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A Plant-Based Milk Type: Hemp Seed Milk

Yıl 2022, , 170 - 181, 27.07.2022
https://doi.org/10.24323/akademik-gida.1149875

Öz

Plant-based milk industry has been enlarged with increasing demand for plant milk types and their products. Demand is based on some factors such as vegan consumption, nutritional content, carbon emissions, lactose intolerance, and other factors. According to raw material, plant-based vegetable milk types can be divided into five categories as cereal-based (oat, rice, corn and spelt milks), legume-based (soy, peanut, lupine and cowpea milks), nut-based (almond, coconut, hazelnut, pistachio, walnut and cashew milks), seed-based (sesame, flax, hemp and sunflower milks) and pseudo-cereal based (quinoa, teff, amaranth and buckwheat milks). Hemp seed milk is one of the seed-based milks and it has high nutrition values because it is composed of lipids (1.25-5.00%), proteins (0.83-4.00%), carbohydrates (2.5-20.0%), vitamin E, minerals (sodium, phosphorus, potassium, magnesium, calcium, sulfur, iron, and zinc) and all essential amino acids with high in polyunsaturated fatty acids (linolenic acid and linoleic acid). This review evaluated hemp seed milk in comparing with other plant milk types, presented its nutritional aspect, and formed a perspective with current studies.

