An Insight into the Level of Information about Sustainability of Edible Insects in a Traditionally Non-Insect-Eating Country: Exploratory Study

Insects have been reported as a possible alternative solution to help feed the growing world population with less stress on the planet, thus contributing to the preservation of the environment and natural ecosystems. However, the consumption of edible insects (EIs), although culturally accepted for some communities, is not readily accepted for others. Hence this work explores the level of information that people in a traditionally non-insect-eating country have about the sustainability issues related with EIs, and also some possible reasons that could motivate their consumption. The study was based on a questionnaire survey and the results were explored by descriptive statistic tools, tree classification analysis, factor analysis and cluster analysis. The results showed that the level of information is still low in general, with most people not manifesting an opinion. However, some aspects are relatively familiar to the participants (88.9% know that the ecological footprint of insects is smaller than other meats and 86.9% know that they efficiently convert organic matter into protein). Factor and cluster analysis showed three classes: cluster 1—people not informed about the facts disclosed through the true statements and also not able to distinguish the false information; cluster 2—people not informed about the facts disclosed through the true statements but who were able to distinguish the false information; and cluster 3—people well informed about the facts disclosed through the true statements but who were marginally unable to distinguish the false information. It was also found that education, sex and professional area are the most relevant sociodemographic factors associated with the level of information, and the highest motivations to consume EIs are their contribution to preserve the environment and natural resources followed by being a more sustainable option (for 64.7% and 53.4% of participants, respectively). Hence it was concluded that, although some work still needs to be done to better inform people about EIs, there is already some conscientiousness that they constitute a good and more sustainable alternative to other types of meat.

[1]  A. Trichopoulou Mediterranean diet as intangible heritage of humanity: 10 years on. , 2021, Nutrition, metabolism, and cardiovascular diseases : NMCD.

[2]  M. Haque,et al.  Emission factors and global warming potential as influenced by fertilizer management for the cultivation of rice under varied growing seasons. , 2021, Environmental research.

[3]  Roberto H. Ordoñez-Araque,et al.  Edible insects: A food alternative for the sustainable development of the planet , 2021, International Journal of Gastronomy and Food Science.

[4]  R. Guiné,et al.  Edible Insects: Preliminary Study about Perceptions, Attitudes, and Knowledge on a Sample of Portuguese Citizens , 2021, Foods.

[5]  R. Guiné,et al.  Environmental Issues as Drivers for Food Choice: Study from a Multinational Framework , 2021, Sustainability.

[6]  R. Guiné,et al.  Factors affecting eating habits and knowledge of edible flowers in different countries , 2021 .

[7]  R. Guiné,et al.  The role of edible insects to mitigate challenges for sustainability , 2021 .

[8]  Céline Gallen,et al.  Familiarisation et diffusion de l’entomophagie en France , 2021, Innovations.

[9]  C. Chidewe,et al.  Phytochemical and anti-nutrient composite from selected marginalized Zimbabwean edible insects and vegetables , 2020 .

[10]  R. Agarwal,et al.  Collaborative innovation and sustainability in the food supply chain- evidence from farmer producer organisations , 2020 .

[11]  J. Mishra,et al.  Reducing food waste and food insecurity in the UK: The architecture of surplus food distribution supply chain in addressing the sustainable development goals (Goal 2 and Goal 12.3) at a city level , 2020, Industrial Marketing Management.

[12]  J. Dupont,et al.  Attitudes and acceptance of young people toward the consumption of insects and cultured meat in Germany , 2020 .

[13]  O. Anjos,et al.  The Link between the Consumer and the Innovations in Food Product Development , 2020, Foods.

[14]  O. Anjos,et al.  Edible Flowers, Old Tradition or New Gastronomic Trend: A First Look at Consumption in Portugal versus Costa Rica , 2020, Foods.

[15]  A. Baiano Edible insects: An overview on nutritional characteristics, safety, farming, production technologies, regulatory framework, and socio-economic and ethical implications , 2020, Trends in Food Science & Technology.

[16]  R. Gahukar Edible insects collected from forests for family livelihood and wellness of rural communities: A review , 2020 .

[17]  Tiago G. Morais,et al.  Food systems in a zero-deforestation world: Dietary change is more important than intensification for climate targets in 2050. , 2020, The Science of the total environment.

[18]  Dario Caro,et al.  Different characteristics of greenhouse gases and ammonia emissions from conventional stored dairy cattle and swine manure in China. , 2020, The Science of the total environment.

[19]  A. Huis,et al.  Insects as food and feed, a new emerging agricultural sector: a review , 2020 .

[20]  C. Lorini,et al.  Insects as food: A review on risks assessments of Tenebrionidae and Gryllidae in relation to a first machines and plants development , 2020, Food Control.

[21]  S. Stranieri,et al.  Eating edible insects as sustainable food? Exploring the determinants of consumer acceptance in Germany. , 2019, Food research international.

[22]  M. Niva,et al.  Insect Consumption Attitudes among Vegans, Non-Vegan Vegetarians, and Omnivores , 2019, Nutrients.

[23]  J. Ribeiro,et al.  Sensory and Consumer Perspectives on Edible Insects , 2019, Edible Insects in the Food Sector.

