Derleme
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Geleceğin Gıdaları İçin Mikroalgler: Spirulina sp. ve Chlorella sp.

Yıl 2023, Cilt: 11 Sayı: 3, 1655 - 1665, 31.07.2023
https://doi.org/10.29130/dubited.1146266

Öz

Dünya nüfusunun hızla artmasıyla birlikte enerji krizleri, iklim değişiklikleri, küresel ısınma, gıda yetersizliği ve dengesiz beslenme gibi sorunların beraberinde geleceği tahmin edilmektedir. Bu sorunların öngörülmesiyle birlikte, insanoğlu alternatif gıda kaynaklarına ihtiyaç duymaya başlamıştır. Yüksek besin içerikleri, sağlığa olumlu etkileri ve sürdürülebilirlikleri ile ilgi gören algler, fonksiyonel gıda olmaya aday ürünler olarak değerlendirilmektedir. Deniz florasının yaklaşık %95’ini oluşturan algler, acı, tatlı, tuzlu, alkali sularda ve topraklarda yetişebilmektedir. Ekonomik ve kolay üretime sahip olmaları nedeniyle gelecekte besin ihtiyacının karşılanabileceği kaynaklardır. İmmünomodülatör, antibakteriyel, antioksidan gibi fazla sayıda sağlığa faydalı etkileri ile Alzheimer hastalığı, alerjik hastalıklar, kardiyovasküler hastalıklar gibi birçok hastalığı önleyici etkilere de sahiptir. Özellikle proteinler, lipitler, çoklu doymamış yağ asitleri (PUFA), polisakkaritler, pigmentler ve polifenoller bakımından zengin olan algler, mikroalgler ve makroalgler olmak üzere ikiye ayrılmaktadır. Bu derleme çalışmasında, mikroalglerden olan Spirulina sp. ve Chlorella sp. hakkında literatür taraması yapılmış, besin içeriklerine, sağlık etkilerine ve gıda endüstrisinde yapılan zenginleştirme çalışmalarına kısaca değinilmiştir.

