Efecto de cambios ambientales en rasgos morfológicos y sensoriales asociados a la especialización de labores en la abeja de la miel Apis mellifera

La división de labores es el cimiento de la organización social de los insectos. La eusocialidad se caracteriza por, además de otros factores, la división de castas laborales. Uno de los factores que determinan la asignación de labores autoorganizadas es el modelo de umbral de respuesta, que asume q...

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Fecha de publicación:: 2020

Institución:: Universidad del Rosario

Repositorio:: Repositorio EdocUR - U. Rosario

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repository_id_str
dc.title.spa.fl_str_mv	Efecto de cambios ambientales en rasgos morfológicos y sensoriales asociados a la especialización de labores en la abeja de la miel Apis mellifera
dc.title.TranslatedTitle.eng.fl_str_mv	Effect of environmental changes on morphological and sensory traits associated with the specialization of work in the honey bee Apis mellifera
title	Efecto de cambios ambientales en rasgos morfológicos y sensoriales asociados a la especialización de labores en la abeja de la miel Apis mellifera
spellingShingle	Efecto de cambios ambientales en rasgos morfológicos y sensoriales asociados a la especialización de labores en la abeja de la miel Apis mellifera Modelo umbral de respuesta División de labores Precipitación Insectos sociales Forrajeo Invertebrados Response threshold model Division of labor Social insects Foraging
title_short	Efecto de cambios ambientales en rasgos morfológicos y sensoriales asociados a la especialización de labores en la abeja de la miel Apis mellifera
title_full	Efecto de cambios ambientales en rasgos morfológicos y sensoriales asociados a la especialización de labores en la abeja de la miel Apis mellifera
title_fullStr	Efecto de cambios ambientales en rasgos morfológicos y sensoriales asociados a la especialización de labores en la abeja de la miel Apis mellifera
title_full_unstemmed	Efecto de cambios ambientales en rasgos morfológicos y sensoriales asociados a la especialización de labores en la abeja de la miel Apis mellifera
title_sort	Efecto de cambios ambientales en rasgos morfológicos y sensoriales asociados a la especialización de labores en la abeja de la miel Apis mellifera
dc.contributor.advisor.none.fl_str_mv	Riveros Rivera, Andre Josafat
dc.contributor.none.fl_str_mv	Barragán Barrera, Heidy Natalia Molina Jaramillo, Diana Consuelo
dc.subject.spa.fl_str_mv	Modelo umbral de respuesta División de labores Precipitación Insectos sociales Forrajeo
topic	Modelo umbral de respuesta División de labores Precipitación Insectos sociales Forrajeo Invertebrados Response threshold model Division of labor Social insects Foraging
dc.subject.ddc.spa.fl_str_mv	Invertebrados
dc.subject.keyword.spa.fl_str_mv	Response threshold model Division of labor Social insects Foraging
description	La división de labores es el cimiento de la organización social de los insectos. La eusocialidad se caracteriza por, además de otros factores, la división de castas laborales. Uno de los factores que determinan la asignación de labores autoorganizadas es el modelo de umbral de respuesta, que asume que la especialización depende de la variabilidad en la sensibilidad a estímulos asociados con la realización de una tarea. En el caso de Apis mellifera, la recolección de agua, polen y néctar principalmente. La disponibilidad de estos recursos puede variar en el tiempo debido a cambios en factores ambientales. En este estudio se propone que en A. mellifera la especialización en labores de recolección se relaciona con diferencias en el tamaño y número de rasgos morfológicos y sensoriales los cuales están asociado a cambios en variables ambientales a través del tiempo. Los resultados muestran que un aumento en la precipitación puede generar que las magnitudes de los rasgos morfológicos disminuyan, mientras que los rasgos sensoriales tienen un comportamiento diferente. Por otro lado, las abejas especializadas en la recolección de polen y la mezcla de polen-líquido, las cuales son similares entre sí, tienden a tener mayor tamaño corporal y número de sensilas que las recolectoras de líquido.
