Exportar registro bibliográfico


Metrics:

Interspecific chemical communication in raids of the robber bee Lestrimelitta limao (2016)

  • Authors:
  • USP affiliated authors: BENTO, JOSÉ MAURÍCIO SIMÕES - ESALQ ; CLOSOSKI, GIULIANO CESAR - FCFRP
  • Unidades: ESALQ; FCFRP
  • DOI: 10.1007/s00040-016-0474-2
  • Subjects: ABELHAS; COMUNICAÇÃO QUÍMICA ANIMAL; COMPORTAMENTO DE FORRAGEAMENTO ANIMAL
  • Language: Inglês
  • Imprenta:
  • Source:
  • Acesso à fonteDOI
    Informações sobre o DOI: 10.1007/s00040-016-0474-2 (Fonte: oaDOI API)
    • Este periódico é de assinatura
    • Este artigo NÃO é de acesso aberto
    • Cor do Acesso Aberto: closed

    How to cite
    A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas

    • ABNT

      ZUBEN, Lucas G. von; SCHORKOPF, D. L. P; ELIAS, L. G; et al. Interspecific chemical communication in raids of the robber bee Lestrimelitta limao. Insectes Sociaux, Paris, v. 63, n. 2, p. 339-347, 2016. Disponível em: < http://link.springer.com/article/10.1007%2Fs00040-016-0474-2 > DOI: 10.1007/s00040-016-0474-2.
    • APA

      Zuben, L. G. von, Schorkopf, D. L. P., Elias, L. G., Vaz, A. L. L., Favaris, A. P., Clososki, G. C., et al. (2016). Interspecific chemical communication in raids of the robber bee Lestrimelitta limao. Insectes Sociaux, 63( 2), 339-347. doi:10.1007/s00040-016-0474-2
    • NLM

      Zuben LG von, Schorkopf DLP, Elias LG, Vaz ALL, Favaris AP, Clososki GC, Bento JMS, Nunes TM. Interspecific chemical communication in raids of the robber bee Lestrimelitta limao [Internet]. Insectes Sociaux. 2016 ; 63( 2): 339-347.Available from: http://link.springer.com/article/10.1007%2Fs00040-016-0474-2
    • Vancouver

      Zuben LG von, Schorkopf DLP, Elias LG, Vaz ALL, Favaris AP, Clososki GC, Bento JMS, Nunes TM. Interspecific chemical communication in raids of the robber bee Lestrimelitta limao [Internet]. Insectes Sociaux. 2016 ; 63( 2): 339-347.Available from: http://link.springer.com/article/10.1007%2Fs00040-016-0474-2

