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Trabajos sobre Anatomía

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Libros de anatomía[]

  1. A Scanning Electron Microscope Atlas of the Honey Bee. Eric H. Ericson, Jr; Stanley D. Carlson; Martin B. Garmen. Iowa. University Press. Este excelente Atlas de Microscopia Electrónico está en HTML y tiene links con problemas. 21.8 MB.
  2. Anatomia der Bienen. 3280 Kb. Libro visual de anatomía de la abeja en alemán. Excelentes Fotografías.

Videos de anatomía[]

  1. Modelo tridimensional del cerebro de una abeja. Video 280 Kb. Windows Media. Ver Nuevo.
  2. Tomografía computada del cerebro de una abeja. Video 874 Kb. Windows Media. Ver Nuevo.

Artículos en español[]

  1. Informe Técnico Nº 1. PDF 212 Kb. Extractado de http://www.apicultura.entupc.com
  2. Informe Técnico Nº 2. PDF 268 Kb. Extractado de http://www.apicultura.entupc.com
  3. Informe Técnico Nº 3. PDF 202 Kb. Extractado de http://www.apicultura.entupc.com
  4. Informe Técnico Nº 4. PDF 177 Kb. Extractado de http://www.apicultura.entupc.com
  5. Informe Técnico Nº 5. PDF 294 Kb. Extractado de http://www.apicultura.entupc.com
  6. Informe Técnico Nº 6. PDF 294 Kb. Extractado de http://www.apicultura.entupc.com
  7. Informe Técnico Total PDF 673 Kb. Extractado de http://www.apicultura.entupc.com
  8. Los veintiún estadios fotográficos de una abeja obrera. PDF 418 Kb. Word 111 Kb. Cooperativa Eléctrica Las Perdices.
  9. Análisis morfométrico de la Abeja Aphis mellifera en el departamento del Tolima. PDF 234 Kb. Grosso, G.
  10. Manual Básico de Apícola. Sec. de Agric. Gan. Des. Rural Pesca y Alim. PDF 1968 Kb. (México).
  11. Historia de la Apicultura. Capítulo 1. PDF 27 Kb. INPE 4016
  12. Castas de Aphis mellifera utilizada en la apicultura. PDF 13 Kb. INPE 4016.
  13. Nomenclatura e interpretazione della venulazione alare degli apoidei. una revisione critica. PDF 910 Kb. Inttopa, F. Piazza M.G., Bolchi Serini.
  14. Estudio biométrico de poblaciones de abejas (Apis mellifera L.) del centro de Portugal y de Madeira. PDF 160 Kb. Padilla çlvarez, F., M.J. Valerio Da Silva, F. Campano Cabanes, E. Jiménez Vaquero, F. Puerta Puerta, J.M. Flores Serrano y M. Bustos Ruiz. Arch. Zootec. 50: 67-77. 2001.
  15. Insetos Sociais: um Exemplo de Magnetismo Animal. PDF 212 Kb. Daniel Acosta-Avalos, Eliane Wajnberg, Darci M. S. Esquivel, Lea Jaccoud El Jaick. Revista Brasileira de Ensino de Física, vol. 22, no. 3, Setembro, 2000.
  16. Efectos del campo geomagnético en insectos sociales. PDF 114 Kb. Word 146 Kb. Darci M. S. Esquivel, Eliane Wajnberg, Léa J. El-Jaick, Daniel Acosta-Avalos, Marília P. Linhares. Ciencia al Día Internacional. JUNIO, 2000 Número 2 Volumen 3
  17. Por que as abelhas de Apis mellifera são mais atraídas por lâmpada incandescente que por lâmpada infra-vermelha?. PDF 451 Kb. Ana Olivia M. De Oliveira, Sandra de M Soares. Acad. Insecta 1(2): 1-3 (2001).
  18. Un viaje por el intestino de la abeja. PDF 14 Kb. Word 29 Kb. Bruno Porlier. Gaceta del Colmenar. SADA.
  19. ¿Como determinar la maduración del zángano?. Word 40 Kb. Portal Apícola. http://www.apicultura.entupc.com
  20. Lámina 1: Anatomía Apis mellifera. PDF 745 Kb. Josep Mates i Rubi 1992-2004.
  21. Lámina 2: Metamorfosis de la Apis mellifera. PDF 752 Kb. Josep Mates i Rubi 1992-2004.
  22. Lámina 3: Sistemas en la Apis mellifica. PDF 224 Kb. Josep Mates i Rubi 1992-2004.
  23. Lámina 4: Sistemas en la Apis mellifica. (Continuación). PDF 168 Kb. Josep Mates i Rubi 1992-2004.
  24. The Type Specimens of Apoidea (Hymenoptera) Deposited in the Entomological Collection of Instituto Oswaldo Cruz, Río de Janeiro, RJ, Brazil. PDF 61 Kb. Marisa Vianna Ferraz. Mem Inst Oswaldo Cruz, Rio de Janeiro, Vol. 92(3): 353-356, 1997.

Morfomería[]

  1. Caracterización morfométrica de Apis mellifera (Hymenoptera, Apidae) procedentes de San Cosme, Provincia de Corrientes. Estado de Avance. PDF 139 Kb. Ortiz, María I.; Cowper Coles, Francisco; Olivera, Griselda M. Universidad Nacional del Nordeste. Comunicaciones Científicas y Tecnológicas. 2004. Resumen V059.
  2. Estudio morfológico de las abejas melíferas del archipiélago Canario (Gran Canaria, Tenerife, La Palma, Gomera). PDF 104 Kb. Padilla Álvarez, F., R. Hernández Fernández, J. Reyes López, F. Puerta Puerta, J.M. Flores Serrano y M. Bustos. Arch. Zootec. 47: 451-459. 1998.
  3. Comparaciones en fisiología y evolución, y por qué las abejas pueden hacer las cosas que hacen. PDF 301 Kb. Lars Chittka; Anna Dornhaus. Ciencia al Día. Mayo 1999, Vol. 2, No. 2.
  4. Estudio morfométrico y sistemático del grado de africanización de la Abeja Apis mellifera en algunas zonas del departamento de Boyacá (Part 1). PDF 75 Kb. Salamanca G.G; Vargas, E .F; Pérez F.C. Universidad del Tolima, Colombia.
  5. Análisis morfométrico de la abeja Apis melliifera (L) en algunas zonas apicolas. Departamento del Tolima. Colombia. PDF 241 Kb. Guillermo Salamanca Grosso; Fernando Londoño Morales; Fredy Arvey Rivera Páez; Manuel Oswaldo Zapata Ochoa. Universidad del Tolima, Colombia.
  6. Estudio biométrico de las abejas domésticas de la palma. (1. Proboscis, pata posterior, índice cubital AIB, 32 y 411 terguito y 32 y 4° esternito). PDF 1.864 Kb. M. Bustos Ruiz, R. Hernández Fernández, F. Padilla Alvarez, José Manuel Flores Serrano, F. Puerta Puerta. Archivos de zootecnia, ISSN 0004-0592, Vol. 46, Nº 173, 1997, pags. 21-30.
  7. Estudio biométrico de la abeja melifera (Apis mellifera, Linneo 1758) (Hymenoptera, Apidae) de la isla de La Palma del Archipiélago Canario. II. Ángulos y longitudes de las alas. 122 PDF Kb F. Padilla Alvarez, R. Hernández Fernández y J. Reyes López. Zoologica baetica 12:25-35.