publishDate	2020
dc.date.accessioned.none.fl_str_mv	2020-08-27T21:47:54Z
dc.date.available.none.fl_str_mv	2020-08-27T21:47:54Z
dc.date.created.none.fl_str_mv	2020-08-06
dc.type.eng.fl_str_mv	bachelorThesis
dc.type.coar.fl_str_mv	http://purl.org/coar/resource_type/c_7a1f
dc.type.document.spa.fl_str_mv	Artículo
dc.type.spa.spa.fl_str_mv	Trabajo de grado
dc.identifier.doi.none.fl_str_mv	https://doi.org/10.48713/10336_28301
dc.identifier.uri.none.fl_str_mv	https://repository.urosario.edu.co/handle/10336/28301
url	https://doi.org/10.48713/10336_28301 https://repository.urosario.edu.co/handle/10336/28301
dc.language.iso.spa.fl_str_mv	spa
language	spa
dc.rights.coar.fl_str_mv	http://purl.org/coar/access_right/c_abf2
dc.rights.acceso.spa.fl_str_mv	Abierto (Texto Completo)
rights_invalid_str_mv	Abierto (Texto Completo) http://purl.org/coar/access_right/c_abf2
dc.format.mimetype.none.fl_str_mv	application/pdf
dc.publisher.spa.fl_str_mv	Universidad del Rosario
dc.publisher.department.spa.fl_str_mv	Facultad de Ciencias Naturales y Matemáticas
dc.publisher.program.spa.fl_str_mv	Biología
institution	Universidad del Rosario
dc.source.bibliographicCitation.spa.fl_str_mv	Beshers, S. N., & Fewell, J. H. (2001). Models of division of labor in social insects. Annual review of entomology, 46(1), 413-440 Bernstein, R. A. (1972). The ecology of ants in the Mojave Desert: their interspecific relationships, resource utilization and diversity. Bilisik, A., Cakmak, I., Bicakci, A., & Malyer, H. (2008). Seasonal variation of collected pollen loads of honeybees (Apis mellifera L. anatoliaca). Grana, 47(1), 70-77 Bonabeau, E., Theraulaz, G., & Deneubourg, J. L. (1996). Quantitative study of the fixed threshold model for the regulation of division of labour in insect societies. Proceedings of the Royal Society of London. Series B: Biological Sciences, 263(1376), 1565-1569. Bosch, J., & Vicens, N. (2006). Relationship between body size, provisioning rate, longevity and reproductive success in females of the solitary bee Osmia cornuta. Behavioral Ecology and Sociobiology, 60(1), 26-33. Bosch, J., & Vicens, N. (2006). Relationship between body size, provisioning rate, longevity and reproductive success in females of the solitary bee Osmia cornuta. Behavioral Ecology and Sociobiology, 60(1), 26-33. Brodschneider, R., & Crailsheim, K. (2010). Nutrition and health in honeybees. Apidologie, 41(3), 278-294. Brodschneider, R., Riessberger-Gallé, U., & Crailsheim, K. (2009). Flight performance of artificially reared honeybees (Apis mellifera). Apidologie, 40(4), 441-449 Changazzo, J. A., & Laurenti, C. R. S. (2019). Preferencias alimentarias de Apis mellifera L. en el Chaco Semihúmedo Central. Agrotecnia, (28), 10-30. Cohen, JM, Lajeunesse, MJ y Rohr, JR (2018). Una síntesis global de las respuestas fenológicas de los animales al cambio climático. Nature Climate Change, 8 (3), 224-228. Crozier, R. H., & Page, R. E. (1985). On being the right size: male contributions and multiple mating in social Hymenoptera. Behavioral ecology and sociobiology, 18(2), 105-115. Danilevskii, A. S. (1965). Photoperiodism and seasonal development of insects. Photoperiodism and seasonal development of insects. Danka, R. G., Sylvester, H. A., & Boykin, D. (2006). Environmental influences on flight activity of USDA–ARS