Lokio (Allium chinense G Don) is widely used as seasoning in cooking because it contains amino acids that contribute to taste. Lokio is easily damaged during physical and chemical storage, affecting its quality. The study aims to determine the chemical changes of lokio leaves during storage. This study used a randomized design group with 3 temperature treatments, namely room temperature (30 ⁰C), air conditioning (20 ⁰C), and refrigerator (10 ⁰C). Weight loss was tested using a digital scale, color was tested using a chromameter, water content was tested using thermogravimetry, fat using Soxhlet, protein using Kjeldal, and ash using a muffle furnace. Reducing sugars were tested using the DNS method, amino acids using HPLC, and volatile compounds using GC MS Headspace. The data was analyzed using ANOVA then continued with Duncan test if the treatment has a significant difference (p < 0.05). In the room temperature treatment, the best treatment was obtained for 2 days of storage, AC storage for 4 days, and refrigerator temperature for 14 days of storage. Of all the best treatments for each storage temperature, the best treatment was obtained in the storage treatment using AC temperature (20 ⁰C) for 4 days. The treatment found that Lokio has a water content of 92.247%, fat of 2.47%, protein of 19.05%, ash of 14.20%, carbohydrates of 64.28%, and reducing sugar of 11.24 mg/ml. The major volatile compound content of the total storage is trimethyl sulfide and glutamic acid is the most amino acid in lokio leaves.

Bautista D.M, Movahed.P, Hinman.A, Axelsson H.E, Sterner.O, Edward D. Ho ¨gesta ¨, Julius.D, Jordt.S.E, and Zygmunt P.E. (2005). Pungent products from garlic activate the sensory ion channel TRPA1. PNAS Vol. 102 No. 34.

BeMiller dan Whistler. (1996). Carbohydrates, Food Chemistry. New York: Marcel Dekker, Inc

Burdock GA. (2004). Fenaroli's Handbook of Flavor Ingredients. 5th ed. Boca Raton, FL: p 1180

Downes K, Chope GA, Terry LA. (2009). Effect of curing at different temperatures on biochemical composition of onion (Allium cepa L.) skin from three freshly cured and cold stored UK-grown onion cultivars. Postharvest Biol Technol. 54, 80–86. doi: 10.1016/j.postharvbio.2009.05.005.

Furia T.E and Bellanca.N. (1975). Fenaroli's Handbook of flavor ingredients [edited, translated, and rev]. CRC Press. ISBN:0878195335

Furia, T.E. 1980. CRC Handbook of Food Additives (1980). 2nd ed.Volume 2. Boca Raton, Florida: CRC Press, Inc, p. 288

Gitin.L, Dinica.R, Neagu.C, Dumitrascu.L. (2014). Sulfur compounds identification and quantification from allium spp.fresh leaves. Journal of food and drug analysis. Vol 22:425-430

HASBIY. A. (2015). Kajian Sifat Fisik Dan Umur Simpan Bawang Daun (Allium fistulosum, L.) Pada Beberapa Jenis Kemasan Dan Suhu Penyimpanan. thesis, UNIVERSITAS ANDALAS.

He,Q., Huang, S., Wu, Y., Zhang, W., Wang, F., Cao,J., Sheng, Q., Liang, Z., Liu, L., Bin OW. (2018). Comparative study on the composition of free amino acids and derivatives in the two botanical origins of an edible Chinese herb “Xiebai”, i.e., Allium chinense G. Don and Allium macrostemon Bunge species. Food Research International. 106: 446-457

Imamah, N., Hasbullah, R., Nugroho, LPE., (2016). Model Arhenius Untuk Pendugaan Laju Respirasi Brokoli Terolah Minimal. Jurnal Keteknikan Pertanian 4: 25-30

Ketaren, S. (2005). Minyak dan Lemak Pangan. Edisi pertama Jakarta: Penerbit UI-Press.

Lewis, R.J. (2007). Hawley's Condensed Chemical Dictionary 15th Edition. John Wiley & Sons, Inc. New York, NY 2007., p. 719

Li H.Z., Xiao X.L., Zhou X., (1989). Nutrition component analysis. Journal of Hunan Agricultural College, 15: 118-130.

