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The study aimed at elucidating the utilization of coal fly ash and oil palm empty fruit bunch compost to improve the soil phosphorus uptake and yield of maize grown on Ultisol. The investigation was carried out in a greenhouse. The treatments tested were a combination of four coal fly ash doses (0, 20, 40, and 80 t ha-1) and three doses of oil palm empty fruit bunch compost (0, 10, and 20 t ha-1). At 2, 4, 6 and 8 weeks after planting, plant height, leaf number and stem diameter were observed. At the time of harvest (10 weeks after planting), fresh and dry weights of cobs, roots, stem, leaves, and seeds, as well as P uptake on the plant tissues, were observed. The results showed that the application of coal fly ash and oil palm empty fruit bunch compost significantly increased the P uptake, growth and yield of maize. The combination of 80 t coal fly ash ha-1 with 20 t oil palm empty fruit bunch compost ha-1 resulted in the highest P uptake, growth and yield of maize. Compared to the control treatment, the increase in P uptake by maize, the fresh cob weight, the dry cob weight, the biomass dry weight, and the dry seed weight were 303.23%, 285.39%, 364.91%, 329.59% and 1,591.70%, respectively.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
36--43
Opis fizyczny
Bibliogr. 39 poz., tab.
Twórcy
autor
- Department of Agroecotechnology, Faculty of Agriculture, Mulawarman University, Jl. Paser Belengkong, Samarinda, East Kalimantan, Indonesia
autor
- Department of Soil Science, Faculty of Agriculture, Brawijaya University, Jl. Veteran, Malang, East Java 65145, Indonesia
autor
- Department of Soil Science, Faculty of Agriculture, Brawijaya University, Jl. Veteran, Malang, East Java 65145, Indonesia
autor
- Research Centre for the Management of Degraded and Mining Lands, Brawijaya University, Jl. Veteran, Malang, East Java 65145, Indonesia
Bibliografia
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- 3. ASTM (American Society for Testing and Materials). 1988. Annual Book of ASTM Standards. Section 4: Construction. Vol.01.01: Cement, Lime, Gypsum
- 4. Bakar, R.A., Razak, Z.A., Ahmad, S.H., Seh-Bardan, B.J., Tsong, L.C., Meng, C.P. 2015. Influence of oil palm empty fruit bunch biochar on floodwater pHand yieldcomponents of rice cultivated on acid sulphate soilunder Rice Intensification Practices. Plant Production Science, 18(4), 491-500, https://doi.org/10.1626/pps.18.491.
- 5. Balemi, T., Negisho, K. 2012. Management of soil phosphorus and plant adaptation mechanisms to phosphorus stress for sustainable crop production: a review. Journal of Soil Science and Plant Nutrition, 12(3), 547-562, https://doi.org/10.4067/S0718-95162012005000015.
- 6. Bharti, B., Matte, D.B., Badole, W.P., Deshmukh, A. 2000. Effect of fly ash on yield, uptake of nutrients and quality of green gram grown on a Vertisol. Journal of Soils and Crops, 10, 122-124.
- 7. Budianta, D., Wiralaga, A.Y.A., Wahana, L. 2010. Changes in some soil chemical properties of Ultisol applied by mulch from empty fruit bunches in an oil palm plantation. Journal of Tropical Soils, 15 (2), 111-118, https://doi.org/10.5400/jts.2010.15.2.111.
- 8. Chaves, L.H.G., Estrela, M.A., de Souza, R.S. 2011. Effect on plant growth and heavy metal accumulation by sunflower. Journal of Phytology, 3(12), 4-9.
- 9. Ekpo, F.E., Okey, E.N., Asuquo, M.E. (2014). Effect of oil palm empty fruit bunches amendments in crude oil polluted soil on germination and growth performance of white mangrove species (Laguncularia racemosa). European Environmental Sciences and Ecology Journal, 1(1): 19-28.
- 10. Ermadani, M., Muzar, A. 2011. Effect of oil palm mill effluent application on soybean yield and changes in soil chemical properties of Ultisol. Indonesian Journal of Agronomy, 39(3), 160-167, http://dx.doi.org/10.24831/jai.v39i3.14959 (in Indonesian).