Kaynakça

  • A. Sasa, F. Şentürk, Y. Üstündağ ve F. Erem, “Alglerin gıda veya gıda bileşeni olarak kullanımı ve sağlık üzerine etkileri,” International Journal of Engineering, Design and Technology, c. 2, s. 2, ss. 97-110, 2020.
  • A. K. Koyande, K. W. Chew, K. Rambabu, Y. Tao, D. T. Chu and P. L. Show, “Microalgae: a potential alternative to health supplementation for humans,” Food Science and Human Wellness, vol. 8, no. 1, pp. 16-24, 2019.
  • Y. Torres-Tiji, F. J. Fields and S. P. Mayfield, “Microalgae as a future food source,” Biotechnology advances, vol. 41, pp. 107536, 2020.
  • A. Ü. Alçay, K. Bostan, E. Dinçel ve C. Varlık, “Alglerin insan gıdası olarak kullanımı,” Aydın Gastronomy, c. 1, s. 1, ss. 47-59, 2017.
  • N. Sharma and P. Sharma, “Industrial and biotechnological applications of algae: a review,” Journal of Advances in plant biology, vol. 1, no. 1, 2017.
  • Z. Nale, “Yenilikçi gıda ürünlerinin geliştirilmesinde alternatif bir kaynak: mikroalgler,” Bayburt Üniversitesi Fen Bilimleri Dergisi, c. 4, s. 1, ss. 80-90, 2021.
  • M. B. Ariede, T. M. Candido, A. L. M. Jacome, M. V. R. Velasco, J. C. M. de Carvalho and A. R. Baby, “Cosmetic attributes of algae-a review,” Algal research, vol. 25, pp. 483-487, 2017.
  • S. Ścieszka and E. Klewicka, “Algae in food: a general review,” Critical reviews in food science and nutrition, vol. 59, no. 21, pp. 3538-3547, 2019.
  • S. Uzuner ve A. Haznedar, “Fonksiyonel gıda için sağlıklı takviye: mikroalgler,” Sinop Üniversitesi Fen Bilimleri Dergisi, c. 5, s. 2, ss. 212-226, 2020.
  • E. Jacob-Lopes, M. M. Maroneze, M. C. Deprá, R. B. Sartori, R. R. Dias and L. Q. Zepka, “Bioactive food compounds from microalgae: an innovative framework on industrial biorefineries,” Current Opinion in Food Science, vol. 25, pp. 1-7, 2019.
  • M. Øverland, L. T. Mydland and A. Skrede, “Marine macroalgae as sources of protein and bioactive compounds in feed for monogastric animals,” Journal of the Science of Food and Agriculture, vol. 99, no. 1, pp. 13-24, 2018.
  • A. Villarruel-López, F. Ascencio and K. Nuño, “Microalgae, a potential natural functional food source–a review,” Polish Journal of Food and Nutrition Sciences, vol. 67, no. 4, pp. 251-263, 2017.
  • R. Dineshkumar, R. Narendran, P. Jayasingam and P. Sampathkumar, “Cultivation and chemical composition of microalgae Chlorella vulgaris and its antibacterial activity against human pathogens,” Journal of Aquaculture & Marine Biology, vol. 5, no. 3, pp. 00119, 2017.
  • A. Niccolai, G. C. Zittelli, L. Rodolfi, N. Biondi and M. R. Tredici, “Microalgae of interest as food source: biochemical composition and digestibility,” Algal Research, vol. 42, pp. 101617, 2019.
  • J. A. Ragaza, M. S. Hossain, K. A. Meiler, S. F. Velasquez and V. Kumar, “A review on Spirulina: alternative media for cultivation and nutritive value as an aquafeed,” Reviews in Aquaculture, vol. 12, no. 4, pp. 2371-2395, 2020.
  • S. Grosshagauer, K. Kraemer and V. Somoza, “The true value of Spirulina,” Journal of agricultural and food chemistry, vol. 68, no. 14, pp. 4109-4115, 2020.
  • R. A. Soni, K. Sudhakar and R. S. Rana, “Spirulina–from growth to nutritional product: a review,” Trends in food science & technology, vol. 69, pp. 157-171, 2017.
  • J. J. DiNicolantonio, A. G. Bhat and J. OKeefe, “Effects of spirulina on weight loss and blood lipids: a review,” Open heart, vol. 7, no. 1, pp. e001003, 2020.
  • D. Wan, Q. Wu and K. Kuča, Nutraceuticals, R. C. Grupta ed., Boston: Academic Press, 2016, ch. 42, pp. 569-583.
  • F. Matufi and A. Choopani, “Spirulina, food of past, present and future,” Health Biotechnology and Biopharma, vol. 3, no. 4, pp. 1-20, 2020.
  • T. Lafarga, J. M. Fernández-Sevilla, C. González-López and F. G. Acién-Fernández, “Spirulina for the food and functional food industries,” Food Research International, vol. 137, pp. 109356, 2020.
  • Q. Wu, L. Liu, A. Miron, B. Klímová, D. Wan and K. Kuča, “The antioxidant, immunomodulatory, and anti-inflammatory activities of Spirulina: an overview,” Archives of toxicology, vol. 90, no. 8, pp. 1817-1840, 2016.
