REGISTROS FOTOGRÁFICOS

Camarão L. vannamei recém-despescado

68 Resíduos após a secagem em estufa

69 Camarão adicionado de alecrim desidratado

70 6- ANEXO

71 ANEXO 1

72 7- REFERÊNCIAS

1. Moura EV, Gama GBMN. Centro Tecnológico de Aqüicultura é uma Realidade. Revista Ciência Sempre 2007;3:15-17.

2. Natori MN; Sussel FR.; Santos ECB, Previero TC, Viegas EMM, Gameiro AH. Desenvolvimento da Carcinicultura Marinha no Brasil e no mundo: avanços Tecnológicos e Desafios. Informações Econômicas 2011; 41(2): 61-73.

3. Rocha, IP. Carcinicultura Brasileira: Processos Tecnológicos, Impactos Sócio- Econômicos, Sustentabilidade Ambiental, Entraves e Oportunidades. Revista da ABCC 2011; 13(1): 13-23.

4. Rocha IP, Rocha DM. Carcinicultura marinha: Realidade mundial, perspectivas e oportunidades para o Brasil. Revista ABCC 2009; 11(1): 50-59.

5. Ormond JG, Mello GAT, Ferreira PRP, Lima CAO. A Carcinicultura Brasileira. BNDES Setorial 2004;19: 91-118.

6. Sachindra NM, Bhaskar N, Mahendrakar NS. Recovery of carotenoids from shrimp waste in organic solvents. Waste Management 2005; 26(10):1092-8. 7. Sachindra NM, Bhaskar N, Siddegowda GS, Sathisha AD, Suresh PV. Recovery of carotenoids from ensilaged shrimp waste. Bioresource Technology 2007; 98(8):1642-1646.

8. Jeyasekaran G, Ganesan P, Anandaraj RJ and Sukumar D. Quantitative and qualitative studies on the bacteriological quality of Indian white shrimp (Penaeus indicus) stored in dry ice. Food Microbiol 2006; 23(6): 526-533.

9. Zeng QZ, Thorarinsdottir KA, Olafsdottirquality G. Changes of Shrimp (Pandalus Borealis) stored under different cooling conditions. Journal of Food Science 2005; 70(7): 459-466.

73 10. Rocha IP. Shrimp farming in Brazil: Burgeoning industry recovering, future holds potential. Global Aquac Advoc 2010;(5): 43-45.

11. Damodaran S, Parki KL. Fennema OR. Química de alimentos de Fennema. 4 ed. Porto Alegre: Artmed, 2010.

12. Afonso MS, Sant’Ana LS. Effects of Pretreatment with Rosemary (Rosmarinus officinalis L.) in the prevention of lipid oxidation in salted tilapia fillets. J Food Qual 2008; 31(5): 586-595.

13. Serdaroğlu M, Felekoğlu E. Effects of using rosemary extract and onion juice on oxidative stability of sardine (Sardina pilchardus) mince. J Food Qual 2005; 28(2): 109-120.

14. Ho C, Wang M, Wei G, Huang T, Huang M. Chemistry and antioxidative factors in rosemary and sage. Biofactors 2000. 13(1-4): 161-166.

15. Hadolin M, Hraš AR, Bauman D, Knez Ž. Isolation and concentration of natural antioxidants with high-pressure extraction. Innovat Food Sci Emerg Tech 2004; 5(2): 245-248.

16. Liu D, Tsau R, Lin Y, Jan S, Tan F. Effect of various levels of rosemary or Chinese mahogany on the quality of fresh chicken sausage during refrigerated storage. Food Chem 2009; 117(1): 106-113.

17. Sebranek JG, Sewalt VJH, Robbins KL, Houser TA. Comparison of a natural rosemary extract and BHA/BHT for relative antioxidant effectiveness in pork sausage. Meat Sci 2005; 69(2), 289-296.

18. Georgantelis D, Blekas G, Katikou P, Ambrosiadis I, Fletorius DJ. Effect of Rosemary extract, chitosan and α-tocopherol on lipid oxidation and colour stability during frozen storage of beef burgers. Meat Science 2007, 75(2): 256-264.

74 19. Sarkardei S, Howell NK. Effect of natural antioxidants on stored freeze-dried food product formulated using horse mackerel (Trachurus trachurus). Int J Food Sci Technol 2008; 43: 309–315.

