Edible Insect Species Research Articles

Leg muscles of migratory locust (Locusta migratoria) as a protein source: Extraction, protein composition and foaming properties

Migratory locust (Locusta migratoria) is an edible insect species that is usually consumed at the adult developmental stage and represents a valuable source of proteins. Locusts can be processed into food ingredients or directly consumed after removal of legs and wings. Legs represent a unique matrix, which comprises a chitin-based exoskeleton typical for insects and muscle tissues commonly occurring also in other animals. Muscle proteins can be easily extracted from traditional animal sources, but the efficiency of these methods for locust legs as well as the functional characteristics of the resulting protein extracts have not been previously explored. This study first compared protein extraction methods at acid, alkaline, and salt-assisted conditions. All three methods resulted in a significantly higher extraction yield from locust leg muscles (0.465–0.595 g/g) than from whole locusts (0.061–0.125 g/g). Shotgun proteomics of the protein fraction extracted at alkaline conditions assigned 310 muscle proteins, comprising components assigned to energy and carbon metabolism, as well as to skeletal, protein folding, membrane trafficking, and cell adhesion functions. The techno-functional potential of locust leg muscles was assessed by a foamability assay. Foam stability of locust leg extracts varied as a function of pH extraction and re-solubilization conditions and was significantly higher (58.3–70.8 %) than for whey proteins taken as a benchmark (38.3–51.7 %); foam capacity at t = 0 h was in the range of 48.6–68.8 %. This study demonstrates that locust legs, which can be a by-product of locust consumption or processing, should be considered a rich source of muscle proteins with promising technological functionality.

Microorganism Contribution to Mass-Reared Edible Insects: Opportunities and Challenges.

The interest in edible insects' mass rearing has grown considerably in recent years, thereby highlighting the challenges of domesticating new animal species. Insects are being considered for use in the management of organic by-products from the agro-industry, synthetic by-products from the plastics industry including particular detoxification processes. The processes depend on the insect's digestive system which is based on two components: an enzymatic intrinsic cargo to the insect species and another extrinsic cargo provided by the microbial community colonizing-associated with the insect host. Advances have been made in the identification of the origin of the digestive functions observed in the midgut. It is now evident that the community of microorganisms can adapt, improve, and extend the insect's ability to digest and detoxify its food. Nevertheless, edible insect species such as Hermetia illucens and Tenebrio molitor are surprisingly autonomous, and no obligatory symbiosis with a microorganism has yet been uncovered for digestion. Conversely, the intestinal microbiota of a given species can take on different forms, which are largely influenced by the host's environment and diet. This flexibility offers the potential for the development of novel associations between insects and microorganisms, which could result in the creation of synergies that would optimize or expand value chains for agro-industrial by-products, as well as for contaminants.

Evaluation of biological activity and amino acid profile of protein from Thai edible insects

Insects are one of the sources of protein for future foods. In some cultures, insects have been used as a component of traditional medicine. Moreover, some proteins from insects have also shown biological activities related to human health, such as non-communication disease treatment. In this study, the protein content, amino acid profile, and inhibitory activity against a-glucosidase, a-amylase, acetylcholinesterase, and tyrosinase of soluble protein from six species of Thai edible insects were investigated. The protein from six Thai edible insects, including Gryllus bimaculatus De Geer (Sample 1), Omphisa fuscidentalis (Sample 2), Bombyx mori L. (Sample 3), Brachytrupes portentosus (Lichtenstein 1796) (Sample 4), Acheta domesticus L. (Sample 5), and Patanga succincta (Linnaeus) (Sample 6), was extracted and evaluated for its content and biological activity. The results indicated that sample 1 yielded the highest protein content of 84.23±5.15 g/100 g which is more than the protein content of meat and dairy products. A total of eight essential amino acid contents (EAA) were found in all six edible Thai insects. The highest total EAA was obtained from Sample 2 with 37.21±1.82 g/100 g, higher than the criteria established by FAO/WHO/UNU.1985. Sample 3 yielded the highest inhibition percentage of soluble protein from edible insects against α-glucosidase. The same was true for Sample 4 for α-amylase, Sample 1 for acetylcholinesterase, and Sample 2 for tyrosinase. These results indicated the quality and functional properties of protein from six species of Thai edible insects, which may be helpful in their future exploration and application