MacBean C, ed. (2008). e-Pesticide Manual. 15th ed., ver. 5.1, Alton, UK; British Crop Protection Council. Dimethyl sulfide (624-92-0)

Mouritsen, O.G dan Styrbæk, K. (2014). Umami, Unlocking the Secrets of the Fifth
Taste. Columbia University Press. New York

O'Neil, M.J. (2006). The Merck Index – An Encyclopedia of Chemicals, Drugs, and Biologicals. Whitehouse Station, NJ: Merck and Co., Inc., p. 1029

Pratama RI, Rostini I., Rochima E. (2017). Amino Acid Profile and Volatile Components of Fresh and Steamed Vaname Shrimp (Litopenaeus vannamei). Prosiding 1st International Conference on Food Security Innovation (ICFSI), Le Dian Hotel, October 18 – 20. Serang. 57-68

Reineccius. G. (1994). Source Book of Flavor (2nd Ed.). Chapman and Hall. New York

Ridal, S. (2003). Karakteristik Sifat Fitokimia Tepung dan Pati Talas dan Kimpul dan Uji Penerimaan a-milase terhadap Patinya. Skripsi. Jurusan Teknologi Industri Pertanian. Fakultas Teknologi Pertanian IPB, Bogor.

Safaryani.N, Haryanti.S, Hastuti.E.D. (2007). Pengaruh Suhu dan Lama Penyimpanan terhadap Penurunan Kadar Vitamin C Brokoli (Brassica oleracea L.). Buletin Anatomi dan Fisiologi Vol. XV, No.2,

Sentana, S. (1994). Postharvest storage of onions. Ph. D. Thesis, Univ. Of New South Wales. Australia

Shahrajabian M.H., Sun W., Cheng Q., (2020). Chinese star anise (Illicium verum) and pyrethrum (Chrysanthemum cinerariifolium) as natural alternatives for organic farming and health care - A review. Australian Journal of Crop Science, 14(03): 517-523, doi: 10.21475/ajcs.20.14.03. p2209.

Simbolon, Karlina. (2008). Pengaruh Persentase Ragi Tape dan Lama Fermentasi Terhadap Mutu Tape Ubi Jalar. Skripsi. Fakultas Pertanian USU

Singh.U And Sagar.V.R. (2010). Quality characteristics of dehydrated leafy vegetables influenced by packaging materials and storage temperature. Journal of Scientific and Industrial Research, 69(10), 785-789

Sudarmadji S, dkk. (2007). Analisa Bahan Makanan dan Pertanian. Yogyakarta: Liberty

Sukmawati, N.D. (1987). Perubahan karbohidrat umbi uwi (Dioscorea alata L.) selama penyimpanan. Skripsi. Fakultas Teknologi Pertanian. Institut Pertanian Bogor. Bogo

Sundari, D., Almasyhuri dan Lamid, A. (2015). Pengaruh Proses Pemasakan Terhadap Komposisi Zat Gizi Bahan Pangan Sumber Protein. Media Litbangkes, Vol. 25 No. 4 235 – 242

Sunjoto, W.D, T.C. Setiawati, S. Winarso. (2014). Peningkatan Kecepatan Dekomposisi Limbah Kulit Kopi dengan Penambahan Tricoderma spp Sebagai Dekomposer dan Pseudomonas sp untuk Pengkayaan Kandungan Fosfat. Berkala Ilmiah Pertanian 1(1)

The good scent company. (2021). TGSC Information System. http://www.thegoodscentscompany.com/odor/onion-green-onion.html. accessed on January, 25^th 2022

Wang.A, Alexandru Luca, Merete Edelenbos. (2019). Emission of volatile organic compounds from yellow onion (Allium cepa L.) bulbs during storage. J Food Sci Technol 56(6):2940–2948 https://doi.org/10.1007/s13197-01903764-z

Widaningrum, Miskiyah dan A. S. Somantri, 2010. Perubahan Sifat Fisiko-Kimia Biji Jagung (Zea Mays L.) Pada Penyimpanan Dengan Perlakuan Karbondioksida (CO₂) AGRITECH, Vol. 30, No. 1