Geleceğin Protein Kaynağı: Yenilebilir Böcekler

Artan dünya nüfusu göz önüne alındığında, protein kaynaklarının yeterli olamayacağının bilincinde olan araştırmacılar yeni protein kaynaklarına odaklanmışlardır. Bu nedenle yenilebilir böceklerin gıdada doğrudan veya bir bileşen olarak kullanılabilme potansiyeli ilgi görmeye başlamıştır. Yenilebilir böcekler Afrika, Asya ve Güney Amerika’da uzun yıllardır geleneksel gıda olarak tüketilmektedir. Ancak özellikle Avrupa ülkelerinde, tüketiciler böceklerin gıda olarak tüketilmesine karşı olumsuz tutum sergilemektedir. Yenilebilir böcekler, geleneksel hayvansal protein kaynaklarına kıyasla daha az olumsuz çevresel etkiye sahip gıda kaynaklarıdır. Yetişme alanı, su, enerji ve yem gibi kaynakları daha az tüketmelerinin yanı sıra düşük sera gazı üretimleri ekolojik sistemin sürdürülebilir özellikleri açısından önemlidir. Yenilebilir böcekler kaliteli protein, zorunlu amino asitler, yağ asitleri, mineral ve vitaminlerin kaynağı olarak alternatif gıda kaynağı olarak kabul edilmektedir. Besleyici özellikleri üzerine yapılan çalışmalar hem küresel gıda talebinin karşılanması hem de malnütrisyonun önlenmesinde çözüm olabileceğini göstermektedir. Bu derlemede, yenilebilir böcekler besleyici özellikleri açısından değerlendirilmiştir.

Protein Source of the Future: Edible Insects

Considering of the increasing world population, the researchers are aware that protein sources may not be sufficient and focused on new protein sources. For this reason, the potential of edible insects to be used directly or as an ingredient in food has started to draw attention. Edible insects have been consumed as traditional food in Africa, Asia and South America for many years. However, especially in European countries, consumers have a negative attitude towards the consumption of insects as food. Edible insects are food sources with less negative environmental impact compared to traditional animal protein sources. In addition to consuming less resources such as cultivation area, water, energy and feed, low greenhouse gas production is important for the sustainable features of the ecological system. Edible insects can be considered as a sustainable alternative food source because of their high-quality proteins, essential amino acids, fatty acids, minerals and vitamins. Research on nutritional properties shows that edible insects can be a solution both in meeting global food demand and preventing of malnutrition. In this review, edible insects were evaluated in terms of their nutritional properties.

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Agbidye F, Ofuya T, Akindele S. 2009. Marketability and Nutritional Qualities of Some Edible Forest Insects in Benue State, Nigeria. Pakistan Journal of Nutrition, 8(7): 917–922. doi: 10.3923/pjn.2009.917.922
Akhtar Y, Isman MB. 2018. Insects as an Alternative Protein Source. In: Yada RY (Editör), Proteins in Food Processing. Woodhead Publishing Series in Food Science, Technology and Nutrition. pp: 263–288. ISBN: 978-0-08-100722-8 (Online) DOI: https://doi.org/10.1016/B978-0-08-100722- 8.00011-5
Akinnawo OO, Abatan MO, Ketiku AO. 2002. Toxicological study on the edible larva of Cirina forda (Westwood). African Journal of Biomedical Research, 5: 43–46, doi: 10.4314/ajbr.v5i1-2.53970
Anonim, 2017. BBC News. ‘Finlandiya 'açlıkla mücadele için' çekirgeden ekmek yaptı’ https://www.bbc.com/turkce/ haberler-dunya-42104091 [Erişim tarihi: 20.12.2020]
Arnarson A. 2017. 8 Signs and Symptoms of Protein Deficiency, https://www.healthline.com/nutrition/protein-deficiencysymptoms#section1 [Erişim: 11.10.2020].
Babji AS, Fatimah S, Ghassem M, Abolhassani Y. 2010. Protein quality of selected edible animal and plant protein sources using rat bio-assay. International Food Research Journal 17, 303–308, http://www.ifrj.upm.edu.my/17%20(02)%202010/ IFRJ-2010-303-308_UKM_Mansureh_(S)[1].pdf, [Erişim: 11.10.2020].