  • T. Lafarga, A. Sánchez-Zurano, S. Villaró, A. Morillas-España and G. Acién, “Industrial production of spirulina as a protein source for bioactive peptide generation,” Trends in Food Science & Technology, vol. 116, pp. 176-185, 2021.
  • T. Trotta, C. Porro, A. Cianciulli and M. A. Panaro, “Beneficial effects of spirulina consumption on brain health,” Nutrients, vol. 14, no. 3, pp. 676, 2022.
  • A. Finamore, M. Palmery, S. Bensehaila and I. Peluso, “Antioxidant, immunomodulating, and microbial-modulating activities of the sustainable and ecofriendly spirulina,” Oxidative medicine and cellular longevity, 2017.
  • J. Reboleira, R. Freitas, S. Pinteus, J. Silva, C. Alves, R. Pedrosa and S. Bernardino, Nonvitamin and nonmineral nutritional supplements, S. M. Nabavi and A. S. Silva ed., İndia: Academic Press, 2019, ch. 3.39, pp. 409-413.
  • D. P. Jaeschke, I. R. Teixeira, L. D. F. Marczak and G. D. Mercali, “Phycocyanin from Spirulina: a review of extraction methods and stability,” Food Research International, vol. 143, pp. 110314, 2021.
  • F. Jung, A. Krüger-Genge, P. Waldeck and J. H. Küpper, “Spirulina platensis, a super food?,” Journal of Cellular Biotechnology, vol. 5, no. 1, pp. 43-54, 2019.
  • J. A. V. Costa, B. C. B. Freitas, G. M. Rosa, L. Moraes, M. G. Morais and B. G. Mitchell, “Operational and economic aspects of Spirulina-based biorefinery,” Bioresource technology, vol. 292, pp. 121946, 2019.
  • S. Ötleş and R. Pire, “Fatty acid composition of Chlorella and Spirulina microalgae species,” Journal of AOAC international, vol. 84, no. 6, pp. 1708-1714, 2001.
  • W. Shao, R. Ebaid, M. El-Sheekh, A. Abomohra and H. Eladel, “Pharmaceutical applications and consequent environmental impacts of Spirulina (Arthrospira): an overview,” Grasas y Aceites, vol. 70, no. 1, pp. e292, 2019.
  • P. Han, J. Li, H. Zhong, J. Xie, P. Zhang, Q. Lu, ... and W. Zhou, “Anti-oxidation properties and therapeutic potentials of spirulina,” Algal Research, vol. 55, pp. 102240, 2021.
  • I. Ragusa, G. N. Nardone, S. Zanatta, W. Bertin and E. Amadio, “Spirulina for skin care: a bright blue future,” Cosmetics, vol. 8, no. 1, pp. 7, 2021.
  • S. Hu, X. Fan, P. Qi and X. Zhang, “Identification of anti-diabetes peptides from Spirulina platensis,” Journal of functional foods, vol. 56, pp. 333-341, 2019.
  • J. Matos, C. Cardoso, N. M. Bandarra and C. Afonso, “Microalgae as healthy ingredients for functional food: a review,” Food & function, vol. 8, no. 8, pp. 2672-2685, 2017.
  • Q. Yuan, H. Li, Z. Wei, K. Lv, C. Gao, Y. Liu and L. Zhao, “Isolation, structures and biological activities of polysaccharides from Chlorella: a review,” International Journal of Biological Macromolecules, vol. 163, pp. 2199-2209, 2020.
  • I. A. Ibrahim and Z. I. Elbaily, “A review: importance of chlorella and different applications,” Alexandria Journal for Veterinary Sciences, vol. 65, no. 1, pp. 16-34, 2020.
  • D. Widyaningrum and A. D. Prianto, “Chlorella as a source of functional food ingredients: short review,” IOP Conference Series: Earth and Environmental Science, vol. 794, no. 1, pp. 012148, 2021.
  • W. Q. C. Lung, H. Y. Yeh, S. J. Yang, C. Y. Huang, F. H. Nan and M. C. Lee, “Delayed signs of UV-C damage to Chlorella sp. observed through fluorescent staining,” Diversity, vol. 14, no. 5, pp. 376, 2022.
  • T. Dahril, A. Mulyadi and Eddiwan, “The growth, production and chemical compounds of Chlorella sp. in various concentrations of palm oil wastewater in laboratory culture media,” IOP Conference Series: Earth and Environmental Science, vol. 749, no. 1, pp. 012004, 2021.
  • G. Tang and P. M. Suter, “Vitamin A, nutrition, and health values of algae: Spirulina, Chlorella, and Dunaliella,” Journal of Pharmacy and Nutrition Sciences, vol. 1, no. 2, pp. 111-118, 2011.
  • R. Ahmad Raus, N. S. Adzahar, D. F. Basri, E. S. Latif and N. J. Sallehudin, “In vitro and in vivo cytotoxic effects of Chlorella against various types of cancer,” IIUM Medical Journal Malaysia, vol. 20, no. 1, 2021.
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Microalgae for The Food of Future: Spirulina sp. and Chlorella sp.

