Abstract

Pastaza is the largest and least populated province in Ecuador, with seven native indigenous nationalities. The Kichwas from the Rio Chico community live near to the capital city Puyo, are recognized for their knowledge on stingless honey bees. From the 400 species of Neotropical Meliponini that make honey in cerumen pots, almost 100 thrive in Southern Ecuador, and confer such biodiversity to pot-honey. In this study sensory characteristics of Ecuadorian false and genuine honeys with diverse entomological origin: Apis mellifera – light amber and amber, Geotrigona leucogastra, Melipona grandis and Scaptotrigona sp. (S. ederi np Schwarz) were investigated with Kichwa assessors (four female and four male, aged 18–62 years old). The panel was asked to taste and to identify sensory attributes of honey (appearance, taste, smell, aroma, mouthfeel, other tactile sensations), and to score their intensities in 10 cm unstructured line scales anchored with the words weak and strong, using the Free-Choice Profile methodology The Generalized Procrustes Analysis was used on the data. The first and second dimensions accounted for by 61.1% of the variance. In the descriptive sensory evaluation, darker honeys (amber A. mellifera, false and Geotrigona) were separated from (light amber A. mellifera, Melipona and Scaptotrigona) by the first dimension; whereas thicker honeys (A. mellifera and false) were discriminated from thinner honeys (Geotrigona, Melipona and Scaptotrigona) by the second dimension. The assessors were able to evaluate and differentiate honey types without previous sensory training. Remarkably, two Kichwa ladies immediately spit out the false honey, in contrast to an acceptance study on 18-honeys, where the false honey was scored among the preferred ones by 58 participants of the First Congress on Apiculture and Meliponiculture in Ecuador. Therefore, results suggest that Ecuadorian native Kichwas keep a sensory legacy of ancestral knowledge with forest products such as honey.

Keywords:
Apis mellifera; Kichwa; Ecuador; Honey; Free-Choice Profile; Meliponini

Introduction

Ecuadorian indigenous population keeps a legacy of a vast Precolumbian entomological knowledge, present in their mythology, art, gastronomy (Barragán et al., 2009Barragán, A.R., Dangles, O., Cárdenas, R.E., Onore, G., 2009. The history of entomology in Ecuador. Ann. Soc. Entomol. Fr. 45, 410-423.) and medicine. In particular, the stingless bee Melipona beecheii was considered a reincarnation of divine forces by the Mayas, and still today this Melipona bee is known with the goddess name Xunan kab, from maya "Xunan" principal lady and "kab" honey (Ocampo Rosales, 2013Ocampo Rosales, G.R., 2013. Medicinal uses of Melipona beecheii honey, by the ancient Maya. In: Vit, P., Pedro, S.R.M., Roubik, D.W. (Eds.), Pot-Honey. A Legacy of Stingless Bees. Springer, New York, USA, pp. 229–240.).

Forest experiences of meliponiculture or honey hunting are reported in the Amazon forest with Kayapó (Posey and Camargo, 1985Posey, D.A., Camargo, J.M.F., 1985. Additional notes on the classification and knowledge of stingless bees (Meliponinae, Apidae, Hymenoptera) by the Kayapó Indians of Gorotire, Pará, Brazil. Ann. Carnegie Mus. 54, 247-274.; Camargo and Posey, 1990Camargo, J.M.F., Posey, D.A., 1990. O conhecimento dos Kayapó sobre as abelhas sociais sem ferrão (Meliponidae, Apidae, Hymenoptera): notas adicionais. Bol. Mus. Para. Emílio Goeldi sér Zool. 6, 17-42.) and Pankararé (Costa-Neto, 2002Costa-Neto, E.M., 2002. The use of insects in folk medicine in the State of Bahia, Northeastern Brazil, with notes on insects reported elsewhere in Brazilian folk medicine. Hum. Ecol. 30, 245-263.) in Brazil, and Huottuja in Venezuela.