  8. Estudio de la diversidad morfológica existente en las abejas melíferas (Apis Mellifera L.) del sur de Europa y del continente sudamericano. PDF 45 Kb. F.T.P.S. Sereno, F. Padilla Alvarez. Archivos de zootecnia, ISSN 0004-0592, Vol. 54, Nº 206-207, 2005, pags. 221-226.
  9. Alpatov, W. W. (1928). Variation of hooks on the hind wing of the honey bee (Apis mellifera L.). PDF 1.588 Kb. Biol Bull 55: 209-234. (September 1928). 1928 Marine Biological Laboratory.
  10. Friedrich Ruttner, Eric Milner & John E. Dews (2006). L'abeille noire européenne. Libro Total PDF 2.694 Kb. Published by The British Isles Bee Breeders Association. The Dark European Honey Bee. BIBBA, 1990, 52 p. Adaptation en français par Jean Marie Van Dyck (2006).

Artículos en Inglés, Alemán, Francés o Italiano.[]

  1. Klonierung und funktionelle Charakterisierung eines Octopamin-Rezeptors aus der Honigbiene (Apis mellifera). PDF 5199 Kb. Vom Gen. am Fachbereich 7 – Umwelt und Gesellschaft der Technischen Universität Berlin. pp:1-80. En Alemán.
  2. Honeybees ( Apis mellifera) Remember Two Near-Target Landmark Constellations. PDF 78 Kb. Ken Cheng. Learning and Motivation 29, 435–443 (1998).
  3. Single cocaine exposure in vivo induces long-term potentiation in dopamine neurons. PDF 234 Kb. Mark A. Ungless, Jennifer L. Whistler, Robert C. Malenka & Antonello Bonci. Nature. Vol. 411. 31 May 2001. www.nature.com
  4. Why do honey bees dance?. PDF 241 Kb. Anna Dornhaus, Lars Chittka. Behav Ecol Sociobiol (2004) 55:395–401.
  5. Form and Function in the Honey Bee. PDF 202 Kb. Lesley Goodman. Nature. Vol. 424. 24 July 2003. http://www.nature.com
  6. Division of labor between undertaker specialists and other middle-aged workers in honey bee colonies. PDF 792. Stephen T. Trumbo, Zhi-Yong Huang, Gene E. Robinson. Behav Ecol Sociobiol (1997) 41: 151-163.
  7. Arthropod phylogeny based on eight molecular loci and morphology. PDF 235 Kb. Gonzalo Giribet, Gregory D. Edgecombe & Ward C. Wheeler. Nature Vol. 413. 13 September 2001. www.nature.com
  8. Proton Electron Nuclear Double Resonance from Nitrosyl Horse Heart Myoglobin: The Role of His-E7 and Val-E11. PDF 196 Kb. Marco Flores, Eliane Wajnberg, and George Bemski. Biophysical Journal Volume 78 April 2000 2107–2115.
  9. Biochemical characterization, molecular cloning and localization of a putative odorant-binding protein in the honey bee Apis mellifera L. (Hymenoptera: Apidea). PDF 744 Kb. E. Dantya, C. Michard-Vanheèea, J.-C. Huetb, E. Genecquea, J.-C. Pernolletb, C. Massona. FEBS Letters 414 (1997) 595-598.
  10. Silk formation mechanisms in the larval salivary glands of Apis mellifera (Hymenoptera: Apidae). PDF 847. Elaine Silva-Zacarin, Reginal Silva de Moraes, Taboga, S. R.. J. Biosci. Vol. 28, No. 6, December 2003, 753–764, Indian Academy of Sciences.
  11. Ferromagnetic Resonance of Horse Spleen Ferritin: Core Blocking and Surface Ordering Temperatures. PDF 108 Kb. Eliane Wajnberg, Lea J. El Jaick, Marília P. Linhares, Darci M. S. Esquivel. Journal of Magnetic Resonance 153, 69–74 (2001).
  12. Induced remanent magnetization of social insects. PDF 69 Kb. E. Wajnberg, G. Cernicchiaro, D. Acosta-Avalos, L.J. El-Jaick, D.M.S. Esquivel. Journal of Magnetism and Magnetic Materials 226-230 (2001) 2040-2041.
  13. Bees travel novel homeward routes by integrating separately acquired vector memories. PDF 275 Kb. Randolf Menzel, Karl Geiger, Jasdan Joerges, Uli Muller, Lars Chittka. Anim. Behav., 1998, 55, 139–152.
  14. The use of landmarks and panoramic context in the performance of local vectors by navigating honeybees. PDF 104 Kb. Matthew Collett, Duane Harland, Thomas S. Collett. The Journal of Experimental Biology 205, 807–814 (2002).
  15. Gravity-Independent Orientation of Honeycomb Cells. PDF 148 Kb. Pratt, S. C. Naturwissenschaften 87, 33–35 (2000).
  16. When Is Self-Organization Used in Biological Systems?. PDF 31 Kb. THOMAS D. SEELEY. Biol. Bull. 202: 314–318. (June 2002).
  17. Identification and biological implications of Apis mellifera pupal phase overexpressed genes. PDF 18 Kb. Nunes F.M.F, Costa M.C.R, et al.
  18. Trees for bees. (Evolucion de la corbícula). Peter J. Lockhart; Sydney A. Cameron. Trends in Ecology & Evolution Vol.16 No.2:84-88. February 2001
  19. The Biology of the Honeybee. Apis mellifera. PDF 883 Kb. Apunte general sobre biología de la abeja.
  20. Reconstructing the Visual Field of Compound Eyes. PDF 2568 Kb. Steven Collins. Image Synthesis Group, Trinity College Dublin.
  21. Differences in Body Colour Expression Between European and Asian Honeybees. PDF 326 Kb. J. Woyke. Asian Bees and Beekeeping Progres of Research and Development Proceedings of Fourth Asian Apicultural Association International Conference, Katmandu, March 23-28, 1998.
  22. Odour coding is bilaterally symmetrical in the antennal lobes of honeybees ( Apis mellifera). PDF 537 Kb. C. Giovanni Galizia, Karl Nagler, Bert Holldobler; Randolf Menzel. European Journal of Neuroscience, Vol. 10, pp. 2964–2974, 1998.
  23. Diferences in the number of antennal sensory structures of males of three honey bee types. PDF 442 Kb. Stort, A. C.; Moraes-Alves, M. M. B. Rev. Brasil. Biol., 59(1): 161-166.
  24. Antennal malformations in light ocelli drones of Apis mellifera. PDF 148 Kb. Chaud-Netto. J. Rev. Brasil. Biol., 60(1): 123-127.
  25. Changes in the structure and pigmentation of the eyes of honeybee (Apis mellifera L.) queens with the limão mutation. PDF 491 Kb. José Chaud-Netto and Carminda da Cruz-Landim. Genetics and Molecular Biology, 23, 1, 93-96 (2000).
  26. Organization of the cysts in bee (Hymenoptera, Apidae) testis: number of spermatozoa per cyst. PDF 399 Kb. Carminda da Cruz-Landim. Iheringia, Sér. Zool., Porto Alegre, (91):183-189.
  27. Ovarian growth during larval development of queen and worker of Apis mellifera (Hymenoptera: Apidae): a morphometric and histological study. PDF 1863 Kb. Reginato, R. D, Cruz-Landim, C. Braz. J. Biol., 63(1): 121-127, 2003.
  28. Mating influence in the ovary diferentiation in adult queens of of Apis mellifera L. (Hymenoptera, Apidae). PDF 3190 Kb. Patricio, K.; Cruz-Landim, C. Braz. J. Biol., 62(4A): 641-649, 2002.