Bessa LW, Pieterse E, Sigge G, Hoffman LC. 2020. Insects as human food; from farm to fork. Journal of the Science of Food and Agriculture, 100(14): 5017-5022. doi: https://doi.org/10.1002/jsfa.8860
Bukkens SGF. 1997. The nutritional value of edible insects. Ecology of Food and Nutrition, 36(2–4): 287–319. doi: https://doi.org/10.1080/03670244.1997.9991521
Bukkens SGF. 2005. Insects in the Human Diet: Nutritional Aspects. In: Paoletti MG (Editörler), Ecological Implications of Minilivestock: Potential of Insects, Rodents, Frogs, and Snails. Science Publishers, Enfield, NH, pp. 545–577. ISBN 1-57808-339-7 (Online)
Castro RJS, Ohara A, dos Santos Aguilar JG, Domingues MAF. 2018. Nutritional, functional and biological properties of insect proteins: Processes for obtaining, consumption and future challenges, Trends in Food Science and Technology 76: 82-89, doi: https://doi.org/10.1016/j.tifs.2018.04.006
Costa-Neto EM, Dunkel FV. 2016. Insects as Food: History, Culture and Modern Use around the World. In: Dossey AT, Morales-Ramos JA, Guadalupe Rojas M (Editörler), Insects as Sustainable Food Ingredients: Production, Processing and Food Applications, pp. 29-60. ISBN: 978-0-12-802856-8 (Online) doi: http://dx.doi.org/10.1016/B978-0-12-802856- 8.00002-8
Dossey AT. 2010. Insects and their chemical weaponry: New potential for drug discovery, Natural Product Reports. 27, 1737–1757, doi: 10.1039/C005319H
Dossey AT, Tatum JT, McGill WL. 2016. Modern Insect-Based Food Industry: Current Status, Insect Processing Technology, and Recommendations Moving Forward, In: Dossey AT, Morales-Ramos JA, Guadalupe Rojas M (Editörler), Insects as Sustainable Food Ingredients: Production, Processing and Food Applications. pp. 113-150. ISBN: 978-0-12-802856-8 (Online) doi: http://dx.doi.org/10.1016/B978-0-12-802856- 8.00005-3
EFSA, 2018. Questions and Answers: New Novel Food Regulation. https://ec.europa.eu/food/sites/food/files/safety/ docs/fs_novel-food_leg_q-n-a-new-regulation-nf_en.pdf [Erişim 28.11.2020]
EFSA, 2021. Safety of dried yellow mealworm (Tenebrio molitor, larva) as a novel food pursuant to Regulation (EU) 2015/2283. EFSA Journal, 19(1): 6343. DOI: https://doi.org/10.2903/j.efsa.2021.6343.
FAO, 2009. The State of Food and Agriculture. Food and Agriculture Organization of the United Nations Rome, http://www.fao.org/3/i0680e/i0680e.pdf, [Erişim: 20.11.2020]
FAO, 2013. Edible insects. Future prospects for food and feed security Food and Agriculture Organization of the United Nations Rome, http://www.fao.org/3/i3253e/i3253e00.pdf, [Erişim: 15.11.2020]
FAO, 2017. The Future of Food and Agriculture, Trends and Challenges, Food and Agriculture Organization of the United Nations Rome, http://www.fao.org/3/a-i6583e.pdf, [Erişim: 10.11.2020]
FAO, 2019. Food and Agriculture Organization of the United Nations World Health Organization, Sustainable Healthy Diets Guiding Principles, Food and Agriculture Organization of the United Nations Rome, http://www.fao.org/3/ca6640en/ CA6640EN.pdf, [Erişim: 21.11.2020]
FDA, 2016. Food Labeling: Revision of the Nutrition and Supplement Facts Labels (2016- 11867). http://federalregister.gov/a/2016-11867. [Erişim: 12.11.2020]
Finke MD, Defoliart G, Benevenga NJ. 1989. Use of a Four Parameter Logistic Model to Evaluate the Quality of the Protein from Three Insect Species when Fed to Rats. The Journal of Nutrition, 119: 864–871. doi: 10.1093/jn/119.6.864
Finke MD. 2002. Complete nutrient composition of commercially raised invertebrates as food for insectivores. Zoo Biology 21: 269–285. doi: https://doi.org/10.1002/zoo.10031
Finke MD. 2007. Estimate of chitin in raw whole insects. Zoo Biology 26: 105–115. doi: 10.1002/zoo.20123
Finke MD. 2008. Nutrient Content of Insects, In: Capinera JL (Editör), Encyclopedia of Entomology, Kluwer Academic, Dordrecht, London, pp. 1562–1575. ISBN: 978-1-4020- 6360-2 (Online)
