PENENTUAN KADAR MANGAN (Mn) PADA AIR GAMBUT SECARA SPEKTROFOTOMETRI UV-Vis DENGAN PERBANDINGAN METODE KURVA KALIBRASI DAN ADISI STANDAR (DETERMINATION OF MANGANESE IN PEAT WATER USING UV-Vis SPECTROPHOTOMETER: COMPARATION OF CALIBRATION OF CURVE AND STANDARD ADDITION METHOD)
DOI:
https://doi.org/10.26418/indonesian.v4i1.45256Abstract
Peat water has different characteristics from one location to another. The characteristics referred to include levels of organic matter, pH, conductivity, and turbidity. Based on these differences, it is necessary to research to determine the analytic parameters and the effect of matrix differences on manganese levels using a separate calibration method and standard addition using a Uv-vis spectrophotometer. The determination of manganese was carried out by the persulfate method, that is the oxidation of Mn in water by persulfate in an acidic and hot atmosphere to form MnO4 which is purple-red. The obtained results from the determination of the analytical parameters of the separate calibration method are precision of 7.75% to 63.96%, an accuracy of 0.80% to 5.24%, the linearity of r = 0.997, a detection limit of 0.170 ppm, and a limit of quantification of 0.567 ppm. Meanwhile, the addition method produces a precision of 2.19% to 20.35%, accuracy and linearity at points I, II, III are 10.65% to 25.47% respectively; 20.9% to 26.8%; 2.76% to 27.24% and 0.995; 0.999; 0.995. Linearity in addition as well as in calibration curves at all points have met the minimum value of SNI 6989.5: 2009 (R ≥ 0.995). In addition, based on the results of the comparison of the levels of the separate calibration and standard additions, the values are different, but the results of the t-test result in t-count <t-table. This means that there is no significant difference between separate calibration methods and standard addition.
References
Suherman, D., dan Sumawijaya, N. (2013). Menghilangkan Warna dan Zat Organik Air Gambut dengan Metode Koagulasi-Flokulasi Suasana Basa. J. Riset Geologi dan Pertambangan, 23(2): 127–139.
Sutapa, I. D. A. (2009). Kajian Jar Test Koagulasi-Flokulasi sebagai Dasar Perancangan Instalasi Pengolahan Air Gambut Menjadi Air Bersih. Research Centre for Limnology, 1-11.
Hendrawati., Syamsumarsih, D., dan Nurhasni. (2013). Penggunaan Biji Asam Jawa (Tamarindus Indica L.) dan Biji Kecipir (PsopHocarpus Tetragonolobus L.) sebagai Koagulan Alami dalam Perbaikan Kualitas Air Tanah: Prosiding Semirata FMIPA (hal. 179–192) Universitas Lampung.
Musli, V. (2016). Analisis Kesesuaian Parameter Kualitas Air Minum dalam Kemasan yang Dijual Di Kota Ambon dengan Standar Nasional Indonesia (SNI). J. Arika, 10(1): 57-74.
Thuraidah, A., Kartiko, J.J., dan Ariani, L.F.,(2015). Kulit Pisang Kepok (Musa Paradisiaca L.) untuk Menurunkan Kadar mangan Air Sumur. Medical Laboratory Technology Journal, 1(1):19-26
Morti, T., Destiarti, L., dan Idiawati, N. (2018). Penentuan Kadar Besi (Fe) Pada Air Gambut Menggunakan Spektrofotometer Ultra Violet-Visible dengan Perbandingan Pengompleks Fenantrolin dan Alizarin Red S. J. Kimia Khatulistiwa, 7(3): 109-117.
A’idah, E., Destiarti, L., dan Idiawati, N. (2018). Penentuan Karakteristik Air Gambut di Kota Pontianak dan Kabupaten Kuburaya. J. Kimia Khatulistiwa, 7(3): 91-96.
Standar Nasional Indonesia (SNI) 03-6855-2002. Metode Pengujian Mangan (Mn) dalam Air Secara Kolorimeter dengan Persulfat. Badan Standar Nasional.
Rohman, A. (2016). Validasi dan Penjaminan Mutu Metode Analisis Kimia. Yogyakarta, Gajahmada University Press.
Selpiana, E., Destiarti, L., dan Nurlina. (2016). Perbandingan Metode Penentuan Pb (II) di Sungai Kapuas Secara Spektrofotometri UV-Vis Cara Kalibrasi Terpisah dan Adisi Standar. J. Kimia Khatulistiwa, 5(1):17-23.
Susetyo, B. (2010). Statisitika Untuk Analisis Data Penelitian. Bandung, PT: Refika Aditama.
Suriansyah, A., Gusrizal., dan Adhitiyawarman. (2012). Alibrasi dan Adisi Standar Pada Pengukuran Merkuri Dalam Air dengan Kandungan Senyawa Organik Tinggi Menggunakan Spektrofotometer Serapan Atom. J. Kimia Khatulistiwa, 1 (1): 40-44.
Kusumawardhani, N., Sulistyarti, H., dan Atikah. (2015). Penentuan Panjang Gelombang Maksimum dan pH Optimum dalam Pembuatan Tes Kit Sianida Berdasarkan Pembentukan Hidrindantin. J. Kimia.Student, 1(1): 711–717.
Pangastuti, D. D., Sugiarso, D. K. S., dan Kurniawan, F. (2017). Perbandingan Kondisi Optimum Pereduksi Natrium Tiosulfat (Na2S2O3) dan Hidroksilamin Hidroklorida (NH2OH.HCl) Pada Analisis Kadar Total Besi Secara Spektrofotometri UV-Vis. J. Sains dan Seni ITS, 6(1): 4–9.
Svehla, G. (1990). Buku Teks Analisis Anorganik Kualitatif Makro dan Semikro, (alih bahasa), Setiono, L. dan Pudjaatmaka, A.H, Ed ke-5, Bagian 1. Jakarta, Kalman Media Pustaka.
Suyono. (2015). Analisis Regresi Untuk Penelitian. Yogyakarta: Deepublish.
Armbruster, D. A., dan Pry, T. (2014). Limit of Blank, Limit of Detection and Limit of Quantitation, J.Clin Biochem, 29(1): 49–52.
Harmita. (2004). Petunjuk Pelaksanaan Validasi Metode dan Cara Perhitunganya, Majalah Ilmu Kefarmasian. 1 (3): 117-135.
Miller, J.C., dan Miller, J.N. (1991). Statistik Untuk Kimia Analitik, Ed ke-2, (alih bahasa), Suroso. Bandung, Institut Teknologi Bandung.
Christian, G.D. (1986). Analytical Chemistry, Ed ke-4. New York, John wiley dan sons, Inc.
Downloads
Published
Issue
Section
License
Copyright (c) 2021 Emilia Emilia, Lia Destiarti, Adhitiyawarman Adhitiyawarman

This work is licensed under a Creative Commons Attribution 4.0 International License.
Authors who publish with this journal agree to the following terms: 1. Authors retain copyright and grant the journal the right of first publication, with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal. 2. Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgement of its initial publication in this journal. 3. Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (see The Effect of Open Access).