  29. Morphometric and adaptatives aspects in Africanized Honeybees (Apis mellifera). PDF 1574 Kb. Oliveira, J.R; Brandeburgo M.A; Marcolino, M.T. Rev. Brasil. Biol., 60(2): 307-314.
  30. Electrophoretic Protein Pattern and Acid Phosphatase Activity in the Midgut Extracts of Apis mellifera L. (Hymenoptera: Apidae) During Metamorphosis. PDF 49 Kb. Vagner M. Cavalcante; Carminda Da Cruz Landim. Neotropical Entomology 33(2):169-172 (2004).
  31. Sex determination in honey bees (Apinae and Meliponinae) and its consequences. PDF 69 Kb. Word 106 Kb. Warwick Estevam Kerr. Braz. J. Genet. vol. 20 no. 4 Ribeirão Preto Dec. 1997.
  32. Modelling phylogenetic relationships using reticulated networks. PDF 214 Kb. V Ladimir M Akarenkov, Pierre L Egendre; Yves Desdevises. The Norwegian Academy of Science and Letters; Zoologica Scripta, 33 , 1, January 2004, pp89–96.
  33. Disease Strategy Bee diseases. PDF 216 Kb. Australian Veterinary Emergency Plan Ausvetplan 1996. Razas largo alar.
  34. Multiple Molecular Data Sets Suggest Independent Origins of Highly Eusocial Behavior in Bees (Hymenoptera:Apinae). PDF 387 Kb Sydney A. Cameron; Patrick Mardulyn. Syst. Biol. 50(2):194–214, 2001.
  35. Mechanisms of thermal stability during flight in the honeybee Apis mellifera. PDF 265 Kb. Stephen P. Roberts; Jon F. Harrison. The Journal of Experimental Biology 202, 1523–1533 (1999).
  36. Changes in the thoracic temperature of honeybees while receiving nectar from foragers collecting at different reward rates. PDF 209 Kb. Walter M. Farina; Alejandro J. Wainselborim. The Journal of Experimental Biology 204, 1653–1658 (2001).
  37. Olfaction: Scent-triggered navigation in honeybees. PDF 122 Kb. Judith Reinhard, Mandyam V. Srinivasan, Shaowu Zhang. Nature 427, 411 (29 Jan 2004) Brief Communications.
  38. Selective neuroanatomical plasticity and division of labour in the honeybee. PDF 400 Kb. Ginger S. Withers, Susan E. Fahrbach, Gene E. Robinson. Nature 364, 238 - 240 (15 Jul 1993) Letters to Editor (from the Nature Archive: January 1987 - December 1996).
  39. Kin selection and the problem of sperm utilization in social insects. PDF 323 Kb. Kenneth G. Ross. Nature 323, 798 - 800 (30 Oct 1986) Letters to Editor.
  40. Oxygen uptake occurs faster than sodium pumping in bee retina after a light flash. PDF 367 Kb. M. Tsacopoulos, R. K. Orkand, J. A. Coles, S. Levy, S. Poitry. Nature 301, 604 - 606 (17 Feb 1983) Letters to Editor.
  41. Is pattern vision in insects mediated by 'cortical' processing?. PDF 248 Kb. M. V. Srinivasan, S. W. Zhang, B. Rolfe. Nature 362, 539 - 540 (08 Apr 1993) Letters to Editor (from the Nature Archive: January 1987 - December 1996).
  42. Neurochemicals aid bee nestmate recognition. PDF 168 Kb. Gene E. Robinson, Laura M. Heuser, Yves LeConte, Frederic Lenquette, Robert M. Hollingworth. Nature 399, 534 - 535 (10 Jun 1999) Scientific Correspondence.
  43. Representations of odours and odour mixtures visualized in the honeybee brain. PDF 1755 Kb. Jasdan Joerges, Armin Kittner, C. Giovanni Galizia, Randolf Menzel. Nature 387, 285 - 288 (15 May 1997) Letters to Editor.
  44. Local-feature assembling in visual pattern recognition and generalization in honeybees. PDF 292 Kb. Silke Stach, Julie Benard, Martin Giurfa. Nature 429, 758 - 761 (17 Jun 2004) Letters to Nature.
  45. Neurobiology: Social eating for stress. PDF 131 Kb. Marla B. Sokolowski. Nature 419, 893 - 894 (31 Oct 2002) News and Views.
  46. Kinetics of flight muscles from insects with different wingbeat frequencies. PDF 334 Kb. J. E. Molloy, V. Kyrtatas, J. C. Sparrow, D. C. S. White. Nature 328, 449 - 451 (30 Jul 1987) Letters to Editor (from the Nature Archive: January 1987 - December 1996).
  47. Impaired odour discrimination on desynchronization of odour-encoding neural assemblies. PDF 375 Kb. Mark Stopfer, Seetha Bhagavan, Brian H. Smith, Gilles Laurent. Nature 390, 70 - 74 (06 Nov 1997) Letters to Nature.
  48. Insect motion detectors matched to visual ecology. PDF 933 Kb. D. C. O'Carroll, N. J. Bidweii, S. B. Laughlin, E. J. Warrant. Nature 382, 63 - 66 (04 Jul 1996) Letters to Editor.
  49. Neuronal correlates of sleep, wakefulness and arousal in a diurnal insect. PDF 340 Kb. Walter Kaiser, Jana Steiner-Kaiser. Nature 301, 707 - 709 (24 Feb 1983) Letters to Editor.
  50. Cross-bridge interaction, with oppositely polarized actin filaments in double-overlap zones of insect flight muscle. PDF 385 Kb. K. Trombitos, A. Tigyi-Sebes. Nature 309, 168 - 170 (10 May 1984) Letters to Editor.
  51. Selective neuroanatomical plasticity and division of labour in the honeybee. PDF 399 Kb. Ginger S. Withers, Susan E. Fahrbach, Gene E. Robinson. Nature 364, 238 - 240 (15 Jul 1993) Letters to Editor.
  52. The glomerular code for odor representation is species specific in the honeybee Apis mellifera. PDF 558 Kb. C. Giovanni Galizia, Silke Sachse, Angelika Rappert, Randolf Menzel. Nature Neuroscience 2, 473 - 478 (01 May 1999) Article.
  53. Think like a bee. PDF 1190 Kb. Jim Giles. Nature 410, 510 - 512 (29 Mar 2001) News Feature.
  54. Evaluating alternative hypotheses for the origin of eusociality in corbiculate bees. PDF Thompson, G.J., B. P. Oldroyd. Mol. Phylogen. Evol. 33:452-456. (2004).
  55. Variación morfométrica, alosimica y de mt ADN en las poblaciones de abejas (Apis cypria Pollmann, 1879) del norte de Chipre. PDF 428 Kb. I. Kandemir, Marina D. Meixner, Ayca Ozcan, S. W. Sheppard. 38-th International Apicultural Congress of Apimondia. Ljubljana. Slovenia. Inglés.
  56. El concepto de raza:: evolución y realidad. PDF 65 Kb.Sierra Alfranca, I. Arch. Zootec. 50: 547-564. 2001.
  57. El concepto de raza. Un enfoque epistemológico. PDF 103 Kb. Rodero, E.; M. Herrera. Arch. Zootec. 49: 5-16. 2000.
  58. Variabilidad del ADN mitocondrial en poblaciones de Apis mellifera iberica de Galicia (NW España). PDF 89 Kb. Cánovas, F., P. de la Rúa, J. Serrano y J. Galián. Arch. Zootec. 51: 441-448. 2002.