Costa Rica’s potential for entotechnology development: an ecosystem and entomophagy perspective

Abstract Entotechnology integrates scientific and technical knowledge to leverage the potential of insects for societal benefit, encompassing fields such as medicine, agriculture, food, and biotechnology. This article aims to assess and promote the potential of Costa Rica to develop entotechnology from an ecosystem and entomophagy perspective, including an updated list of edible insect species in the region. Costa Rica boasts a biodiversity of 48 edible insect species. To date, two notable projects by the Universidad de Costa Rica have been successfully implemented. However, the current legislation in Costa Rica needs to provide better conditions to foster industrial insect farming within a circular economy. Universities play a crucial role in encouraging the formalization and appreciation of insect rearing, entomophagy, and entotechnology studies. Prioritizing the exploration of new uses for edible insect species is essential for the advancement of this field.

Willingness to Consume and Purchase Food with Edible Insects among Generation Z in Poland.

The consumption of insects (entomophagy) is attracting attention for economic, environmental and health reasons. The wide range of edible insect species, rich in protein, fat, minerals, vitamins and fibre, can play an important role in addressing global food insecurity. However, consumer acceptance remains a major barrier to the adoption of insects as a food source in many countries, including Europe. The aim of this study was to determine whether health and environmental concerns, attitudes and intentions towards purchasing edible insects and foods containing edible insects are associated with willingness to consume edible insects and foods containing edible insects among young consumers (Generation Z) in Poland. An empirical study was carried out in 2023, using a questionnaire with an indirect interview method via an online platform. On the basis of surveys conducted among Generation Z in Poland, it can be concluded that health and environmental concerns determine the willingness to consume selected products containing edible insects. At the same time, it should be noted that the more positive the respondents' attitudes towards health and environmental concerns are, the greater their willingness to consume foods containing edible insects is. Attitudes and intentions towards purchasing foods containing edible insects were positively correlated with willingness to purchase and consume this type of food. The results obtained can contribute to efforts to promote the legitimacy of the production of new foods with edible insects in their composition.

Research Progress and Production Status of Edible Insects as Food in China.

Based on the background of the exacerbating food shortage in the world, it is particularly important to diversify food resources in every possible direction. Among the choices available, edible insects have become an important alternative source of animal food with their high nutritional and functional (pharmacological) values, partially replacing normally consumed animal and livestock protein food sources. The utilization of edible insects has been an ancient custom since the dawn of civilization, attributed to their rich nutrition, alternate protein source, medicinal values, and presence of diverse secondary metabolites and alkaloids. This review provides an introduction to three key aspects of edible insects as food: freshness, long-term preservation, and medicinal value. It also provides details on the food source and products of edible insect species, their detailed nutritional composition and medicinal values, and their potential in producing alternative protein sources. Additionally, the review also encompasses rearing and producing technologies, resource utilization, and industrial development in China. Simultaneously, the problems and challenges faced in the artificial rearing and production development of edible insects, the production advantages over traditional livestock, and the farming evaluation and prospects of edible insects, as well as the lack of specific legislation on edible insects in China, are discussed. This review will be helpful in scientific knowledge propagation regarding edible insects for the public, guiding consumers to establish a diverse perception of sustainable agriculture and food sources in the world that has, as yet, been thwarted by food insecurity. Moreover, though edible insects could potentially serve as part of a commercial and industrial agri-enterprise that could generate a huge income, artificial rearing technology and edible insect product manufacturing and processing have not received sufficient attention from the government on a policy level, thereby leaving an open space for extensive research on edible insects as an alternate food source as well as an examination of the industrial prospects of edible insect products.

Can Entomophagy be a Good Option for Nutrition and Food Security?

