Análisis polínico del propóleo rojo de la zona insular de San Andrés, Colombia

Salamanca Grosso, Guillermo; Osorio Tangarife, Mónica P.

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dc.contributor.author	Salamanca Grosso, Guillermo	-
dc.contributor.author	Osorio Tangarife, Mónica P.	-
dc.date.accessioned	2021-12-09T23:55:48Z	-
dc.date.available	2021-12-09T23:55:48Z	-
dc.date.issued	2019-12-20	-
dc.identifier.uri	https://repositorio.accefyn.org.co/handle/001/1174	-
dc.description.abstract	La diversidad de las especies vegetales en los ecosistemas es fundamental para la preservación de las especies de polinizadores y, especialmente, de las abejas, porque dependen directamente del suministro de polen y néctar. El espectro polínico de propóleos es un indicador de la vegetación en zonas biogeográficas determinadas y evidencia, de alguna manera, la relación entre plantas e insectos en la búsqueda de recursos para el sustento de las colonias de abejas. Se evaluaron cinco muestras de propóleo rojo recolectadas en la zona insular de San Andrés, Colombia, para determinar la frecuencia y los tipos polínicos presentes. Las muestras se sometieron a operaciones de separación y concentración y, posteriormente se trató el sedimento mediante acetólisis. Se pudieron reconocer 46 tipos polínicos en 29 familias botánicas, con predominio de Cyperus haematodes, Avicennia germinans, Conocarpus erectus, Dalbergia brownei, Laguncularia racemosa, Rhizophora mangle, Sesuvium portulacastrum, Cocos nucifera y Spondias mombin, y otros tipos menos importantes como Morinda citrifolia, según sus frecuencias polínicas. Las familias con mayor número de tipos polínicos fueron Acanthaceae, Aizoaceae, Arecaceae, Combretaceae y Rhizophoraceae. Estos resultados constituyen uno de los primeros trabajos de análisis polínico en propóleos colombianos.	spa
dc.description.abstract	The diversity of plant species present in ecosystems is critical to the preservation of pollinator species and especially bees because they depend directly on the supply of pollen and nectar. The pollen spectra of propolis is an indicator of the vegetation existing in certain biogeographic area and it evidences in some way the relation plant-insect in the search for livelihood resources for the bee colonies. We evaluated five red propolis samples collected in San Andres Island (Colombia) to determine the frequency and pollen types present. The samples underwent separation and concentration, as well as sediment analysis by acetolysis. The work allowed the recognition of 46 pollen types from 29 botanical families, predominantly Cyperus haematodes, Avicennia germinans, Conocarpus erectus, Dalbergia brownei, Laguncularia racemosa, Rhizophora mangle, Sesuvium portulacastrum, Cocos nucifera, and Spondias mombin and other less important types, such as Morinda citrifolia, revealed through their pollen frequencies. The families with the highest number of pollen types present corresponded to Acanthaceae, Aizoaceae, Arecaceae, Combretaceae, and Rhizophoraceae. These results represent one of the first pollen analysis in Colombian propolis.	eng
dc.format.mimetype	application/pdf	spa
dc.language.iso	spa	spa
dc.publisher	Academia Colombiana de Ciencias Exactas, Físicas y Naturales	spa
dc.rights	Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International	spa
dc.rights.uri	https://creativecommons.org/licenses/by-nc/4.0/	spa