  59. Sperm-mediated transformation of the honey bee, Apis mellifera. Robinson KO, Ferguson HJ, Cobey S, Vaessin H, Smith BH Insect Molecular Biology. 9: 625-634. (2000).
  60. A computational model of the response of honey bee antennal lobe circuitry to odor blends: Overshadowing, blocking and unblocking can arise from lateral inhibition. Linster C, Smith BH. Behavioral Brain Research 87: 1-14. (1997)
  61. Olfactory conditioning in the honey bee (Apis mellifera): Effects of CS intensity. Bhagavan S; Smith BH. Physiology & Behavior 61: 107-117. 1997.
  62. The olfactory memory of the honeybee Apis mellifera. II. Blocking between odorants in binary mixtures. PDF 169 Kb. BH Smith; S Cobey. J. Exp. Biol. 1994 195: 91-108
  63. The olfactory memory of the honeybee, Apis mellifera III. Bilateral sensory input is necessary for induction and expression of olfactory blocking. Thorn, RS, Smith BH. J. Experimental Biology 200: 2045-2055.
  64. Impaired odour discrimination by desynchronization of odor-encoding neural assemblies. Stopfer M, Bhagavan S, Smith BH, Laurent G. Nature. 390: 70-74. 1997.
  65. Visual modulation of olfactory learning in honeybees. Gerber, B, Smith BH. J. Experimental Biology 201: 2213-2217. 1998.
  66. An analysis of synthetic processing of odor mixtures in the honey bee (Apis mellifera). Chandra SBC, Smith BH. J. Experimental Biology 201: 3113-3121. 1998.
  67. An analysis interaction in binary odorant mixtures. Smith BH. Physiology & Behavior., 65: 397-407. 1998.
  68. Generalization between binary odor mixtures and their components in the rat. Linster C, Smith BH. Physiology & Behavior 66: 701-707. 1999
  69. Associative olfactory conditioning of the moth, Manduca sexta. Daly K, Smith BH. J. Experimental Biology 203: 2025-2038. 2000.
  70. Blocking and the detection of odor components in blends. Hosler JS, Smith BH. J. Experimental Biology 203: 2797-2806. 2000.
  71. Generalization of olfactory-based conditioned response reveals unique but overlapping odour representations in the moth, Manduca sexta. Daly K, Chandra SBC, Durtschi ML, Smith BH. J. Experimental Biology. 204: 3085-3095. 2001.
  72. Olfactory-based discrimination learning in the moth, Manduca sexta. Daly K, Durtschi M, Smith BH. J. Insect Physiology 47: 375-384. 2001.
  73. Discrimination of natural floral blends by the honeybee. Wright GA, Smith BH. J. Chemical Ecology. 28: 721-740. abstract. 2002.
  74. Modulation of early olfactory processing by an identified octopaminergic reinforcement pathway in the honeybee. Farooqui T, Robinson K, Vaessin H, Smith BH. J. Neuroscience. 23: 5370-5380. 2003.
  75. Variation in complex olfactory stimuli and its influence on odour recognition. Wright GA, Smith BH. Proceedings of the Royal Society London B 271: 147-152. 2004.
  76. Different thresholds for detection and discrimination of odors in the honeybee (Apis mellifera). Wright GA, Smith BH. Chemical Senses 29: 127-135. 2004.
  77. Molecular features of odorants systematically influence slow temporal responses across clusters of coordinated antennal lobe units in the moth Manduca sexta. Daly KS, Wright GA, Smith BH. J. Neurophysiology. 92, 236-254. 2004.
  78. Learning modulates the ensemble representations for odors in primary olfactory networks. Daly KC, Christensen TA, Lei H, Smith BH, Hildebrand JG. Proceedings National Academy Science (USA). 101: 10476-10481. 2004.
  79. Octopamine receptors in the honeybee (Apis mellifera) brain and their disruption by RNA-mediated interference. Farooqui T, Vaessin H, Smith BH. Journal of Insect Physiology. 50: 701-713. 2004.
  80. Odor processing in the honeybee antennal lobe. Silke Sachse. Fachbereich Biologie, Chemie, Pharmazie, Freie Universität Berlin. Berlín 2002. Duftverarbeitung im Antennallobus der Honigbiene.
  81. The role of the mushroom bodies in olfactory learning of the honeybee (Apis mellifera). Bernhard Komischke. Fachbereich Biologie, Chemie, Pharmazie, Freie Universität Berlin. 2004. Die Rolle der Pilzkörper beim olfaktorischen Lernen der Honigbiene (Apis mellifera).
  82. Investigations of changes of the neuronal representation of odors caused by associative and non associative learning in the antennal lobe of the honey bee, Apis mellifera. Marcel Weidert. Fachbereich Biologie, Chemie, Pharmazie, Freie Universität Berlin. 2003. Untersuchungen zur Veränderung der neuronalen Repräsentation von Düften als Folge assoziativer und nicht assoziativer Lernprozesse im Antennallobus der Honigbiene, Apis mellifera.
  83. Is the number of antennal plate organs (sensilla placodea) greater in hygienic than in non-hygienic Africanized honey bees? PDF 815 Kb. Kátia Peres Gramacho, Lionel Segui Gonçalves, Antônio Carlos Stort, Adriana Backx Noronha. Gen. Mol. Res. 2 (3): 309-316. 2003.
  84. Ecoclines in the Near East along 36 N latitude in Apis mellifera L. PDF file (311 KB). F. Ruttner, M. Pour Elmi, S. Fuchs. Apidologie 31(1): 157-165.
  85. Molecular confirmation of a fourth lineage in honeybees from Near East. PDF file (751 KB). P. Franck, L. Garnery, M. Solignac, J.-M. Cornuet. Apidologie Vol 31(2):167-180. 2000.
  86. Spatial analysis of morphological variation in African honeybees (Apis mellifera L.) on a continental scale. PDF file (937 KB) J.A.F. Diniz-Filho, H.R. Hepburn, S. Radloff, S. Fuchs. Apidologie 31(2):191-204.
  87. Mountain honeybees of Africa. PDF file (983 KB) H.R. Hepburn, S.E. Radloff, S. Oghiakhe. Apidologie 31(2):205-221.
  88. Morphometric diversity of Apis cerana Fabr. within the Philippines. PDF file (955 KB). A.C. Tilde, S. Fuchs, N. Koeniger, C.R. Cervancia. Apidologie 31(2):249-263.
  89. Reproductive isolation among species of the genus Apis. PDF file (587 KB). N. Koeniger, G. Koeniger. Apidologie 31(3):313-331.
  90. Genetic and morphometric variation in honeybee (Apis mellifera L.) populations of Turkey. PDF file (1 MB). I. Kandemir, M. Kence, A. Kence. Apidologie 31(3):343-356..
  91. Changes with age in olfactory conditioning performance of worker honey bees (Apis mellifera). PDF file (328 KB). David Laloi, Marie Gallois, Bernard Roger and Minh-Hà Pham-Delègue. Apidologie 32(3):231-242.
  92. Honeybees discriminate cuticular waxes based on esters and polar components. PDF file (309 KB). Birgit Fröhlich, Markus Riederer and Jürgen Tautz. Apidologie 32(3):265-274.
  93. Differential expression of voltage-sensitive K+ and Ca2+ currents in neurons of the honeybee olfactory pathway. Bernd Grünewald. The Journal of Experimental Biology 206, 117-129.
  94. Hot bees in empty broodnest cells: heating from within. PDF 909 Kb. Marco Kleinhenz, Brigitte Bujok, Stefan Fuchs and Jürgen Tautz. The Journal of Experimental Biology 206, 4217-4231. (Termoregulacion).