As the population increases, so does the demand for food and resources. Insects are rich in proteins, unsaturated fats and low in carbohydrates. They contain all the essential minerals and vitamins like iron, zinc, calcium, potassium, sodium, copper, riboflavin, biotin, and vitamin B9. Food and Agricultural Organization (FAO), estimated that the world need to increase its food production to feed a worldwide population of more than nine billion by the year 2050. Insects offer so much potential as an alternative food source to meet this need. More than two billion people including various ethnic communities around the world practice entomophagy and consume more than 2000 species of edible insects. Southeast Asian countries and African countries are one of the biggest consumers of edible insects. Due to its health and nutritional benefits, there is an increased demand and interest in European and American countries. Government policymakers, entrepreneurs, educationists, and chefs worldwide are exploring and promoting edible insects. Promoting novel insect-based food that is made of insects or insect ingredients such as insect flour, and insect protein powder could increase consumers and consumption. This review highlights insects as an alternative protein source for future food production. Insects like black soldier flies are used as insect feed for animals in poultry, pigs, and cows and are high in demand. Insects produce significantly less greenhouse gas emissions compared to other livestock. Edible insect farming and entomophagy present an important and sustainable opportunity for the future of food. This could also help generate employment for the rural women and youths as an alternate source of livelihood. Entomophagy has the potential to solve the world’s food hunger and at the same time save the environment.

Acceptance of Muffins (Sweet and Savory) with the Addition of T. molitor, A. diaperinus, A. domesticus, R. differens, Considering Psychological Factors (Food Neophobia Scale, Consumer Attitude).

The aim of the study was to analyze the acceptance of muffins containing a 15% addition of powder from four edible insect species (Alphitobius diaperinus, Tenebrio molitor, Acheta domesticus, Ruspolia differens) in both savory and sweet versions, focusing on the psychological factors influencing their consumption. The study involved 106 adult consumers. Initially, the level of food neophobia (FNS) among participants was determined. Over 80% displayed low to medium levels of neophobia. Similar results were obtained when assessing attitudes towards insects, with most participants showing positive and ambivalent attitudes. Based on these findings, the acceptance of insect-based muffins was evaluated. The level of acceptance of insects varied and depended mainly on taste, smell, and texture. Participants with lower levels of neophobia and positive attitudes towards consuming insects generally rated the insect muffins higher compared to those with higher levels of neophobia and negative attitudes. The sweet versions of insect powder muffins were rated higher, which also indicates preferences and dietary habits. Products with grasshopper powder (GS, GCL) were rated the lowest for both taste versions. Conversely, products based on buffalo worms (BS, BCL) were seen as having the greatest potential for acceptance. Understanding consumer attitudes, neophobia, and levels of acceptance provides valuable insights for designing new insect-based foods.

Entomophagy in Mexico: current trends and outlook

Abstract One-fifth of the edible insect species identified worldwide have been documented in Mexico. In states with an entomophagy tradition, insects have been incorporated into the local cuisine. Results show that the country has a wide diversity of climates and vegetation; thus, each state has its own set of edible insects. This narrative review aims to determine the current state of entomophagy in Mexico, divided into two segments: wild-collected insects, and farmed insect products, and to identify the current trends, both in research and in commercial products available. Wild-gathered insects are mostly purchased at local marketplaces, with prices varying widely, depending on the insect and the sales point. Increased demand for wild edible insects, and the loss of natural habitat, have put some insect species at risk of extinction. Since whole edible insects are wild-gathered and commercialised whole in traditional markets, there are currently no specific mandatory standards for food products containing insects as ingredients. Alongside traditional wild insect activities, there is a fledgling industry of farmed edible insect products which can be purchased online. In conclusion, while the wild-gathered edible insect market is well established, a farmed insect products market is developing, with manufacturers incorporating insect flour into food products where the insect element is inconspicuous, seeking to appeal to a wider range of consumers, yet most recent academic research focuses on wild edible insect species, with a near absence of research articles on the farmed insect species. The insect food product industry would benefit from a closer collaboration with the academic research sector. Furthermore, the lack of a specific regulation for manufacturing insect food products constitutes a disadvantage for firms seeking to export to countries with stricter regulations. Also, with the food safety concerns inherent in wild-gathered insect consumption, studies focusing on the sanitary aspects of entomophagy are insufficient.