Pollination is the greatest service of the bees for the environment, and the benefits of pollination for agriculture are more profitable than the honey and pollen harvested (López-Palacios, 1986López-Palacios, S., 1986. Catálogo para una Flora Apícola Venezolana. Consejo de Desarrollo Científico y Humanístico, Universidad de Los Andes, Mérida, Venezuela.; Heard, 1999Heard, T., 1999. The role of stingless bees in crop pollination. Ann. Rev. Entomol. 44, 183-206.; Cruz et al., 2005Cruz, D.O., Freitas, B.M., Silva, L.A., Sarmento Silva, E.M., Bomfim, I.G.A., 2005. Pollination efficiency of the stingless bee Melipona subnitida on greenhouse sweet pepper. Pesq. Agropec. Bras. 40, 1197-1201.). Pot-honey (Guerrini et al., 2009Guerrini, A., Bruni, R., Maietti, S., Poli, F., Rossi, D., Paganetto, G., Muzzoli, M., Scalvenzi, L., Sacchetti, G., 2009. Ecuadorian stingless bee (Meliponinae) honey: a chemical and functional profile of an ancient health product. Food Chem. 114, 1413-1420.), pot-pollen (Cruz et al., 2005Cruz, D.O., Freitas, B.M., Silva, L.A., Sarmento Silva, E.M., Bomfim, I.G.A., 2005. Pollination efficiency of the stingless bee Melipona subnitida on greenhouse sweet pepper. Pesq. Agropec. Bras. 40, 1197-1201.) and propolis (Campos et al., 2014Campos, J.F., dos Santos, U.P., Macorini, L.F., de Melo, A.M., Balestieri, J.B., Paredes-Gamero, E.J., Cardoso, C.A., de Picoli Souza, K., dos Santos, E.L., 2014. Antimicrobial, antioxidant and cytotoxic activities of propolis from Melipona orbignyi (Hymenoptera, Apidae). Food Chem. Toxicol. 65, 374-380.) produced by Meliponini are studied with increasing interest by international scientific teams. The interactions of Meliponini with microrganisms (Morais et al., 2013Morais, P.B., São Thiago Calac¸ a, P.S., Rosa, C.A., 2013. Microorganisms associated with stingless bees. In: Vit, P., Pedro, S.R.M., Roubik, D.W. (Eds.), Pot-Honey. A Legacy of Stingless Bees. Springer, New York, USA, pp. 173–186.), besides the vegetal–animal nature of this medicinal food, originates active principles with medicinal properties attributed to traditional healing, awaiting for scientific demonstration.

The study of pot-honey requires the discipline to refer the bees producing honey in a collection, identified by an entomologist. The great Neotropical biodiversity has been carefully reviewed by Camargo and Pedro (2007)Camargo, J.M.F., Pedro, S.R.M., 2007. Meliponini Lepeletier, 1836. In: Moure, J.S., Urban, D., Melo, G.A.R. (Eds.), Catalogue of Bees (Hymenoptera, Apoidea) in the Neotropical Region. Sociedade Brasileira de Entomologia, Curitiba, Brazil, pp. 272–578., reporting 391 species-group of Meliponini, up to 417 valid species (Camargo and Pedro, 2013Camargo, J.M.F., Pedro, S.R.M., 2013. Meliponini Lepeletier, 1836. In: Moure, J.S., Urban, D., Melo, G.A.R. (Eds.), Catalogue of Bees (Hymenoptera, Apoidea) in the Neotropical Region. Sociedade Brasileira de Entomologia, Curitiba, Brazil, Available at: www.moure.cria.org.br/catalogue.
www.moure.cria.org.br/catalogue... ). Ramírez et al. (2013)Ramírez, J.A., Ureña, J., Camacho, A., 2013. Las abejas sin aguijón de la Región Sur del Ecuador. Consejo Nacional de Educación Superior, Loja, Ecuador. inform 89 species of stingless bees in the Southern region No. 7 of Ecuador that comprises three provinces: El Oro, Loja and Zamora Chinchipe.