  95. Polarized distribution of Na,K-ATPase in honeybee photoreceptors is maintained by interaction with glial cells. PDF 851 Kb. Otto Baumann, and Kunio Takeyasu. Journal of Cell Science 105, 287-301 (1993).
  96. Grouping of visual objects by honeybees. PDF 654 Kb. Shaowu Zhang, Mandyam V. Srinivasan, Hong Zhu and Jason Wong. The Journal of Experimental Biology 207, 3289-3298.
  97. An actin-mediated two-step mechanism is required for ventral enclosure of the C. eleganshypodermis. PDF 636 Kb. Ellen M. Williams-Masson, Amy N. Malik and Jeff Hardin. Development 124, 2889-2901 (1997).
  98. Stereological analysis reveals striking differences in the structural plasticity of two readily identifiable glomeruli in the antennal Lobes of the Adult Worker Honeybee. PDF 559 Kb. Sheena M. Brown, Ruth M. Napper, Caryn M. Thompson, Alison R. Mercer. The Journal of Neuroscience, October 1, 2002, 22(19):8514–8522.
  99. Phase reversal of vibratory signals in honeycomb may assist dancing honeybees to attract their audience. PDF 538 Kb. J. Tautz, J. Casas, D. Sandeman. The Journal of Experimental Biology 204, 3737–3746 (2001).
  100. Small-scale navigation in the honeybee: active acquisition of visual information about the goal. PDF 498 Kb. Miriam Lehrer. The Journal of Experimental Biology 199, 253–261 (1996).
  101. Mitochondrial function in flying honeybee (Apis mellifera): Respiratory chain enzymes and electron flow from complex III to oxygen. PDF 437 Kb. R. K. Suarez, J. F. Staples, J. R. B. Lighton, O. Mathieu-Costello. The Journal of Experimental Biology 203, 905–911 (2000).
  102. The olfatory memory of the honeybee Apis mellifera II. Blocking between odorants in binary mixtures. PDF 169 Kb. Brian H. Smith; Susan Cobey. J. Exp. Biol. 195, 91–108 (1994).
  103. The olfatory memory of the honeybee Apis mellifera III. Bilateral sensory inputis necessary for induction and expression of olfatory blocking. PDF 421 Kb. Robert S. Thorn, Brian H. Smith. The Journal of Experimental Biology 200, 2045–2055 (1997).
  104. The ultraestructure and formation of iron granules in the honeybee (Apis mellifera). PDF 377 Kb. Chin Yuan Hsu, Chia Wei Li. The Journal of Experimental Biology 180, 1-13 (1993).
  105. Quantitative tests of an associative theory of risk-sensitivity in honeybees. PDF 358 Kb. Martin S. Shapiro, P. A. Couvillon. The Journal of Experimental Biology 204, 565–573 (2001).
  106. Motor pattern of the stinging response in the honeybee Apis mellifera. PDF 330 Kb. H. Ogawa, Z. Kawakami, T. Yamaguchi. The Journal of Experimental Biology 189, 39–47 (1995).
  107. Diferential expression of mitochondrial genes between queens and workers during caste determination in the honeybee Apis mellifera. PDF 275 Kb. Miguel Corona, Enrique Estrada, Mario Zurita. The Journal of Experimental Biology 202, 929–938 (1999).
  108. Mechanisms of thermal stability during flight in the honeybee Apis mellifera. PDF 265 Kb. Stephen P. Roberts; Jon F. Harrison. The Journal of Experimental Biology 202, 1523–1533 (1999).
  109. Changes in the temperature of honeybees while receiving nectar from foragers collectins at different reward rates. PDF 209 Kb. Walter M. Farina, Alejandro J. Wainselboim. The Journal of Experimental Biology 204, 1653–1658 (2001).
  110. Discrimination of closed shapes by two species of bee, Apis mellifera and Megachile rotundata. PDF 205 Kb. Raymond Campan; Miriam Lehrer. The Journal of Experimental Biology 205, 559–572 (2002).
  111. Side-Specificity of Olfactory Learning in the Honeybee: US Input Side. PDF 198 Kb. Jean-Christophe Sandoz, Martin Hammer, Randolf Menze. Learning & Memory 9:337–348.
  112. Honeybee nestmate recognition: the thermal behaviour of guards and their examinees. PDF 181 Kb. Anton Stabentheiner, Helmut Kovac and Sigurd Schmaranzer. The Journal of Experimental Biology 205, 2637–2642 (2002).
  113. Looking all around: Honeybees use different cues in different eye regions. PDF 179 Kb. Miriam Lehrer. The Journal of Experimental Biology 201, 3275–3292 (1998).
  114. Behaviour locked signal analysis reveals weak 200–300Hz Comb vibrations during the honeybee waggle dance. PDF 175 Kb. James C. Nieh; Jurgen Tautz. The Journal of Experimental Biology 203, 1573–1579 (2000).
  115. Visually mediates odometry in honeybees. PDF 162 Kb. S M. V. Srinivasan, S. W. Zhang; N. J. Bidwell. The Journal of Experimental Biology 200, 2513–2522 (1997).
  116. Endothermic heat production in honeybee winter clusters. PDF 134 Kb. Anton Stabentheiner, Helga Pressl, Thomas Papst, Norbert Hrassnigg and Karl Crailsheim. The Journal of Experimental Biology 206, 353-358.
  117. Behavioral performance in adult honey bees is influenced by the temperature experienced during their pupal development. PDF 130 Kb. Jurgen Tautz, Sven Maier, Claudia Groh, Wolfgang Rossler, Axel Brockmann. PNAS. June 10, 2003. vol. 100(12): 7343–7347.
  118. The spectral input to honeybee visual odometry. PDF 91 Kb. Lars Chittka; Jürgen Tautz. The Journal of Experimental Biology 206, 2393-2397.
  119. Parametros biometricos y estados de colonias de abejas sin aguijon (Meliponinae) en restos de árboles después de la explotación maderera en el estado Portuguesa-Venezuela. PDF 24 Kb. Word 86 KB. Félix A Moreno Elcure y Adolfo Cardozo. Universidad Nacional del Táchira, San Cristóbal, Táchira, Venezuela.
  120. Honeybee flight muscle phosphoglucose isomerse: Matching enzyme capacities to flux requeriments at near equilibrium reaction. PDF 68 Kb. James F. Staples; Raul K. Suarez. The Journal of Experimental Biology 200, 1247–1254 (1997).
  121. Morphometric study Andalusian Bees. PDF 32 Kb. Padilla, F., F. Puerta, J.M. Flores and M. Bustos. Arch. Zootec. 41(extra): 363-370. 1992.
  122. Adult insect mushroom body neurons in primary culture: cell morphology and characterization of potassium channels. PDF 1451 Kb. M. Cayre; S.D. Buckingham; A. Strambi C. Strambi; D.B. Sattelle. Cell Tissue Res (1998) 291:537-547.
  123. The Golgi apparatus in honeybee photoreceptor cells: structural organization and spatial relationship to microtubules and actin filaments. Otto Baumann. Cell Tissue Res (1998) 291:351-361.
  124. Variation in complex olfactory stimuli and its influence on odour recognition. PDF 142 Kb. Geraldine A. Wright and Brian H. Smith. Proc. R. Soc. Lond. B (2004) 271, 147–152.
  125. A digital three-dimensional atlas of the honeybee antennal lobe based on optical sections acquired by confocal microscopy. PDF 750 Kb. C. Giovanni Galizia; Sabrina L. McIlwrath; Randolf Menzel. Cell Tissue Res (1999) 295:383-394.