Russian and Italian stocks of honeybees (Hymenoptera: Apidae) during almond pollination. Journal of economic entomology, 99(5), 1565-1570. Frederiksen, R., & Warrant, E. J. (2008). Visual sensitivity in the crepuscular owl butterfly Caligo memnon and the diurnal blue morpho Morpho peleides: a clue to explain the evolution of nocturnal apposition eyes?. Journal of Experimental Biology, 211(6), 844-851. Harris, I., P.D. Jones, T.J. Osborn, and D.H. Lister (2014). Updated high-resolution grids of monthly climatic observations - the CRU TS3.10 Dataset. International Journal of Climatology 34, 623-642. doi:10.1002/joc.3711. https://www.worldclim.org/. [8 Junio, 2020]. Harris, J. W., & Woodring, J. (1992). Effects of stress, age, season, and source colony on levels of octopamine, dopamine and serotonin in the honeybee (Apis mellifera L.) brain. Journal of Insect Physiology, 38(1), 29-35. Heinrich, B. (1979). Keeping a cool head: honeybee thermoregulation. Science, 205(4412), 1269-1271. Jacobsen, D. (2008). Tropical high-altitude streams. In Tropical stream ecology (pp. 219-VIII). Academic Press. Jaffé, R., Kronauer, D. J., Bernhard Kraus, F., Boomsma, J. J., & Moritz, R. F. (2007). Worker caste determination in the army ant Eciton burchellii. Biology Letters, 3(5), 513-516. Johnson, B. R. (2010). Division of labor in honeybees: form, function, and proximate mechanisms. Behavioral ecology and sociobiology, 64(3), 305-316. Johnson, L. K., & Howard, J. J. (1987). Olfactory disc number in bees of different sizes and ways of life (Apidae: Meliponinae). Journal of the Kansas Entomological Society, 380-388. Johnson, M. D. (1990). Female size and fecundity in the small carpenter bee, Ceratina calcarata (Robertson) (Hymenoptera: Anthophoridae). Journal of the Kansas Entomological Society, 414-419. Kerr, W. E., & Hebling, N. J. (1964). Influence of the weight of worker bees on division of labor. Evolution, 267-270. Levin, M. D., & Haydak, M. H. (1957). Comparative value of different pollens in the nutrition of Osmia lignaria. Bee World, 38(9), 221-226. Mares, S., Ash, L., & Gronenberg, W. (2005). Brain allometry in bumblebee and honey bee workers. Brain, Behavior and Evolution, 66(1), 50-61. McNally, L. C., & Schneider, S. S. (1992). Seasonal cycles of growth, development and movement of the African honeybee, Apis mellifera scutettata, in Africa. Insectes Sociaux, 39(2), 167-179. Mizis A.P., 1976. - External morphological characters of the Lithuanian honeybce and their correlation variability. Proc. Int. Symp. on Bee Genetics, Selection and Reproduction, Moscow, 153-156. Nachtigall, W., Rothe, U., Feller, P., & Jungmann, R. (1989). Flight of the honey bee. Journal of Comparative Physiology B, 158(6), 729-737. Oldroyd, B. P., & Fewell, J. H. (2007). Genetic diversity promotes homeostasis in insect colonies. Trends in ecology & evolution, 22(8), 408-413. Page Jr, R. E., & Mitchell, S. D. (1998). Self-organization and the evolution of division of labor. Apidologie, 29(1-2), 171-190. Pankiw, T., & Page Jr, R. E. (2000). Response thresholds to sucrose predict foraging division of labor in honeybees. Behavioral Ecology and Sociobiology, 47(4), 265-267.) Rembold, H., & Lackner, B. (1981). Rearing of honeybee larvae in vitro: Effect of yeast extract on queen differentiation. Journal of