Golden apple snails, apple snails, and freshwater snails are mollusks found in shallow waters with mud on the bottom, such as rice fields, swamps, and riverbanks. Snail has a high protein content of 14%-19%, but its utilization is still limited. In addition, certain types of snails, such as golden apple snails and apple snails, are pests to rice plants, so they have not been used optimally. One alternative is using snail as a flavor enhancer. Flavor enhancers can be made through enzymatic hydrolysis using bromelain enzymes. This study aimed to determine the effect of snail type and hydrolysis time on the physicochemical properties of flavor enhancer made of snail protein hydrolysate. This experimental study used a completely randomized design with two factors. Factor I was the type of snail (golden apple snail, apple snail, and freshwater snail), and factor II was the hydrolysis time (3 hours, 6 hours, and 9 hours). Data were analyzed using ANOVA with α 5%. When significant difference was identified, DMRT test at 95% significance level will be conducted. The result has showed that the flavor enhancer made of snail protein hydrolysate is influenced by different snail types and hydrolysis time. The apple snail with 9-hour hydrolysis  produces the best flavor enhancer characterized by 3.96% water content, 14.73% yield, 92.29% water solubility, oil absorption of 1.15 ml/g, glutamic acid content of 107.23 ppm, and brownish yellow tone.

Ali, A., Wani, T. T., Wani, I. A., dan Masoodi, F.A. (2016). Comparative study of the physicochemical properties of rice and corn starches grown in indian temperate climate. Journal of the Saudi Society of Agricultural Sciences, 9(3). 202-205.

Anggraini, A., dan Yunianta. (2015). Pengaruh suhu dan lama hidrolisis enzim papain terhadap sifat kimia, fisik, dan organoleptik sari edamame. Jurnal Pangan dan Agroindustri, 3(3), 1015–1025.

Anisa, A. (2015). Enkapsulasi vegetable seasoning jamur merang hasil fermentasi larutan garam menggunakan tapioca teroksidasi dan gum arab secara spray dring. In Skripsi. Universitas Jember.

Annisa, S., Darmanto, Y. S., dan Amalia, U. (2017). The effect of various fish species on fish protein hydrolysate with the addition of papain enzyme. SAINTEK PERIKANAN : Indonesian Journal of Fisheries Science and Technology, 13(1), 24. https://doi.org/10.14710/ijfst.13.1.24-30.

AOAC. (2012). Official Method of Analysis 925.10 (Chapter 32). AOAC.

Bahri, S., Hadati, K. S., dan Satrimafitrah, P. (2021). Production of protein hydrolysate from tofu dregs using the crude extract of bromelain from pineapple core (Ananas comosus l). Journal of Physics: Conference Series, 1763(1). https://doi.org/10.1088/1742-6596/1763/1/012008.

Cheng, I. C., Liao, J. X., Ciou, J. Y., Huang, L. T., Chen, Y. W., dan Hou, C. Y. (2020). Characterization of protein hydrolysates from eel (Anguilla marmorata) and their application in herbal eel extracts. Catalysts, 10(2). https://doi.org/10.3390/catal10020205.

Dieterich, F., Boscolo, W. R., Bertoldo, M. T. P., Silva, V. S. N., Goncalves, G.A., Vidotti, R. M. (2014). Development and characterization of protein hydrolysates originated from animal agro industrial byproducts. Journal of Dairy, Veterinary & Animal Research, 1(2), 56–61. https://doi.org/10.15406/jdvar.2014.01.00012.

Eaton, L., dan Roger, K. (2018). The building blocks of life: examining basic chemical molecules. Britannica Educational Publishing.

Elfian, E., Mappiratu, M., dan Razak, A. R. (2017). Penggunaan enzim protease biduri untuk produksi cita rasa ikan teri (Stolephorus heterolobus). Kovalen, 3(2), 122. https://doi.org/10.22487/j24775398.2017.v3.i2.8718.

Febrianto, N.A. (2013). Hidrolisat protein asal bungkil kakao dan ampas kopi. Jember: Warta Pusat Penelitian Kopi dan Kakao. hal. 20-23.

Ghosh, S., Jung, C., dan Meyer-Rochow, V. B. (2017). Snail as mini-livestock: Nutritional potential of farmed Pomacea canaliculata (Ampullariidae). Agriculture and Natural Resources, 51(6), 504–511. https://doi.org/10.1016/j.anres.2017.12.007.

