International Journal of Innovative Approaches in Agricultural Research
Abbreviation: IJIAAR | ISSN (Online): 2602-4772 | DOI: 10.29329/ijiaar

Review article    |    Open Access
International Journal of Innovative Approaches in Agricultural Research 2023, Vol. 7(4) 569-581

A Review about Using Bioactive Compounds-Rich Microalgae as Pigments

Dilara Kızılkaya, Nebahat Şule Üstün & Hilal Soyocak

pp. 569 - 581   |  DOI: https://doi.org/10.29329/ijiaar.2023.630.16

Published online: December 31, 2023  |   Number of Views: 47  |  Number of Download: 183


Abstract

Microalgae are photosynthetic microorganisms with different morphological, physiological, and genetic characteristics. Microalgae, which grow in fresh and salt water, have an important role in the aquatic ecosystem due to their photosynthetic properties. Microalgae-derived bioactive components are produced as primary metabolism sources, such as proteins, various fatty acids, vitamins, or secondary metabolism products. Various microalgae can produce different bioactive compounds. Frequently studied microalgae can be listed as; Spirulina sp. (phycocyanin, tocopherols, phenolic acids), Haematococcus pluvialis (lutein, oleic acid, beta carotene), Chlorella sp. (carotenoids, eicosapentaenoic acid) and Dunaliella (trans-betacarotene, oleic acid, linolenic acid). It has been reported that these microalgae can be used in a wide variety of areas and can gain new uses day by day. They have antioxidative, antimicrobial, antihypertensive, immunomodulatory, and anticarcinogenic effects with their important bioactive components. Their antioxidant properties are of great interest in industrial applications. Microalgae have different colors due to their pigment contents and gain coloring properties. These properties emerge through various pigments called chlorophyll Chlorophyll is the green pigment and plays an important role in the photosynthesis of microalgae. microalgae species can produce different chlorophyll variants, making them appear in different colors. In addition to chlorophyll, the coloring properties of microalgae emerge through other pigments. For example, Microalgae also contain carotenoids with a red, orange, or yellow color and phycobilins with a blue, green, or red color. These various pigments and their coloring properties allow microalgae to be used in industrial, agricultural, and biotechnological applications.

Keywords: Microalgae, Bioactive Compound, Pigment, Chlorophyll, Carotenoid


How to Cite this Article

APA 6th edition
Kizilkaya, D., Ustun, N.S. & Soyocak, H. (2023). A Review about Using Bioactive Compounds-Rich Microalgae as Pigments . International Journal of Innovative Approaches in Agricultural Research, 7(4), 569-581. doi: 10.29329/ijiaar.2023.630.16

Harvard
Kizilkaya, D., Ustun, N. and Soyocak, H. (2023). A Review about Using Bioactive Compounds-Rich Microalgae as Pigments . International Journal of Innovative Approaches in Agricultural Research, 7(4), pp. 569-581.

Chicago 16th edition
Kizilkaya, Dilara, Nebahat Sule Ustun and Hilal Soyocak (2023). "A Review about Using Bioactive Compounds-Rich Microalgae as Pigments ". International Journal of Innovative Approaches in Agricultural Research 7 (4):569-581. doi:10.29329/ijiaar.2023.630.16.