Apicultural Research, 20(3), 165-171 Riessberger, U., & Crailsheim, K. (1997). Short-term effect of different weather conditions upon the behaviour of forager and nurse honeybees (Apis mellifera carnica Pollmann). Apidologie, 28(6), 411-426. Riveros, A. J., & Gronenberg, W. (2010). Sensory allometry, foraging task specialization and resource exploitation in honeybees. Behavioral ecology and sociobiology, 64(6), 955-966. Robinson, E. J. H. (2009). Physiology as a caste-defining feature. Insectes Sociaux, 56(1), 1-6. Ross, K. G., & Keller, L. (1995). ECOLOGY AND EVOLUTION OF SOCIAL ORGANIZATION: Insights from Fire Ants and Other Highly Eusocial Insects. Annual Review of Ecology & Systematics, 26, 631–656. https://doi-org.ez.urosario.edu.co/10.1146/annurev.es.26.110195.003215 Roulston, T. A. H., & Cane, J. H. (2000). The effect of diet breadth and nesting ecology on body size variation in bees (Apiformes). Journal of the Kansas Entomological Society, 129-142. Roulston, T. H. 1999. Implications of pollen quality and foraging ecology for host choice and body size of bees. Ph.D. Thesis. Auburn University, Auburn, AL. Scheiner, R., Page, R. E., & Erber, J. (2004). Sucrose responsiveness and behavioral plasticity in honeybees (Apis mellifera). Apidologie, 35(2), 133-142. Scheiner, R., Plückhahn, S., Öney, B., Blenau, W., & Erber, J. (2002). Behavioural pharmacology of octopamine, tyramine and dopamine in honeybees. Behavioural brain research, 136(2), 545-553. Scheiner, R., Weiß, A., Malun, D., & Erber, J. (2001). Learning in honeybees with brain lesions: how partial mushroom-body ablations affect sucrose responsiveness and tactile antennal learning. Animal Cognition, 3(4), 227-235. Smith, A. R., Wcislo, W. T., & O’Donnell, S. (2008). Body size shapes caste expression, and cleptoparasitism reduces body size in the facultatively eusocial bees Megalopta (Hymenoptera: Halictidae). Journal of insect behavior, 21(5), 394. Spaethe, J., & Weidenmüller, A. (2002). Size variation and foraging rate in bumblebees (Bombus terrestris). Insectes sociaux, 49(2), 142-146. Spaethe, J., Brockmann, A., Halbig, C., & Tautz, J. (2007). Size determines antennal sensitivity and behavioral threshold to odors in bumblebee workers. Naturwissenschaften, 94(9), 733-739. Stone, G. N., & Willmer, P. G. (1989). Warm-up rates and body temperatures in bees: the importance of body size, thermal regime and phylogeny. Journal of Experimental Biology, 147(1), 303-328. The effect of rainfall on the survivorship and establishment of a biocontrol agent. Journal of Applied Ecology, 226-234. Theraulaz, G., Bonabeau, E., & Denuebourg, J. N. (1998). Response threshold reinforcements and division of labour in insect societies. Proceedings of the Royal Society of London. Series B: Biological Sciences, 265(1393), 327-332. Vanderplanck, M., Moerman, R., Rasmont, P., Lognay, G., Wathelet, B., Wattiez, R., & Michez, D. (2014). How does pollen chemistry impact development and feeding behaviour of polylectic bees? PloS one, 9(1), e86209. Walter, B. J. (2011). Aging and social homeostasis in social insects (Doctoral dissertation). Warrant, E. J., Kelber, A., Gislén, A., Greiner, B., Ribi, W., & Wcislo, W. T. (2004). Nocturnal vision and landmark orientation in a tropical halictid bee. Current Biology, 14(15), 1309-1318.
