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Journal of Aquatic Food Product Technology Volume 31, 2022 - Issue 1
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Articles

Assessment of Biochemical Constituents and Nutritional Aspects in Gracilariopsis persica and Hypnea flagelliformis

Zahra Zarei Jeliania Department of Marine Biology, Faculty of Marine Science and Technology, University of Hormozgan, Bandar Abbas, IranView further author information
,
Morteza Yousefzadib Department of Biology, Faculty of Science, University of Qom, Qom, IranORCID Iconhttps://orcid.org/0000-0003-4955-5288View further author information
ORCID Icon,
Maryam Kokabia Department of Marine Biology, Faculty of Marine Science and Technology, University of Hormozgan, Bandar Abbas, IranView further author information
,
Mona Sorahinobarc Department of Plant Sciences, Faculty of Biological Sciences, Alzahra University, Tehran, IranCorrespondence[email protected]
View further author information
,
Iman Sourinejadd Department of Fisheries, Faculty of Marine Science and Technology, University of Hormozgan, Bandar Abbas, IranORCID Iconhttps://orcid.org/0000-0003-0697-3041View further author information
ORCID Icon &
Sonia Malike Graduate Program in Health Sciences, Federal University of Maranhão, São Luís, MA, BrazilView further author information
Pages 71-82 | Published online: 16 Dec 2021

References

  • AOAC. 2000. Association of Official Analytical Chemists. (Gaithersburg, MD, USA: Official methods of analysis).
  • Arman M, Qader SAU. 2012. Structural Analysis of Kappa-carrageenan Isolated from Hypnea musciformis (Red Algae) and Evaluation as an Elicitor of Plant Defense Mechanism. Carbohydr Polym. 88(4):1264–71.
  • Baghel RS, Kumari P, Reddy CRK, Jha B. 2014. Growth, Pigments, and Biochemical Composition of Marine Red Alga Gracilaria crassa. J Appl Phycol. 26(5):2143–50.
  • Battacharyya D, Babgohari MZ, Rathor P, Prithiviraj B. 2015. Seaweed Extracts as Biostimulants in Horticulture. Sci Hortic (Amsterdam). 196:39–48.
  • Bellorin AM, Buriyo A, Sohrabipour J, Oliveira MC, Oliveira EC. 2008. Gracilariopsis mclachlanii sp. Nov. And Gracilariopsis persica sp. Nov. Of the Gracilariaceae (Gracilariales, Rhodophyceae) from the Indian Ocean. J Phycol. 44(4):1022–32.
  • Bligh EG, Dyer WJ, 1959. A Rapid Method of Total Lipid Extraction and Purification. Can J Biochem Physiol. 37(8):911–17.
  • Bradford MM. 1976. A Rapid and Sensitive Method for the Quantitation of Microgram Quantities of Protein Utilizing the Principle of Protein-dye Binding. Anal Biochem. 72(1):248–54.
  • Chan PT, and Matanjun P. 2017. Chemical Composition and Physicochemical Properties of Tropical Red Seaweed, Gracilaria changii Food Chem. 221:302–310.
  • Chen X, Wu M, Yang Q, Wang S. 2017. Preparation, Characterization of Food Grade Phycobiliproteins from Porphyra haitanensis and the Application in Liposome-meat System. Lwt. 77:468–74.
  • Chen J, and Liu H. 2020. Nutritional Indices for Assessing Fatty Acids: A Mini-Review Int. J. Mol. Sci. 21 16 5695
  • Donadelli RA, Aldrich CG, Jones CK, Beyer RS. 2019. The Amino Acid Composition and Protein Quality of Various Egg, Poultry Meal By-products, and Vegetable Proteins Used in the Production of Dog and Cat Diets. Poult Sci. 98(3):1371–78.
  • EFSA. 2010. Scientific Opinion on Dietary Reference Values for fats, including saturated fatty acids, polyunsaturated fatty acids, monounsaturated fatty acids, trans fatty acids, and cholesterol. in: EFSA Panel on Dietetic Products N., and Allergies (NDA) ed: EFSA Journal.
  • Erkkilä A, de Mello VD, Risérus U, Laaksonen DE. 2008. Dietary Fatty Acids and Cardiovascular Disease: An Epidemiological Approach. Prog Lipid Res. 47(3):172–87.