Halim, N. R. A., dan Sarbon, N. M. (2020). Characterization of asian swamp eel (Monopterus sp.) protein hydrolysate functional properties prepared using Alcalase enzyme. Food Research, 4(1), 207–215. https://doi.org/10.26656/fr.2017.4(1).205.

Hamid, S. A., Halim, N. R. A., dan Sarbon, N. M. (2015). Optimization of enzymatic hydrolysis conditions of golden Apple Snail (Pomacea canaliculata) protein by Alcalase. International Food Research Journal, 22(4), 2041–2049.

Harada-Padermo, S. dos S., Dias-Faceto, L. S., Selani, M. M., Alvim, I. D., Floh, E. I. S., Macedo, A. F., Bogusz, S., Dias, C. T. dos S., Conti-Silva, A. C., dan Vieira, T. M. F. de S. (2020). Umami Ingredient: Flavor enhancer from shiitake (Lentinula edodes) byproducts. Food Research International, 137(July), 109540. https://doi.org/10.1016/j.foodres.2020.109540.

Haslaniza, H. Maskat, M. Y Wan A, Mamat S. (2010). The effect of enzyme concentration, temperature and incubation time on nitrogen content and degree of hydrolysis of protein precipitate from cockle (Anadara ganosa) meat wash water. Int. Food Res. J. 17 147-152.

Haslianti, I. M. G., dan Ishak, E. (2017). Karakteristik keong kowoe dan aktivitas antioksidannya. JPHPI 2017, 20(1).

Hasrini, R. ., Zakaria, F. ., Adawiyah, D. ., dan Suparto, I. . (2017). Mikroenkapsulasi minyak sawit mentah dengan penyalut maltodekstrin dan isolat protein kedelai. J. Teknol. dan Industri Pangan, 28(1), 11–19.

Jamil, N. H., Halim, N. R. A., dan Sarbon, N. M. (2016). Optimization of enzymatic hydrolysis condition and functional properties of eel (Monopterus sp.) protein using response surface methodology (RSM). International Food Research Journal, 23(1), 1–9.

Khokhani, K. R. V., Bhatt, J., Khatri, T., dan Joshi, H. (2012). Spectrophotometric and chromatographic analysis of amino acids present in leaves of ailanthusexcels. International Journal of Chem Tech Research, 4(1), 389–393.

Kim, S. (2013). Marine proteins and peptides: biological activities and applications. John Wiley dan Sons.

Kong, Y., Yang, X., Ding, Q., Zhang, Y. Y., Sun, B. G., Chen, H. T., dan Sun, Y. (2017). Comparison of non-volatile umami components in chicken soup and chicken enzymatic hydrolysate. Food Research International, 102(September), 559–566. https://doi.org/10.1016/j.foodres.2017.09.038.

Kotlar, C. ., Ponce, A. ., dan Roura, S. . (2013). Improvement of functional and antimicrobial properties of brewery by product hydrolyzed enzymatically. LWT Food Sci Technol., 50, 378–385.

Kristinsson, H.G., & Rasco, B.A. (2000). Fish protein hydrolysates: production, biochemical, and functional properties. Critical Review in Food Science and Nutrition, 40,43–81.

Laohakunjit, N., Selamassakul, O., dan Kerdchoechuen, O. (2014). Seafood-like flavour obtained from the enzymatic hydrolysis of the protein by-products of seaweed (Gracilaria sp.). Food Chemistry, 158, 162–170. https://doi.org/10.1016/j.foodchem.2014.02.101.

Mardhika, H., Dwiloka, B., dan Setiani, B. E. (2020). Pengaruh berbagai metode thawing daging ayam petelur afkir beku terhadap kadar protein, protein terlarut dan kadar lemak steak ayam. J. Teknologi Pangan, 4(1), 48–54.

Mualim, A., Lestari, S., dan Hanggita, S. R. J. (2013). Kandungan gizi dan karakteristik mi basah dengan substitusi daging keong mas (Pomacea caniculata). Jurnal FISTEC Universitas Sriwijaya, 2(1).

Nadhifa, Y. (2021). Aktivitas antimikroba hidrolisat protein keong mas (Pomacea canaliculata) pada bakteri Eschericia coli dan Staphylococcus aureus. unpublished.

Nafi, A., Diniyah, N., dan Permata, R. (2014). Pembuatan garam gurih jamur merang dengan variasi lama hidrolisis dan lama fermentasi. Jurnal Ilmiah Inovasi, 14(2), 125–132.