dc.source	Revista de la Academia Colombiana de Ciencias Exactas, Físicas y Naturales	spa
dc.title	Análisis polínico del propóleo rojo de la zona insular de San Andrés, Colombia	spa
dc.type	Artículo de revista	spa
dcterms.audience	Estudiantes, Profesores, Comunidad científica colombiana	spa
dcterms.references	Absy, M.L., Camargo, J.M.F., Kerr, W.E., Miranda, I.P.A.(1984). Espécies de plantas visitadas por Meliponinae (Hymenoptera: Apoidea), para coleta de pólen na região do Médio Amazonas. Revista Brasileira de Biologia. 44:227-237	spa
dcterms.references	Absy, M.L., & Kerr, W.E. (1977). Algumas plantas visitadas para obtenção de pólen por operárias de Melipona seminigra merrillae em Manaus. Acta Amazônica. 7: 309-315	spa
dcterms.references	Bankova, V., Popova, M., Trusheva, B. (2014). Propolis volatile compounds: Chemical diversity and biological activity: A review. Chemistry Central Journal. 8: 28	spa
dcterms.references	Banskota, A. H., Tezuka, Y., Kadota, S. (2001). Recent progress in Pharmacological Research un Propolis. Phytotherapy Research. 15 (7): 561-571	spa
dcterms.references	Bart., H, O. M., Dutra, V. M. L., Justo, R. L. (1999). Análise polí-nica de algumas amostras de própolis do Brasil Meridional. Ciência Rural. 29 (4): 663-667	spa
dcterms.references	Barth, O.M. & Freitas, S.A. (2015). Palynology as a tool to distinguish between propolis and geopropolis: Southern Brazilian samples. Open Access Library Journal. 2: 2217.	spa
dcterms.references	Barth, O. M. (2006). Palynological analysis of geopropolis samples obtained from six species of Meliponinae in the Campus of the Universidade de Ribeirão Preto, USP, Brazil. Apiacta. 41 (2): 71-85.	spa
dcterms.references	Barth, O.M. & Luz, C.F.P. (2003). Análisis palinológico de sedimentos de geopropolis brasileñas. Grana. 42: 121-127	spa
dcterms.references	Barth, O.M. & Luz, C.F.P. (2009). Palynological analysis of Brazilian red propolis samples. Journal of Apicultural Research and Bee World. 48 (3): 181-188.	spa
dcterms.references	Barth, O. M. (1998). Pollen analysis of Brazilian propolis.Grana. 37 (2): 97-101	spa
dcterms.references	Bastos, E.M., Oliveira, V.D.C., Soares, A.E. (2000). Microscopic characterization of the green propolis, produced in Minas Gerais State, Brazil. Honeybee Science. 21: 179-180	spa
dcterms.references	Campos-Trujillo, A., Aguirre-Prieto, A., Muñoz-Romero, G., Rodríguez-Villa, M., Quintana-Martínez, G. (2015). Estudio palinológico de la flora urbana de la ciudad de Chihuahua, México. Acta Botánica Mexicana. 113: 111-134	spa
dcterms.references	Corbellini, L., dos Santos, D., Marinho, F., Pêgas, J.A., Roesch, M., Moura, S. (2017). Red propolis: chemical composition and pharmacological activity. Asian Pacific Journal of Tropical Biomedicine. 7 (7): 591-598	spa
dcterms.references	D ́Albore, G. (1979). L ́Origine geographique de la propolis. Apidologie. 10: 241-267	spa
dcterms.references	da Silva, C. R., Putarov, T., Oliveira Orsi, R. (2013). Pollen spectrum of propolis samples from São Paulo State, Brazil. Acta Scientiarum, Animal Sciences, Maringá. 35: 297-300	spa
dcterms.references	Daugsch, A., Moraes, C., Fort, P., Park, Y. (2008). Brazilian Red Propolis – Chemical composition and Botanical Origin. Evidence-Based Complementary and Alternative Medicine. 5 (4):435-441	spa
dcterms.references	Erdtman, G. (1969). An introduction to the study of pollen grains and spores. Editorial Hafner. Scandinavian Univer-sity Books.	spa
