Fe and Mn metal are two types of an environmental pollutant that is usually found in water. The danger of Fe and Mn metals in groundwater is that they can cause poisoning, intestinal damage, and chronic diseases in humans. The study aimed to measure the levels of Fe and Mn in well water in Taman District, Sidoarjo Regency. Fe and Mn levels were determined using the AAS method with a wavelength of 248.3 nm for Fe and 279.5 nm for Mn. The levels of Fe and Mn in well A water samples were <0.08 and <0.08 mg/L, respectively, while the Fe and Mn levels in well B water samples were <0.019 and 0.14 mg/L, respectively. Thus, the well water samples still meet the quality standards (maximum levels) for the chemical parameters of Fe and Mn in the environmental health quality standards.

air sumur; Fe; Mn; Spektrofotometri Serapan Atom (SSA)

Abbaspour, N., Hurrell, R., & Kelishadi, R. (2014). Review on iron and its importance for human health. Journal of Research in Medical Sciences: The Official Journal of Isfahan University of Medical Sciences, 19(2), 164.

Adam, D. H. (2017). ANALISIS ION Fe DALAM AIR SUMUR MENGGUNAKAN ZEOLIT/TIO2 SECARA KOLOM ADSORBSI DENGAN METODE SPEKTROSKOPI SERAPAN ATOM (SSA). Jurnal Pembelajaran Dan Biologi Nukleus, 3(2), 15–18.

Al Kholif, M., Sugito, S., Pungut, P., & Sutrisno, J. (2020). Kombinasi Tray Aerator Dan Filtrasi Untuk Menurunkan Kadar Besi (Fe) Dan Mangan (Mn) Pada Air Sumur. ECOTROPHIC : Jurnal Ilmu Lingkungan (Journal of Environmental Science), 14(1), 28. https://doi.org/10.24843/ejes.2020.v14.i01.p03

Andini, A. (2018). ANALISA KADAR Fe (III) AIR DI KECAMATAN TANGGULANGIN SIDOARJO. Medical Technology and Public Health Journal, 2(1), 19–24.

Assubaie, F. N. (2015). Assessment of the levels of some heavy metals in water in Alahsa Oasis farms, Saudi Arabia, with analysis by atomic absorption spectrophotometry. Arabian Journal of Chemistry, 8(2), 240–245.

BSN. (2009a). SNI 6989.4:2009 Air dan air limbah – Bagian 4: Cara uji besi (Fe) secara Spektrofotometri Serapan Atom (SSA) – nyala.

BSN. (2009b). SNI 6989.5:2009 Air dan air limbah – Bagian 5: Cara uji mangan (Mn) secara Spektrofotometri Serapan Atom (SSA) – nyala.

Butcher, D. J. (2004). Atomic Absorption Spectrometry - Interferences and Background Correction. Encyclopedia of Analytical Science: Second Edition, 157–163. https://doi.org/10.1016/B0-12-369397-7/00025-X

de Melo Albuquerque, K. F., Silva, M. H. L., de Jesus Azevedo, J. W., Soares, L. S., Bandeira, A. M., Soares, L. A., & de Castro, A. C. L. (2023). Assessment of water quality and concentration of heavy metals in fishes in the estuary of the Perizes River, Gulf of Maranhão, Brazil. Marine Pollution Bulletin, 186, 114420.

Earnestly, F., Muchlisinalahuddin, M., & Yermadona, H. (2022). ANALISA pH, Fe, Mn PADA SUMBER AIR PANTI ASUHAN AISYIYAH KOTO TANGAH. JURNAL KATALISATOR, 7(1), 29–40.

Fahruddin, M. S. (2018). Pengelolaan Limbah Pertambangan Secara Biologis: Biological Management of Mining Waste (IND SUB) (Vol. 1). CELEBES MEDIA PERKASA.