  126. Discovery of 3-Methyl-2-Buten-1-YL Acetate, a new alarm component in the sting apparatus of africanized honeybees. PDF 76 Kb. Greg J. Hunt, Karl V. Wood, Ernesto Guzman-Novoa, Hsiupu D. Lee, Arlene P. Rothwell; Connie C. Bonham. Journal of Chemical Ecology, Vol. 29, No. 2, February 2003 (2003).
  127. Honeybee vision: Analysis of orientation and colour in the lateral, dorsal and ventral fields of view. PDF 102 Kb. A. D. Giger; M. V. Srinivasan. The Journal of Experimental Biology 200, 1271–1280 (1997).
  128. Sensory Memory for Odors is Encoded in Spontaneous Correlated Activity between Olfactory Glomeruli. PDF 520 KB. Roberto F. Galán, Marcel Weidert, Randolf Menzel, Andreas V.M. Herz; C. Giovanni Galizia. Institute for Theoretical Biology, Humboldt-Universität zu Berlin, 10115 Berlin, Germany.
  129. Odor Coding in Projection Neurons of the Honeybee. PDF 67 Kb. Brain Randolf Menzel, Giovanni Galizia, Dirk Müller and Paul Szyszka. Chem. Senses 30 (suppl 1): 301–302, 2005.
  130. Morphometric and Electrophoretic Variation in Different Honeybee ( Apis melliferaL.) Populations. PDF 51 Kb. Irfan Kandemir; Meral Kence; Aykut Kence. Turk J Vet Anim Sci 29 (2005) 885-890.
  131. Some Physiological Characteristics of Caucasian and Anatolian Honeybee ( Apis melliferaL.) Races and Their Crossbreeds. PDF 88 Kb. Ahmet Dodologlu, Ferat Genc. Turk J Vet Anim Sci 26 (2002) 715-722. en Turco.
  132. Studies on charesteristics of Anatolian honey bee ecotypes (A. m. anatoliaca) and their crosses: II. Colony Development and Production. PDF 84 Kb. Mete Kaacaoúlu, ‚Cetín Firatli. Tr. J. of Veterinary and Animal Sciences. BazÝ Anadolu Bal ArÝsÝ Ekotipleri (Apis. mellifera. anatoliaca) ve Melezlerinin …zellikler.
  133. The Discrimination of Artvin and Ardahan Honeybees ( Apis melliferaL.) Using Morphological Characteristics. PDF 89 Kb. Ahmet Guler; Ethem Akyol; Mustafa Gokce; Osman Kaftanoglu. Turk J Vet Anim Sci 26 (2002) 595-603. en Turco.
  134. Morphological Characters of the Honeybee ( Apis melliferaL.) of the Artvin Borçka-Camili (Macahel) Region. PDF 86 Kb. Ahmet Guler. Turk J Vet Anim Sci 25 (2001) 473-481.
  135. Comparision of Some Physiological Characters of Caucasian, Central Anatolian and Erzurum Honeybee (Apis mellifera L.) Genotypes in the Conditions of Erzurum. PDF 79 Kb. Ferat Genc, Cemal Dulger, Ahmet Dodoglu, Semiramis Kutluca. Tr. J. of Veterinary and Animal Sciences 23 (1999) Ek Sayi 4, 645-650.
  136. Determination of Performances Some Important Races and Ecotypes of Turkish Honeybees ( Apis melliferaL.) Under Migratory Beekeeping Conditions. PDF 79 Kb. Ahmet Guler; Osman Kaftanoglu. Tr. J. of Veterinary and Animal Sciences 23 (1999) Ek Sayi 3, 577-581.
  137. Morphological Characters of Some Important Races and Ecotypes of Turkish Honeybees (Apis melliferaL.) I. PDF 77 Kb. Ahmet Guler; Osman Kaftanoglu. Tr. J. of Veterinary and Animal Sciences Ek Sayi 3, 565-570.
  138. Morphological Characters of Some Important Races and Ecotypes of Turkish Honeybees ( Apis melliferaL.) II. PDF 77 Kb. Ahmet Guler; Osman Kaftanoglu. Tr. J. of Veterinary and Animal Sciences 23 (1999) Ek Sayi 3, 571-575.
  139. Morphological Characteristics of the Central Anatolian ( A. m. anatoliaca) and Caucasian ( A. m. caucasica) Honey Bees. PDF 89 Kb. H. Vasfi Gencer, Çetin Firatli. Tr. J. of Veterinary and Animal Sciences 23 (1999) Ek Say› 1, 107-113.
  140. Discrimination of Some Anatolian Honeybee ( Apis mellifera L.) Races and Ecotypes by Using Morphological Characteristics. PDF 144 Kb. Ahmet Guler; Osman Kaftanoglu; Yüksel Bek; Halil Yeninar. Tr. J. of Veterinary and Animal Sciences 23 (1999) 337-343.
  141. The Effects of Narrowed Area and Additional Feeding on Some Physiological Characteristics of Honey Bee (Apis mellifera L.) Colonies. PDF 111 kb. Ahmet Guler. Turk J Vet Anim Sci 24 (2000) 1–6.
  142. Olfactory cues and Vespula wasp recognition by honey bee guards. PDF 182 Kb. Matthew J. Wood, Francis L.W. Ratnieks. Apidologie 35 (2004) 461–468.
  143. Thermal stability and muscle efficiency in hovering orchid bees (Apidae: Euglossini). PDF 179 Kb. Brendan J. Borrell; Matthew J. Medeiros. The Journal of Experimental Biology 207, 2925-2933.
  144. Allometry of maximum vertical force production during hovering flight of neotropical orchid bees (Apidae: Euglossini). PDF 113 Kb. Michael E. Dillon; Robert Dudley. The Journal of Experimental Biology 207, 417-425.
  145. Proventricular structure in solitary bees (Hymenoptera: Apoidea). PDF 882 Kb. Jose Eduardo Serra. Organisms, Diversity & Evolution 5 (2005) 125–133.
  146. Neural plasticity of mushroom body-extrinsic neurons in the honeybee brain. PDF 527 Kb. Randolf Menzel; Gisela Manz. J. Exp. Biol. 2005 208: 4317-4332.
  147. Olfactory learning by means of trophallaxis in Apis mellifera. PDF 197 Kb. Mariana Gil and Rodrigo J. De Marco. J. Exp. Biol. 2005 208: 671-680.
  148. Metabolic rate and thermal stability during honeybee foraging at different reward rates. PDF 93 Kb. Moffatt, Luciano. J. Exp. Biol. 2001 204: 759-766.
  149. Odorant intensity as a determinant for olfactory conditioning in honeybees: roles in discrimination, overshadowing and memory consolidation. PDF 106 Kb. C Pelz, B Gerber, and R Menzel. J. Exp. Biol. 1997 200: 837-847.
  150. Phenotypic deconstruction reveals involvement of manganese transporter malvolio in honey bee division of labor. PDF 222 Kb. Yehuda Ben-Shahar, Nichole L. Dudek, and Gene E. Robinson. J. Exp. Biol. 2004 207: 3281-3288.
  151. Haemolymph sugar levels in foraging honeybees (Apis mellifera carnica): dependence on metabolic rate and in vivo measurement of maximal rates of trehalose synthesis. PDF 128 Kb. Jasmina Blatt; Flavio Roces J. Exp. Biol. 2001 204: 2709-2716.