Kaynakça

  • [1] Future Learn Insights (FLI). https://www.futuremarketinsights.com/reports/sample/rep-gb-13818. Access date: 6 March 2022.
  • [2] Paul, A.A., Kumar, S., Kumar, V., Sharma, R. (2020). Milk Analog: Plant based alternatives to conventional milk, production, potential and health concerns. Critical Reviews in Food Science and Nutrition, 60(18), 3005-3023.
  • [3] Tangyu, M., Muller, J., Bolten, C.J., Wittmann, C. (2019). Fermentation of plant-based milk alternatives for improved flavour and nutritional value. Applied Microbiology & Biotechnology, 103(23-24), 9263-9275.
  • [4] Reyes-Jurado, F., Soto-Reyes, N., Dávila-Rodríguez, M., Lorenzo-Lea,l A.C., Jiménez-Munguía, M.T., Mani-López, E., Lopez-Malo, A. (2021). Plant-Based Milk Alternatives: Types, Processes, Benefits, and Characteristics. Food Reviews International, 1-32.
  • [5] Sethi, S., Tyagi, S.K., Anurag, R.K. (2016). Plant-based milk alternatives an emerging segment of functional beverages: a review. Journal of Food Science and Technology, 53(9), 3408-3423.
  • [6] Nissen, L., di Carlo, E., Gianotti, A. (2020). Prebiotic potential of hemp blended drinks fermented by probiotics. Food Research International, 131, 109029.
  • [7] Vahanvaty, U.S. (2009). Hemp Seed and Hemp Milk. ICAN: Infant, Child, & Adolescent Nutrition, 1(4), 232-234.
  • [8] Cassano, R., Trombino, S., Ferrarelli, T., Nicoletta, F.P., Mauro, M.V., Giraldi, C., Picci, N. (2013). Hemp fiber (Cannabis sativa L.) derivatives with antibacterial and chelating properties. Cellulose, 20(1), 547-57.
  • [9] Gonen, S. (2009). Cannabis sativa L. bitkisinin morfolojisi ve anatomisi üzerine bir araştırma. Master Thesis. Ege University, Izmir, Turkey.
  • [10] Gu, L.F. (2006). Surgical sewing free zipper made of antibiotic material hemp fiber. CN Patent Y, 2829641.
  • [11] Aytaç, S., Ayan, A.K., Arslanoğlu, Ş.F. (2017). Keten-Kendir-Isırgan. Endüstriyel Tip Kenevir Yetiştiriciliği Karadeniz Lif Bitkileri Çalıştayı. Karadeniz Lif Bitkileri Çalıştayı (5-6 Mayıs), Samsun. 27-35.
  • [12] Kladar, N., Čonić, B.S., Božin, B., Torović, L. (2021). European hemp-based food products – Health concerning cannabinoids exposure assessment. Food Control, 129, 108233.
  • [13] Di Marco Pisciottano, I., Guadagnuolo, G., Soprano, V., Esposito, M., Gallo, P. (2021). A survey of Δ9-THC and relevant cannabinoids in products from the Italian market: A study by LC–MS/MS of food, beverages and feed. Food Chemistry, 346, 128898.
  • [14] King, J.W. (2019). The relationship between cannabis/hemp use in foods and processing methodology. Current Opinion in Food Science, 28, 32-40.
  • [15] Wang, Q., Jiang, J., Xiong, Y.L. (2018). High pressure homogenization combined with pH shift treatment: A process to produce physically and oxidatively stable hemp milk. Food Research International, 106, 487-494.
  • [16] Mitchell, R., Shammet, K.M.(2008). Hemp food product base and processes. Patent No: US20080241339A1.
  • [17] Yin, S.W., Tang, C.H., Wen, Q.B., Yang, X.Q. (2009). Functional and structural properties andin vitrodigestibility of acylated hemp (Cannabis sativaL.) protein isolates. International Journal of Food Science & Technology, 44(12), 2653-2661.
  • [18] Raikos, V., Duthie, G., Ranawana, V. (2015). Denaturation and oxidative stability of hemp seed (cannabis sativa l.) protein isolate as affected by heat treatment. Plant Foods for Human Nutrition, 70(3), 304-309.
  • [19] Chichowska, J., Kliber, A., Kozowska, J., Biskupski, M., Grygorowicz, Z. (2002). Thyroid hormone and metabolic changes after treated rats with hemp milk. http://www.hempreport.com/pdf/HempMilkStudy%5B1%5D.pdf. Access date: 25 December 2021.
  • [20] Berghofer, E., Pollmann, K., Traby, M., Frenkenberger, C. (2006). Method for producing hemp milk. Patent No: RU2341093C2.
  • [21] Jiang, J., Chen, J., Xiong, Y.L. (2009). Structural and emulsifying properties of soy protein isolate subjected to acid and alkaline ph-shifting processes. Journal of Agricultural and Food Chemistry, 57(16), 7576–7583.
  • [22] Jiang, J., Zhu, B., Liu, Y., Xiong, Y. (2014). Interfacial structural role of ph-shifting processed pea protein in the oxidative stability of oil/water emulsions. Journal of Agricultural and Food Chemistry, 62(7), 1683-1691.
  • [23] The, S.S., Birch, E.J. (2014). Effect of ultrasonic treatment on the polyphenol content and antioxidant capacity of extract from defatted hemp, flax and canola seed cakes. Ultrasonics Sonochemistry, 21(1), 346-353.
  • [24] Curl, S., Rivero-Mendoza, D., Dahl, W.J. (2020). Plant-based milks: Hemp. EDIS. 5.
  • [25] Bocker, R., Silva, E.K. (2022). Innovative technologies for manufacturing plant-based non-dairy alternative milk and their impact on nutritional, sensory and safety aspects. Future Foods, 5, 100098.
  • [26] Singhal, S., Baker, R.D., Baker, S.S. (2017). A Comparison of the nutritional value of cow's milk and nondairy beverages. Journal of Pediatric Gastroenterology and Nutrition, 64(5), 799-805.