Ginting, J. A. J., Budi, A. S., & Budi, E. (2012). Penggunaan Membran Keramik Berbasis Zeolit dan Clay dengan Karbon Aktif Sebagai Aditif Untuk Penurunan Kadar Fe dan Mn pada Air Tanah Daerah Bekasi. PROSIDING SEMINAR NASIONAL FISIKA (E-JOURNAL), 1, 72–75.

Jannah, Z. N., Herawati, D., & Ngibad, K. (2021). REVIEW: Analisis Konsentrasi Ion Sulfat dalam Air Menggunakan Spektrofotometri. Jurnal Pijar Mipa, 16(2), 203–206. https://doi.org/10.29303/jpm.v16i2.1907

Jorhem, L., & L, C. A. G. C. G. D. H. P. G. K. H. G. N. J. K. K. K. L. B. L. J. M. M. O. A. P. S. S. B. U. B. J. W. T. W. (2000). Determination of metals in foods by atomic absorption spectrometry after dry ashing: NMKL1 collaborative study. Journal of AOAC International, 83(5), 1204–1211.

Kassim, N. S. A., Ghazali, S., Bohari, F. L., & Abidin, N. A. Z. (2022). Assessment of heavy metals in wastewater plant effluent and lake water by using atomic absorption spectrophotometry. Materials Today: Proceedings, 66, 3961–3964.

Kementerian Kesehatan RI. (2017). PERATURAN MENTERI KESEHATAN REPUBLIK INDONESIA NOMOR 32 TAHUN 2017 TENTANG Standar Baku Mutu Kesehatan Lingkungan dan Persyaratan Kesehatan Air Untuk Keperluan Higiene Sanitasi, Kolam Renang, Solus Per Aqua, dan Pemandian Umum.

Kusumayanti, S., & Hariyanto, B. (2019). Studi Kimia Air Tanah Dangkal Di Kelurahan Taman Kecamatan Taman Kabupaten Sidoarjo. Swara Bhumi, 1(3).

Lexia, N., & Ngibad, K. (2021). Aplikasi Spektrofotometri Terhadap Penentuan Kadar Besi Secara Kuantitaif dalam Sampel Air. Jurnal Pijar Mipa, 16(2), 242–246. https://doi.org/10.29303/jpm.v16i2.1908

Muliawan, A., & Ilmianih, R. (2019). Metoda Pengurangan Zat Besi Dan Mangan Menggunakan Filter Bertingkat Dengan Penambahan UV Sterilizer Skala Rumah Tangga. Jurnal Ilmiah Giga, 19(1), 1. https://doi.org/10.47313/jig.v19i1.298

Ngibad, K. (2019). Penentuan Konsentrasi Ammoniumdalam Air Sungai Pelayaran Ngelom. Journal of Medical Laboratory Science Technology, 2(1), 37–42. https://doi.org/10.21070/medicra.v2i1.2071

Ngibad, K., & Herawati, D. (2019). ANALISIS KADAR KLORIDA DALAM AIR SUMUR DAN PDAM DI DESA NGELOM SIDOARJO. JKPK (JURNAL KIMIA DAN PENDIDIKAN KIMIA, 4(1), 1–6.

Nisah, K., & Nadhifa, H. (2020). Analisis Kadar Logam Fe dan Mn Pada Air Minum Dalam Kemasan (AMDK) dengan Metode Spektrofotometri Serapan Atom. Amina, 2(1), 6–12.

Persmark, U., & Toregard, B. (1971). Metal analysis of edible fats and oils by atomic absorption spectrophotometry. Journal of the American Oil Chemists Society, 48(11), 650–652.

Rahayu, B., Napitupulu, M., & Tahril, T. (2013). Analisis logam zink (zn) dan besi (Fe) air sumur di kelurahan pantoloan kecamatan palu utara. Jurnal Akademika Kimia, 2(1), 1–4.