  • FAO. 2018. The State of World Fisheries and Aquaculture 2018. Meeting the sustainable development goals. Rome. Licence: CC BY-NC-SA 3.0 IGO.
  • Fleurence J. 1999. Seaweed Proteins: Biochemical, Nutritional Aspects and Potential Uses. Trends Food Sci Technol. 10(1):25–28.
  • Francavilla M, Manara P, Kamaterou P, Monteleone M, Zabaniotou A. 2015. Cascade Approach of Red Macroalgae Gracilaria gracilis Sustainable Valorization by Extraction of Phycobiliproteins and Pyrolysis of Residue. Bioresour Technol. 184:305–13.
  • Gressler V, Yokoya N S, Fujii M T, Colepicolo P, Mancini-Filho J, Torres R P, Pinto E. 2010. Lipid, Fatty Acid, Protein, Amino Acid and Ash Contents in Four Brazilian Red Algae Species. Food Chem. 120(2):585–90.
  • Herbreteau F, Coiffard L, Derrien A, Roeck-Holtzhauer D. 1997. The Fatty Acid Composition of Five Species of Macroalgae. Bot Mar. 40(1–6):25–28.
  • Hessami MJ, Phang SM, Sohrabipoor J, Zafar FF, Aslanzadeh S. 2019. The Bio-methane Potential of Whole Plant and Solid Residues of Two Species of Red Seaweeds: Gracilaria manilaensis and Gracilariopsis persica. Algal Res. 42:101581.
  • Hosseini SF, Ramezanzade L, Nikkhah M. 2017. Nano-liposomal Entrapment of Bioactive Peptidic Fraction from Fish Gelatin Hydrolysate. Int J Biol Macromol. 105(Pt 2):1455–63.
  • Kadam SU, Prabhasankar P. 2010. Marine Foods as Functional Ingredients in Bakery and Pasta Products. Food Res Inter. 43(8):1975–80.
  • Kannaujiya VK, Kumar D, Pathak J, Sinha RP. 2019. Phycobiliproteins and Their Commercial Significance. In: Cyanobacteria. eds. Mishra, AK, Tiwari, DN, and Rai, AN. (London, UK: Academic Press). pp. 207–16.
  • Kokabi M, Yousefzadi M. 2015. Checklist of the Marine Macroalgae of Iran. Bot Mar. 58(4):307–20. doi:https://doi.org/10.1515/bot-2015-0001.
  • Kostas ET, Adams JM, Ruiz HA, Durán-Jiménez G, Lye GJ. 2021. Macroalgal Biorefinery Concepts for the Circular Bioeconomy: A Review on Biotechnological Developments and Future Perspectives. Renew Sust Energ Rev. 151:111553.
  • Kumar M, Kumari P, Trivedi N, Shukla M K, Gupta V, Reddy C, Jha B. 2011. Minerals, PUFAs and Antioxidant Properties of Some Tropical Seaweeds from Saurashtra Coast of India. J Appl Phycol. 23:797–810.
  • Mabeau S, Fleurence J. 1993. Seaweed in Food Products: Biochemical and Nutritional Aspects. Trend Food Sci Technol. 4(4):103–07.
  • Marsham S, Scot G W, Tobin M L. 2007. Comparison of Nutritive Chemistry of a Range of Temperate Seaweeds. Food Chem. 100(4):1331–36.
  • Matanjun P, Mohamed S, Mustapha NM, Muhammad K. 2009. Nutrient Content of Tropical Edible Seaweeds, Eucheuma cottonii, Caulerpa lentillifera and Sargassum polycystum. J Appl Phycol. 21(1):75–80.
  • McDermid KJ, Stuercke B. 2003. Nutritional Composition of Edible Hawaiian Seaweeds. J Appl Phycol. 15(6):513–24.
  • Miller L, and Berger T. 1985. Bacteria Identification by Gas Chromatography of Whole Cell Fatty Acids Hewlett-Packard Appl. Note. 228(41):8.
  • Mohammadi M, Tajik H, Hajeb P. 2013. Nutritional Composition of Seaweeds from the Northern Persian Gulf. Iran J Fish Sci. 12(1):232–40.
