The Effect of Cow Manure Compost and Fly Ash-Bottom Ash (FABA) Addition on the Chemical Properties of Sandy Soil and Tomato Growth

Pengaruh Penambahan Kompos Kotoran Sapi dan FABA Terhadap Karakteristik Kimia pada Tanah Berpasir dan Pertumbuhan Tanaman Tomat

  • Nurul Faoziah Program Studi Agroteknologi Tanah (ATT), Sekolah Pascasarjana, IPB University, Kampus IPB Dramaga Bogor 16680
  • Iskandar Departemen Ilmu Tanah dan Sumberdaya Lahan, Fakultas Pertanian, IPB University, Jl. Meranti Kampus IPB Darmaga Bogor 16680
  • Gunawan Djajakirana Departemen Ilmu Tanah dan Sumberdaya Lahan, Fakultas Pertanian, IPB University, Jl. Meranti Kampus IPB Darmaga Bogor 16680
Keywords: ameliorant, water retention, available P, aggregate stability

Abstract

Sandy soil has a low: ability of water retention, aggregate stability, and nutrient content. To improve its quality a mixture of compost and fly ash-bottom ash (FABA) need to be added to this soil. This study was aimed to determine the effect of compost and FABA as an ameliorant on the chemical properties of sandy soil and plant growth of tomato (Solanum lycopersicum). The pot experiment was carried out at Cikabayan Greenhouse, IPB University using a Completely Randomized Design with seven treatments and two replications. Each 5 kg of sandy soil per pot were mixed with cow manure compost and FABA at various doses. The test plant was tomato variety SL 975. Parameters of soil chemical properties were observed for organic-C, total N, available P, CEC, and exchangeable bases. Plant growth was observed at five weeks after planting (WAP). The A6 treatment, i.e. addition of 1,950 gram compost pot-1 and 25 gram FABA pot-1, showed the highest organic-C content in the soil (3.83%) as well as the plant height, leaf number, and fresh weight by 54.4 cm, 21 sheet, and 68.7 gram.

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References

Afandi, F.N., B. Siawanto dan Y. Nuraini. 2015. Pengaruh pemberian berbagai jenis bahan organic terhadap sifat kimia tanah pada pertumbuhan dan produksi tanaman ubi jalar di entisol ngrangkah pawon, kediri. J. Tan. Sumberd. Lahan, 2(2): 237-244.

Agustini, R.Y. 2017. Utilization of coal bottom ash and cattle manure as soil ameliorant on acid soil and its effect on heavy metal content in mustard (Bassica juncea). J. Trop Soils, 22(2): 87-95.

Alibasyah, R.M. 2016. Perubahan beberapa sifat fisik dan kimia ultisol akibat pemberian pupuk kompos dan kapur dolomit pada lahan berteras. J. Floratek, 11(1): 75-87.

Asmarhansyah dan R. Hasan. 2018. Reklamasi lahan bekas tambang timah berpotensi sebagai lahan pertanian di Kepulauan Bangka Belitung. J. Sumberd. Lahan, 12(2): 73-82.

[Balittan] Balai Penelitian Tanah. 2009. Petunjuk Teknis. Analisis Kimia Tanah, Tanaman, Air, dan Pupuk. Badan Penelitian dan Pengembangan Pertanian, Bogor.

Damayanti, R. 2018. Abu batubara dan pemanfaatannya: tinjauan teknis karakteristik secara kimia dan toksikologinya. J. TekMIRA, 14(3): 213-231.

Hadijah, N.R. dan R. Damayanti. 2006. Penelitian abu batubara sebagai pembenah tanah: pengaruh waktu inkubasi terhadap parameter kualitas tanah (derajat keasaman tanah (pH H2O), Mn, Fe, P-total, dan P-tersedia). J. tekMIRA, 36(14): 9-17.

Hamid, I., S.J. Priatna dan A. Hermawan. 2017. Karakteristik beberapa sifat fisika dan kimia tanah pada lahan bekas tambang timah. J. Penelitian Sains, 19(1): 23-31.

Haynes, R.J. 2009. Reclamation and revegetation of fly ash disposal site-challenges and research needs. J. Environt. Manag., 90(1): 43-53.

Ilham, F., A. Maulana, B. Hasiholan dan I. Ilham. 2021. Pengaruh aplikasi ameliorant dari formulasi limbah batubara (fly ash-bottom ash) dan sampah pasar dengan kapur terhadap pH, KTK, dan P-tersedia pada ultisol dan gambut. J. Ilmu Tanah dan Sumberd. Lahan, 8(1): 239-247.

Jones, J.B., B. Wolf Jr. and H.A. Mills, editor. Plant Analysis Handbook. 1991. Micro-Macro Publishing Inc. Georgia (USA).

Juo, A.S.R. 1975. Selected Method for Soil and Plant Analysis. Nigeria (NGA): International Institut of Tropical Agriculture. Dalam Kurniawan, A.R., W. Surono dan M. Alimano. 2014. Potensi pemanfaatan limbah pembakaran batubara PLTU sebagai media tanam dalam kegiatan revegetasi lahan bekas tambang batubara. J. tekMIRA, 10(3): 142-154.

Lee, D.S., S.S. Lim, H.J. Park, H.I. Yang, S.I. Park, J.H. Kwak and W.J. Choi. 2019. Fly ash and zeolite decrease metal uptake but do not improve rice growth in paddy soils contaminated with Cu and Zn. Environment International, 129: 551–564.

Ludwick, A.E. (ed). 1990. Western Fertilizer Handbook. Horticulture Edition. In Benton Jr., J.J., B. Wolf Jr., H.A. Mills, editor. Plant Analysis Handbook. 1991. Micro-Macro Publishing Inc. Georgia (USA)

PLN. 2020. Statistik PLN 2020. PT PLN (Persero), Jakarta.

Rawls, W.J., Y.A. Pachepsky, J.C. Ritchie, T.M. Sobecki and H. Bloodworthc. 2003. Effect of soil organic carbon on soil water retention. Geoderma, 116: 61-76

Stout, W.L., A.N. Sharpley and H.B. Pionke. 1998. Reducing soil phosphorus solubility with coal combustion by‐products. J. Environmental Quality, 27(1): 111–118.

Yao, Z.T., X.S. Ji, P.K. Sarker, J.H. Tang, L.Q. Ge, M.S. Xia and T.Q. Xi. 2015. A comprehensive review on the applications of coal fly ash. Earth Science Review, 141: 105-121.

Zuhriansah, A.L., I. Mansur dan S.S.R. Budi. 2020. Pengaruh kompos campuran ampas daun sereh wangi dengan abu terbang terhadap pertumbuhan Cananga odorata. J. tekMIRA, 16(2): 93-107.

Published
2022-04-01
How to Cite
FaoziahN., Iskandar, & DjajakiranaG. (2022). The Effect of Cow Manure Compost and Fly Ash-Bottom Ash (FABA) Addition on the Chemical Properties of Sandy Soil and Tomato Growth: Pengaruh Penambahan Kompos Kotoran Sapi dan FABA Terhadap Karakteristik Kimia pada Tanah Berpasir dan Pertumbuhan Tanaman Tomat. Jurnal Ilmu Tanah Dan Lingkungan, 24(1), 1-5. https://doi.org/10.29244/jitl.24.1.1-5