  • [27] Rasika, D.M.D., Vidanarachchi, J.K., Rocha, R.S., Balthazar, C.F., Cruz, A.G., Sant’Ana, A.S., Ranadheera, C.S. (2021). Plant-based milk substitutes as emerging probiotic carriers. Current Opinion in Food Science, 38, 8-20.
  • [28] Aydar, E.F., Tutuncu, S., Ozcelik, B. (2020). Plant-based milk substitutes: Bioactive compounds, conventional and novel processes, bioavailability studies, and health effects. Journal of Functional Foods, 70, 103975.
  • [29] McClements, D.J., Newman, E., McClements, I.F. (2019). Plant-based milks: A review of the science underpinning their design, fabrication, and performance. Comprehensive Reviews in Food Science and Food Safety, 18(6), 2047-2067.
  • [30] Kanberoglu, B.N. (2021). Use of quinoa beverage and flour as replacement of cow's milk and skimmed milk powder in ice cream production. Master Thesis. Institute of Graduate Studies, Ondokuz Mayis University, Samsun, Turkey (in Turkish)
  • [31] Martinez-Padilla, E., Li, K., Blok Frandsen, H., Skejovic Joehnke, M., Vargas-Bello-Perez, E., Lykke Petersen, I. (2020). In vitro protein digestibility and fatty acid profile of commercial plant-based milk alternatives. Foods, 9(12), 1784.
  • [32] Pineli, L.D.D., Botelho, R.B.A., Zandonadi, R.P., Solorzano, J.L., de Oliveira, G.T., Reis, C.E.G., Teixeira, D.S. (2015). Low glycemic index and increased protein content in a novel quinoa milk. Lwt-Food Science and Technology, 63(2), 1261-1267.
  • [33] Makinen, O.E., Uniacke-Lowe, T., O'Mahony, J.A., Arendt, E.K. (2015). Physicochemical and acid gelation properties of commercial UHT-treated plant-based milk substitutes and lactose free bovine milk. Food Chemistry, 168, 630-638.
  • [34] Chalupa-Krebzdak, S., Long, C.J., Bohrer, B.M. (2018). Nutrient density and nutritional value of milk and plant-based milk alternatives. International Dairy Journal, 87, 84-92.
  • [35] Abelilla, J.J., Liu, Y., Stein, H.H. (2018). Digestible indispensable amino acid score (DIAAS) and protein digestibility corrected amino acid score (PDCAAS) in oat protein concentrate measured in 20- to 30-kilogram pigs. Journal of the Science of Food and Agriculture, 98(1), 410-414.
  • [36] Simopoulos, A.P. (2016). An increase in the omega-6/omega-3 fatty acid ratio increases the risk for obesity. Nutrients, 8(3), 128.
  • [37] Simopoulos, A.P. (2008). The importance of the omega-6/omega-3 fatty acid ratio in cardiovascular disease and other chronic diseases. Experimental Biology and Medicine, 233, 6, 684-688.
  • [38] Astolfi, M.L., Marconi, E., Protano, C., Canepari, S. (2020). Comparative elemental analysis of dairy milk and plant-based milk alternatives. Food Control, 116, 107327.
  • [39] Gram, S. (2021). The effect of ultrasound and homogenization processes on the physicochemical propertieof hemp milk. Master Thesis. Institute of Graduate Studies: Ondokuz Mayıs University, Samsun, Turkey.
  • [40] Huang, K., Zhang, S., Guan, X., Li, C., Li, S., Liu, Y., Shi, J. (2021). Effect of the oat β-glucan on the development of functional quinoa (Chenopodium quinoa wild) milk. Food Chemistry, 349, 129201.
  • [41] Jeske, S., Zannini, E., Arendt, E.K. (2017). Evaluation of physicochemical and glycaemic properties of commercial plant-based milk substitutes. Plant Foods for Human Nutrition, 72(1), 26-33.
  • [42] Lai, H., Wang, S., Nguyen, Z., Li, B. (2021). Process optimization and antioxidant activity changes of fermented hemp seed milk. Modern Food Technology, 37(07), 194-202.
  • [43] Vaikma, H., Kaleda, A., Rosend, J., Rosenvald, S. (2021). Market mapping of plant-based milk alternatives by using sensory (RATA) and GC analysis. Future Foods, 4, 100049.
  • [44] Farinon, B., Molinari, R., Costantini, L., Merendino, N. (2020). The seed of industrial hemp (Cannabis sativa L.): Nutritional quality and potential functionality for human health and nutrition. Nutrients, 12(7), 1935.
  • [45] Silva, A.R.A., Silva, M.M.N., Ribeiro, B.D. (2020). Health issues and technological aspects of plant-based alternative milk. Food Research International, 131, 108972.
  • [46] Szparaga, A., Tabor, S., Kocira, S., Czerwińska, E., Kuboń, M., Płóciennik, B., Findura, P. (2019). Survivability of probiotic bacteria in model systems of non-fermented and fermented coconut and hemp milks. Sustainability, 11(21), 6093.
  • [47] Zhu, X., Wang, Z., Li, M., Wang, Y., Li, Z., Yang, H., Zhang, N., Sun, B. (2021). Effect of heat treatment on the stability of hemp seed milk and characterization of protein structure. Food Science and Human Wellness, 42(7), 68-73.
  • [48] Bartkiene, E., Zokaityte, E., Lele, V., Sakiene, V., Zavistanaviciute, P., Klupsaite, D., Bendoraitiene, J., Navikaite-Snipaitiene, V., Ruzauskas, M. (2019). Technology and characterisation of whole hemp seed beverages prepared from ultrasonicated and fermented whole seed paste. International Journal of Food Science & Technology, 55(1), 406-419.