Yıl 2023, Cilt: 11 Sayı: 3, 1655 - 1665, 31.07.2023
https://doi.org/10.29130/dubited.1146266

Öz

With the rapid increase in the world population, it is estimated that problems such as energy crises, climate changes, global warming, food insufficiency and unbalanced nutrition will come along. With the prediction of these problems, human beings started to need alternative food sources. Algae, which attracts attention with their high nutritional content, positive effects on health and sustainability, are considered as candidate products to be functional foods. Algae, which make up about 95% of the marine flora, can grow in brackish, fresh, salty, alkaline waters and soils. They are sources where food needs can be met in the future due to their economic and easy production. It has many beneficial effects on health such as immunomodulator, antibacterial, antioxidant, and also has preventive effects on many diseases such as Alzheimer's disease, allergic diseases, cardiovascular diseases. Algae, which are about Spirulina sp. and Chlorella sp., which are microalgae, was made, and their nutritional content, health effects and enrichment studies in the food industry were briefly mentioned.

Kaynakça

  • A. Sasa, F. Şentürk, Y. Üstündağ ve F. Erem, “Alglerin gıda veya gıda bileşeni olarak kullanımı ve sağlık üzerine etkileri,” International Journal of Engineering, Design and Technology, c. 2, s. 2, ss. 97-110, 2020.
  • A. K. Koyande, K. W. Chew, K. Rambabu, Y. Tao, D. T. Chu and P. L. Show, “Microalgae: a potential alternative to health supplementation for humans,” Food Science and Human Wellness, vol. 8, no. 1, pp. 16-24, 2019.
  • Y. Torres-Tiji, F. J. Fields and S. P. Mayfield, “Microalgae as a future food source,” Biotechnology advances, vol. 41, pp. 107536, 2020.
  • A. Ü. Alçay, K. Bostan, E. Dinçel ve C. Varlık, “Alglerin insan gıdası olarak kullanımı,” Aydın Gastronomy, c. 1, s. 1, ss. 47-59, 2017.
  • N. Sharma and P. Sharma, “Industrial and biotechnological applications of algae: a review,” Journal of Advances in plant biology, vol. 1, no. 1, 2017.
  • Z. Nale, “Yenilikçi gıda ürünlerinin geliştirilmesinde alternatif bir kaynak: mikroalgler,” Bayburt Üniversitesi Fen Bilimleri Dergisi, c. 4, s. 1, ss. 80-90, 2021.
  • M. B. Ariede, T. M. Candido, A. L. M. Jacome, M. V. R. Velasco, J. C. M. de Carvalho and A. R. Baby, “Cosmetic attributes of algae-a review,” Algal research, vol. 25, pp. 483-487, 2017.
  • S. Ścieszka and E. Klewicka, “Algae in food: a general review,” Critical reviews in food science and nutrition, vol. 59, no. 21, pp. 3538-3547, 2019.
  • S. Uzuner ve A. Haznedar, “Fonksiyonel gıda için sağlıklı takviye: mikroalgler,” Sinop Üniversitesi Fen Bilimleri Dergisi, c. 5, s. 2, ss. 212-226, 2020.
  • E. Jacob-Lopes, M. M. Maroneze, M. C. Deprá, R. B. Sartori, R. R. Dias and L. Q. Zepka, “Bioactive food compounds from microalgae: an innovative framework on industrial biorefineries,” Current Opinion in Food Science, vol. 25, pp. 1-7, 2019.
  • M. Øverland, L. T. Mydland and A. Skrede, “Marine macroalgae as sources of protein and bioactive compounds in feed for monogastric animals,” Journal of the Science of Food and Agriculture, vol. 99, no. 1, pp. 13-24, 2018.
  • A. Villarruel-López, F. Ascencio and K. Nuño, “Microalgae, a potential natural functional food source–a review,” Polish Journal of Food and Nutrition Sciences, vol. 67, no. 4, pp. 251-263, 2017.