  152. Honeybee flight metabolic rate: does it depend upon air temperature?. PDF 376 Kb. William A. Woods, Jr, Bernd Heinrich, Robert D. Stevenson J. Exp. Biol. 2005 208: 1161-1173.
  153. Effects of load type (pollen or nectar) and load mass on hovering metabolic rate and mechanical power output in the honey bee Apis mellifera. PDF 138 Kb . Erica Feuerbacher, Jennifer H. Fewell, Stephen P. Roberts, Elizabeth F. Smith, and Jon F. Harrison J. Exp. Biol. 2003 206: 1855-1865.
  154. The ultrastructure and formation of iron granules in the honeybee (pis mellifera). PDF 377 Kb. C. Y. Hsu and C. W. Li. J. Exp. Biol. 1993 180: 1-13.
  155. Neuromodulation in invertebrate sensory systems: from biophysics to behavior. PDF 44 Kb. John T. Birmingham and David L. Tauck. J. Exp. Biol. 2003 206: 3541-3546.
  156. Detection of bright and dim colours by honeybees. PDF 81 Kb. N Hempel De Ibarra, M Vorobyev, R Brandt, and M Giurfa J. Exp. Biol. 2000 203: 3289-3298.
  157. Visual resolution of gratings by the compound eye of the bee Apis mellifera. PDF 137 Kb. G. Adrian Horridge. J. Exp. Biol. 2003 206: 2105-2110.
  158. Honeybee flight muscle phosphoglucose isomerase: matching enzyme capacities to flux requirements at a near-equilibrium reaction. PDF 67 Kb. J Staples; R Suarez. J. Exp. Biol. 1997 200: 1247-1254.
  159. Iron-containing cells in the honey-bee (Apis mellifera). I. Adult morphology and physiology. PDF 3052 Kb. DA Kuterbach and B Walcott. J. Exp. Biol. 1986 126: 375-387.
  160. Iron-containing cells in the honey-bee (Apis mellifera). II. accumulation during development. PDF 2746 Kb. DA Kuterbach and B Walcott. J. Exp. Biol. 1986 126: 389-401.
  161. Insect flight takes off. PDF . Jon F. Harrison and Raul K. Suarez. J. Exp. Biol. 2004 207: 3251-3252. Ver artículo siguiente.
  162. The respiratory exchange of the desert locust (Schistocerca gregaria) before, during and after flight. PDF 720 Kb. Krogh, A. and Weis-Fogh, T. (1951). J. Exp. Biol. 28, 344-357.
  163. Limits to the salience of ultraviolet: lessons from colour vision in bees and birds. PDF 130 Kb. Peter G. Kevan, Lars Chittka, and Adrian G. Dyer. J. Exp. Biol. 2001 204: 2571-2580.
  164. Visually mediated odometry in honeybees. PDF 162 Kb. M Srinivasan, S Zhang, and N Bidwell. J. Exp. Biol. 1997 200: 2513-2522.
  165. Honeybee navigation en route to the goal: visual flight control and odometry. PDF 134 Kb. M Srinivasan, S Zhang, M Lehrer, and T Collett. J. Exp. Biol. 1996 199: 237-244.
  166. Acetylcholine, GABA and glutamate induce ionic currents in cultured antennal lobe neurons of the honeybee, Apis mellifera. PDF 572 Kb. Barbara G, Zube C, Rybak J, Gauthier M and Grünewald B. J Comp Physiol A 191:823-836. 2005.
  167. A three-dimensional average-shape atlas of the honeybee brain and its applications. PDF 979 Kb. Brandt, R., Rohlfing, T., Rybak, J., Krofczik, S., Maye, A., Westerhoff, M., Hege, H.-C., & Menzel, R. J.Comparative Neurology 492, 1-19. 2005.
  168. Does an increase in reward affect the precision of the encoding of directional information in the honeybee waggle dance?. De Marco, R. J., Gil, M., & Farina, W. M. J.Comp Physiol A Neuroethol.Sens.Neural Behav Physiol 191, 413-419. 2005.
  169. Encoding spatial information in the waggle dance. PDF 166 Kb. De Marco, R. J.; Menzel, R. J. Exp. Biology 208, 3885-3894. 2005. Comentario de este trabajo.
  170. Relationship of visual and olfactory signal parameters in a food-deceptive flower mimicry system. PDF 738 Kb. Galizia, C.G., Kunze, J., Gumbert, A., Borg-Karlson, A.-K., Sachse, S., Markl, C. & Menzel, R. (2005). Behav. Ecol. 16:159-168.
  171. Apis mellifera bees acquire long-term olfactory memories within the colony. PDF 96 Kb. Gil, M. & De Marco, R. J. Biology Letters, published online October 2005. doi:10.1098/rsbl.2005.0361.
  172. Olfactory learning by means of trophallaxis in Apis mellifera. Gil, M. & De Marco, R. J. Journal of Experimental Biology 208, 671-680.
  173. Perceptual and Neural Olfactory Similarity in Honeybees. PDF 3.282 Kb. Guerrieri, F., Schubert, M.; Sandoz, J.-C.; Giurfa, M. PLoS Biology 3, 60-74. 2005.
  174. Partial unilateral lesions of the mushroom bodies affect olfactory learning in honeybees Apis mellifera L. PDF 257 Kb. European. Komischke B, Sandoz J-C, Malun D, and Giurfa M. Journal of Neuroscience 21:477-485. 2005.
  175. [Computational modeling suggests that response properties rather than spatial position determine connectivity between olfactory glomeruli]. PDF 962 Kb. Linster, C., Sachse, S. & Galizia, CG. J. Neurophysiol. 93:3410-3417. 2005.
  176. Focal and temporal release of glutamate in the mushroom bodies improves olfactory memory in Apis mellifera. Locatelli,F., Bundrock,G., and Muller,U. J. Neurosci. 25, 11614-11618. 2005.
  177. Odor Coding in Projection Neurons of the Honeybee Brain. PDF 67 Kb. Menzel R, Galizia G, Müller D, and Szyszka P. (in Supplement Jan. 2005: II. Symposium Sessions - Chemoreception in Non-Mammals. Chemical Senses 3029. i301 - i302.
  178. Die Karte im Kopf der Biene. PDF 3654 Kb. Menzel, R. & Greggers, U. Zoologie - Mitteilungen der Deutschen Zoologischen Gesellschaft 2005, 17-29. 2005.
  179. Honey bees navigate according to a map-like spatial memory. PDF 527 Kb. Menzel R, Greggers U, Smith A, Berger S, Brandt R, Brunke S, Bundrock G, Hülse S, Plümpe T, Schaupp F, Schüttler E, Stach S, Stindt J, Stollhoff N, Watzl S. PNAS 102 (8): 3040-3045. 2005.
  180. The flight paths of honeybees recruited by the waggle dance. PDF 169 Kb. Riley, J., Greggers, U., Smith, A. D., Reynolds, D. R., and Menzel, R. Nature 435 (7039), 205-207. 2005.
  181. Quo vadis, Atlas-Based Segmentation? Chapater 11 in: Handbook of Biomedical Image Analysis, Vol. III: Registration Models. PDF 1.120 Kb. Rohlfing T, Brandt R, Menzel R, Russakoff D B, Mauerer C R Jr. (Editors: Suri J.S., Wilson D.L., Laximinarayan S.). New York: Kluwer Academic/Plenum Publishers, 2005; 435-470.
  182. Unwarping confocal microscopy images of bee brains by nonrigid registration to a magnetic resonance microscopy image. PDF 519 Kb. Rohlfing T, Schaupp F, Haddad D, Brandt R, Haase A, Menzel R, and Maurer CR, Jr. Journal of Biomedical Optics 10 (2): 024018 (1) - 024018 (8).