Honeys produced in pots by Meliponini have been appreciated for their tropical features (Schwarz, 1948Schwarz, H.F., 1948. Stingless bees (Meliponidae) of the western hemisphere. Bull. Am. Mus. Nat. Hist. 90, .). Pot-honeys are more sour and thinner than honeys produced in combs by Apis mellifera (Gonnet and Vache, 1984Gonnet, M., Vache, G., 1984. L’Analisi Sensoriale dei Mieli. Come degustare e individuare le qualitá organolettiche di un miele. Federazione Apicoltori Italiani, Roma, Italia.) – where fermentation is considered a defect – and vary much more due to the enormous entomological biodiversity. Vit et al. (2011)Vit, P., Deliza, R., Pérez, A., 2011. How a Huottuja (Piaroa) community perceives genuine and false honey from the Venezuelan Amazon, by free-choice profile sensory method. Rev. Bras. Farmacogn. 21, 786-792. initiated a research on perceptions of honey types by Huottuja from the Amazone forest in Venezuela. Pastaza is the largest and least populated province in Ecuadorian Amazone, with seven native indigenous nationalities. The Kichwas from the Rio Chico community live near to the capital city Puyo, and were chosen to take part in this study for their knowledge on stingless honey bees. From the nearly 400 species of Neotropical Meliponini (Camargo and Pedro, 2007Camargo, J.M.F., Pedro, S.R.M., 2007. Meliponini Lepeletier, 1836. In: Moure, J.S., Urban, D., Melo, G.A.R. (Eds.), Catalogue of Bees (Hymenoptera, Apoidea) in the Neotropical Region. Sociedade Brasileira de Entomologia, Curitiba, Brazil, pp. 272–578.), that make honey in cerumen pots, almost 100 thrive in Southern Ecuador (Ramírez et al., 2013Ramírez, J.A., Ureña, J., Camacho, A., 2013. Las abejas sin aguijón de la Región Sur del Ecuador. Consejo Nacional de Educación Superior, Loja, Ecuador.), and confer such biodiversity to pot-honey. However, Precolumbian pot-honeys are not regulated (Vit, 2008Vit, P., 2008. La miel precolombina de abejas sin aguijón (Meliponini) aún no tiene normas de calidad. Rev. Bol. Cen. Invest. Biol. 42, 415-423.), and only the honey produced by A. mellifera is included in the Ecuadorian Honey Norm (NTE INEN, 1988NTE INEN, 1988. Norma Técnica Ecuatoriana Obligatoria. Miel de Abejas, Requisitos. Norma Técnica Ecuatoriana, Instituto Ecuatoriano de Normalización NTE INEN 1572, Quito, Ecuador, pp. 1–4.). A paradox between keeping gentle bees to protect forest (Vit, 2000Vit, P., 2000. Una idea para valorizar la meliponicultura latinoamericana. Tacayá 10, 3-6.) and protecting Meliponini from conspicuous population decrease (Villanueva-Gutiérrez et al., 2013Villanueva-Gutiérrez, R., Roubik, D.W., Colli-Ucán, W., Güemez-Ricalde, F.J., Buchmann, S.L., 2013. A critical view of colony losses in managed Mayan honey-making bees (Apidae: Meliponini) in the heart of Zona Maya. J. Kansas Entomol. Soc. 86, 352-362.).

This study aimed at characterizing false and genuine Ecuadorian honeys with diverse entomological origin (A. mellifera – light amber and amber, Geotrigona leucogastra, Melipona grandis and Scaptotrigona sp.) in terms of their sensory characteristics using Kichwa assessors.

Materials and methods

Stingless bees

Entomological samples of the stingless bees were collected in alcohol, dried and sent for entomological identification to the Biology Department at the Universidade de São Paulo in Ribeirão Preto, Brazil (Vouchers No. 17044-17046 RPSP and 171037-171045 RPSP in the Camargo Collection RPSP, housed at the Universidade de São Paulo, Ribeirão Preto, Brazil), and the Department of Chemical and Biological Science at Universidad de Las Américas Puebla in Mexico (Vouchers No. 0238-UPSE and 0239-UPSE deposited in the Entomological Collection at Universidad Estatal Península de Santa Elena, Ecuador) (see Table 1).

Honey

Six Ecuadorian honey samples were purchased at the local markets (light amber and amber A. mellifera honey named as "abeja", and one fake honey) or harvested from stingless bee nests, named as "abeja de tierra", "bunga negra" and "catiana", which are the ethnic names given to G. leucogastra, M. grandis and Scaptotrigona sp. Honey, respectively. The six honey samples are described in Table 1.