Rahmadani, R. W., Diah, R., Setyowati, N., & Nilandita, W. (2021). Analisis Kandungan Kimia Pada Sumur Gali Masyarakat Desa Pagerwojo di Kecamatan Buduran Kabupaten Sidoarjo.

Riley, J. P., & Taylor, D. (1968). Chelating resins for the concentration of trace elements from sea water and their analytical use in conjunction with atomic absorption spectrophotometry. Analytica Chimica Acta, 40, 479–485.

Rohmania, S. Y., Eri Iva, R., & Marlik, M. (2022). Jarak Tempat Pembuangan Sampah Dan Kondisi Fisik Sumur Gali Terhadap Kualitas Air Sumur Di Wilayah Kelurahan Cemengkalang Sidoarjo. Jurnal Kesehatan Lingkungan, 12(1), 110–115. https://doi.org/10.47718/jkl.v10i2.1179

Rohmatika, S. Y., & Hariyanto, B. (2020). Kajian Tentang Kualitas Air Sumur Dangkal Sebagai Sumber Air Minum Di Desa Sawohan Kecamatan Buduran Kabupaten Sidoarjo. Kajian, 1–4.

Sikirić, M., Brajenović, N., Pavlović, I., Havranek, J. L., & Plavljanić, N. (2003). Determination of metals in cow’s milk by flame atomic absorption spectrophotometry. Czech Journal of Animal Science, 48(11), 481–486.

Sunderman Jr, F. W. (1973). Atomic absorption spectrometry of trace metals in clinical pathology. Human Pathology, 4(4), 549–582.

Suryadirja, A., Muliasari, H., Ananto, A. D., & Andayani, Y. (2021). Analisis Kadar Logam Besi (Fe) Pada Air Sumur Bor Di Kecamatan Praya Tengah Menggunakan Spektrofotometri Serapan Atom. Jurnal Sanitasi Dan Lingkungan, 2(2), 146–153. https://e-journal.sttl-mataram.ac.id

Tokalioǧlu, Ş., Kartal, Ş., & Elci, L. (2000). Determination of heavy metals and their speciation in lake sediments by flame atomic absorption spectrometry after a four-stage sequential extraction procedure. Analytica Chimica Acta, 413(1–2), 33–40.

Triarini, L. J., Amalia, L. R., Damayanti, N. K., & Ngibad, K. (2021). Analisis Kadar COD Pada Air Sumur Desa Ngelom Sepanjang Menggunakan Metode Titrimetri. Universitas Maarif Hasyim Latif, 7, 914–918.

Tüzen, M. (2003). Determination of heavy metals in fish samples of the middle Black Sea (Turkey) by graphite furnace atomic absorption spectrometry. Food Chemistry, 80(1), 119–123.

Wardoyo, S. E., Arizal, R., Mipa, F., Bangsa, U. N., Iskandar, J. K. H. S., Sareal-bogor, T., Nh, L., & Salicylate, A. (2010). KUALITAS AIR SUMUR MASYARAKAT DI SEKITAR TEMPAT PEMBUANGAN AKHIR SAMPAH ( TPAS ) RAWA KUCING KOTA TANGERANG The Quality of Well Water around Final Garbage Dump ( FGD ) Rawa Kucing , Tangerang , Indonesia Penggunaan air tanah dengan sarana sumur bor dilaku.

Wasike, P. W., Nawiri, M. P., & Wanyonyi, A. A. (2019). Levels of heavy metals (Pb, Mn, Cu and Cd) in water from river Kuywa and the adjacent wells. Environment and Ecology Research, 7(3), 135–138.

Yudhastuti, R., & Arifani, T. (2013). Kandungan Besi (Fe) Pada Air Sumur Dan Gangguan Kesehatan Masyarakat Di Sepanjang Sungai Porong Desa Tambak Kalisogo Kecamatan Jabon Sidoarjo. Jurnal Kesehatan Lingkungan, 7(1), 64–70.

This work is licensed under a Creative Commons Attribution 4.0 International License.