Analysis of Vitamine C Levels in Rice Snail Mucus (Pila ampullacea)
DOI:
10.29303/jbt.v23i3.4995Published:
2023-06-08Downloads
Abstract
Rice snails are one of the pests that have the potential to cause high losses to rice plants. Rice snail mucus contains glycosaminoglycans, proteoglycans, glycoprotein enzymes, copper peptides, metal ions, collagen, elastin, glycolic acid, allantoin, antimicrobial peptides and vitamin C. Vitamin C or ascorbic acid is one of the vitamins needed by the body that functions as a help process in the body's metabolism. To determine vitamin C levels can be done using the UV-VIS spectrophotometry method with a wavelength of 260 nm. This study aims to determine vitamin C levels from rice snail mucus concentration of 100% and rice snail mucus concentration of 50%. This study is descriptive quantitative, analyzing vitamin C levels obtained from a spectrophotometer can be seen from the absorbance of rice snail mucus. Based on the results of research obtained from the analysis of vitamin C levels of rice snail mucus, the concentration of 100% is 2,372. While vitamin C levels in rice snail mucus concentration of 50% were obtained at 0.911. So it can be concluded that there are vitamin C levels in rice snail mucus with a concentration of 100% greater absorbance than 50% rice snail mucus.
Keywords:
rice snail mucus, vitamin C, spectrophotometry UV-VIS.References
Adi, W., & Zulkarnain, A. K. (2016). Uji Spf in Vitro dan Sifat Fisik Beberapa Produk Tabir Surya yang Beredar di Pasaran. Majalah Farmaseutik, 11(1), 1745(965), 275–283.
Anandi, F., Ferdian, P. R., Pratiwi, J., Amalia, R. L. R., Haerul, H., Fitriana, N., & Nurinsiyah, A. S. (2021). Penapisan Senyawa Aktif Dan Uji Toksisitas LC50 Lendir Dua Spesies Keong Darat : Hemiplecta humphyreysiana Lea, 1840 dan Amphidromus palaceus Mousson, 1849 Sebagai Sediaan Nutrikosmesetikal Potensial. Zoo Indonesia, 30(2), 106–116.
Edrizal, E., & Desnita, E. (2020). Pengaruh Cangkang Keong Sawah (Pila Ampullacea) Terhadap Pembentukan Tulang Baru (Remodeling Tulang). Health dan Medical Journal, 2(2), 42–51. https://doi.org/10.33854/heme.v2i2.559.
Gandjar, G.H., & Rohman, A. (2007). Kimia Farmasi Analisis. Yogyakarta: Pustaka Pelajar. https://opac.perpusnas.go.id/DetailOpac.aspx?id=425272.
Gusnedi, R. (2013). Analisis Nilai Absorbansi dalam Penentuan Kadar Flavonoid untuk Berbagai Jenis Daun Tanaman Obat. Pillar of Physics, 2, 76–83. https://ejournal.unp.ac.id/students/index.php/fis/article/viewFile/756/513.
Leo, R., & Daulay, A. S. (2022). Penentuan Kadar Vitamin C Pada Minuman Bervitamin Yang Disimpan Pada Berbagai Waktu Dengan Metode Spektrofotometri UV. Journal of Health and Medical Science, 1(2), 105–115. https://pusdikra-publishing.com/index.php/jkes/home.
Marwoto, R.M., Insnaningsih, N.R., Mujiono, N., Heryanto, Alfiah & Riena (2011). Keong Air Tawar Jawa (Moluska, Gastropoda). Bogor: Pusat Penelitian Biologi-LIPI.
Minerva, P., Asih, T., & Yuniarti, E. (2020). Relationship of Vitamin A and C Intake with Acne Grading in Girl Students in Padang City. 583–588. http://iccfbt.fpp.unp.ac.id/index.php/iccfbt2020/iccfbt_2020/paper/view/126/116.
Oktasari, N. (2015). Pemanfaatan Keong Sawah (Pila ampullacea) pada Pembuatan Nugget Sebagai Alternatif Makanan Berprotein Tinggi di Desa Jurug Kecamatan Mojosongo Kabupaten Boyolali. Skripsi. Semarang: Universitas Negeri Semarang.
Pitria, R. (2022). Uji Aktivitas Lendir Keong Sawah (Pila ampullacea) di Daerah Ngronggo Kota Kediri Dalam Menghambat Pertumbuhan Bakteri Staphylococcus aureus dan Staphylococcus albus. Kediri. Institut Ilmu Kesehatan BW Kediri. https://oasis.iik.ac.id:9443/repo/items/show/5390.
Putri, M. P., & Setiawati, Y. H. (2015). Analysis Levels of Vitamin C in Fruit Fresh Pineapple (Ananas comosus (L.) Merr) And Fruit Canned Pineapple with Spectrophotometry UV-VIS Method. Wiyata, 2(1), 3.
Reichenbach, A., Bringmann, A., Reader, E. E., Pournaras, C. J., Rungger-Brändle, E., Riva, C. E., Hardarson, S. H., Stefansson, E., Yard, W. N., Newman, E. A., ... & Holmes, D. (2019). Validasi Metode Penetapan Kadar Vitamin C Kulit Jeruk Keprok (Citrus reticulata) Secara Spektrofotometri UV-VIS. Jurnal Farmasi Indonesia.561(3),S2–S3. https://doi.org/10.30595/pharmacy.v16i1.4552.
Ristiawati, N., & Kristanty, R. E. (2019). Aktivitas Antijerawat Dari Lotion Lendir Bekicot (Achatina fulica). 9(1), 33–39. https://doi.org/10.35617/jfi.v9i1.554.
Sudiarta, I. W., Suandi, I. P. G. A., & Laksmiwati, A. A. I. A. M. (2021). Analisis Kadar Asam Askorbat (Vitamin C) Pada Minuman Suplemen Dalam Kemasan Dengan Metode Spektrofotometri Secara Langsung Dan Tidak Langsung. Jurnal Kimia, 15(2), 140. https://doi.org/10.24843/jchem.2021.v15.i02.p03.
Tahir, M., Hikmah, N., & Rahmawati, R. (2016). Analisis Kandungan Vitamin C dan β- Karoten Dalam Daun Kelor (Moringa oleifra Lam.) dengan Metode Spektrofotometri UV–VIS. Jurnal Fitofarmaka Indonesia, 3(1), 135–140. https://doi.org/10.33096/jffi.v3i1.173.
Wijaya (2021). Perawatan Luka Dengan Pendekatan Multidisiplin.Yogyakarta: ANDI.
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