dcterms.references	Fabris, S., Bertelle, M., Astafyeva, O., Gregoris, E., Zangrando, R., Gambaro, A., Pereira, G., Stevanato, R. (2013). Antioxidant properties and chemical composition relation-ship of Europeans and Brazilians Propolis. Pharmacology & Pharmacy. 4: 46-51	spa
dcterms.references	Freitas, A., Vit, P., Barth, M. (2013). Pollen analysis of geo-propolis and propolis from stingless bees. En: Vit, P., & Roubik, D.W., eds. Stingless bees process honey and pollen in cerumen pots. p. 1-7. Facultad de Farmacia y Bioanálisis, Universidad de Los Andes; Mérida, Venezuela	spa
dcterms.references	Freires, I.A., de Alencar, S.M., Rosalen, P.L (2016). A pharma-cological perspective on the use of Brazilian Red Propolis and its isolated compounds against human diseases. European Journal of Medicinal Chemistry. 110: 267-279	spa
dcterms.references	García-Hansen, I. & Gaviría-Chiquazuque, J.F. (1996). Estudio de los manglares de San Andres Isla: Extensión y distri-bución, estructura, productividad, degradación de hojas y otros análisis. Tesis profesional. Facultad Biología Marina, Universidad de Bogotá Jorge Tadeo Lozano.	spa
dcterms.references	García, Y., Rangel, J.O., Fernández, D. (2011). Palynological flora of the wetland from the aquatic, swamp and flood-plain vegetation of the Córdoba and Cesar departments (Colombian Caribbean). Caldasia. 33 (2): 573-618	spa
dcterms.references	Kumazawa, S., Murase, M., Momose, N., Fukumoto, S. (2014). Analysis of antioxidant prenylflavonoids in different parts of Macaranga tanarius, the plant origin of Okinawan propolis. Asian Pacific Journal of Tropical Medicine. 7 (1):16-20.	spa
dcterms.references	Kuropatnicki, A., Szliszka, E., Krol, W. (2013). Historical aspects of propolis research in modern times. Evidence-Based Complementary and Alternative Medicine. 964149: 1-11	spa
dcterms.references	Li, F., Awale, S., Zhang, H., Tezuka, Y., Esumi, H., Kadota, S.(2009). Chemical constituents of propolis from Myanmar and their preferential cytotoxicity against a human pan-creatic cancer cell line. Journal of Natural Products.72(7): 1283-1287	spa
dcterms.references	Lotti, C., Campo, M., Piccinelli, A.L., Cuesta-Rubio, O., Márquez, I., Rastrelli, L. (2010). Chemical constituents of red Mexican propolis. Journal of Agricultural and Food Chemistry. 58 (4): 2209-2213	spa
dcterms.references	Lowy-Ceron, P. (2000). Flora vascular terrestre del archipielago de San Andrés y Providencia. Biota Colombia. 1 (1): 109-124	spa
dcterms.references	Magalhães, F. & Ribeiro, F, A. (2009). Pollen morphology of the shrub and arboreal of mangroves of Northeastern Brazil. Wetlands Ecology and Management. 17 (5): 423-443	spa
dcterms.references	Matos, V.R. & dos Santos, F. (2016). The pollen spectrum of the propolis of Apis mellifera L. (Apidae) from the Atlantic Rainforest of Bahia, Brazil. Palynology. 41 (2):207-215	spa
dcterms.references	Melliou, E., Stratis, E., Chinou, I. (2007). Volatile constituents of propolis from various regions of Greece-antimicrobial activity. Food Chemistry. 103 (2): 375-380.	spa
dcterms.references	Miguel, M., Nunes, S., Dandlen, S., Cavaco, A., Antunes, M.(2014). Phenols, flavonoids and antioxidant activity of aqueous and methanolic extracts of propolis (Apis melliferaL.) from Algarve, South Portugal. Food Science and Tech-nology. 34 (1): 16-23.	spa