Edible insects as a sustainable protein source: a meta-analysis

Abstract With the global population set to reach 9.7 billion by 2050, posing a potential 75% increase in food demand, this study examined the viability of edible insects as a sustainable protein source compared with beef. Employing a meta-analysis approach, data were synthesized from studies conducted over the past 13 years, using Hedges’ d effect size and mixed model methods. The parameter values included the nutritional, environmental, and economic aspects of edible insects. Out of 10,119 articles screened, 222 were selected for analysis, revealing 135 different species. Subsequently, 10 species were selected, based on the most comprehensive data available, for mixed model analysis. Although the protein content of these 10 edible insect species was generally lower than that of beef, certain species exhibited amino acid scores surpassing those of beef. Edible insects also exhibited significantly higher calcium, iron, and zinc content compared with beef. Environmental aspects may enhance the value of edible insects as they exhibited greater advantages compared with beef. Despite some identified risks in incorporating edible insects into the diets of humans and animals, there remain potential areas for further investigation and development, such as addressing fat content, indigestible carbohydrate, availability, and sustainability aspects. Further research is required to promote local edible insect products as nutritious food and feed.

The mitochondrial genome of an important edible insect species, the African palm weevil (Rhynchophorus phoenicis)

The African palm weevil (Rhynchophorus phoenicis) is a species of high economic importance in sub-Saharan Africa, both as a culturally traditional edible insect and as an agricultural pest. Here we provide a de novo assembly and annotation for the mitochondrial genome of this species from whole-genome sequence data. The mitogenome was AT-rich and 17,161bp in length, containing 13 protein-coding, 22 transfer RNA, and two ribosomal RNA genes. Phylogenetic reconstruction showed the African palm weevil to cluster within the genus Rhynchophorus and the weevil tribe Rhynchophorini. This mitogenome will be important for future genetic research into this emerging edible insect species.

The isolation and characterisation of protein from nine edible insect species.

The increasing global population and consumer demand for protein pose a serious challenge to the provision of protein-rich diets. Insect farming has been suggested to have a lower environmental impact than conventional animal husbandry which makes insect consumption a more sustainable solution to meet the growing world population's protein requirements. However, there is a reluctancy in the adoption of insect protein especially in the Western diets as whole insect consumption is often met with disgust and resentment. To mitigate against the feeling of disgust and resentment, there have been suggestion to include insects as an ingredient in product development. However, for this to be successfully carried out, the techno-functional properties of insect protein need to be characterised. Therefore, the aim of this study was to isolate and characterise proteins from nine edible insect species. Protein was isolated from nine edible insect species and characterised in terms of the protein content and molecular weight distribution. As crickets are the most common insect food source, the functional characterisation (foaming and emulsification) of protein extracted from house cricket (HC) supernatant protein (SP) was investigated in comparison to commercial whey protein (WP) and pea protein isolate (PPI). The protein content of the buffalo worms and yellow meal worms was significantly (P = 0.000) higher than other insect species such as wild black ants, queen leaf cutter ants, and flying termites. The molecular weight distribution of the nine edible insect species varied from ~ 5 to 250kDa. HC SP foaming capacity was fourfold and threefold higher than that of WP and PPI respectively. The emulsification potential of HC SP was 1.5 × higher than PPI. The HC protein extract shows promising potential for use in the food industry and represents a potential vehicle for the introduction of insect protein into the diet of societies that are not accustomed to eating insects.

Ethno-entomotherapeutic and metabolite profiling of Coridius chinensis (Dallas), a traditional edible insect species of North-East India

Edible insects possess several health enhancing properties and play an important role in human nutrition. Coridius chinensis is an edible insect that is considered food and claimed as traditional medicine. In the present study, nutritional contents, chemical composition, antioxidant, and anti-inflammatory properties of C. chinensis were analyzed. It was found that the insect sample contains 50.46% moisture, 44.65% protein, 4.45% carbohydrate, 39.42% crude fats, 3.53% ash and 576.11 (Kcal/100 g) energy. Our study highlighted the presence of a significant amount of phenol and flavonoids. The C. chinensis hydro-alcoholic extract showed high antioxidant property and anti-inflammatory activity. GCMS analysis identified 61 volatile compounds. LC–MS analysis of hydroalcoholic extract of C. chinensis revealed the presence of compounds such as etodolac glucuronide, morphine 3-glucuronide, ecgonine, ecgonine methyl ester, sufentanil, and palmitoyl ethanololamide. These findings suggest that C. chinensis species can be employed as a valuable food source with excellent therapeutic properties.