- 11. Fahrunsyah, Kusuma, Z., Prasetya, B., Handayanto, E. 2018. Improvement of some chemical properties of an Ultisol of East Kalimantan through an application of combined coal fly ash and oil palm empty fruit bunch. Bioscience Research, 15(3), 1805-1814.
- 12. Haynes, R.J., Mokolobate, M.S. 2001. Amelioration of al toxicity and deficiency in acid soil by additions of organic residues: A critical review of the phenomenon and the mechanisms involved. Nutrient Cycling in Agroecosystems, 59(1), 47-63.
- 13. Hermawan, A., Sabaruddin, M., Hayati, R., Warsito. 2014. Conversion of P adsorption on an Ultisol due to the mixture of fly ash of coal-chicken manure. Sains-Tanah: Journal of Soil Science and Agroclimatology, 11(1), 1-10, http://dx.doi. org/10.15608%2Fstjssa.v11i1.198 (in Indonesian).
- 14. Hilman, Y., Rahim, A.B., Musaand, M.H., Hashim, A. 2007. Principal component analysis of factors determining phosphate rock dissolution on acid soils. Indonesian Journal of Agriculture Science, 8 (1), 10-16.
- 15. Ichriani, G.I., Syehfani, Nuraini, Y., Handayanto, E. 2017. Solubilization of inorganic phosphate by phosphate solubilizing fungi isolated from oil palm empty fruit bunches of Central Kalimantan. Bioscience Research, 14(3), 705-712.
- 16. Ichriani, G.I., Syehfani, Nuraini, Y., Handayanto, E. 2018. Formulation of biochar-compost and phosphate solubilizing fungi from oil palm empty fruit bunch to improve growth of maize in an Ultisol of Central Kalimantan. Journal of Ecological Engineering, 19(6), 45-55,https://doi.org/10.12911/22998993/92891
- 17. Ifansyah, H. 2013. Soil pH and solubility of aluminium, iron, phosphorus in ultisols: The role of humic acid. Journal of Tropical Soils, 18(3), 203208, https://doi.org/10.5400/jts.2013.18.3.203.
- 18. Ismail, M.R., Saud H.M., Habib, S.H., Hossain, K., Maleque, M.A., Hakim, M.A. 2017. Efficacy evaluation of oil palm empty fruit bunch compost in improving soil characteristics, plant growth and disease suppression of tomato plants under tropical acid soil. Journal of Environmental Biology, 38(1), 123-129, https://doi.org/10.22438/jeb/38/1/ PRN-126.
- 19. Kishor, P., Ghosh, A.K., Kumar, D. 2010. Use of fly ash in agriculture: a way to improve soil fertility. Journal of Agricultural Research, 4(1), 1-14, https://doi.org/10.3923/ajar.2010.1.14
- 20. Kurniawan, A.R., Adenan, D.D., Untung, S.R., Hadijah, N.R., Alimana, M. 2010. Report on Research on Utilization of Coal Fly Ash of Steam Power Plant on Pre Reclamation of Coal Mine. Centre for Research and Development of Minerals and Coal Technology, Research and Development Agency of Energy and Mineral Resources (in Indonesian).
- 21. Lee, H., Ha, H.S., Lee, C.H., Lee, Y.B., Kim, P.J. 2006. Fly ash effect on improving soil properties and rice productivity in Korean paddy soils. Bioresource Technology, 97, 1490-1497.
- 22. Mahale, N.K., Patil, S.D., Sarodeand, D.B., Attarde, S.B. 2012. Effect of fly ash as an admixture in agriculture and the study of heavy metal accumulation in wheat (Triticum aestivum), mung bean (Vigna radiata) and urad beans (Vigna mungo). Polish Journal of Environmental Study, 221(6), 1713-1719.
- 23. Mengel, K., Kirkby, E.A., Kosegarten, H., Appel, T. 2001. Principles of Plant Nutrition. 5th Edition, Kluwer Academic Publisher. London
- 24. Minardi, S., Harieni, S., Anasrullah, A., Purwanto, H. 2017. Soil fertility status, nutrient uptake, and maize (Zea mays L.) yield following organic matters and P fertilizer application on Andisols. IOP Conference Series: Materials Science and Engineering 193 (2017), https://doi.org/10.1088/1757899X/193/1/012054.