Bitkisel Sütlerden Biri: Kenevir Tohumu Sütü

Yıl 2022, , 170 - 181, 27.07.2022
https://doi.org/10.24323/akademik-gida.1149875

Öz

Bitkisel süt endüstrisi, bitkisel sütlere ve ürünlerine olan talebin artmasına bağlı olarak genişlemektedir. Söz konusu talepler temel anlamda vegan tüketim, besinsel içerik, karbon emisyonu, laktoz intoleransı ve diğer faktörler olmak üzere bazı hususlara bağlıdır. Bitkisel sütler hammaddelerine göre tahıl bazlı (yulaf, pirinç ve mısır sütü), baklagil bazlı (soya, yer fıstığı, acı bakla ve börülce sütü), yemiş bazlı (badem, hindistan cevizi, fındık, fıstık, ceviz ve kaju sütü), tohum bazlı (susam, keten, kenevir ve ayçiçeği sütü) ve yarı-tahıl bazlı (kinoa, teff, amaranth ve karabuğday sütü) olmak üzere beş kategoriye ayrılmaktadır. Kenevir tohumu sütü, tohum bazlı sütlerden biri olup; yağ (%1.25-5.00), protein (%0.83-4.00), karbonhidrat (%2.5-20.0), E vitamini, mineraller (sodyum, fosfor, potasyum, magnezyum, kalsiyum, kükürt, demir ve çinko), çoklu doymamış yağ asitleri (linolenik asit ve linoleik asit) ve esansiyel amino asit içeriği ile yüksek besinsel değere sahiptir. Bu çalışma, kenevir tohumu sütünün besleyici yönünün ortaya çıkarılması, diğer bitkisel sütlerle karşılaştırılması ve güncel çalışmalarla bir bakış açısı oluşturulması için derlenmiştir.