Understanding consumers attitude towards insects as food: Influence of insect species on liking, emotions, sensory perception and food pairing

Entomophagy studies mainly focused on insects as a generic category, rarely considering insect species. This study investigated the: i) affective response to specific edible insect species; ii) sensory properties characterizing the tested insects and their role in driving preferences and food paring. A sensory test (85 consumers, 56.5 % female, 19–73 years) was performed on seven dried whole edible insects at the adult (weaver ants, crickets, grasshoppers), larva (bamboo worms, morio worms, sago worms) and pupae stage (silkworms). For each species, consumers expressed their liking and, through three check-all-that-apply tests, described the perceived sensory properties, the perceived emotions, and their potential food pairings. Results showed a significant effect of the species on all variables. Bamboo worms, weaver ants and grasshoppers resulted the most accepted, followed by morio worms, crickets, and silkworms, while the sago worms were the most disliked. Numerous sensory attributes significantly discriminated among insect species and the drivers of liking and sensory attributes associated to the food pairings were identified. However, two clusters with different preferences and drivers of liking were observed. Moreover, a gender effect was found: i) males associated insects with emotions like calm and wild, while females with glad and pleased; ii) males and females would pair different foods with the insect species. In conclusion, this study provided new knowledge useful for researchers and food industry to develop future insect-based foods and dishes able to meet the expectations of different consumers segments.

112 In situ evaluation of multiple edible insects as feed for cattle

Abstract Livestock production is growing and intensifying in response to a growing population and associated food demands. Commercially reared insects have been positioned as a potential protein source for livestock due to their nutritional value and decreased environmental footprint as compared with conventional protein feeds. The American Association of Feed Officials (AAFCO) has issued a definition for black soldier fly larvae (BSFL) as feed for certain livestock but has not yet authorized feeding BSFL to ruminants. Further, AAFCO has not provided a feed definition for other edible insects [e.g., mealworm larvae (MWL)], likely due to a lack of research evaluating the value of insects as feed. The objective of this study was to evaluate edible insect species as feed for cattle by determining in situ characteristics of multiple commercially reared species. This research was approved by Texas State University IACUC (#8693). Samples (n = 14) included five insect species [i.e., black soldier fly larvae (BSFL)], mealworm larvae (MWL), house cricket, grasshopper, and banded cricket] that were commercially reared on different feed inputs and with various processing parameters and BSFL frass, which is insect excreta. There were 6 samples of BSFL, two of MWL, and three of house crickets. Three ruminally cannulated steers were used and provided ad libitum hay and water. A 6-d trial period was performed including a 3-d adaptation and 3-d experimental incubation period. Samples incubated in the rumen at 7 timepoints in reverse order (0, 4, 6, 12, 14, 48, and 72 h). After incubation, residues were analyzed for partial dry matter (PDM), dry matter (DM), and organic matter (OM). Dry matter and OM were separated into immediately soluble (IS), potentially soluble (PS), and not soluble (NS) fractions. For DM, the average NS fraction was 6.2% with a range from 3.0 to 10.4%. The sample with the greatest NS fraction was grasshopper. Across samples, the average PS fraction was 74.5% with a range from 69.3 to 79.1%. The sample with the smallest PS fraction was BSFL frass whereas the sample with the greatest was BSFL. Multiple samples had a DM degradability >85%. However, MWL and BSFL had fluctuating DM degradability across samples, likely due to variability among processing parameters. For OM fractionation, the average NS fraction was 5.7% with a range of 2.8 to 10.4%. Grasshopper had the greatest NS fraction. The average PS fraction was 74.9%; BSFL had the greatest PS fraction while frass had the least. Many samples had an OM degradability >85% and frass had the greatest degradability (90.0%). There was great variability in OM degradability across house cricket samples, likely related to rearing diet. These findings indicate that BSFL and MWL have potential value as feed for cattle but there would be challenges associated with feeding crickets.