  • R. Dineshkumar, R. Narendran, P. Jayasingam and P. Sampathkumar, “Cultivation and chemical composition of microalgae Chlorella vulgaris and its antibacterial activity against human pathogens,” Journal of Aquaculture & Marine Biology, vol. 5, no. 3, pp. 00119, 2017.
  • A. Niccolai, G. C. Zittelli, L. Rodolfi, N. Biondi and M. R. Tredici, “Microalgae of interest as food source: biochemical composition and digestibility,” Algal Research, vol. 42, pp. 101617, 2019.
  • J. A. Ragaza, M. S. Hossain, K. A. Meiler, S. F. Velasquez and V. Kumar, “A review on Spirulina: alternative media for cultivation and nutritive value as an aquafeed,” Reviews in Aquaculture, vol. 12, no. 4, pp. 2371-2395, 2020.
  • S. Grosshagauer, K. Kraemer and V. Somoza, “The true value of Spirulina,” Journal of agricultural and food chemistry, vol. 68, no. 14, pp. 4109-4115, 2020.
  • R. A. Soni, K. Sudhakar and R. S. Rana, “Spirulina–from growth to nutritional product: a review,” Trends in food science & technology, vol. 69, pp. 157-171, 2017.
  • J. J. DiNicolantonio, A. G. Bhat and J. OKeefe, “Effects of spirulina on weight loss and blood lipids: a review,” Open heart, vol. 7, no. 1, pp. e001003, 2020.
  • D. Wan, Q. Wu and K. Kuča, Nutraceuticals, R. C. Grupta ed., Boston: Academic Press, 2016, ch. 42, pp. 569-583.
  • F. Matufi and A. Choopani, “Spirulina, food of past, present and future,” Health Biotechnology and Biopharma, vol. 3, no. 4, pp. 1-20, 2020.
  • T. Lafarga, J. M. Fernández-Sevilla, C. González-López and F. G. Acién-Fernández, “Spirulina for the food and functional food industries,” Food Research International, vol. 137, pp. 109356, 2020.
  • Q. Wu, L. Liu, A. Miron, B. Klímová, D. Wan and K. Kuča, “The antioxidant, immunomodulatory, and anti-inflammatory activities of Spirulina: an overview,” Archives of toxicology, vol. 90, no. 8, pp. 1817-1840, 2016.
  • T. Lafarga, A. Sánchez-Zurano, S. Villaró, A. Morillas-España and G. Acién, “Industrial production of spirulina as a protein source for bioactive peptide generation,” Trends in Food Science & Technology, vol. 116, pp. 176-185, 2021.
  • T. Trotta, C. Porro, A. Cianciulli and M. A. Panaro, “Beneficial effects of spirulina consumption on brain health,” Nutrients, vol. 14, no. 3, pp. 676, 2022.
  • A. Finamore, M. Palmery, S. Bensehaila and I. Peluso, “Antioxidant, immunomodulating, and microbial-modulating activities of the sustainable and ecofriendly spirulina,” Oxidative medicine and cellular longevity, 2017.
  • J. Reboleira, R. Freitas, S. Pinteus, J. Silva, C. Alves, R. Pedrosa and S. Bernardino, Nonvitamin and nonmineral nutritional supplements, S. M. Nabavi and A. S. Silva ed., İndia: Academic Press, 2019, ch. 3.39, pp. 409-413.
  • D. P. Jaeschke, I. R. Teixeira, L. D. F. Marczak and G. D. Mercali, “Phycocyanin from Spirulina: a review of extraction methods and stability,” Food Research International, vol. 143, pp. 110314, 2021.
  • F. Jung, A. Krüger-Genge, P. Waldeck and J. H. Küpper, “Spirulina platensis, a super food?,” Journal of Cellular Biotechnology, vol. 5, no. 1, pp. 43-54, 2019.
  • J. A. V. Costa, B. C. B. Freitas, G. M. Rosa, L. Moraes, M. G. Morais and B. G. Mitchell, “Operational and economic aspects of Spirulina-based biorefinery,” Bioresource technology, vol. 292, pp. 121946, 2019.