Kaynakça

  • [1] Future Learn Insights (FLI). https://www.futuremarketinsights.com/reports/sample/rep-gb-13818. Access date: 6 March 2022.
  • [2] Paul, A.A., Kumar, S., Kumar, V., Sharma, R. (2020). Milk Analog: Plant based alternatives to conventional milk, production, potential and health concerns. Critical Reviews in Food Science and Nutrition, 60(18), 3005-3023.
  • [3] Tangyu, M., Muller, J., Bolten, C.J., Wittmann, C. (2019). Fermentation of plant-based milk alternatives for improved flavour and nutritional value. Applied Microbiology & Biotechnology, 103(23-24), 9263-9275.
  • [4] Reyes-Jurado, F., Soto-Reyes, N., Dávila-Rodríguez, M., Lorenzo-Lea,l A.C., Jiménez-Munguía, M.T., Mani-López, E., Lopez-Malo, A. (2021). Plant-Based Milk Alternatives: Types, Processes, Benefits, and Characteristics. Food Reviews International, 1-32.
  • [5] Sethi, S., Tyagi, S.K., Anurag, R.K. (2016). Plant-based milk alternatives an emerging segment of functional beverages: a review. Journal of Food Science and Technology, 53(9), 3408-3423.
  • [6] Nissen, L., di Carlo, E., Gianotti, A. (2020). Prebiotic potential of hemp blended drinks fermented by probiotics. Food Research International, 131, 109029.
  • [7] Vahanvaty, U.S. (2009). Hemp Seed and Hemp Milk. ICAN: Infant, Child, & Adolescent Nutrition, 1(4), 232-234.
  • [8] Cassano, R., Trombino, S., Ferrarelli, T., Nicoletta, F.P., Mauro, M.V., Giraldi, C., Picci, N. (2013). Hemp fiber (Cannabis sativa L.) derivatives with antibacterial and chelating properties. Cellulose, 20(1), 547-57.
  • [9] Gonen, S. (2009). Cannabis sativa L. bitkisinin morfolojisi ve anatomisi üzerine bir araştırma. Master Thesis. Ege University, Izmir, Turkey.
  • [10] Gu, L.F. (2006). Surgical sewing free zipper made of antibiotic material hemp fiber. CN Patent Y, 2829641.
  • [11] Aytaç, S., Ayan, A.K., Arslanoğlu, Ş.F. (2017). Keten-Kendir-Isırgan. Endüstriyel Tip Kenevir Yetiştiriciliği Karadeniz Lif Bitkileri Çalıştayı. Karadeniz Lif Bitkileri Çalıştayı (5-6 Mayıs), Samsun. 27-35.
  • [12] Kladar, N., Čonić, B.S., Božin, B., Torović, L. (2021). European hemp-based food products – Health concerning cannabinoids exposure assessment. Food Control, 129, 108233.
  • [13] Di Marco Pisciottano, I., Guadagnuolo, G., Soprano, V., Esposito, M., Gallo, P. (2021). A survey of Δ9-THC and relevant cannabinoids in products from the Italian market: A study by LC–MS/MS of food, beverages and feed. Food Chemistry, 346, 128898.
  • [14] King, J.W. (2019). The relationship between cannabis/hemp use in foods and processing methodology. Current Opinion in Food Science, 28, 32-40.
  • [15] Wang, Q., Jiang, J., Xiong, Y.L. (2018). High pressure homogenization combined with pH shift treatment: A process to produce physically and oxidatively stable hemp milk. Food Research International, 106, 487-494.
  • [16] Mitchell, R., Shammet, K.M.(2008). Hemp food product base and processes. Patent No: US20080241339A1.
  • [17] Yin, S.W., Tang, C.H., Wen, Q.B., Yang, X.Q. (2009). Functional and structural properties andin vitrodigestibility of acylated hemp (Cannabis sativaL.) protein isolates. International Journal of Food Science & Technology, 44(12), 2653-2661.
  • [18] Raikos, V., Duthie, G., Ranawana, V. (2015). Denaturation and oxidative stability of hemp seed (cannabis sativa l.) protein isolate as affected by heat treatment. Plant Foods for Human Nutrition, 70(3), 304-309.
  • [19] Chichowska, J., Kliber, A., Kozowska, J., Biskupski, M., Grygorowicz, Z. (2002). Thyroid hormone and metabolic changes after treated rats with hemp milk. http://www.hempreport.com/pdf/HempMilkStudy%5B1%5D.pdf. Access date: 25 December 2021.
  • [20] Berghofer, E., Pollmann, K., Traby, M., Frenkenberger, C. (2006). Method for producing hemp milk. Patent No: RU2341093C2.
  • [21] Jiang, J., Chen, J., Xiong, Y.L. (2009). Structural and emulsifying properties of soy protein isolate subjected to acid and alkaline ph-shifting processes. Journal of Agricultural and Food Chemistry, 57(16), 7576–7583.
  • [22] Jiang, J., Zhu, B., Liu, Y., Xiong, Y. (2014). Interfacial structural role of ph-shifting processed pea protein in the oxidative stability of oil/water emulsions. Journal of Agricultural and Food Chemistry, 62(7), 1683-1691.
  • [23] The, S.S., Birch, E.J. (2014). Effect of ultrasonic treatment on the polyphenol content and antioxidant capacity of extract from defatted hemp, flax and canola seed cakes. Ultrasonics Sonochemistry, 21(1), 346-353.
  • [24] Curl, S., Rivero-Mendoza, D., Dahl, W.J. (2020). Plant-based milks: Hemp. EDIS. 5.
  • [25] Bocker, R., Silva, E.K. (2022). Innovative technologies for manufacturing plant-based non-dairy alternative milk and their impact on nutritional, sensory and safety aspects. Future Foods, 5, 100098.
  • [26] Singhal, S., Baker, R.D., Baker, S.S. (2017). A Comparison of the nutritional value of cow's milk and nondairy beverages. Journal of Pediatric Gastroenterology and Nutrition, 64(5), 799-805.