The global atlas of edible insects: analysis of diversity and commonality contributing to food systems and sustainability

The future of the food system on the planet is increasingly facing uncertainties that are attributable to population growth and a surge in demand for nutritious food. Traditional agricultural practices are poised to place strain on production, as well as natural resources and ecosystem services provided, particularly under a changing climate. Given their remarkable attributes, including a low environmental footprint, high food conversion ratio, rapid growth and nutritional values, edible insects can play a vital role in the global food system. Nonetheless, substantial knowledge gaps persist regarding their diversity, global distribution, and shared characteristics across regions, potentially impeding effective scaling and access to edible insects. Therefore, we compiled and analysed the fragmented database on edible insects and identified potential drivers that elucidate insect consumption, globally, focusing on promoting a sustainable food system. We collated data from various sources, including the literature for a list of edible insect species, the Global Biodiversity Information Facility and iNaturalist for the geographical presence of edible insects, the Copernicus Land Service library for Global Land Cover, and FAOSTAT for population, income, and nutritional security parameters. Subsequently, we performed a series of analytics at the country, regional and continental levels. Our study identifies 2205 insect species, consumed across 128 countries globally. Among continents, Asia has the highest number of edible insects (932 species), followed by North America (mainly Mexico) and Africa. The countries with the highest consumption of insects are Mexico (450 species), Thailand (272 species), India (262 species), DRC (255 species), China (235 species), Brazil (140 species), Japan (123 species), and Cameroon (100 species). Our study also revealed some common and specific practices related to edible insect access and utilisation among countries and regions. Although insect consumption is often rooted in cultural practices, it exhibits correlations with land cover, the geographical presence of potentially edible insects, the size of a country’s population, and income levels. The practice of eating insects is linked to the culture of people in Africa, Asia, and Latin America, while increased consciousness and the need for food sustainability are driving most of the European countries to evaluate eating insects. Therefore, edible insects are becoming an increasingly significant part of the future of planetary food systems. Therefore, more proactive efforts are required to promote them for their effective contribution to achieving sustainable food production.

Proximate Analysis of Oecophylla smaragdina, an Edible Weaver Ant Consumed by Certain Tribes of Assam, India

In the field of entomophagy, the consumption of insects as a sustainable and nutrient-rich food source has gained increasing attention due to its environmental and nutritional benefits. There has been a growing curiosity and interest in the culinary world regarding insects as a source of food. Far from being a passing trend, the exploration of insect-based cuisine has opened up new dimensions in gastronomy. Among the edible insect species, Oecophylla smaragdina, known as the weaver ant, has emerged as a subject of fascination for its unique cultural significance, ecological relevance, and potential as a nutritional powerhouse. It is consumed by certain tribes of Assam during the primary spring festival in Assam. The study was done to determine the proximate analysis of Oecophylla smaragdina using standard methods. From the study, crude protein content was found to be highest amongst the proximate composition. Thus, this study provides valuable insights about the proximate composition of this insect. Moreover, it also adds another layer of importance as it is consumed during the primary spring festival in Assam, adding cultural significance to it.