dcterms.references	Oliveira, L. & Ribeiro, F.A. (2018). The presence of Fabaceae in the pollen profile of propolis produced in northesasern Brazil. Acta Botanica Brasilica. 32 (4): 602-614	spa
dcterms.references	Olivieri, C., Silvestrin, C.; Gambato, G., Oliveira, M., Salvador, M., Moura, S., Ferreira, F., Kömmling, F., Collares, T., Borsuk, S., Dellagostin, O. A., Pêgas, J. A., Roech-Ely, M. (2013). Chemical characterization, antioxidant and cytotoxic of Brazilian red propolis. Food and Chemical Toxicology. 52: 137-142	spa
dcterms.references	Omar, R.M., Ogoli, J., Gray, A.I., Ebiloma, G.U., Clements, C., Fearnley, J., Ebel, R.A., Zhang, T., De Koning, H.P., Watson, D.G. (2016). Chemical characterization of Nigerian red propolis and its biological activity against Trypanosoma brucei. Phytochemical Analysis. 27 (2): 107-115	spa
dcterms.references	Palacios, R., Ludlow-Wiechers, B., Villanueva, R. (1991). Flora palinológica de la reserva de la Biosfera de Sian Ka ́an Quintana Roo, México. Centro de Investigaciones de Quintana Roo. Seditorial Cioro. México. p. 351.	spa
dcterms.references	Piccinelli, A.L., Lotti, C., Campone, L., Cuesta-Rubio, O., Campo, M., Rastrelli, L. (2011). Cuban and Brazilian red propolis: botanical origin and comparative analysis by High-performance Liquid chromatography-photodiode array detection/electrospray ionization tandem mass spec-trometry. Journal Agricultural and Food Chemistry. 59 (12): 6484-6491	spa
dcterms.references	Rodríguez Y., Sánchez.Catalán, F., Rojano, B., Durango, D., Gil, J., Marín-Loaiza, J. (2012). Physicochemical characterization and evaluation of propolis collected in the Atlantic department, Colombia. Revista UDCA Actualidad & Divulgación Científica. 15(2):303-311.antioxidant activity of	spa
dcterms.references	Salamanca, G. (2017). Origen, naturaleza, propiedades fisico-químicas y valor terapéutico del propóleo. Ibagué. Sello Editorial de la Universidad del Tolima. p. 365.	spa
dcterms.references	Salamanca, G. & Osorio, M.P. (2018). New Insular red propolis from Colombia: Botanical origin, Biological and Chemical markers. 30th International Symposium on the Chemistry of Natural Products. Atens, Greece.	spa
dcterms.references	Salamanca, G., Osorio, M.P., Chávez, J, M., Ruiz, J., Torres, A.L. (2014). Valoración biométrica de poblaciones de abejas de Apis mellifera (Hymenoptera: Apidae) de San Andrés Isla, Colombia. Revista de la Asociacion Colombiana de Ciencias Biológicas. 26 (1): 296	spa
dcterms.references	Salatino, A., Fernandes-Silva, C.C., Righi, A.A., Salatino, M.L. (2011). Propolis research and the chemistry of plant products. Natural products reports. 28 (5):925-936	spa
dcterms.references	Silva-Carvalho, R., Baltazar, F., Almeida-Aguiar, C. (2015). Propolis: A complex natural product with plethora of biological activities that can be explored for drug develop-ment. Evidence-Based Complementary and Alternative Medicine. ID206439	spa
dcterms.references	Sulaiman, G.M., Ad’hiah, A.H., Al-Sammarrae, K.W., Bagnati, R., Frapolli, R., Bello, E., Uboldi, S., Romano, M., Panini, N., Scanziani, E., Pezzolato, M., Erba, E., D’Incalci, M. (2012).Assessing the anti-tumour properties of Iraqi propolis in vitro and in vivo. Food and Chemical Toxicology. 50 (5):1632-1641	spa
dcterms.references	Theobald, W., Krahulik, J., Rolling, R. (1979). Trichome des-cription and classification. Anatomy of the dicotyledons, I. Editorial C.R. Metcalf & L. Chalk, Claredon Press, Oxford. 40-53	spa