Assessors

A group of eight honey consumers, four females and four males, aged between 18 and 62 years old, from a native Kichwa community located in Rio Chico, Pastaza province, Ecuador, took part in this study. They were selected based on their knowledge on stingless bees, nutritional and medicinal interest on honey, commitment and availability for the sensory test. None of the assessors had previous experience with sensory analysis, but all were familiar with Ecuadorian pot honey from Pastaza province. Their sense of smell was not altered by smoking, allergies, flues, or insomnia. The first, second and third sessions took place in the morning, 2–3 h after breakfast. Their participation was voluntary.

Sensory evaluation

Three sensory sessions were performed after an informed consent form was filled for the sensory test. The Free-Choice Profile methodology (Williams and Langron, 1984Williams, A.A., Langron, S.P., 1984. The use of free choice profiling for evaluation of commercial ports. J. Sci. Food Agric. 35, 558-568.) was used in this study.

In the first session, the Free-Choice Profile procedure was explained and then the sensory characteristics were elicited by participants. They were asked to list honey's sensory attributes using their own words to describe the appearance (color and visual consistency), odor, flavor (aroma and taste) and other sensations in their mouth and throat. Instructions were given to prevent comparative and hedonic terms. Each of the six honeys showed in Table 1 were presented in capped plastic bottles coded with three-digit numbers, in a daylight illuminated room, and participants were asked to list the sensory characteristics they perceived after tasting each honey. Appearance was evaluated first, then the odor, and finally half spoon of honey was taken to evaluate taste, aroma, mouth feel and any other sensation. Mineral water was served to rinse the mouth between honey samples, to reset the palate.

For the second and third sessions, individual score cards were prepared based on the attributes they elicited during the first session to evaluate the intensities of each sensory attribute. The honey samples were monadically evaluated by using unstructured 10 cm line scales anchored with the words "weak" or "absent" at the left end, and "strong" at the right end. Each assessor crossed the intensity on the line scale in the position that best described his/her perception. Help was individually provided during the test to facilitate the evaluation process without any induction.

Statistical analysis

The Generalized Procrustes Analysis was used on the Free-Choice Profile data, to generate an optimized consensus matrix by mathematical transformations, to reach a minimal overall deviation, which was able to summarize the information about the samples, and replace the panel mean (Williams and Langron, 1984Williams, A.A., Langron, S.P., 1984. The use of free choice profiling for evaluation of commercial ports. J. Sci. Food Agric. 35, 558-568.). Correlations between the sample score of each sensory attribute and the corresponding sample score principal component, allowed the selection of the important attributes.

Results and discussion

Stingless bee identification

M. grandis Guérin, 1834 and G. leucogastra (Cockerell 1914) were the two stingless bees identified in this research. The bee named Scaptotrigona sp. was identified as Scaptotrigona ederi (Schwarz, unpublished). However due to the fact that this species was recognized by Schwarz, but never described and published, the name must not be used, following the recommendations of the International Code of Zoological Nomenclature. See Table 1 with the ethnic name of these bees.

Elicited sensory attributes

A list of 28 terms was elicited by participants in the first session. The number of attributes varied among assessors. Ferreira et al. (2009)Ferreira, E.L., Lencioni, C., Benassi, M.T., Barth, M.O., Bastos, D.H.M., 2009. Descriptive sensory analysis and acceptance of stingless bee honey. Food Sci. Technol. Int. 15, 251-258. pointed out that the vocabulary developed to describe stingless bee honey by Free-Choice Profile, was similar to descriptors of appearance, odor, flavor, and trigeminal sensations used to describe A. mellifera honey by Quantitative Descriptive Analysis (Vit, 1993Vit, P., 1993. Miel de Abejas. Mérida: Consejo de Publicaciones. Universidad de Los Andes, Mérida, Venezuela.; Anupama et al., 2003Anupama, D., Bhat, K.K., Sapna, V.K., 2003. Sensory and physicochemical properties of commercial samples of honey. Food Res. Int. 36, 183-191.; Persano Oddo and Piro, 2004Persano Oddo, L., Piro, R., 2004. Main European unifloral honeys: descriptive sheets. Apidologie 35, S38-S81.; Galán-Soldevilla et al., 2005Galán-Soldevilla, H., Ruíz-Pérez-Cacho, M.P., Serrano Jiménez, S., Jodral Villarejo, M., Bentabol Manzanarez, A., 2005. Development of a preliminary sensory lexicon for floral honeys. Food Qual. Prefer. 16, 71-77.).