[24]  C. Runyan,et al.  Land Use Change, Deforestation and Competition for Land Due to Food Production , 2019, Encyclopedia of Food Security and Sustainability.

[25]  Guenter H Schamel,et al.  Between food delicacies and food taboos: A structural equation model to assess Western students' acceptance of Amazonian insect food. , 2019, Food research international.

[26]  K. Grunert,et al.  Understanding Westerners’ disgust for the eating of insects: The role of food neophobia and implicit associations , 2018 .

[27]  L. Sipos,et al.  Readiness to adopt insects in Hungary: A case study , 2017 .

[28]  Christina Hartmann,et al.  Consumer perception and behaviour regarding sustainable protein consumption: A systematic review , 2017 .

[29]  J. House Consumer acceptance of insect-based foods in the Netherlands: Academic and commercial implications , 2016, Appetite.

[30]  L. Kouřimská,et al.  Nutritional and sensory quality of edible insects , 2016 .

[31]  S. Bruun,et al.  Life cycle assessment of edible insects for food protein: a review , 2016, Agronomy for Sustainable Development.

[32]  E. Haubruge,et al.  Consumer acceptance of insect-based alternative meat products in Western countries , 2016 .

[33]  N. Lacetera,et al.  Consumer approach to insects as food: barriers and potential for consumption in Italy , 2016 .

[34]  José Pedro Silva PORDATA- base de dados Portugal contemporâneo , 2015 .

[35]  K. Dujardin,et al.  Factor analysis of the Hamilton Depression Rating Scale in Parkinson's disease. , 2015, Parkinsonism & related disorders.

[36]  W. Verbeke Profiling consumers who are ready to adopt insects as a meat substitute in a Western society , 2015 .

[37]  P. Varela,et al.  Adoption of insects as a source for food and feed production : a cross-cultural study on determinants of acceptance , 2015 .

[38]  Knowledge about food classification systems and value attributes provides insight for understanding complementary food choices in Mexican working mothers , 2014, Appetite.

[39]  J. Bruwer,et al.  Exploring consumer motivations towards buying local fresh food products: A means-end chain approach , 2014 .

[40]  L P A Steenbekkers,et al.  Exploring Consumer Acceptance of Entomophagy: A Survey and Experiment in Australia and the Netherlands , 2014, Ecology of food and nutrition.

[41]  K. Feeley,et al.  Livestock: limit red meat consumption. , 2014, Nature.

[42]  J. Ball Edible insects: future prospects for food and feed security , 2014 .

[43]  J. Marôco,et al.  Qual a fiabilidade do alfa de Cronbach? Questões antigas e soluções modernas? , 2013 .

[44]  A. van Huis Potential of insects as food and feed in assuring food security. , 2013, Annual review of entomology.

[45]  A. van Huis,et al.  Edible insects: future prospects for food and feed security , 2013 .

[46]  Joop de Boer,et al.  Can we cut out the meat of the dish? Constructing consumer-oriented pathways towards meat substitution , 2012, Appetite.

[47]  S. Srivastava,et al.  Traditional insect bioprospecting - As human food and medicine , 2009 .

[48]  Rolph E. Anderson,et al.  Multivariate Data Analysis (7th ed. , 2009 .

[49]  David R. Lee,et al.  Climate Change: Impact on Agriculture and Costs of Adaptation , 2009 .

[50]  S. Simpson,et al.  Dietary protein-quality influences melanization and immune function in an insect. , 2008 .

[51]  J. Ramos-Elorduy Energy Supplied by Edible Insects from Mexico and their Nutritional and Ecological Importance , 2008 .

[52]  J. Powles,et al.  Food, livestock production, energy, climate change, and health , 2007, The Lancet.

[53]  Xianggui Qu,et al.  Multivariate Data Analysis , 2007, Technometrics.

[54]  Masahiro Nakamura,et al.  Latitudinal and Altitudinal Patterns in Species Richness and Mortality Factors of the Galling Sawflies on Salix Species in Japan , 2006 .

[55]  P. Pliner,et al.  Human food choices: An examination of the factors underlying acceptance/rejection of novel and familiar animal and nonanimal foods , 2005, Appetite.

[56]  David M. Levine,et al.  Estatística: Teoria e Aplicações - Usando Microsoft Excel Português , 2005 .

[57]  M. Paoletti,et al.  Insects in the human diet: nutritional aspects. , 2005 .

[58]  R. Gonzalez Applied Multivariate Statistics for the Social Sciences , 2003 .

[59]  Robert A Frank,et al.  Validation and cross-national comparison of the food neophobia scale (FNS) using confirmatory factor analysis , 2003, Appetite.

[60]  V. Smil Eating Meat: Evolution, Patterns, and Consequences , 2002 .

[61]  Sara Dolnicar,et al.  A Review of Data-Driven Market Segmentation in Tourism , 2002 .

[62]  Y. Nishiwaki,et al.  Development and validation of the Cancer Dyspnoea Scale: a multidimensional, brief, self-rating scale , 2000, British Journal of Cancer.

[63]  A. Winsor Sampling techniques. , 2000, Nursing times.

[64]  J. Stevens,et al.  Applied Multivariate Statistics for the Social Sciences , 1993 .