PENGARUH KANDUNGAN UNSUR HARA LIMBAH CAIR PABRIK GULA TERHADAP SIFAT KIMIA DAN FISIKA TANAH DI LAHAN SAWAH KECAMATAN BULULAWANG KABUPATEN MALANG

Penulis

  • Fariq Faroni Universitas Islam Raden Rahmat Malang
  • Anggraeni Hadi Pratiwi
  • Arief Lukman Universitas Islam Raden Rahmat Malang

DOI:

https://doi.org/10.33379/radikula.v1i1.1437

Abstrak

Pabrik Gula Krebet disposes of liquid waste into the nearest river, which can pollute the aquatic and soil environment. However, sugar factory effluent contains nutrients N and P as well as organic matter that is beneficial to plants (within a certain maximum limit). The study aims to determine whether there is an effect of the content of nutrients and organic matter of sugar factory wastewater on the physical and chemical properties of the soil in the paddy fields Bululawang Malang. Parameters of soil properties that were analyzed included pH, CEC, N-Total, P2O5, Potassium, C-Organic, bulk density, soil porosity, and specific gravity, while water parameters included pH, PO4, and Potassium. Based on the results of soil analysis, it is known that the porosity value on the shaft criteria is in the range of 63-72%, pH on the acid criteria with a value of 5.8-6.4, CEC on low to moderate criteria with a value of 5.5-21.2 cmol/kg, organic matter on high criteria with a value of 4.3-6.2%, P2O5 on the high criteria of 52.6-70.0 ppm, bulk density is on the medium criteria of 0.66-0.96 gr/cm3, the total N value on the medium criteria of 0.23-0.28%, and potassium on the moderate criteria of 168.5-256.2 mg K/kg. The results of the water analysis showed that PO4 was within the quality standard limit of 0.51-0.83 me/l, the potassium content was within the water quality standard limit value of 0.25-0.28 me/l, for pH parameters is above the quality standard limit of 5.93-6.23. The coefficient of determination test results showed that the difference in distance from the waste source affected the bulk density, soil porosity, organic matter, pH, CEC, total N, soil potassium. While on pH, PO4 and potassium water had no effect on soil P2O5 parameters. The results of the correlation coefficient test showed that distance differences were positively correlated with porosity, organic matter, CEC, total N, soil potassium, but negatively correlated with bulk density, soil pH and water pH.

Keywords:sugar factory liquid waste, nutrients, soil properties

Unduhan

Data unduhan belum tersedia.

Referensi

Arsyad, Sitanala (1989) Konservasi Tanah dan Air. Institut Pertanian Bogor. Bogor.

Ayers. R. S dan Westcot. D. W, 1985. Water Quality for Agriculture. Library Copy California Regional Water Quality Control Board. Roma, Italy.

Azmul, Yusran, Irmasari (2016) Sifat Kimia Tanah Pada Berbagai Tipe Penggunaan Lahan di Sekitar Taman Nasional Lore Lindu (Studi Kasus Desa Toro Kecamatan Kulawi Kabupaten Sigi Sulawesi Tengah). Warta Rimba Volume 4, Nomor 2 pp. 24-31. Sulawesi.

Chin, W. W. (1998) The Partial Least Squares Aproach to Structural Equation Modeling. Modern Methods for Business Research, 295-336.

FAO (1976) A Framework for Land Evaluation. Soil Resiurces Management and Conservation Service Land and Water Development Division. FAO Soil Bulletin No. 32. FAO-UNO. Rome.

Henrianto, A., Okalia, D. and Mashadi, M. (2019) Uji Beberapa Sifat Fisika Tanah Bekas Tambang Emas Tanpa Izin (Peti) di Tiga Kecamatan di Daratan Sepanjang Sungai Kuantan. Jurnal AgronomiTanaman Tropika (Juatika), 1(1), pp.19–31. doi:10.36378/juatika.vi1.4.

Kurniawan, D. (2018) Kajian Nilai Kepadatan Tanah (Bulk Density) Dalam Alih Guna Lahan dari Monokultur Tebu menjadi Agroforestri Berbasis Sengon di Kedungkandang Malang. Fakultas Pertanian. Universitas Brawijaya. Malang.

Lalitha, M. dan Dhakshinamoorthy, M. (2014) Forms of soil potassium - a review’, Agri. Reviews, vol. 35(1): 64–68.

Maliwal, G.L., K.P. Patel, K.C. Patel and M.N. Patel (2004) “Pollution studies on sugar mill effluent, physico- chemical properties and toxic metals”. Poll. Res., 14: 231-238.

Musaa Khan, M., Yang, Y. & Din, I.- (2019) Impacts of sugar mill’s effluent on soil and plant’s seed germination, Punjab, Pakistan. SDRP Journal of Earth Sciences & Environmental Studies. [Online] 4 (3), 623–637. Available from: doi:10.25177/ jeses.4.3.ra.507.

Poddar, P.K. & Sahu, O. (2015) Quality and management of wastewater in the sugar industry. Applied Water Science 7(1): 461-468.

PPT (1995) Kombinasi Beberapa Sifat Kimia Tanah dan Status Kesuburanya. Pusat Penelitian Tanah. Bogor.

Prasetyo A. (2018) Pengaruh Limbah Cair Pabrik Gula Terhadap Beberapa Sifat Tanah di Lawan Sawah di Desa Sukokerto Kecamatan Pajarakan Kabupaten Probolinggi. Skripsi. Tidak Diterbitkan. Fakultas Pertanian. Universitas Jember. Jember.

Pusat Penelitian Tanah (1983) Kriteria Penilaian Data Sifat Analisis Kimia Tanah. Balai Penelitian dan Pengembangan Pertanian Departemen Pertanian. Bogor.

Rhofita, E. I, & Russo, A. E. (2019) Efektifitas Kinerja Instalasi Pengolahan Air Limbah (IPAL) Industri Gula di Kabupaten Kediri dan Kabupaten Sidoarjo. UIN Sunan Ampel Surabaya. Surabaya.

Saidy, A, R. (2018) Bahan Organik Tanah: Klasifikasi, Fungsi dan Metode Studi. Lambung Mangkurat University Press. Banjarmasin.

Shekunyenge A. (2015) Study of Physical and Chemical Soil Properties and Potential of Post-Mining Substrates as a Habbit for Plants During Restoration at Sendelingsdrif Mine. Thesis. Not Publicated. University of Namibia. Namibia.

Susila & Roedhy Poerwanto (2013) Irigasi dan Fertigasi. Departemen Agronomidan Hortikultura, Fakultas Pertanian, Institut Pertanian Bogor.

Utomo, Muhajir; Sudarsono; Rusman, Bujang; Sabrina, Tengku; Lumranraja, Jamalam; Wawan (2016) Ilmu Tanah Dasar-Dasar Pengelolaan. Prenedamedia Group. Jakarta.

Diterbitkan

2022-06-29 — Diperbaharui pada 2022-06-29

Versi

Cara Mengutip

Faroni, F., Hadi Pratiwi, A., & Lukman, A. (2022). PENGARUH KANDUNGAN UNSUR HARA LIMBAH CAIR PABRIK GULA TERHADAP SIFAT KIMIA DAN FISIKA TANAH DI LAHAN SAWAH KECAMATAN BULULAWANG KABUPATEN MALANG. RADIKULA: Jurnal Ilmu Pertanian, 1(1), 31–43. https://doi.org/10.33379/radikula.v1i1.1437