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spelling	Barragán Barrera, Heidy Natalia7502bcc2-9aad-4548-a9d3-a4aa1e03eef4600Molina Jaramillo, Diana ConsueloRiveros Rivera, Andre Josafat79974449600Herrera Gutiérrez, Laura HerreraBiólogoFull timeba0659cc-533e-41c7-8cf9-723880cb92fd6002020-08-27T21:47:54Z2020-08-27T21:47:54Z2020-08-06La división de labores es el cimiento de la organización social de los insectos. La eusocialidad se caracteriza por, además de otros factores, la división de castas laborales. Uno de los factores que determinan la asignación de labores autoorganizadas es el modelo de umbral de respuesta, que asume que la especialización depende de la variabilidad en la sensibilidad a estímulos asociados con la realización de una tarea. En el caso de Apis mellifera, la recolección de agua, polen y néctar principalmente. La disponibilidad de estos recursos puede variar en el tiempo debido a cambios en factores ambientales. En este estudio se propone que en A. mellifera la especialización en labores de recolección se relaciona con diferencias en el tamaño y número de rasgos morfológicos y sensoriales los cuales están asociado a cambios en variables ambientales a través del tiempo. Los resultados muestran que un aumento en la precipitación puede generar que las magnitudes de los rasgos morfológicos disminuyan, mientras que los rasgos sensoriales tienen un comportamiento diferente. Por otro lado, las abejas especializadas en la recolección de polen y la mezcla de polen-líquido, las cuales son similares entre sí, tienden a tener mayor tamaño corporal y número de sensilas que las recolectoras de líquido.The division of labor is the foundation of social organization in insects. Eusociality is mainly characterized by, in addition to other factors, the division of labor castes. One of the factors that determine the allocation of self-organizing tasks is the response threshold model, which assumes that specialization depends on the variability in sensitivity to stimuli associated with performing a task. In the case of Apis mellifera, the collection of water, pollen and nectar mainly. The availability of these resources may vary over time due to changes in environmental variables. In this study it is proposed that in A. mellifera the specialization in collection tasks is related to differences in the size and number of morphological and sensory traits which are associated with changes in environmental variables over time. The results show that an increase in precipitation can cause the magnitudes of the morphological traits to decrease, while the sensory traits have a different behavior. On the other hand, bees specialized in collecting pollen and the pollen-liquid mixture, which are similar to each other, tend to have a larger body size and number of sensilla than liquid collectors.Grupo de investigaciones CANNONapplication/pdfhttps://doi.org/10.48713/10336_28301 https://repository.urosario.edu.co/handle/10336/28301spaUniversidad del RosarioFacultad de Ciencias Naturales y MatemáticasBiologíaAbierto (Texto Completo)EL AUTOR, manifiesta que la obra objeto de la presente autorización es original y la realizó sin violar o usurpar derechos de autor de terceros, por lo tanto la obra es de exclusiva autoría y tiene la titularidad sobre la misma.http://purl.org/coar/access_right/c_abf2Beshers, S. N., & Fewell, J. H. (2001). Models of division of labor in social insects. Annual review of entomology, 46(1), 413-440Bernstein, R. A. (1972). The ecology of ants in the Mojave Desert: their interspecific relationships, resource utilization and diversity.Bilisik, A., Cakmak, I., Bicakci, A., & Malyer, H. (2008). Seasonal variation of collected pollen loads of honeybees (Apis mellifera L. anatoliaca). Grana, 47(1), 70-77Bonabeau, E., Theraulaz, G., & Deneubourg, J. L. (1996). Quantitative