  • S. Ötleş and R. Pire, “Fatty acid composition of Chlorella and Spirulina microalgae species,” Journal of AOAC international, vol. 84, no. 6, pp. 1708-1714, 2001.
  • W. Shao, R. Ebaid, M. El-Sheekh, A. Abomohra and H. Eladel, “Pharmaceutical applications and consequent environmental impacts of Spirulina (Arthrospira): an overview,” Grasas y Aceites, vol. 70, no. 1, pp. e292, 2019.
  • P. Han, J. Li, H. Zhong, J. Xie, P. Zhang, Q. Lu, ... and W. Zhou, “Anti-oxidation properties and therapeutic potentials of spirulina,” Algal Research, vol. 55, pp. 102240, 2021.
  • I. Ragusa, G. N. Nardone, S. Zanatta, W. Bertin and E. Amadio, “Spirulina for skin care: a bright blue future,” Cosmetics, vol. 8, no. 1, pp. 7, 2021.
  • S. Hu, X. Fan, P. Qi and X. Zhang, “Identification of anti-diabetes peptides from Spirulina platensis,” Journal of functional foods, vol. 56, pp. 333-341, 2019.
  • J. Matos, C. Cardoso, N. M. Bandarra and C. Afonso, “Microalgae as healthy ingredients for functional food: a review,” Food & function, vol. 8, no. 8, pp. 2672-2685, 2017.
  • Q. Yuan, H. Li, Z. Wei, K. Lv, C. Gao, Y. Liu and L. Zhao, “Isolation, structures and biological activities of polysaccharides from Chlorella: a review,” International Journal of Biological Macromolecules, vol. 163, pp. 2199-2209, 2020.
  • I. A. Ibrahim and Z. I. Elbaily, “A review: importance of chlorella and different applications,” Alexandria Journal for Veterinary Sciences, vol. 65, no. 1, pp. 16-34, 2020.
  • D. Widyaningrum and A. D. Prianto, “Chlorella as a source of functional food ingredients: short review,” IOP Conference Series: Earth and Environmental Science, vol. 794, no. 1, pp. 012148, 2021.
  • W. Q. C. Lung, H. Y. Yeh, S. J. Yang, C. Y. Huang, F. H. Nan and M. C. Lee, “Delayed signs of UV-C damage to Chlorella sp. observed through fluorescent staining,” Diversity, vol. 14, no. 5, pp. 376, 2022.
  • T. Dahril, A. Mulyadi and Eddiwan, “The growth, production and chemical compounds of Chlorella sp. in various concentrations of palm oil wastewater in laboratory culture media,” IOP Conference Series: Earth and Environmental Science, vol. 749, no. 1, pp. 012004, 2021.
  • G. Tang and P. M. Suter, “Vitamin A, nutrition, and health values of algae: Spirulina, Chlorella, and Dunaliella,” Journal of Pharmacy and Nutrition Sciences, vol. 1, no. 2, pp. 111-118, 2011.
  • R. Ahmad Raus, N. S. Adzahar, D. F. Basri, E. S. Latif and N. J. Sallehudin, “In vitro and in vivo cytotoxic effects of Chlorella against various types of cancer,” IIUM Medical Journal Malaysia, vol. 20, no. 1, 2021.
  • G. Dragone, “Challenges and opportunities to increase economic feasibility and sustainability of mixotrophic cultivation of green microalgae of the genus Chlorella,” Renewable and Sustainable Energy Reviews, vol. 160, pp. 112284, 2022.
  • I. B. Hismayasari, Ernawati, A. S. Abadi and A. W. Puspitasari, “The growth of Chlorella sp. with varying nutrient concentration,” Jurnal Airaha, vol. 10, no. 02, pp. 295-301, 2021.
  • N. Hosseinkhani, J. I. McCauley and P. J. Ralph, “Key challenges for the commercial expansion of ingredients from algae into human food products,” Algal Research, vol. 64, pp. 102696, 2022.
  • A. Dawczak-Dębicka, J. Kufel-Grabowska, M. Bartoszkiewicz, A. Perdyan and J. Jassem, “Complementary and alternative therapies in oncology,” International Journal of Environmental Research and Public Health, vol. 19, no. 9, pp. 5071, 2022.