  • Nisizawa K, Noda H, Kikuchi R, Watanabe T. 1987. The Main Seaweed Foods in Japan. In: Twelfth International Seaweed Symposium. Developments in Hydrobiology. Ragan, MA, and Bird, CJ. eds. Vol. 41 (Dordrecht:Springer). https://doi.org/https://doi.org/10.1007/978-94-009-4057-4_2.
  • Norziah MH, Ching CY. 2000. Nutritional Composition of Edible Seaweed Gracilaria changgi. Food Chem. 68(1):69–76.
  • Oliveira EC, Alveal K, Anderson RJ. 2000. Mariculture of the Agar-producing Gracilarioid Red Algae. Rev Fish Sci. 8(4):345–77.
  • Ortiz J, Romero N, Robert P, Araya J, Lopez-Hernández J, Bozzo C, Navarrete E, Osorio A, Rios A. 2006. Dietary Fiber, Amino Acid, Fatty Acid and Tocopherol Contents of the Edible Seaweeds Ulva lactuca and Durvillaea antarctica. Food Chem. 99(1):98–104.
  • Peinado I, Girón J, Koutsidis G, Ames JM. 2014. Chemical Composition, Antioxidant Activity and Sensory Evaluation of Five Different Species of Brown Edible Seaweeds. Food Res Inter. 66:36–44.
  • Pirian K, Zarei Jeliani Z, Arman M, Sohrabipour J, Yousefzadi M. 2020. Proximate Analysis of Selected Macroalgal Species from the Persian Gulf as a Nutritional Resource. Trop Life Sci Res. 31(1):1.
  • Pirian K, Zarei Jeliani Z, Sohrabipour J, Arman M, Faghihi MM, Yousefzadi M. 2018. Nutritional and Bioactivity Evaluation of Common Seaweed Species from the Persian Gulf. Iran J Sci Technol, Trans A. 42(4):1795–804.
  • Prabhakar V, Anandan R, Aneesh T, Jayasree N, Nair S, Halima O. 2011. Fatty Acid Composition of Sargassum wightii and Amphiroa anceps Collected from the Mandapam Coast Tamil Nadu. J Chem Pharm Res. 3:210–16.
  • Prabhasankar P, Ganesan P, Bhaskar N, Hirose A, Stephen N, Gowda LR, Hosokawa M, Miyashita K. 2009. Edible Japanese Seaweed, Wakame (Undaria pinnatifida) as an Ingredient in Pasta: Chemical, Functional and Structural Evaluation. Food Chem. 115(2):501–08.
  • Radulovich R, Umanzo S, Cabrera R, Mata R. 2015. Tropical Seaweeds for Human Food, Their Cultivation and Its Effect on Biodiversity Enrichment. Aquaculture. 436:40–46.
  • Ramezanzade L, Hosseini SF, Nikkhah M. 2017. Biopolymer-coated Nanoliposomes as Carriers of Rainbow Trout Skin-derived Antioxidant Peptides. Food Chem. 234:220–29.
  • Renaud S M, Luong-Van J T. 2006. Seasonal Variation in the Chemical Composition of Tropical Australian Marine Macroalgae. J Appl Phycol. 18(3–5):381–87.
  • Rodrigues D, Freitas AC, Pereira L, Rocha-Santos TA, Vasconcelos MW, Roriz M, Rodriguez-Alcala LM, Gomes AM, Duarte AC. 2015. Chemical Composition of Red, Brown and Green Macroalgae from Buarcos Bay in Central West Coast of Portugal. Food Chem. 183:197–207.
  • Rohani-Ghadikolaei K, Abdulalian E, Ng WK. 2012. Evaluation of the Proximate, Fatty Acid and Mineral Composition of Representative Green, Brown and Red Seaweeds from the Persian Gulf of Iran as Potential Food and Feed Resources. J Food Sci Technol. 49(6):774–80.
  • Sakthivel R, Pandima Devi K. 2015. Evaluation of Physicochemical Properties, Proximate and Nutritional Composition of Gracilaria edulis Collected from Palk Bay. Food Chem. 174:68–74.