References
  1. Anonymous, n.d. About Microalgae. (http://www.nomorfilm.eu/about-microalgae, t.y.). [Google Scholar]
  2. Anonymous, 2017. Biyoteknolojide Mikroalgler. (https://tr.euronews.com/next /2017/06 /12/biyoteknolojide-mikroalgler, 12.06.2017). [Google Scholar]
  3. Anonymous, 2018. Çevreci fabrikalar: mikroalgler. (https://bilimgenc. tubitak.gov.tr /makale /cevreci-fabrikalar-mikroalgler#:~:text=Yenilenebilir%20enerji%20kaynaklar%C4 %B1ndan%20biri%20olan,%C3%BCretebilen%20%C3%B6nemli%20bir%20kaynak%20olabilir., 09.05.2018). [Google Scholar]
  4. Anonymous, 2022a. Mikroalglerin ellerinde hayvan beslemenin umut veren geleceği. (https://www.yemvekatki.com/mikroalglerin-ellerinde-hayvan-beslemenin-umut-veren-gelecegi/, 28.07.2022) [Google Scholar]
  5. Anonymous, 2022b. Gıda sektöründe mikroalgler. (https://www.gidanotlari.com /gida-sektorunde-mikroalgler/, 13.10.222) [Google Scholar]
  6. Akyıl, S., İlter, I., Ko., M., & Kaymak Ertekin, F. (2016). Alglerden elde edilen yüksek değerlikli bileşiklerin biyoaktif/biyolojik uygulama alanları. Akademik Gıda, 14(4), 418-423. [Google Scholar]
  7. Codex Stan-262-2006. Codex Standard for Mozarella. [Google Scholar]
  8. Çelikel, N., Kınık, Ö., Gönç, S., & Kavas, G. (2006). Mikroalglerin Gıdalarda Renk Verici Madde (Pigment) Kaynağı Olarak Kullanımı. [Google Scholar]
  9. De Morais, M. G., Vaz, B. D. S., de Morais, E. G., & Costa, J. A. V. (2015). Biologically active metabolites synthesized by microalgae. BioMed Research International, 2015. [Google Scholar]
  10. Duru, M. D., & Kargın Yılmaz, H. (2013). Mikroalglerin pigment kaynağı olarak balık yemlerinde kullanımı. Türk Bilimsel Derlemeler Dergisi, (2), 112-118. [Google Scholar]
  11. Elcik, H., & Çakmakcı, M. (2017). Mikroalg üretimi ve mikroalglerden biyoyakıt eldesi. Journal of the Faculty of Engineering and Architecture of Gazi University, 32(3), 795-820. [Google Scholar]
  12. Erdal, P., & Ökmen, G. (2013). Gıdalarda kullanılan mikrobiyal kaynaklı pigmentler. Türk Bilimsel Derlemeler Dergisi, (2), 56-68. [Google Scholar]
  13. Galaup P, Flamin C, Carlet E, Dufossé L. HPLC analysis of the pigments produced by the microflora isolated from the ’Protected Designation of Origin’ French red-smear soft cheeses Munster, Epoisses, Reblochon and Livarot. Food Res Int 2005; 38: 855–860. [Google Scholar]
  14. Gouveia, L., Batista, A. P., Miranda, A., Empis, J., & Raymundo, A. (2007). Chlorella vulgaris biomass used as colouring source in traditional butter cookies. Innovative Food Science & Emerging Technologies, 8(3), 433-436. [Google Scholar]
  15. Gouveia, L., Raymundo, A., Batista, A. P., Sousa, I., & Empis, J. (2006). Chlorella vulgaris and Haematococcus pluvialis biomass as colouring and antioxidant in food emulsions. European Food Research and Technology, 222, 362-367. [Google Scholar]
  16. Hu, Q., Sommerfeld, M., Jarvis, E., Ghirardi, M., Posewitz, M., Seibert, M., & Darzins, A. (2008). Microalgal triacylglycerols as feedstocks for biofuel production: perspectives and advances. The Plant Journal, 54(4), 621-639. [Google Scholar]
  17. Kargın Yılmaz, H., Dikbaş, M. D., & Bilgüven, M. (2016). Siyanobakterilerden elde edilen pigment maddeleri ve kullanım alanları. Uludağ Üniversitesi Ziraat Fakültesi Dergisi, 30(1), 139-155. [Google Scholar]
  18. Kahyaoğlu M, Kıvanç M. 2007. Endüstriyel Atık Maddelerden Mikrobiyal Yolla Beta Karoten Üretimi. Yüzüncü Yıl Üniversitesi, Ziraat Fakültesi, Tarım Bilimleri Dergisi (J. Agric. Sci.), 17(2): 61-66. ISSN: 1308-7576. [Google Scholar]
  19. Lee DS, Pitari G, Grewe V, Gierens K, Penner JE, Petzold A. 2010. Transport impacts on atmosphere ve climate: aviation. Atmos Environ. 44:4678–734. http://dx.doi.org/10.1016/ j.atmosenv.2009.06.005. [Google Scholar]
  20. Mobin, S. M., Chowdhury, H., & Alam, F. (2019). Commercially important bioproducts from microalgae and their current applications–A review. Energy Procedia, 160, 752-760. [Google Scholar]
  21. Nuwanthi, S. G. L. I. (2018). Unravelling Complex Interactions Between Microalgae and Bacteria in Biofilms (Doctoral dissertation, Ghent University). [Google Scholar]
  22. Oğur, S. (2016). Kurutulmuş alglerin besin değeri ve gıda olarak kullanımı. Su Ürünleri Dergisi, 33(1), 67-79. [Google Scholar]
  23. Özçiçek, E., Can, E., Yılmaz, K., & Can, Ş. S. (2017). Akuakültürde sürdürülebilir besin kaynağı olarak mikroalglerin kullanımı Usage of microalgae as a sustainable food source in aquaculture. Ege Journal of Fisheries and Aquatic Sciences, 34(3), 347-354. [Google Scholar]
  24. Sasa, A., Şentürk, F., Üstündağ, Y., & Erem, F. (2020). Alglerin gıda veya gıda bileşeni olarak kullanımı ve sağlık üzerine etkileri. Uluslararası Mühendislik Tasarım ve Teknoloji Dergisi, 2(2), 97-110. [Google Scholar]
  25. Spolaore P, Joannis-Cassan C, Duran E, Isambert A. Commercial applications of microalgae. J Biosci Bioeng. (2006) 101:87–96. doi: 10.1263/jbb.101.87. [Google Scholar] [Crossref] 
  26. Tanaka T, Shnimizu M, Moriwaki H. 2012. Cancer chemoprevention by carotenoids. Molecules, 17: 3202-3242. doi:10.3390/molecules17033202. [Google Scholar] [Crossref] 
  27. Uzuner, S., & Haznedar, A. (2020). Fonksiyonel Gıda İçin Sağlıklı Takviye: Mikroalgler. Sinop Üniversitesi Fen Bilimleri Dergisi, 5(2), 212-226. [Google Scholar]
  28. Yaakob Z, Ali E, Zainal A, Mohamad M, Takriff MS. 2014. An overview: biomolecules from microalgae for animal feed ve aquaculture. J Bıol Res-Thessalon. 21(6): 1-10. doi: 10.1186/2241-5793-21-6. [Google Scholar] [Crossref]