Finke MD. 2013. Complete nutrient content of four species of feeder insects. Zoo Biology, 32: 27–36, doi: 10.1002/zoo.21012
Gahukar RT. 2011. Entomophagy and human food security. International Journal of Tropical Insect Science, 31: 129–144. doı: https://doi.org/10.1017/S1742758411000257
Gahukar RT. 2016. Edible Insects Farming: Efficiency and Impact on Family Livelihood, Food Security, and Environment Compared with Livestock and Crops, In:
Dossey AT, Morales-Ramos JA, Guadalupe Rojas M (Editörler), Insects as Sustainable Food Ingredients: Production, Processing and Food Applications. pp. 85-106. ISBN: 978-0-12-802856-8 (Online) doi: http://dx.doi.org/ 10.1016/B978-0- 12-802856-8.00004-1
Global Market Insights. 2016. Edible Insects Market Size by Product (Beetles, Caterpillars, Grasshoppers, Bees, Wasps, Ants, Scale Insects and Tree Bugs), By Application (Flour, Protein Bars, Snacks), Industry Analysis Report, Regional Outlook, Application Potential, Price Trends, Competitive Market Share and Forecast, 2020–2026. https://www. gminsights.com/industry-analysis/edible-insects-market [Erişim: 10.04.2020]
González CM, Garzón R, Rosell CM. 2017. Insects as ingredients for bakery goods. A comparison study of H. illucens, A. domestica and T. molitor flours, Innovative Food Science and Emerging Technologies 51: 205-210 doi: https://doi.org/10.1016/j.ifset.2018.03.021
Guine RPF, Correia P, Coelho C, Costa CA. 2021. The role of edible insects to mitigate challenges for sustainability, Open Agriculture, 6: 24–36, doi: https://doi.org/10.1515/opag2020-0206
Halloran A, Roos N, Eilenberg J, Cerutti A, Bruun S. 2016. Life cycle assessment of edible insects for food protein: A review. Agronomy for Sustainable Development, 36(57): 6-13. doi: 10.1007/s13593-016-0392-8.
Hartmann C, Shi J, Giusto A, Siegrist M. 2015. The psychology of eating insects: A cross-cultural comparison between Germany and China. Food Quality and Preference, 44: 148- 156. doi: https://doi.org/10.1016/j.foodqual.2015.04.013
Hartmann C, Siegrist M. 2017. Insects as food: perception and acceptance, Findings from current research. Ernahrungs Umschau International, 64(3): 44–50, doi: 10.4455/eu.2017.010.
Hoppe C, Andersen GS, Jacobsen S, Molgaard C, Friis H, Sangild PT, Michaelsen, KF. 2008. The use of whey or skimmed milk powder in fortified blended foods for vulnerable groups, The Journal of Nutrition, 138: 145–161. doi:10.1093/jn/138.1.145S
Hou L, Shi Y, Zhai P, Le G. 2007. Inhibition of foodborne pathogens by Hf-1, a novel antibacterial peptide from the larvae of the housefly (Musca domestica) in medium and orange juice. Food Control, 18(11): 1350–1357. doi: https://doi.org/10.1016/j.foodcont.2006.03.007
Indriania S, Karim MS, Nalinanona S, Karnjanapratum S. 2019. Quality characteristics of protein-enriched brown rice flour and cake affected by Bombay locust (Patanga succincta L.) powder fortification, LWT- Food Science and Technology, 119, 108876, doi: https://doi.org/10.1016/j.lwt.2019.108876
Latunde-Dada GO, Yang W, Aviles MV. 2016. In Vitro Iron Availability from Insects Sirloin Beef. Journal of Agricultural and Food Chemistry, 64(44): 8420–8424. doi: https://doi.org/10.1021/acs.jafc.6b03286
Le Goff G, Delarue J. 2015. Non-verbal evaluation of acceptance of insect-based productsusing a simple and holistic analysis of facial expressions, Food Quality and Preference, 56: 285- 293, doi: 10.1016/j.foodqual.2016.01.008
Liu P, Piao XS, Thacker PA, Zeng ZK, Li PF, Wang D, Kim SW. 2010. Chito-oligosaccharide reduces diarrhea incidence and attenuates the immune response of weaned pigs challenged with Escherichia coli K881. Journal of Animal Science, 88: 3871–3879. doi: 10.2527/jas.2009-2771.