Vitamin D fortification of selected edible insect species through UVB-treatment

Edible insects are attracting increased interest worldwide, because they are arguably more sustainable than more established animal foods. Apart from being rich in protein and minerals, they can also form vitamin D3 after treatment with UVB light (290–315 nm). However, only limited research, which has almost exclusively been conducted on living insects, reared under UVB lamps, has been done in this regard. As research on mushrooms has shown, that vitamin D formation is much more effective and less time consuming, when a previously sliced or ground product is treated with UVB light, it would likely be more practical to treat powdered insects with UVB light, rather than rearing them under UVB lamps. Therefore, the aim of this work was to confirm the presence of vitamin D3 in powdered UVB-treated yellow mealworms (Tenebrio molitor), migratory locusts (Locusta migratoria) and two-spotted crickets (Gryllus bimaculatus) as well as to subsequently quantify potential vitamin D content.Samples were analyzed via HPLC, and presence of vitamin D3 was verified via standard addition and spectrum analysis.UVB-treated migratory locusts and two-spotted crickets did not contain quantifiable amounts of vitamin D3. However, UVB-treated mealworms showed substantial amounts of vitamin D3 (8.95–18.24 µg/g dry matter). Thus, the UVB-treatment of powdered mealworm is an effective approach via which to enhance their vitamin D3 content and even modest serving sizes can supply the recommended daily intake of vitamin D.

Wheat Bread Enriched with House Cricket Powder (Acheta domesticus L.) as an Alternative Protein Source.

The house cricket (Acheta domesticus L.) is one of four edible insect species introduced to the EU market as a novel food and alternative protein source. Innovative products, such as cricket flour, are increasingly appearing on supermarket shelves and can offer an alternative to traditional cereals, while providing the body with many valuable nutrients of comparable quality to those found in meat and fish. The aim of this study was to investigate the possibility of using cricket powder as a substitute for wheat flour in the production of bread. The physicochemical properties of cricket powder were evaluated in comparison to wheat flour. As a result of technological studies, bread compositions with 5%, 10% and 15% replacements of wheat flour by cricket powder were designed and their quality characteristics (physicochemical, sensory and microbiological) were evaluated. Cricket powder was characterised by a higher protein (63% vs. 13.5%) and fat (16.3% vs. 1.16%) content and a lower carbohydrate (9.8% vs. 66%) and fibre (7.8% vs. 9.5%) content as compared to wheat flour. The tested preparations had a similar pH (6.9 and 6.8, respectively, for cricket powder and flour) and fat absorption capacity (0.14 vs. 0.27 g oil/g powder, respectively, for cricket powder and flour) but different water holding capacities and completely different colour parameters. All breads had good microbiological quality after baking and during 7 days of storage. In instrumental tests, the 10 and 15% replacements of wheat flour by cricket powder affected the darker colour of the breads and caused a significant increase in the hardness of the breads. The research has shown that the optimal level of replacement, which does not significantly affect the physiochemical and sensory characteristics, is 5% cricket powder in the bread recipe. Considering the results obtained and the fact that insects provide a sufficient supply of energy and protein in the human diet, are a source of fibre, vitamins and micronutrients, and have a high content of monounsaturated and polyunsaturated fatty acids, the suitability of cricket powder for protein enrichment of bakery products is confirmed.

Edible dragonflies and damselflies (order Odonata) as human food – A comprehensive review

Abstract The rapid growth of the human population leads to a big concern about the food y and demand worldwide. However, due to the reduction in global arable land area, humans need to find alternative food sources to fulfil their needs. Consequently, edible insects have been identified as a promising solution to ameliorate food security and increase global nutrition. Among more than 2,100 identified edible insect species, dragonflies and damselflies (order Odonata) are considered as one of nutritious food resources. Nevertheless, detailed information on the frequency and distribution of consumption of odonatans around the world is scattered and poorly documented. Based on this review, at least 61 out of 1,964 species of odonatans were reported consumed by people worldwide. The most consumed dragonflies (suborder Epiprocta; infraorder Anisoptera) are from the family of Libellulidae, followed by Aeshnidae and Gomphidae, whereas the most consumed edible damselflies (suborder Zygoptera) are from the Coenagrionidae family. Many nutrients, including proteins, lipids, energy, fibre, vitamins, and minerals are abundant in edible odonatans. Moreover, studies reported that humans employed these insects as therapeutic agents to remedy various ailments. Challenges associated with the consumption of edible odonatans include safety concerns, legal frameworks, and limited information on their bioecology which become barrier for their successful mass-rearing. However, because entomophagy is gradually gaining recognition, new and more improved methods of rearing are now being developed including for edible odonatans, encouraging sustainable insect farming. As the world strives to achieve the sustainable development goals, insect farming will pave a way for resources to be utilised for sustainable economic development.