    Referências citadas na obra
    Blum MS, Crewe RM, Kerr WE, Keith LH, Garrison W, Walker MM (1970) Citral in stingless bees: isolation and functions in trail-laying and robbing. J Insect Physiol 16:1637–1648
    Core Team R (2013) R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna
    D’Ettorre P, Errard C, Ibarra F, Francke W, Hefetz A (2000) Sneak in or repel your enemy: Dufour’s gland repellent as a strategy for successful usurpation in the slave-maker Polyergus rufescens. Chemoecology 10:135–142
    Francke W, Lübke G, Schröder W, Reckziegel A, Imperatriz-Fonseca V, Kleinert A, Engels E, Hartfelder K, Radtke R, Engels W (2000) Identification of oxygen containing volatiles in cephalic secretions of workers of Brazilian stingless bees. J Braz Chem Soc 11:562–571
    Grimaldi D, Engel MS (2005) Evolution of the Insects. Cambridge University Press, Cambridge
    Jarau S (2009) Chemical communication during food exploitation in stingless bees. In: Jarau S, Hrncir M (eds) Food exploitation by social insects: ecological, behavioral and theoretical approaches. CRC Press, Boca Raton FL, pp 223–249
    Jarau S, Hrncir M, Zucchi R, Barth FG (2004) A stingless bee uses labial gland secretions for scent trail communication (Trigona recursa Smith 1863). J Comp Physiol A 190:233–239
    Jarau S, Schulz CM, Hrncir M, Francke W, Zucchi R, Barth FG, Ayasse M (2006) Hexyl decanoate the first trail pheromone compound identified in a stingless bee Trigona recursa. J Chem Ecol 32:1555–1564
    Jarau S, Dambacher J, Twele R, Aguilar I, Francke W, Ayasse M (2010) The trail pheromone of a stingless bee Trigona corvina (Hymenoptera Apidae Meliponini) varies between populations. Chem Senses 35:593–601
    Kerr WE (1951) Bases para o estudo da genética de populações dos Hymenoptera em geral e dos Apinae sociais em particular. Anais da Escola Superior de Agricultura Luiz de Queiroz 8:219–354
    Lichtenberg E, Hrncir M, Turatti I, Nieh J (2010) Olfactory eavesdropping between two competing stingless bee species. Behav Ecol Sociobiol 65:763–774
    Lichtenberg E, Zivin J, Hrncir M, Nieh J (2014) Eavesdropping selects for conspicuous signals. Curr Biol 24:R598–R599
    Michener CD (1946) Notes on the Habits of Some Panamanian Stingless Bees (Hymenoptera: Apidae). J New York Entomol Soc 54:179–197
    Morgan ED (1990) Preparation of small scale samples from insects for cromatography. Anal Chim Acta 236:227–235
    Moure JS, Nogueira-Neto P, Kerr WE (1958) Evolutionary problems among Meliponinae (Hymenoptera Apidae). Proceed 10th Int Cong Entomol 2:481–493
    Nogueira-Neto P (1970) Behavior problems related to the pillages made by some parasitic stingless bees (Meliponinae, Apidae). In: Aronson LR (ed) Development and evolution of behavior: Essays in memory of TC Schneirla. W. H. Freeman San Francisco, California, pp 416–434
    Nordlund DA, Lewis WJ (1976) Terminology of chemical releasing stimuli in intraspecific and interspecific interactions. J Chem Ecol 2:211–220
    Nunes T (2012) Sobre a ecologia química de Friesella schrottkyi Friese 1900 (Hymenoptera: Apidae: Meliponini) com ênfase na regulação social (On the chemical ecology of Friesella schrottkyi). Doctoral thesis, Universidade de São Paulo
    Nunes TM, von Zuben LG, Costa L, Venturieri GC (2014) Defensive repertoire of the stingless bee Melipona flavolineata Friese (Hymenoptera: Apidae). Sociobiology 61:541–546
    Pompeu MS, Silveira FA (2005) Reaction of Melipona rufiventris lepeletier to citral and against an attack by the cleptobiotic bee Lestrimelitta limao. Brazil J Biol 65:189–191
    Regnier FE, Wilson EO (1971) Chemical communication and “propaganda” in slave-maker ants. Science 172:267–269
    Roubik DW (1989) Ecology and Natural History of Tropical Bees. Cambridge University Press, Cambridge
    Sakagami SF, Laroca S (1963) Additional observations on the habits of the cleptobiotic stingless bees the genus Lestrimelitta Friese (Hymenoptera, Apoidea). J Faculty Sci Hokkaido Univ Serv 15:15319–15339
    Sakagami SF, Roubik DW, Zucchi R (1993) Ethology of the robber stingless bee Lestrimelitta limao (Hymenoptera Apidae). Sociobiology 21:237–277
    Schorkopf DLP, Jarau S, Francke W, Twele R, Zucchi R, Hrncir M, Schmidt VM, Ayasse M, Barth FG (2007) Spitting out information: Trigona bees deposit saliva to signal resource locations. Proc Roy Soc London B: Biol Sci 274:895–899
    Schorkopf DLP, Hrncir M, Mateus S, Zucchi R, Schmidt VM, Barth FG (2009) Mandibular gland secretions of meliponine worker bees: further evidence for their role in interspecific and intraspecific defence and aggression and against their role in food source signalling. J Exper Biol 212:1153–1162
    Stangler ES, Jarau S, Hrncir M, Zucchi R, Ayasse M (2009) Identification of trail pheromone compounds from the labial glands of the stingless bee Geotrigona mombuca. Chemoecology 19:13–19
    Tsuneoka Y, Akino T (2009) Repellent effect on host Formica workers of queen Dufour’s gland secretion of the obligatory social parasite ant Polyergus samurai (Hymenoptera: Formicidae). Appl Entomol Zool 44:133–141
    van Zweden JS, Grüter C, Jones SM, Ratnieks FLW (2011) Hovering guards of the stingless bee Tetragonisca angustula increase colony defensive perimeter as shown by intra- and inter-specific comparisons. Behav Ecol Sociobiol 65:1277–1282
    Wittmann D (1985) Aerial Defense of the Nest by Workers of the Stingless Bee Trigona (Tetragonisca) angustula (Latreille) (Hymenoptera: Apidae). Behav Ecol Sociobiol 16:111–114
    Wittmann D, Radtke R, Zeil J, Lübke G, Francke W (1990) Robber bees (Lestrimelitta limao) and their host chemical and visual cues in nest defense by Trigona (Tetragonisca) angustula (Apidae: Meliponinae). J Chem Ecol 16:631–641
    Zar JH (2010) Biostatistical Analysis. Prentice Hall, New Jersey
    Zimma BO, Ayasse M, Tengö J, Ibarra F, Schulz C, Francke W (2003) Do social parasitic bumblebees use chemical weapons? (Hymenoptera Apidae). J Comp Physiol A 189:769–775

Digital Library of Intellectual Production of Universidade de São Paulo     2012 - 2021