Meixner O, Mörl von Pfalzen L. 2018. Die Akzeptanz von Insekten in der Ernährung: Eine Studie zur Vermarktung von Insekten als Lebensmittel aus Konsumentensicht. [The acceptance of insects in nutrition: A study on the marketing of insects as food from the consumer’s point of view]. Wiesbaden: Springer Gabler. ISBN 978-3-658-21336-7 (Online) doi: https://doi.org/10.1007/978-3-658-21336-7
Megido RC, Gierts C, Blecker C, Brostaux Y, Haubruge E, Alabi T, Francis F. 2016. Consumer acceptance of insect-based alternative meat products in Western countries, Food Quality and Preference 52: 237–243, doi: https://doi.org/10.1016/j.foodqual.2016.05.004
Michaelsen KF, Hoppe C, Roos N, Kaestel P, Stougaard M, Lauritzen L, Mølgaard C. 2009. Choice of foods and ingredients for moderately malnourished children 6 months to 5 years of age. Food and Nutrition Bulletin, 30(3): 343– 404. doi: 10.1177/15648265090303S303
Montowska M, Kowalczewskib PL, Rybickac I, Fornald E. 2019. Nutritional value, protein and peptide composition of edible cricket powders, Food Chemistry, 289: 130-138, doi: 10.1016/j.foodchem.2019.03.062
Nelson GC, Rosegrant MW, Koo J, Robertson R, Sulser T, Zhu T, Ringler C, Msangi S, Palazzo A, Batka M, Magalhaes M, Valmonte-Santos R, Ewing M, Leeve D. 2009. Climate Change: Impact on Agriculture and Costs of Adaptation. International Food Policy Research Institute. Washington, D.C. doi: http://dx.doi.org/10.2499/0896295354
Nowak V, Persijn D, Rittenschober D, Ruth Charrondiere U. 2014. Review of food composition data for edible insects, Food Chemistry 15(193): 39-46. doi: 10.1016/j.foodchem.2014.10.114
Oibiokpa FI, Akanya HO, Jigam AA, Saidu AN, Egwim, EC. 2018. Protein quality of four indigenous edible insect species in Nigeria. Food Science and Human Wellness, 7(2): 175- 183. doi: https://doi.org/10.1016/j.fshw.2018.05.003
Oliveira LM, da Silva Lucas AJ, Cadavel CL, Mellado MS. 2017. Bread enriched with flour from cinereous cockroach (Nauphoeta cinerea). Innovative Food Science and Emerging Technologies, 44: 30-35, doi: https://doi.org/10.1016/j.ifset. 2017.08.015
Osimani A, Milanović V, Cardinali F, Roncolini A, Garofalo C, Clementi F, Pasquini M, Mozzon M, Foligni R, Raffaelli N, Zamporlini F, Aquilanti L. 2018. Bread enriched with cricket powder (Acheta domesticus): a technological, microbiological and nutritional evaluation. Innovative Food Science and Emerging Technologies, 48: 150-163. doi: https://doi.org/10.1016/j.ifset.2018.06.007
Ozimek L, Sauer WC, Kozikowski V, Ryan JK, Jorgensen H, and Jelen P. 1985. Nutritive Value of Protein Extracted from Honey Bees. Journal of Food Science. 50: 1327–1332. doi: https://doi.org/10.1111/j.1365-2621.1985.tb10469.x
