Perbandingan Aktivitas Ekstrak Daun Tapak Dara (Catharanthus Roseus) dan TBHQ Sebagai Antioksidan Minyak Goreng Terhadap Fotooksidasi UV-C

Abstract

Cooking oil is one of the sources of human energy with a total consumption of 290 million tons/year by the public. The largest use of cooking oil is the household sector which generally gets its oil from traditional markets. The oil that is traded in the market is often not covered properly so that it is easily exposed to sunlight. The light that hits the oil can cause damage, including the formation of peroxide compounds. Efforts to overcome the damage include adding natural antioxidants as an alternative to synthetic antioxidants. This study aims to determine the impact of 254nm ultraviolet photooxidation on the containment of oil oxidation by the addition of tapak Dara leaf extract and TBHQ. The oil was photo oxidized with variations of 1, 3, 6, and 12 hours to determine the hold. To determine the quality of the oil, three parameters of sample testing were carried out, namely free fatty acid content, peroxide number, and water content. The results of photooxidation showed that cooking oil with tapak Dara leaf extract had lower holding activity than TBHQ. This value was measured on the peroxide number and free fatty acid content, while the measurement of the water content of the measured containment activity was better with a value that met SNI, namely <0.1%

Downloads

Download data is not yet available.

Author Biographies

Akhmad Al-Bari, Universitas Nahdlatul Ulama Sunan Giri Bojonegoro
Program Studi Farmasi, Keahlian Ilmu Kimia
Romadhiyana Kisno Saputri, Universitas Nahdlatul Ulama Sunan Giri Bojonegoro
Program Studi Farmasi, Keahlian Ilmu Gizi

References

Al-Mamary, M. A., & Moussa, Z. (2021). Antioxidant Activity: The Presence and Impact of Hydroxyl Groups in Small Molecules of Natural and Synthetic Origin. In Antioxidants. IntechOpen.

Andarwulan, N., Noor Muhammad, G., Z. Agista, A., Dharmawan, S., Fitriani, D., C. Wulan, A., G. Pratiwi, D., P. Rahayu, W., Martianto, D., & Hariyadi, P. (2016). Stabilitas Fotooksidasi Minyak Goreng Sawit Yang Difortifikasi Dengan Minyak Sawit Merah. Jurnal Teknologi Dan Industri Pangan, 27(1), 31–39. https://doi.org/10.6066/jtip.2016.27.1.31

Ariono, D., Christian, M., Irfan, P., Suharno, S. M., & Tamara, A. (2017). Pengaruh Penambahan Ekstrak Bahan Alami Terhadap Laju Oksidasi Minyak Kelapa. Reaktor, 17(3), 157–165.

Arista, M. (2013). Aktivitas antioksidan ekstrak etanol 80% dan 96% daun katuk (. Jurnal Ilmiah Mahasiswa Universitas Surabaya, 2(2), 1–16.

BPOM. (2013). Peraturan Kepala Badan Pengawas Obat dan Makanan Republik Indonesia No. 38.

BPOM RI. (2019). Badan Pengawas Obat dan Makanan Republik Indonesia. Bpom Ri, 11(88), 1–16.

De Leonardis, A., Macciola, V., Niro, S., Nag, A., & Panfili, G. (2017). Limits and potentials of African red palm oils purchased from European ethnic food stores. European Food Research and Technology, 243(7), 1239–1248. https://doi.org/10.1007/s00217-016-2839-1

Elshafie, M. M., Nawar, I. A., Algamal, M. A., & Ahmad, S. M. (2012). Evaluation of the biological effects for adding cinnamon volatile oil and TBHQ as antioxidant on rats’ lipid profiles. Asian Network for Scienctific Information, 11(3), 100–108.

Hasibuan, H. A., & Siahaan, D. (2014). Review Standar Minyak Goreng Sawit Diperkaya Karoten Terkait Fortifikasi Vitamin A Sebagai Revisi SNI 01-3741-2002. Jurnal Standardisasi, 16(1), 65–76.