- 25. Mohammed, M.A.A., Salmiaton, A., Wan Azlina, W.A.K.G., Mohamad Amran, M.S. 2012. Gasification of oil palm empty fruit bunches: a characterization and kinetic study. Bioresource Technology, 110, 628-636, https://doi.org/10.1016/j.biortech.2012.01.056.
- 26. Muduli, S.D., Chaturvedi, N., Mohapatra, P., Dhal, N.K., Nayak, B.D. 2014. Growth and physiological activities of selected leguminous crops grown in carbonated fly ash amended soil. Greener Journal of Agricultural Sciences, 4 (3), 83-90, http://dx.doi.org/10.15580/GJAS.2014.3.021114104
- 27. Panda, S.S., Mishra, L.P., Muduli, S.D., Nayak, B.D., Dhal, N.K. 2015. The effect of fly ash on vegetative growth and photosynthetic pigment concentrations of rice and maize. Biologija, 61(2): 94100, https://doi.org/10.6001/biologija.v61i2.3143.
- 28. Pathan, S.M, Aylmore, L.A.G., Colmer, T.D. 2003. Soil properties and turf growth on a sandy soil amended with fly ash. Plant and Soil, 256, 103-114.
- 29. Reddy, T.P., Umadevi, M., Rao, P.C. 2010. Effect of fly ash and farmyard manure on soil properties and yield of rice grown on an Inceptisol. Agricultural Science Digest, 30(4), 281-285.
- 30. Sharma, S.K., Kalra, N.2006. Effect of fly ash incorporation on soil properties and productivity of crops: A review. Journal of Scientific and Industrial Research, 65, 383-390.
- 31. Shen, J., Yuan, L., Zhang, J., Li, H., Bai, Z., Chen, X., Zhang, W., Zhang, F. 2011. Phosphorus dynamics: from soil to plant. Plant Physiology, 156, 997–1005, https://doi.org/10.1104/pp.111.175232.
- 32. Shenoy, V.V., Kalagudi, G.M. 2005. Enhancing plant phosphorus use efficiency for sustainable cropping. Biotechnology Advances, 23, 501-513.
- 33. Singh, R., Singh, D.P., Kumar, N., Bhargav, S.K., Barman, S.C. 2010. Accumulation of translocation of heavy metals in soil and plants from fly ash contaminated area. Journal of Environmental Biology, 31, 421-430.
- 34. Soil Research Institute of Indonesia. 2005. Technical Guidelines for Chemical Analyses of Soil, Plant, Water, and Fertilizer. Ministry of Agriculture of the Republic of Indonesia (in Indonesian).
- 35. Spark, K.M., Swift, R.S. 2008. Use of alkaline fly ash based productsto amend soils: extractability of selected elements and their uptakeby plants. Australian Journal of Soil Research, 46(7), 585599.
- 36. Sudaryono. 2009. Soil fertility rate of Ultisol at Sangatta coal field, East Kalimantan. Jurnal Teknologi Lingkungan-BPPT, 10(3), 337-346 (in Indonesian).
- 37. Thao, H.T.B., George, T., Yamakawa, T., Widowati L.R. 2008. Effects of soil aggregate size on phosphorus extractability and uptake by rice (Oryza sativa L.) and corn (Zea mays L.) in two Ultisols from the Philippines. Soil Science and Plant Nutrition, 54, 148-158, https://doi.org/10.1111/j.17470765.2007.00220.x.
- 38. Udoetok, I.A. 2012. Characterization of ash made from oil palm empty fruit bunches. International Journal of Environmental Sciences, 3(1), 518-524, https://doi.org/10.6088/ijes.2012030131033.
- 39. Ukwattage, N.L., Gamage, R.P., Bouazza, A. 2013. Theuse of coal combustion fly ash as a soil amendment in agricultural lands (with comments on its potential to improve food security and sequester carbon). Fuel, 109, 400-408, https://doi.org/10.1016/j.fuel.2013.02.016.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cdd216b6-1b21-4d52-b024-c7fde8e66373