  • R. Rasheed, I. Saadaoui, T. Bounnit, M. Cherif, G. Al Ghazal and H. Al Jabri, “Sustainable food production and nutraceutical applications from Qatar desert Chlorella sp.(chlorophyceae),” Animals, vol. 10, no. 8, pp. 1413, 2020.
  • M. Shimada, T. Hasegawa, C. Nishimura, H. Kan, T. Kanno, T. Nakamura and T. Matsubayashi, “Anti-hypertensive effect of γ-aminobutyric acid (GABA)-rich Chlorella on high-normal blood pressure and borderline hypertension in placebo-controlled double blind study,” Clinical and Experimental Hypertension, vol. 31, no. 4, pp. 342-354, 2009.
  • R. Sivaramakrishnan and A. Incharoensakdi, “Plant hormone induced enrichment of Chlorella sp. omega-3 fatty acids,” Biotechnology for biofuels, vol. 13, no. 1, pp. 1-14, 2020.
  • M. Igual, Z. N. Uribe-Wandurraga, P. García-Segovia and J. Martínez-Monzó, “Microalgae-enriched breadsticks: analysis for vitamin C, carotenoids, and chlorophyll a,” Food Science and Technology International, vol. 28, no. 1, pp. 26-31, 2021.
  • T. Sadeghi, M. M. Marvizadeh, F. Ebrahimi, S. Mafi, O. Foughani and A. M. Nafchi, “Assessment of nutritional and antioxidant activity of sport drink enriched with Spirulina platensis,” Journal of Chemical Health Risks, vol. 12, no. 0, pp. 0-0, 2022.
  • U. K. Veena, D. Shobha, N. Joshi, M. B. Darshan and P. S. Benherlal, “Spirulina enriched gluten free quality protein maize (QPM) pasta as functional food,” Emirates Journal of Food and Agriculture, vol. 34, no. 4, pp. 279-288, 2022.
  • E. E. Mesbah, A. A. Matar and A. A. K. Karam-Allah, “Functional properties of yoghurt fortified with Spirulina platensis and milk protein concentrate,” Journal of Food and Dairy Sciences, vol. 13, no. 1, pp. 1-7, 2022.
  • D. S. Atik, B. Gürbüz, E. Bölük and İ. Palabıyık, “Development of vegan kefir fortified with Spirulina platensis,” Food Bioscience, vol. 42, pp. 101050, 2021.
  • L. M. R. Almeida, L. F. da Silva Cruz, B. A. S. Machado, I. L. Nunes, J. A. V. Costa, E. de Souza Ferreira, ... and C. O. de Souza, “Effect of the addition of Spirulina sp. biomass on the development and characterization of functional food,” Algal Research, vol. 58, pp. 102387, 2021.
  • R. Garzon, A. Skendi, M. A. Lazo-Velez, M. Papageorgiou and C. M. Rosell, “Interaction of dough acidity and microalga level on bread quality and antioxidant properties,” Food Chemistry, vol. 344, pp. 128710, 2021.
  • J. Bazarnova, L. Nilova, E. Trukhina, M. Bernavskaya, Y. Smyatskaya and T. Aktar, “Use of microalgae biomass for fortification of food products from grain,” Foods, vol. 10, no. 12, pp. 3018, 2021.
  • F. Ziaziabari and V. Fadaei, “Characterization of a traditional egg-free crème caramel dessert containing Chlorella protothecoides,” Journal of Food Biosciences and Technology, vol. 12, no. 2, pp. 1-14, 2022.
  • S. Tian, F. Wang, M. Luo, F. Yan, D. Ke, H. Chen and S. Gao, “Effect of Chlorella pyrenoidosa powder on rheological properties and fermentation characteristics of dough,” Journal of Food Processing and Preservation, vol. 46, no. 4, pp. e16446, 2022.
  • M. M. Tohamy, M. A. Ali, H. A. G. Shaaban, A. G. Mohamad and A. M. Hasanain, “Production of functional spreadable processed cheese using Chlorella vulgaris,” Acta Scientiarum Polonorum Technologia Alimentaria, vol. 17, no. 4, pp. 347-358, 2018.
Toplam 60 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Eda Nurko 0000-0001-9598-7407