Pauter P, Różańska M, Wiza P, Dworczak S, Grobelna N, Sarbak P, Kowalczewski PL. 2018. Effects of the replacement of the wheat flour with cricket powder on the characteristics of muffins, Acta Scientiarum Polonorum Technologia Alimentaria, 17(3): 227–233. doi: 10.17306/J.AFS.2018. 0570
Pires CV, Oliveira MGA, Rosa JC, Costa NMB. 2006. Qualidade nutricionale escore químico de aminoácidos de diferentes fontes proteicas. Ciência e Tecnologiade Alimentos, 26: 179- 187. doi: 10.1590/S0101-20612006000100029
Ramos-Elorduy J, Pino JMP, Prado EE, Perez MA, Otero JL, de Guevara OL. 1997. Nutritional Value of Edible Insects from the State of Oaxaca, Mexico, Journal of Food Composition and Analysis, 10: 142–157. doi: https://doi.org/10.1006/jfca. 1997.0530
Ramos-Elorduy J. 2008. Energy Supplied by Edible Insects from Mexico and their Nutritional and Ecological Importance. Ecology of Food Nutrition, 47: 280–97. doi: http://dx.doi.org/10.1080/03670240701805074
Ramos-Elorduy J, Pino Moreno JM, Martinez Camacho VH. 2012. Could Grasshoppers be a Nutritive Meal? Food and Nutrition Sciences, 3: 164–175. doi: 10.4236/fns.2012.32025
Ribeiro JC, Lima RC, Maia MRG, Almeida AA. Fonsecac AJM, Cabritac ARJ, Cunha LM. 2019. Impact of defatting freezedried edible crickets (Acheta domesticus and Gryllodes sigillatus) on the nutritive value, overall liking and sensory profileof cereal bars, LWT, Food Science and Technology 113: 1-7, doi: 10.1016/j.lwt.2019.108335
Ritchie H, Roser M. 2017. Diet Compositions, https://ourworldindata.org/diet-compositions [Erişim: 04.04.2020]
Roncolini A, Milanović V, Cardinali F, Osimani A, Garofalo C, Sabbatini R, Clementi F, Pasquini M, Mozzon M, Foligni R, Raffaelli N, Zamporlini F, Minazzato G, Trombetta MF, Van Buitenen A, Van Campenhout L, Aquilanti L. 2019. Protein fortification with mealworm (Tenebrio molitor L.) powder: Effect on textural, microbiological, nutritional and sensory features of bread, PLOS ONE 14(2): e0211747, doi: https://doi.org/10.1371/journal.pone.0211747
Ruby MB, Rozin P, Chan C. 2015. Determinants of willingness to eat insects in the USA and India. Journal of Insects as Food and Feed, 1: 215–225. doi: https://doi.org/10.3920/JIFF2015.0029
Rumpold BA, Schlüter OK. 2013. Nutritional composition and safety aspects of edible insects. Molecular Nutrition and Food Research, 57: 802–823. doi: 10.1002/mnfr.201200735
Schlup Y, Brunner T. 2018. Prospects for insects as food in Switzerland: A tobit regression, Food Quality and Preference 64: 37-46, doi: 10.1016/j.foodqual.2017.10.010
Silva Lucas AJ, de Oliveir L, Rochaa M, Prentice C. 2020. Edible insects: An alternative of nutritional, functional and bioactive compounds, Food Chemistry 311, 126022, doi: 10.1016/j.foodchem.2019.126022.