  • Sánchez-Machado D, López-Cervantes J, López-Hernández J, Paseiro-Losada P. 2004. Fatty Acids, Total Lipid, Protein and Ash Contents of Processed Edible Seaweeds. Food Chem. 85(3):439–44.
  • Saravana PS, Choi JH, Park YB, Woo HC, Chun BS. 2016. Evaluation of the Chemical Composition of Brown Seaweed (Saccharina japonica) Hydrolysate by Pressurized Hot Water Extraction. Algal Res. 13:246–54.
  • Siddique MAM, Aktar M, Bin Mohd Khatib MA. 2013. Proximate Chemical Composition and Amino Acid Profile of Two Red Seaweeds (Hypnea pannosa and Hypnea musciformis) Collected from ST. Martin’s Island, Bangladesh. J Fish Sci. 7(2):178.
  • Skrzypczyk VM, Hermon KM, Norambuena F, Turchini GM, Keast R, Bellgrove A. 2018. Is Australian Seaweed Worth Eating? Nutritional and Sensorial Properties of Wild-harvested Australian versus Commercially Available Seaweeds. J Appl Phycol. 1–16. doi:https://doi.org/10.1007/s10811-018-1530-2
  • Smith JE, Hunter CL, Smith CM. 2002. Distribution and Reproductive Characteristics of Nonindigenous and Invasive Marine Algae in the Hawaiian Islands. Pacific Sci. 56(3):299–315.
  • Sohrabipour J, Rabiei R. 2008. Morphology and Anatomy of Gracilariopsis langissma in the Persian Gulf, (Iranian Costlines). Pajouhesh-va-Sazandegi. 20(4):2–8.
  • Sudhakar M, Jagatheesan A, Perumal K, Arunkumar K. 2015. Methods of Phycobiliprotein Extraction from Gracilaria crassa and Its Applications in Food Colourants. Algal Res. 8:115–20.
  • Syad AN, Shunmugiah KP, Kasi PD. 2013. Seaweeds as Nutritional Supplements: Analysis of Nutritional Profile, Physicochemical Properties and Proximate Composition of G. Acerosa and S. Wightii. Biomed Prev Nutr. 3(2):139–44.
  • Tabarsa M, Rezaei M, Ramezanpour Z, Waaland JR. 2012. Chemical Compositions of the Marine Algae Gracilaria salicornia (Rhodophyta) and Ulva lactuca (Chlorophyta) as a Potential Food Source. J Sci Food Agric. 92(12):2500–06.
  • Ulbricht T, Southgate D. 1991. Coronary Heart Disease: Seven Dietary Factors. Lancet. 338(8773):985–92.
  • Verma P, Kumar M, Mishra G, Sahoo D. 2016. Multivariate Analysis of Fatty Acid and Biochemical Constitutes of Seaweeds to Characterize Their Potential as Bioresource for Biofuel and Fine Chemicals. Biores Techno. 266:134–44.
  • WHO. 2008. Population Nutrient Intake Goals for Preventing Diet-related Chronic Diseases. Recommendations for Preventing Dental Diseases. In: World Health Organization. Diet, Nutrition and the Prevention of Chronic Diseases. Report of a Joint WHO/FAO Expert Consult. WHO Technical Report Series, 916.
  • Wong K, Cheung PC. 2000. Nutritional Evaluation of Some Subtropical Red and Green Seaweeds: Part I—proximate Composition, Amino Acid Profiles and Some Physico-chemical Properties. Food Chem. 71(4):475–82.
  • Yaich H, Garna H, Besbes S, Paquot M, Blecker C, Attia H. 2011. Chemical Composition and Functional Properties of Ulva lactuca Seaweed Collected in Tunisia. Food Chem. 128(4):895–901.
  • Zarei Jeliani Z, Sohrabipour J, Soltani M, Rabiei R, Yousefzadi M. 2021. Seasonal Variations in Growth and Phytochemical Compounds of Cultivated Red Alga, Hypnea flagelliformis, in Southern Coastlines of Iran. J Appl Phycol. 33(3):2459–2470.
  • Zarei Jeliani Z, Yousefzadi M, Sohrabi Pour J, Toiserkani H. 2018. Growth, Phytochemicals, and Optimal Timing of Planting Gracilariopsis persica: An Economic Red Seaweed. J Appl Phycol. 30(1):525–33.

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