20. Cadun A, Kışla D, Çaklı Ş. Marination of deep-water pink shrimp with rosemary extract and the determination of its shelf-life. Food Chem 2008; 109: 81–87.

21. Costa EF, Sampaio Y. Geração de empregos diretos na cadeia produtiva do camarão marinho cultivado. Revista Economia Aplicada 2004; 8(2):1-19.

22. Madrid RM, Wurmann CG. O futuro da carcinicultura marinha brasileira. Revista ABCC 2011; 13(2): 42-47.

23. Rocha, IP. Carcinicultura Brasileira: Desenvolvimento Tecnológico, Sustentabilidade Ambiental e Compromisso Social. Revista ABCC 2007.

24. Gonçalves AA, Gomes PA. Desenvolvimento de um Produto de Valor Agregado: Camarão Empanado Corte Butterfly. Rev Bras Eng Pesca 2008; 3(1):62-75.

25. Castro AA, Pagani GD. Secagem e composição química da cabeça de camarão (litopenaeus vannamei boone) a diferentes temperaturas. Rev Bras Prod Agro 2004; 6(2):123-9.

26. Sriket P, Benjakul S, Visessanguan W, Kijroongrojana K. Comparative studies on chemical composition and thermal properties of black tiger shrimp (Penaeus Monodon) and white shrimp (Penaeus vannamei) meats. Food Chem 2007;103(4): 1199-1207.

27. Tabela de Composição de Alimentos (TACO). NEPA – UNICAMP. Versão II. Campinas, São Paulo: Editora Fambloyant, 2006.

75 28. Pedrosa L.FC, Cozzolino SMF. Composição centesimal e de minerais de mariscos crus e cozidos da cidade de Natal/RN. Ciência e Tecnologia de Alimentos 2001; 21(2):154-57.

29. Lambertsen G, Braekkan OR. Method of analysis of astaxanthin and its occurrence in some marine products. J Sci Fd Agric 1971; 22:99-01.

30. Sahidi F, Synowieck J. Isolation and characterization of nutrients and value- added products from snow crab (Chinoecetes opilio) and shrimp (Pandalus borealis) processing discards. J Agric Food Chem 1991; 39(8):1527-1532.

31. Arredondo-Figueroa JL, Pedroza-Islas R, Ponce-Palafox JT, Vernon-Carter EJ. Pigmentation of Pacific White Shrimp (Litopenaeus vannamei, BOONE 1931) with esterified and saponified carotenoids from red chili Capsicum annum in comparison to astaxanthin. Rev Mex Ing Quim 2003;2:101-08.

32. Tsironi T, Dermesonlouoglou E, Giannakourou M, Taoukis P. Shelf life modeling of frozen shrimp at variable temperature conditions. Food Sci Technol 2009; 42(2), 664-671.

33. Benjakul S, Visessanguan W, Thongkaew C, Tanaka M. Comparative study on physicochemical changes of muscle proteins from some tropical fish during frozen storage. Food Res Int 2003; 3(8), 787-795.

34. Bak LS, Jacobsen L, Jorgensen SS. Characterization of qualitative changes in frozen, unpeeled cold-water shrimp (Pandalus Borealis) by static headspace gas chromatography and multivariate data analysis. Z Lebensm Unters Forsch A 1999; 208: 10-16.

35. Yamagata M, Low LK. Banana Shrimp, Penaeus merguiensis, Quality Changes During Iced and Frozen Storage. J Food Sci 1995; 60(4):721-26.

76 36. Ordoñez JA. Tecnologia de Alimentos: Componentes dos Alimentos e Processos 2005. Volume 1, Porto Alegre: Artmed.

37. Decker EA, Hultineric HO. Factors influencing catalysis of lipid oxidation by the soluble fraction of Mackerel muscle. J Food Sci 1990; 55(4): 947-950.

38. Benjakul S, Visessanguan W, PhongkanpaiV, Tanaka M. Antioxidative activity of caramelisation products and their preventive effect on lipid oxidation in fish mince. Food Chem 2005; 90(1-2): 231-239.

39. Regost C, Jakobsen JV, Rora AM. Flesh quality of raw and smoked fillets of Atlantic salmon as influenced by dietary oil sources and frozen storage. Food Res Int 2004; 37(3):259-271.