  • [27] Rasika, D.M.D., Vidanarachchi, J.K., Rocha, R.S., Balthazar, C.F., Cruz, A.G., Sant’Ana, A.S., Ranadheera, C.S. (2021). Plant-based milk substitutes as emerging probiotic carriers. Current Opinion in Food Science, 38, 8-20.
  • [28] Aydar, E.F., Tutuncu, S., Ozcelik, B. (2020). Plant-based milk substitutes: Bioactive compounds, conventional and novel processes, bioavailability studies, and health effects. Journal of Functional Foods, 70, 103975.
  • [29] McClements, D.J., Newman, E., McClements, I.F. (2019). Plant-based milks: A review of the science underpinning their design, fabrication, and performance. Comprehensive Reviews in Food Science and Food Safety, 18(6), 2047-2067.
  • [30] Kanberoglu, B.N. (2021). Use of quinoa beverage and flour as replacement of cow's milk and skimmed milk powder in ice cream production. Master Thesis. Institute of Graduate Studies, Ondokuz Mayis University, Samsun, Turkey (in Turkish)
  • [31] Martinez-Padilla, E., Li, K., Blok Frandsen, H., Skejovic Joehnke, M., Vargas-Bello-Perez, E., Lykke Petersen, I. (2020). In vitro protein digestibility and fatty acid profile of commercial plant-based milk alternatives. Foods, 9(12), 1784.
  • [32] Pineli, L.D.D., Botelho, R.B.A., Zandonadi, R.P., Solorzano, J.L., de Oliveira, G.T., Reis, C.E.G., Teixeira, D.S. (2015). Low glycemic index and increased protein content in a novel quinoa milk. Lwt-Food Science and Technology, 63(2), 1261-1267.
  • [33] Makinen, O.E., Uniacke-Lowe, T., O'Mahony, J.A., Arendt, E.K. (2015). Physicochemical and acid gelation properties of commercial UHT-treated plant-based milk substitutes and lactose free bovine milk. Food Chemistry, 168, 630-638.
  • [34] Chalupa-Krebzdak, S., Long, C.J., Bohrer, B.M. (2018). Nutrient density and nutritional value of milk and plant-based milk alternatives. International Dairy Journal, 87, 84-92.
  • [35] Abelilla, J.J., Liu, Y., Stein, H.H. (2018). Digestible indispensable amino acid score (DIAAS) and protein digestibility corrected amino acid score (PDCAAS) in oat protein concentrate measured in 20- to 30-kilogram pigs. Journal of the Science of Food and Agriculture, 98(1), 410-414.
  • [36] Simopoulos, A.P. (2016). An increase in the omega-6/omega-3 fatty acid ratio increases the risk for obesity. Nutrients, 8(3), 128.
  • [37] Simopoulos, A.P. (2008). The importance of the omega-6/omega-3 fatty acid ratio in cardiovascular disease and other chronic diseases. Experimental Biology and Medicine, 233, 6, 684-688.
  • [38] Astolfi, M.L., Marconi, E., Protano, C., Canepari, S. (2020). Comparative elemental analysis of dairy milk and plant-based milk alternatives. Food Control, 116, 107327.
  • [39] Gram, S. (2021). The effect of ultrasound and homogenization processes on the physicochemical propertieof hemp milk. Master Thesis. Institute of Graduate Studies: Ondokuz Mayıs University, Samsun, Turkey.
  • [40] Huang, K., Zhang, S., Guan, X., Li, C., Li, S., Liu, Y., Shi, J. (2021). Effect of the oat β-glucan on the development of functional quinoa (Chenopodium quinoa wild) milk. Food Chemistry, 349, 129201.
  • [41] Jeske, S., Zannini, E., Arendt, E.K. (2017). Evaluation of physicochemical and glycaemic properties of commercial plant-based milk substitutes. Plant Foods for Human Nutrition, 72(1), 26-33.
  • [42] Lai, H., Wang, S., Nguyen, Z., Li, B. (2021). Process optimization and antioxidant activity changes of fermented hemp seed milk. Modern Food Technology, 37(07), 194-202.
  • [43] Vaikma, H., Kaleda, A., Rosend, J., Rosenvald, S. (2021). Market mapping of plant-based milk alternatives by using sensory (RATA) and GC analysis. Future Foods, 4, 100049.
  • [44] Farinon, B., Molinari, R., Costantini, L., Merendino, N. (2020). The seed of industrial hemp (Cannabis sativa L.): Nutritional quality and potential functionality for human health and nutrition. Nutrients, 12(7), 1935.
  • [45] Silva, A.R.A., Silva, M.M.N., Ribeiro, B.D. (2020). Health issues and technological aspects of plant-based alternative milk. Food Research International, 131, 108972.
  • [46] Szparaga, A., Tabor, S., Kocira, S., Czerwińska, E., Kuboń, M., Płóciennik, B., Findura, P. (2019). Survivability of probiotic bacteria in model systems of non-fermented and fermented coconut and hemp milks. Sustainability, 11(21), 6093.
  • [47] Zhu, X., Wang, Z., Li, M., Wang, Y., Li, Z., Yang, H., Zhang, N., Sun, B. (2021). Effect of heat treatment on the stability of hemp seed milk and characterization of protein structure. Food Science and Human Wellness, 42(7), 68-73.
  • [48] Bartkiene, E., Zokaityte, E., Lele, V., Sakiene, V., Zavistanaviciute, P., Klupsaite, D., Bendoraitiene, J., Navikaite-Snipaitiene, V., Ruzauskas, M. (2019). Technology and characterisation of whole hemp seed beverages prepared from ultrasonicated and fermented whole seed paste. International Journal of Food Science & Technology, 55(1), 406-419.
Toplam 48 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Gıda Mühendisliği
Bölüm Derleme Makaleler
Yazarlar