study of the fixed threshold model for the regulation of division of labour in insect societies. Proceedings of the Royal Society of London. Series B: Biological Sciences, 263(1376), 1565-1569.Bosch, J., & Vicens, N. (2006). Relationship between body size, provisioning rate, longevity and reproductive success in females of the solitary bee Osmia cornuta. Behavioral Ecology and Sociobiology, 60(1), 26-33.Bosch, J., & Vicens, N. (2006). Relationship between body size, provisioning rate, longevity and reproductive success in females of the solitary bee Osmia cornuta. Behavioral Ecology and Sociobiology, 60(1), 26-33.Brodschneider, R., & Crailsheim, K. (2010). Nutrition and health in honeybees. Apidologie, 41(3), 278-294.Brodschneider, R., Riessberger-Gallé, U., & Crailsheim, K. (2009). Flight performance of artificially reared honeybees (Apis mellifera). Apidologie, 40(4), 441-449Changazzo, J. A., & Laurenti, C. R. S. (2019). Preferencias alimentarias de Apis mellifera L. en el Chaco Semihúmedo Central. Agrotecnia, (28), 10-30.Cohen, JM, Lajeunesse, MJ y Rohr, JR (2018). Una síntesis global de las respuestas fenológicas de los animales al cambio climático. Nature Climate Change, 8 (3), 224-228.Crozier, R. H., & Page, R. E. (1985). On being the right size: male contributions and multiple mating in social Hymenoptera. Behavioral ecology and sociobiology, 18(2), 105-115.Danilevskii, A. S. (1965). Photoperiodism and seasonal development of insects. Photoperiodism and seasonal development of insects.Danka, R. G., Sylvester, H. A., & Boykin, D. (2006). Environmental influences on flight activity of USDA–ARS Russian and Italian stocks of honeybees (Hymenoptera: Apidae) during almond pollination. Journal of economic entomology, 99(5), 1565-1570.Frederiksen, R., & Warrant, E. J. (2008). Visual sensitivity in the crepuscular owl butterfly Caligo memnon and the diurnal blue morpho Morpho peleides: a clue to explain the evolution of nocturnal apposition eyes?. Journal of Experimental Biology, 211(6), 844-851.Harris, I., P.D. Jones, T.J. Osborn, and D.H. Lister (2014). Updated high-resolution grids of monthly climatic observations - the CRU TS3.10 Dataset. International Journal of Climatology 34, 623-642. doi:10.1002/joc.3711. https://www.worldclim.org/. [8 Junio, 2020].Harris, J. W., & Woodring, J. (1992). Effects of stress, age, season, and source colony on levels of octopamine, dopamine and serotonin in the honeybee (Apis mellifera L.) brain. Journal of Insect Physiology, 38(1), 29-35.Heinrich, B. (1979). Keeping a cool head: honeybee thermoregulation. Science, 205(4412), 1269-1271.Jacobsen, D. (2008). Tropical high-altitude streams. In Tropical stream ecology (pp. 219-VIII). Academic Press.Jaffé, R., Kronauer, D. J., Bernhard Kraus, F., Boomsma, J. J., & Moritz, R. F. (2007). Worker caste determination in the army ant Eciton burchellii. Biology Letters, 3(5), 513-516.Johnson, B. R. (2010). Division of labor in honeybees: form, function, and proximate mechanisms. Behavioral ecology and sociobiology, 64(3), 305-316.Johnson, L. K., & Howard, J. J. (1987). Olfactory disc number in bees of different sizes and ways of life (Apidae: Meliponinae). Journal of the Kansas Entomological Society, 380-388.Johnson, M. D. (1990). Female size and fecundity in the small carpenter bee, Ceratina calcarata (Robertson) (Hymenoptera: Anthophoridae). Journal of the Kansas Entomological Society, 414-419.Kerr, W. E., & Hebling, N. J. (1964). Influence of the weight of worker bees on division of labor. Evolution, 267-270.Levin, M. D., & Haydak, M. H. (1957). Comparative value of different pollens in the nutrition of Osmia lignaria. Bee World, 38(9), 221-226.Mares, S., Ash, L., & Gronenberg, W. (2005). Brain allometry in bumblebee and honey bee workers. Brain, Behavior