Hermiati, Naomi Yemima Manalu, & Mersi Suriani Sinaga. (2013). Ekstrak Daun Sirih Hijau Dan Merah Sebagai Antioksidan Pada Minyak Kelapa. Jurnal Teknik Kimia USU, 2(1), 37–43. https://doi.org/10.32734/jtk.v2i1.1425

Jacobsen, C. (2018). Oxidative rancidity. In Encyclopedia of Food Chemistry. Elsevier. https://doi.org/10.1016/B978-0-08-100596-5.21672-7

Jusman, Syamsuddin, & Handayani, S. (2021). Production and characterization of cooking oil from crude palm oil. Journal of Physics: Conference Series, 1763(1). https://doi.org/10.1088/1742-6596/1763/1/012086

Kristianto, A., Mustaqim, W. A., Suhartono, E., & Qomariah, N. (2014). Skrining Tanaman Obat yang Berpotensi Sebagai Antioksidan In Vitro. Mutiara Medika, 4(1).

Kusnandar, F. (2019). Kimia pangan komponen makro. Bumi Aksara.

Kusumaningtyas, R. D., & Qudus, N. (2019). Penerapan Teknologi Pengolahan Limbah Minyak Goreng Bekas Menjadi Sabun Cuci Piring Untuk Pengendalian Pencemaran Dan Pemberdayaan Masyarakat. Jurnal Abdimas, 22(2), 201–208.

Listia, E., Indradewa, D., & Tarwasa, E. (2015). Pertumbuhan , Produktivitas , dan Rendemen Minyak Kelapa Sawit di Dataran Tinggi Growth , Productivity , and Oil Extraction Rate of Palm Oil in High Altitude. Ilmu Pertanian, 18(2), 77–83.

Mannucci, A., Castagna, A., Santin, M., Serra, A., Mele, M., & Ranieri, A. (2019). Quality of flaxseed oil cake under different storage conditions. Lwt, 104(July 2018), 84–90. https://doi.org/10.1016/j.lwt.2019.01.035

Marlina, L., & Ramdan, I. (2017). Identifikasi Kadar Asam Lemak Bebas Pada Berbagai Jenis Minyak Goreng Nabati. Tedc, 11(1), 53.

Morales, M. T., & Przybylski, R. (2013). Olive oil oxidation. In Handbook of olive oil (pp. 479–522). Springer.

Mursalin, Surhaini, & Yulia, A. (2015). Kinetika perubahan bilangan oksida minuman emulsi dari pekatan karoten minyak sawit merah selama penyimpanan pada berbagai intensitas cahaya. Prosiding Seminar Agroindustri Dan Lokakarya Nasional FKPT-TP, September, A192–A196.

Narayanankutty, A., Anil, A., Illam, S. P., Kandiyil, S. P., & Raghavamenon, A. C. (2018). Non-polar lipid carbonyls of thermally oxidized coconut oil induce hepatotoxicity mediated by redox imbalance. Prostaglandins Leukotrienes and Essential Fatty Acids, 138, 45–51.

Shamsi, I. H., Shamsi, B. H., & Jiang, L. (2012). Biochemistry of fatty acids. Technological Innovations in Major World Oil Crops, 2, 123–150. https://doi.org/10.1007/978-1-4614-0827-7_5

Suroso, A. S. (2013). Kualitas Minyak Goreng Habis Pakai Ditinjau dari Bilangan Peroksida , Bilangan Asam dan Kadar Air. Jurnal Kefarmasian Indonesia, Vol 3(2), 77–88.

Teixeira, C. B., Macedo, G. A., Macedo, J. A., da Silva, L. H. M., & Rodrigues, A. M. da C. (2013). Simultaneous extraction of oil and antioxidant compounds from oil palm fruit (Elaeis guineensis) by an aqueous enzymatic process. Bioresource Technology, 129, 575–581. https://doi.org/10.1016/j.biortech.2012.11.057

Verrananda M, I., Fitriani, V. Y., Febrina, L., & Rijai, L. (2016). Identifikasi Metabolit Sekunder Dan Aktivitas Antioksidan Ekstrak Bunga Tapak Dara (Catharanthus Roseus). 20–21. https://doi.org/10.25026/mpc.v4i1.176

Yulia, E., & Nuraeni, F. (2017). Kualitas Minyak Goreng Curah Yang Berada Di Pasar Tradisional Di Daerah Jabotabek Pada Berbagai Penyimpanan. Ekologia, 17(2), 29–38.

Published
2021-12-31
How to Cite
Al-Bari, A., & Saputri, R. K. (2021). Perbandingan Aktivitas Ekstrak Daun Tapak Dara (Catharanthus Roseus) dan TBHQ Sebagai Antioksidan Minyak Goreng Terhadap Fotooksidasi UV-C. Al-Kimia, 9(2), 124-134. https://doi.org/10.24252/al-kimia.v9i2.24297
Section
Article
Abstract viewed = 590 times