Ayşegül Beşir Bu kişi benim 0000-0002-6442-6807

Nour Awad Bu kişi benim 0000-0003-3441-9080

Mustafa Mortaş Bu kişi benim 0000-0002-0316-7768

Fehmi Yazıcı Bu kişi benim 0000-0001-9601-8843

Yayımlanma Tarihi 27 Temmuz 2022
Gönderilme Tarihi 9 Mart 2022
Yayımlandığı Sayı Yıl 2022

Kaynak Göster

APA Beşir, A., Awad, N., Mortaş, M., Yazıcı, F. (2022). A Plant-Based Milk Type: Hemp Seed Milk. Akademik Gıda, 20(2), 170-181. https://doi.org/10.24323/akademik-gida.1149875
AMA Beşir A, Awad N, Mortaş M, Yazıcı F. A Plant-Based Milk Type: Hemp Seed Milk. Akademik Gıda. Temmuz 2022;20(2):170-181. doi:10.24323/akademik-gida.1149875
Chicago Beşir, Ayşegül, Nour Awad, Mustafa Mortaş, ve Fehmi Yazıcı. “A Plant-Based Milk Type: Hemp Seed Milk”. Akademik Gıda 20, sy. 2 (Temmuz 2022): 170-81. https://doi.org/10.24323/akademik-gida.1149875.
EndNote Beşir A, Awad N, Mortaş M, Yazıcı F (01 Temmuz 2022) A Plant-Based Milk Type: Hemp Seed Milk. Akademik Gıda 20 2 170–181.
IEEE A. Beşir, N. Awad, M. Mortaş, ve F. Yazıcı, “A Plant-Based Milk Type: Hemp Seed Milk”, Akademik Gıda, c. 20, sy. 2, ss. 170–181, 2022, doi: 10.24323/akademik-gida.1149875.
ISNAD Beşir, Ayşegül vd. “A Plant-Based Milk Type: Hemp Seed Milk”. Akademik Gıda 20/2 (Temmuz 2022), 170-181. https://doi.org/10.24323/akademik-gida.1149875.
JAMA Beşir A, Awad N, Mortaş M, Yazıcı F. A Plant-Based Milk Type: Hemp Seed Milk. Akademik Gıda. 2022;20:170–181.
MLA Beşir, Ayşegül vd. “A Plant-Based Milk Type: Hemp Seed Milk”. Akademik Gıda, c. 20, sy. 2, 2022, ss. 170-81, doi:10.24323/akademik-gida.1149875.
Vancouver Beşir A, Awad N, Mortaş M, Yazıcı F. A Plant-Based Milk Type: Hemp Seed Milk. Akademik Gıda. 2022;20(2):170-81.

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