and Evolution, 66(1), 50-61.McNally, L. C., & Schneider, S. S. (1992). Seasonal cycles of growth, development and movement of the African honeybee, Apis mellifera scutettata, in Africa. Insectes Sociaux, 39(2), 167-179.Mizis A.P., 1976. - External morphological characters of the Lithuanian honeybce and their correlation variability. Proc. Int. Symp. on Bee Genetics, Selection and Reproduction, Moscow, 153-156.Nachtigall, W., Rothe, U., Feller, P., & Jungmann, R. (1989). Flight of the honey bee. Journal of Comparative Physiology B, 158(6), 729-737.Oldroyd, B. P., & Fewell, J. H. (2007). Genetic diversity promotes homeostasis in insect colonies. Trends in ecology & evolution, 22(8), 408-413.Page Jr, R. E., & Mitchell, S. D. (1998). Self-organization and the evolution of division of labor. Apidologie, 29(1-2), 171-190.Pankiw, T., & Page Jr, R. E. (2000). Response thresholds to sucrose predict foraging division of labor in honeybees. Behavioral Ecology and Sociobiology, 47(4), 265-267.)Rembold, H., & Lackner, B. (1981). Rearing of honeybee larvae in vitro: Effect of yeast extract on queen differentiation. Journal of Apicultural Research, 20(3), 165-171Riessberger, U., & Crailsheim, K. (1997). Short-term effect of different weather conditions upon the behaviour of forager and nurse honeybees (Apis mellifera carnica Pollmann). Apidologie, 28(6), 411-426.Riveros, A. J., & Gronenberg, W. (2010). Sensory allometry, foraging task specialization and resource exploitation in honeybees. Behavioral ecology and sociobiology, 64(6), 955-966.Robinson, E. J. H. (2009). Physiology as a caste-defining feature. Insectes Sociaux, 56(1), 1-6.Ross, K. G., & Keller, L. (1995). ECOLOGY AND EVOLUTION OF SOCIAL ORGANIZATION: Insights from Fire Ants and Other Highly Eusocial Insects. Annual Review of Ecology & Systematics, 26, 631–656. https://doi-org.ez.urosario.edu.co/10.1146/annurev.es.26.110195.003215Roulston, T. A. H., & Cane, J. H. (2000). The effect of diet breadth and nesting ecology on body size variation in bees (Apiformes). Journal of the Kansas Entomological Society, 129-142.Roulston, T. H. 1999. Implications of pollen quality and foraging ecology for host choice and body size of bees. Ph.D. Thesis. Auburn University, Auburn, AL.Scheiner, R., Page, R. E., & Erber, J. (2004). Sucrose responsiveness and behavioral plasticity in honeybees (Apis mellifera). Apidologie, 35(2), 133-142.Scheiner, R., Plückhahn, S., Öney, B., Blenau, W., & Erber, J. (2002). Behavioural pharmacology of octopamine, tyramine and dopamine in honeybees. Behavioural brain research, 136(2), 545-553.Scheiner, R., Weiß, A., Malun, D., & Erber, J. (2001). 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Journal of Experimental Biology, 147(1), 303-328.The effect of rainfall on the survivorship and establishment of a biocontrol agent. Journal of Applied Ecology, 226-234.Theraulaz, G., Bonabeau, E., & Denuebourg, J. N. (1998). Response threshold reinforcements and division of labour in insect societies. Proceedings of the Royal Society of London. Series B: Biological Sciences, 265(1393), 327-332.Vanderplanck, M., Moerman, R., Rasmont, P., Lognay, G., Wathelet, B., Wattiez, R., & Michez, D. (2014). How does pollen chemistry impact development and feeding behaviour of polylectic bees? PloS one, 9(1), e86209.Walter, B. J. (2011). Aging and social homeostasis in social insects (Doctoral dissertation).Warrant, E. J., Kelber, A., Gislén, A., Greiner, B., Ribi, W., & Wcislo, W. T. (2004). Nocturnal vision and landmark orientation in a tropical halictid bee. 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Efecto de cambios ambientales en rasgos morfológicos y sensoriales asociados a la especialización de labores en la abeja de la miel Apis mellifera

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