Naknaen, P., Itthisoponkul, T., dan Charoenthaikij, P. (2015). Proximate compositions, nonvolatile taste components and antioxidant capacities of some dried edible mushrooms collected from thailand. Journal of Food Measurement and Characterization, 9(3), 259–268.

Nurhaeni, Sambali, A., Satrimafitrah, P., dan Jusman. (2019). Penentuan suhu dan ph hidrolisis kitosan dari cangkang keong sawah (pila ampullacea) terhadap berat molekul hidrolisatnya. KOVALEN: Jurnal Riset Kimia, 5(1), 90–99.

Obande, R. A. (2013). Proximate composition and mineral content of the Fresh water snail (Pila ampullacea) from River Benue, Nigeria. IOSR Journal of Environmental Science, Toxicology and Food Technology, 2(6), 43–46. https://doi.org/10.9790/2402-0264346.

Palupi, N., Subekah, Mayasari, C.A., Maslikah. (2013). Study of making liquid hnatural seasoning made from merang mushroom (Volvariella volvaceae) with variation in the amount of VCO (Virgin Coconut Oil) with various methods. J. Agritech. 35 4 441-448.

Pangaribuan, M. (2013). Pengaruh media perebusan terhadap komposisi kimia, asam amino, mineral. Institut Pertanian Bogor.

Prasulistyowati, T.(2011). Modifikasi hidrolisis enzimatis koro katok menggunakan campuran enzim protease biduri dan papain untuk memproduksi flavor enhancer. In Skripsi. Universitas Jember.

Purbasari, D. (2008). Produksi dan karakterisasi hidrolisat protein dari kerang mas ngur (Atactodea striata). In Skripsi. Institut Pertanian Bogor.

Putra, A. Y. T., Rosida, D. F., and Priyanto, A.D. (2020). Effect of hydrolysis time and papain concentration on some properties of apple snail (Pilla ampullacea) hydrolysate. International Journal of Eco-Innovation in Science and Engineering, 01(2), 5–9. https://doi.org/10.4186/ijeise.upnjatim.ac.id/E-ISSN.

Putra, S. N. K. M., Ishak, N. H., dan Sarbon, N. M. (2018). Preparation and characterization of physicochemical properties of golden apple snail (Pomacea canaliculata) protein hydrolysate as affected by different proteases. Biocatalysis and Agricultural Biotechnology, 13(October 2017), 123–128. https://doi.org/10.1016/j.bcab.2017.12.002.

Putri, K. M. Winarti, S., Djajati, S. (2020). Physichochemical and organoleptic characteristics of seasoning from tempe hydrolysate using long treatment of fermentation and proteolytic enzyme proportion. 1st International Conference Eco-Innovation in Science, Engineering, and Technology. NST Proceedings. 76-85. doi: 10.11594/ nstp.2020.0511.

Rosida, D. F., Priyanto, A. D., Yusuf, A., dan Putra, T. (2021). Effects of papain concentration and hydrolysis time on degree of hydrolysis and glutamic acid content of apple snail hydrolysate. 5th International Seminar of Research Month 2020. NST Proceedings, 2021, 17–21.

Saallah, S., Ishak, N. H., dan Sarbon, N. M. (2020). Effect of different molecular weight on the antioxidant activity and physicochemical properties of golden apple snail (Ampullariidae) protein hydrolysates. Food Research, 4(4), 1363–1370. https://doi.org/10.26656/FR.2017.4(4).348.

Silvestre, M. P. C. ., Morais, H., Silva, V. D. M., dan M. R. Silva. (2013). Degree of hydrolysis and peptide profile of whey proteins using pancreatin. J. Brazilian Soc. Food Nutr., 38(3), 278–290.

Sudarmadji, S., Haryono, B., dan Suhardi. (1997). Prosedur analisa untuk bahan makanan dan pertanian (edisi keempat). Penerbit Liberty.

Sukkhown, P., Jangchud, K., Lorjaroenphon, Y., & Pirak, T. (2017). Flavored functional protein hydrolysates from enzymatic hydrolysis of dried squid by-products: effect of drying method. Food Hydrocolloids, xxx, 1-10.

Tamaya, A. C., Darmanto, Y. S., dan Anggo, A. D. (2020). Karakteristik penyedap rasa dari air rebusan pada jenis ikan yang berbeda dengan penambahan tepung maizena. Jurnal Ilmu dan Teknologi Perikanan, 2(2), 13–21.