Honeys

The first and second dimensions accounted for by 61.1% of the variance. It is possible to see that darker honeys (amber A. mellifera, false and Geotrigona) were separated from lighter colored by the first dimension; whereas thicker honeys (light amber A. mellifera, amber A. mellifera and fake) were discriminated from thinner honeys (Geotrigona, Melipona and Scaptotrigona) by the second dimension in Fig. 1.

The consensus configuration of the six Ecuadorian honeys in Fig. 1, shows the position of the samples and their sensory attributes. The first dimension explained 35.29% of the variance, and separated darker honeys (amber A. mellifera, fake, and Geotrigona) to the left, from lighter honeys (light amber A. mellifera, Melipona and Scaptotrigona). The second dimension explained 25.8% of the variability, and separated thicker genuine light amber A. mellifera and amber A. mellifera, and fake honey in the top, from the thinner pot honey samples (Scaptotrigona, Melipona, Geotrigona) in the bottom.

False honey was described by the following attributes: vomit, peppermint, caramel, bitter, artificial. Assessors used the terms caramel, fermented, sweet, when evaluating amber A. mellifera. The light amber A. mellifera was perceived as floral, fruity, sunflower, fresh fruit, sour throat, yellow, honey. The Melipona and the Scaptotrigona were described as resin, fermented, medicinal, sugar cane, liquid honeys. The Geotrigona honey was characterized as brown, numb, sour, floral, fruity, sweet, fermented, liquid.

Assessors

The Kichwa assessors were able to describe and to differentiate honey types without previous sensory training. Remarkably, two Kichwa ladies immediately spit out the false honey, in contrast to an acceptance study on 18-honeys, where the false honey was scored among the three most liked honeys by 58 participants of the First Congress on Apiculture and Meliponiculture in Ecuador (Vit et al., 2015Vit, P., Isitua, C., Deliza, R., 2015. Sensory evaluation of Ecuadorian honeys in a bee congress. FHTT from hive to table 2015. In: International Congress on Safety and Authenticity of Bee Products, 21–22 May, Istanbul, Turkey.). Therefore, results of the perceptions of the eight assessors suggest that Ecuadorian native Kichwas keep a sensory legacy of ancestral knowledge, and are more familiar with natural products.

Conclusions

The sensory profiling method used in the study demonstrated to be adequate to describe the samples of false and genuine honeys. They differed in their sensory attributes, which were identified by the assessors, despite their lack of familiarity with the task. However, the Kichwas consumers were familiar with the honeys and this characteristic allowed them to use specific terms to describe and differentiate the honeys. Practical implications of this study can be suggested, and one of them refers to the Codex.

The Codex Alimentarius Commission could benefit from the results of this research on native Kichwas from Ecuador using current words to recognize sensory differences and similarities between fake and genuine honey produced by A. mellifera and Meliponini. Besides the chemical standards for honey, key sensory attributes play a role as an analytical support to confirm its entomological origin and authenticity.

Ethical disclosures

Protection of human and animal subjects

The authors declare that no experiments were performed on humans or animals for this investigation.

Confidentiality of data

The authors declare that no patient data appears in this article.

Right to privacy and informed consent

The authors declare that no patient data appears in this article.

Acknowledgements

To Prometeo-Senescyt for the scholarship given to Professor Patricia Vit (2014–2015). To Consejo de Desarrollo Científico, Humanístico, Tecnológico y Artístico at Universidad de Los Andes for the support to attend the 11th Pangborn Sensory Science Symposium in Gotteborg, Sweden, 23–27 August 2015, SE-FA-01-2015 where these results were presented. To Mr. Guillermo Feijóo from Moromoro, El Oro Province for the "catiana" pot-honey, and to Mr. Henry Morales from Puyo, Pastaza Province for the "bunga negra" pot-honey. To the Kichwa Community in Rio Chico, Pastaza Province for their receptive attitude and interest to participate in this sensory research. To Schullo Products for the payment of BJP processing fees.

References

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