Singh B, Singh U. 1991. Peanut as a source of protein for human foods. Plant Foods for Human Nutrition, 41: 165-177. doi: 10.1007/BF02194085
Sirimungkararat S, Saksirirat W, Nopparat T, Natongkham A. 2010. Edible products from eri and mulberry silkworms in Thailand. In: Durst PB, Johnson DV, Leslie RN, Shono K. (Editörler), Forest insects as food: humans bite back, Proceeding of a workshop on Asia-Pacific resources and their potential for development, Chiang Mai, Thailand. Food and Agricultural Organisation of the United Nations Regional Office for Asia and the Pacific, pp. 189–200, ISBN: 978-92- 5-106488-7 (Online)
Smil V. 2002. Eating Meat: Evolution, Patterns, and Consequences. Population and Development Review, 28: 599–639. doi: https://doi.org/10.1111/j.1728- 4457.2002.00599.x
Sogbesan A, Ugwumba A. 2008. Nutritional Evaluation of Termite (Macrotermes subhyalinus) Meal as Animal Protein Supplements in the Diets of Heterobranchus longifilis (Valenciennes, 1840) Fingerlings, Turkish Journal of Fisheries and Aquatic Sciences, 8: 149–157. https://www.researchgate.net/profile/Olukayode_Sogbesan2/ publication/242599458, [Erişim: 21.11.2020]
Stefanikova Z, Sevcikova L, Jurkovicova J, Sobotova L, Aghova L. 2006. Positive and negative trends in university students’ food intake. Bratislavske Lekarske Listy, 107: 217-220. https://www.researchgate.net/publication/6874744, [Erişim: 21.11.2020]
Stull VJ, Finer E, Bergmans RS, Febvre HP, Longhurst C, Manter DK, Weir TL. 2018. Impact of Edible Cricket Consumption on Gut Microbiota in Healthy Adults, a Double-blind, Randomized Crossover Trial. Scientific Reports, 8, 10762, doi: 10.1038/s41598-018-29032-2
Tan HSG, Van den Berg E, Stieger M. 2016. The influence of product preparation, familiarity and individual traits on the consumer acceptance of insects as food, Food Quality and Preference, 52: 222–23, doi: https://doi.org/10.1016/j. foodqual.2016.05.003
Tan HSG, Verbaan YT, Stieger M. 2017. How will better products improve the sensory-liking and willingness to buy insect-based foods? Food Research International 92: 95-105, doi: 10.1016/j.foodres.2016.12.021
Tao J, Li YO. 2018. Edible insects as a means to address global malnutrition andfood insecurity issues. Food Quality and Safety, 2: 17–26. doi: https://doi.org/10.1093/fqsafe/fyy001
TBSA, 2010. Türkiye Beslenme ve Sağlık Araştırması: Beslenme Durumu ve Alışkanlıklarının Değerlendirilmesi Sonuç Raporu. https://www.saglik.gov.tr/TR,4736/turkiye-beslenme-vesaglik-arastirmasi-2010 yayınlandı. Html, [Erişim: 17.11.2020]
USDA, 2015. National Nutrient Database for Standard Reference, https://data.nal.usda.gov [Erişim 17.11.2020]
Van Huis A. 2013. Potential of Insects as Food and Feed in Assuring Food Security. Annual Review of Entomology, 58: 563–583. doi: https://doi.org/10.1146/annurev-ento-120811- 153704
Van der Spiegel M, Noordam MY, Van der Fels-Klerx HJ. 2013. Safety of Novel Protein Sources (Insects, Microalgae, Seaweed, Duckweed and Rapeseed) and Legislative Aspects for Their Application in Food and Feed Production. Comprehensive Reviews in Food Science and Food Safety, 12(6): 662-678. doi: https://doi.org/10.1111/1541- 4337.12032
WHO, 2007. Protein and Amino Acid Requirements in Human Nutrition: Report of a Joint WHO/FAO/UNU Expert Consultation. Geneva, EU: World Health Organization. https://apps.who.int/iris/bitstream/handle/10665/43411/WH O_TRS_935_eng.pdf?sequence=1&isAllowed=y [Erişim: 22.11.2020]
Williams JP, Williams JR, Kirabo A, Chester D, Peterson M. 2016. Nutrient Content and Health Benefits of Insects. Insects as Sustainable Food Ingredients, 61–84. doi: https://doi.org/10.1016/B978-0-12-802856-8.00003-X
Xiaoming C, Ying F, Hong Z, Zhiyong C. 2010. Review of the nutritive value of edible insects. In: Durst PB, Johnson DV, Leslie RN, Shono K. (Editörler), Forest insects as food: humans bite back, Proceeding of a workshop on Asia-Pacific resources and their potential for development, Chiang Mai, Thailand. Food and Agricultural Organisation of the United Nations Regional Office for Asia and the Pacific, pp. 85–92, ISBN: 978-92-5-106488-7 (Online)
Zielińska E, Monika Karaś M, Baraniak B. 2018. Comparison of functional properties of edible insects and protein preparations thereof, LWT- Food Science and Technology 91: 168- 174, doi: 10.1016/j.lwt.2018.01.058