Toledo, N. ., Mondoni, J., Harada-Padermo, S. dos S., Vela-Pardez, R. ., Berni, P. R. ., Selani, M. M., dan Canniati-Brazaca, S. . (2019). Characterization of apple, pineapple, and melon by-produts and their application in cookie formulations as an alternative to enhance the antioxidant capacity. Journal of Food Processing and Preservation, 43(9), 1–9.

Wicaksono, L. A., dan Winarti, S. (2021). Karakteristik penyedap rasa alami dari biji bunga matahari dan kupang putih dengan hidrolisis enzimatis. AGRITEKNO: Jurnal Teknologi Pertanian, 10(1), 64–73. https://doi.org/10.30598/jagritekno.2021.10.1.64.

Wijaya, J. C., dan Yunianta, Y. (2015). Pengaruh penambahan enzim bromelin terhadap sifat kimia dan organoleptik tempe gembus (kajian konsentrasi dan lama inkubasi dengan enzim). Jurnal Pangan dan Agroindustri, 3(1), 96–106.

Wouters, A.G.B. , Rombouts, I, Fierens, E., Brijs, K. & Delcour, J.A. (2016). Relevance of the functional properties of enzymatic plant protein hydrolysates in food systems. Comprehensive Reviews in Food Science and Food Safety. 15: 786-800.

Nuraeni, L. ., Garnida, Y., dan Sofyan, I. (2016). Pengaruh suhu dan lama pengeringan terhadap karakteristik tepung terubuk (Saccharum edule Hasskarl). Universitas Pasundan.

Prayudi, A., Yuniarti, T., Taryoto, A. H. (2019). Potensi hasil samping industry perikanan sebagai sumber bahan baku produk penyedap rasa alami. Prosiding Seminar Nasional Perikanan dan Penyuluhan. 265-280.

Ilfandzahina, M. O. (2020). Identifikasi komponen umami dan pembuatan flavor enhancer dari keong mas (Pomacea canaliculata). In Skripsi. UPN Veteran Jawa Timur. unpublished.

Liliany, D., Widyarman, A., Erfan, E., Sudiono, J., dan Djamil, M. (2018). Enzymatic activity of bromelain isolated pineapple (Ananas comosus) hump and its antibacterial effect on Enterococcus faecalis. Scientific Dental Journal, 2(2), 39. https://doi.org/10.26912/sdj.v2i2.2540.

Nugroho, F.A. (2009). Isolasi enzim bromelin dari buah nanas dan aplikasinya pada pembuatan kecap berbahan baku keong mas. Jurnal Teknik, 3(2), 56-65.

Poba, D., Ijirana, I., dan Sakung, J. (2019). Crude bromelain enzyme activities based on maturity level of pineapple. Jurnal Akademika Kimia, 8(4), 236–241. https://doi.org/10.22487/j24775185.2019.v8.i4.pp236-241.

Suhartono, dan Artika, W. (2017). Isolasi dan uji aktivitas protease dari aktinobakteri isolat lokal (AKJ-09) aceh. Bioleuser, 1(3), 116–120.

Yuniarti, T., Prayudi, A., Supenti, L., Suhrawardan, H., dan Martosuyono, P. (2021). Produksi dan profil kimia hidrolisat protein dari hasil samping pengolahan udang segar. Jurnal Perikanan Universitas Gadjah Mada, 23(1), 63. https://doi.org/10.22146/jfs.59906.

Winda Amilia, Andi Eko Wiyono , Dhifa Ferzia, Andrew Setiawan Rusdianto, Ida Bagus Suryaningrat, Nidya Shara Mahardika, Bertung Suryadarma. 2021. Physical, Chemical, and Sensory Characteristics of Frozen Salted Edamame During Storage at Room Temperature . International Journal on Food, Agriculture and Natural Resources. 2(1):9–18. https://doi.org/10.46676/ij-fanres.v2i1.20

Kripa Dhakal, Ramasamy Ravi, Dilip Nandwani. 2021. Comparative Study of Sensory Attributes of Leafy Green Vegetables Grown Under Organic and Conventional Management . International Journal on Food, Agriculture and Natural Resources. 2(3):29–45. https://doi.org/10.46676/ij-fanres.v2i3.52

Maria Α. Pissia, Anthia Matsakidou, Vassilios Kiosseoglou. 2021. Raw materials from snails for food preparation. Future Foods. Volume 3. https://doi.org/10.1016/j.fufo.2021.100034.