dcterms.references	Trusheva, B., Popova, M., Bankova, V., Simova, S., Marcucci, M.C., Miorin, P.L., da Rocha, F., Tsvetkova, I. (2006).Bioactive constituents of brazilian red propolis. Evidence-Based Complementary and Alternative Medicine. 3 (2):249-254	spa
dcterms.references	Uribe, J. & Urrego, L. (2009). Enviromental management of mangrove ecosystems: An approach for the Colombian case. Revista Gestión y Ambiente. 12 (2):57-72.	spa
dcterms.references	Urushisaki, T., Takemura, T., Tazawa, S., Fukuoka, M., Hosokawa-Muto, J., Araki, Y., Kuwata, K. (2011). Caffeoylquinic Acids Are Major Constituents with Potent Anti-Influenza Effects in Brazilian Green Propolis Water Extract. Evidence-Based Complementary and Alternative Medicine. ID 252914.	spa
dcterms.references	Valente, M., Baltazar, A., Henrique, R., Estevinho, L., Carvalho, M. (2011). Biological activities of Portuguese propolis: Protection against free radical-induced erythrocyte damage and inhibition of human renal cancer cell growth in vitro. Food and Chemical Toxicology. 49: 86-92	spa
dcterms.references	Valle, A, G., Osorno-Arango, A., Gil-Agudelo, D. (2011). Estruc-tura y regeneración del bosque de manglar de la ciénaga de Cholón, Isla Barú, Parque Nacional Natural Corales del Rosario y San Bernardo, Caribe Colombiano. Boletín de Investigaciones Marinas y costeras. 40 (1):115-130.	spa
dcterms.references	Velandia, M., Restrepo, S., Cubillos, P., Aponte, A., Silva, L.M.(2012). Catálogo fotográfico de especies de flora apícola en los departamentos de Cauca, Huila y Bolíva. Bogotá, Instituto Humboldt. Editorial Ediprint Ltda. p. 84.	spa
dcterms.references	Velasquez, C. & Rangel, O. (1995). Atlas palinológico de la flora vascular del páramo I. Las familias más ricas en especies. Caldasia. 17 (82-85): 509-568	spa
dcterms.references	Wagh, V. (2013). Propolis: A wonder bees product and its pharmacological potentials. Advances in Pharmacological Sciences. 308249: 1-11	spa
dcterms.references	Willard, D., Cooper, S., Gámez, D., Jensen, J. (2004). Atlas of pollen and spores of the Florida everglades.Palynology. 28: 175-227.	spa
dc.rights.accessrights	info:eu-repo/semantics/openAccess	spa
dc.type.driver	info:eu-repo/semantics/article	spa
dc.type.version	info:eu-repo/semantics/publishedVersion	spa
dc.rights.creativecommons	Atribución-NoComercial 4.0 Internacional (CC BY-NC 4.0)	spa
dc.identifier.doi	https://doi.org/10.18257/raccefyn.897	-
dc.subject.proposal	Análisis polínico	spa
dc.subject.proposal	Pollen analysis	eng
dc.subject.proposal	Orígen botánico	spa
dc.subject.proposal	Botanical origin	eng
dc.subject.proposal	Propóleo rojo	spa
dc.subject.proposal	Red propolis	eng
dc.type.coar	http://purl.org/coar/resource_type/c_6501	spa
dc.relation.ispartofjournal	Revista de la Academia Colombiana de Ciencias Exactas, Físicas y Naturales	spa
dc.relation.citationvolume	43	spa
dc.relation.citationstartpage	689	spa
dc.relation.citationendpage	698	spa
dc.publisher.place	Bogotá, Colombia	spa
dc.contributor.corporatename	Academia Colombiana de Ciencias Exactas, Físicas y Naturales	spa
dc.coverage.region	Zona insular de San Andrés, Colombia	-
dc.relation.citationissue	169	spa
dc.type.content	DataPaper	spa
dc.type.redcol	http://purl.org/redcol/resource_type/ART	spa
oaire.accessrights	http://purl.org/coar/access_right/c_abf2	spa
oaire.version	http://purl.org/coar/version/c_970fb48d4fbd8a85	spa
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