40. Brewer MS. Natural antioxidants: sources, compounds, mechanisms of action, and potencial applications. Compr Rev Food Sci Food Safety 2011; 10:221-247. 41. Erkan N, Ayranci G, Ayranci E . Antioxidant activities of rosemary (Rosmarinus Officinalis L.) extract, blackseed (Nigella sativa L.) essential oil, carnosic acid, rosmarinic acid and sesamol. Food Chem 2008; 110: 76–82.

42. Gok V, Obuz E, Sahin ME, Serteser A. The effects of some natural antioxidants on the color, chemical and microbiological properties of sucuk (Turkish dry-fermented sausage) during ripening and storage periods. J Food Process Pres 2011; 35(5):677-690.

43. Uçak I, Özogul Y, Durmuş. The effects of rosemary extract combination with vacuum packing on the quality changes of Atlantic mackerel fish burgers. Int J Food Sci Tech 2011; 46: 1157-1163.

44. DUTCOSKY, S. D. Análise Sensorial de Alimentos. 2. ed. Curitiba: Champagnat, 1996. 123p.

77 45. ABNT - ASSOCIAÇÃO BRASILEIRA DE NORMAS TÉCNICAS. NBR 12806: alimentos e bebidas - análise sensorial – teste de análise descritiva quantitativa (ADQ). Rio de Janeiro, 1988.

46. Brasil. Ministério da Saúde. Agência Nacional de Vigilância Sanitária. Métodos Físico-Químicos para Análise de Alimentos. Edição IV. Instituto Adolfo Lutz. Brasília: Ministério da Saúde 2005; p.98-9.

47. Bohac CE, Rhee KS, Cross HR, Ono K. Assessment of methodologies for colorimetric cholesterol assay of meats. J Food Sci 1988;53(6):1642-44.

48. Yuan JP, Chen F. Hydrolysis kinetics of astaxanthin esters and stability of astaxanthin of Haematococcus pluvialis during saponification. J Agric Food Chem. 1999; (47): 31-35.

49. Weber RWS, Davoli P. Teaching tecniques for mycology: 20. Astaxanthin, a carotenoid of biotechnological importance from yeast and salmonid fish. Mycologist 2003; (17): 30-34.

78 Abstract

Farming of marine shrimp is growing worldwide and the Litopenaeus vannamei (L. vannamei) shrimp is the species most widely cultivated. Shrimp is an attractive food for its nutritional value and sensory aspects, being essential the maintenance of this attributes throughout storage, which takes place largely under freezing. The aim of this research was to evaluate quality characteristics of Litopenaeus vannamei shrimp, during freezing storage and to verify the effect of rosemary (Rosmarinus officinalis) adding. Considering the reutilization of processing shrimp wastes, total carotenoids analysis were conducted in waste of Litopenaeus vannamei shrimp and in the flour obtained after dryer. Monthly physicochemical and sensorial analysis were carried out on shrimp stored at 28,3 ± 3,8ºC for 180 days. Samples were placed in polyethylene bags and were categorized as whole shrimp (WS), peeled shrimp (PS), and PS with 0,5% dehydrated rosemary (RS). TBARS, pH, total carotenoid and sensorial Quantitative Descriptive Analysis (QDA) were carried out. Carotenoid total analysis was conducted in fresh wastes and processed flour (0 day) and after 60, 120 and 180 days of frozen storage. After 180 days, RS had lower pH (p = 0.001) and TBARS (p = 0.001) values and higher carotenoids (p = 0.003), while WS showed higher carotenoid losses. Sensory analysis showed that WS were firmer although rancid taste and smell were perceived with greater intensity (p = 0.001). Rancid taste was detected in RS only at 120 days at significantly lower intensity (p = 0.001) than WS and PS. Fresh wastes had 42.74μg/g of total carotenoids and processed flour 98.51μg/g. After 180 days of frozen storage, total carotenoids were significantly lower than 0 day (p<0,05). The addition of rosemary can improve sensory quality of frozen shrimp and reduce nutritional losses during storage. Shrimp wastes and flour of L. vannamei shrimp

79 showed considerable astaxanthin content however, during storage it was observed losses in this pigment.