0003-0410-642X

İbrahim Gücdemir Bu kişi benim 0000-0002-3402-5164

Veli Uygur Bu kişi benim 0000-0003-3971-7714

Yayımlanma Tarihi 13 Aralık 2022
Yayımlandığı Sayı Yıl 2022 Cilt: 11 Sayı: 2

Kaynak Göster

APA Keçeci, M., Usul, M., Gücdemir, İ., Uygur, V. (2022). Short-term residual effect of municipal sewage sludge on the soil properties and potato yield. Soil Studies, 11(2), 70-77. https://doi.org/10.21657/soilst.1218413