Emine Nakilcioğlu 0000-0003-4334-2900

Semih Ötleş 0000-0003-4571-8764

Yayımlanma Tarihi 31 Temmuz 2023
Yayımlandığı Sayı Yıl 2023 Cilt: 11 Sayı: 3

Kaynak Göster

APA Nurko, E., Nakilcioğlu, E., & Ötleş, S. (2023). Geleceğin Gıdaları İçin Mikroalgler: Spirulina sp. ve Chlorella sp. Duzce University Journal of Science and Technology, 11(3), 1655-1665. https://doi.org/10.29130/dubited.1146266
AMA Nurko E, Nakilcioğlu E, Ötleş S. Geleceğin Gıdaları İçin Mikroalgler: Spirulina sp. ve Chlorella sp. DÜBİTED. Temmuz 2023;11(3):1655-1665. doi:10.29130/dubited.1146266
Chicago Nurko, Eda, Emine Nakilcioğlu, ve Semih Ötleş. “ Ve Chlorella Sp”. Duzce University Journal of Science and Technology 11, sy. 3 (Temmuz 2023): 1655-65. https://doi.org/10.29130/dubited.1146266.
EndNote Nurko E, Nakilcioğlu E, Ötleş S (01 Temmuz 2023) Geleceğin Gıdaları İçin Mikroalgler: Spirulina sp. ve Chlorella sp. Duzce University Journal of Science and Technology 11 3 1655–1665.
IEEE E. Nurko, E. Nakilcioğlu, ve S. Ötleş, “ ve Chlorella sp”., DÜBİTED, c. 11, sy. 3, ss. 1655–1665, 2023, doi: 10.29130/dubited.1146266.
ISNAD Nurko, Eda vd. “ Ve Chlorella Sp”. Duzce University Journal of Science and Technology 11/3 (Temmuz 2023), 1655-1665. https://doi.org/10.29130/dubited.1146266.
JAMA Nurko E, Nakilcioğlu E, Ötleş S. Geleceğin Gıdaları İçin Mikroalgler: Spirulina sp. ve Chlorella sp. DÜBİTED. 2023;11:1655–1665.
MLA Nurko, Eda vd. “ Ve Chlorella Sp”. Duzce University Journal of Science and Technology, c. 11, sy. 3, 2023, ss. 1655-6, doi:10.29130/dubited.1146266.
Vancouver Nurko E, Nakilcioğlu E, Ötleş S. Geleceğin Gıdaları İçin Mikroalgler: Spirulina sp. ve Chlorella sp. DÜBİTED. 2023;11(3):1655-6.