  183. Sensory responsiveness and the effects of equal subjective rewards on tactile learning and memory of honeybees. PDF 328 Kb. Scheiner,R., Kuritz-Kaiser,A., Menzel,R., and Erber,J. Learn. Mem. 12, 626-635. (2005).
  184. Spontaneous recovery from extinction depends on the reconsolidation of the acquisition memory in an appetitive learning paradigm in the honeybee (Apis mellifera). PDF 398 Kb. Stollhoff, N., Menzel, R., and Eisenhardt, D. J Neurosci 25(18), 4485-4492. 2005.
  185. Sparsening and Temporal Sharpening of Olfactory Representations in the Honeybee Mushroom Bodies. PDF 686 Kb. Szyszka P, Ditzen M, Galkin A, Galizia G, and Menzel R. Journal of Neurophysiology Nov 2005; 94: 3303 - 3313 (published online: July 13, 2005).
  186. Learning at different satiation levels reveals parallel functions for the cAMP-protein kinase A cascade in formation of long-term memory. PDF 419 Kb. Friedrich A, Thomas U, and Muller U. J Neurosci 24:4460-4468. 2004.
  187. Odor-driven attractor dynamics in the antennal lobe allow for simple and rapid olfactory pattern classification. PDF 389 Kb. Galán RF, Sachse S, Galizia CG, and Herz AVM. Neural Computation 16:999-1012. 2004.
  188. Physiological and morphological characterization of honeybee olfactory neurons combining electrophysiology, calcium imaging and confocal microscopy. PDF 960 Kb. Galizia C. G., and Kimmerle B. J Comp Physiol A Neuroethol Sens Neural Behav Physiol 190, 21-38 (2004).
  189. Relationship of visual and olfactory signal parameters in a food-deceptive flower mimicry system. PDF 739 Kb. Galizia CG, Kunze J, Gumbert A, Borg-Karlson A-K, Sachse S, Markl C, and Menzel R. Behavioral Ecology (Advance Access version published Aug. 5, 04).
  190. Associative mechanosensory conditioning of the proboscis extension reflex in honeybees. PDF 146 Kb. Giurfa M and Malun D. Learn Mem 11:294-302. 2004.
  191. Learning channels. Cellular physiology of odor processing neurons within the honeybee brain. PDF 3002 Kb. Grünewald B, Wersing A, and Wüstenberg DG. Acta Biol Hungarica 55:53-63. 2004.
  192. NMR Imaging of the honeybee brain. PDF 5402 Kb. Haddad D., Schaupp F., Brandt, R., Manz G., Menzel R., and Haase A. Journal of Insect Science 4, 1-7 (2004).
  193. Authorisation for Oxalic Acid Comes a Step Closer. PDF 434 Kb. Imdorf A and Rademacher E. Scottish. Beekeeper 5:137-139. 2004.
  194. Évaluation de la limite maximale des résidus d'acide oxalique dans le mile (LMR). PDF 492 Kb. Imdorf A and Rademacher E. Abeille de France 903:259-260. 2004.
  195. Synergistic activation of insect cAMP-dependent protein kinase A (type II) by cyclicAMP and cyclicGMP. Leboulle G and Müller U. FEBS Letters 576:216-220. 2004.
  196. Brains on Fire. Bilder in der Neurobiologie. Ein Gespräch der Bildwelten des Wissens mit. PDF 1745 Kb. Randolf Menzel und David Poeppel, Menzel, R. and Poeppel, D. Chapter in: Bildwelten des Wissens - Instrumente des Sehens. Book editor: Fischel, A. Volume 2,2, pp. 87-97. Berlin, Akademie-Verlage. Series title: Kunsthistorisches Jahrbuch für Bildkritik. Series editors: Bredekamp, H. and Werner, G. 2004.
  197. Symmetry is on the eye of the 'beeholder': Innate preference for bilateral symmetry in flower-naïve bumblebees. PDF 157 Kb. Rodriguez, I., Gumbert, A., Hempel de Ibarra, N., Kunze, J., Giurfa, M. Naturwiss(2004) 91:374–377. 2004.
  198. Evaluation of atlas selection stategies for atlas-based image segmentation with application to confocal microscopy images of bee brains. PDF 1881 Kb. Rohlfing, T. Brandt, R., Menzel R., and Maurer, Jr., C.R. Neuroimage 21: 1428-1442.
  199. Reward Frequency: Effects on Flower Choices Made by Different Honeybee Races in Turkey. PDF 94 Kb. Übrahim Cakmac, Harrington Wells. Turk J Zool 25 (2001) 169-176.
  200. Activity-Dependent Changes to the Brain and Behavior of the Honey Bee, Apis mellifera (L.). PDF 542 Kb. Dominique Sigg, Caryn M. Thompson, and Alison R. Mercer. The Journal of Neuroscience, September 15, 1997, 17(18):7148–7156.
  201. Ionic currents of Kenyon cells from the Mushroom body of the honeybee. PDF 4757 Kb. Schafer, S.; Rosemboom, H.; Menzel, R. The Journal of Neuroscience 14(8): 4600-4612. August 1994.
  202. Protein content and pattern during mucus gland maturation and its ecdysteroid control in honey bee drones. PDF 404 Kb. Nínive Aguiar Colonello, Klaus Hartfelder. Apidologie 34 (2003) 257–267.
  203. Odorant induced oscillation of Mushroom bodies of the locust. PDF 3984 Kb. Gilles, Laurent; Naraghi, Mahammad. The Journal of Neuroscience 14(5): 2993-3004. May 1994.
  204. Glial Cells Transform Glucose to Alanine, which Fuels the Neurons in the Honeybee Retina. PDF 2347 Kb. M. Tsacopoulos, A.-L. Veuthey, S. G. Saravelos, P. Perrottet, and G. Tsoupras. The Journal of Neuroscience 14(3): 1339-1351. March 1994.
  205. Inhibition of Brain Protein Synthesis by Cycloheximide Does Not Affect Formation of Long-Term Memory in Honeybees after Olfactory Conditioning. PDF 1389 Kb. Susanne Wittstock, Hans-Hinrich Kaatz, and Randolf Menzel. The Journal of Neuroscience, April 1993. 13(4): 1379-1388.
  206. Les produits de secretion et leurs roles dans la colonie d´abeilles. PDF 615 Kb. Christina Mateescu.
  207. Honeybee Blue- and Ultraviolet-Sensitive Opsins: Cloning, Heterologous Expression in Drosophila, and Physiological Characterization. PDF 299 KB. Steven M. Townson, Belinda S. W. Chang, Ernesto Salcedo, Linda V. Chadwell, Naomi E. Pierce, and Steven G. Britt. The Journal of Neuroscience, April 1, 1998, 18(7):2412–2422.
  208. Viability and sex determination in the honey bee (Apis mellifera L.). PDF 664 Kb. Otto Mackensen. Genetics 3 6: 500 September 1951.
  209. Individual odor differences and their social functions in insects. PDF 1130 Kb. Edwar M. Barrows, William J. Bell, Charles D. Michener. Proc. Nat. Acad. Sci. USA Vol. 72, No. 7, pp. 2824-2828, July 1975 Zoology.
  210. Convergent processing in honeybee vision: Multiple channels for the recognition of shape. PDF 943 Kb. S. W. Zhang, M. V. Srinivasan, T. Collet. Proc. Natl. Acad. Sci. USA Vol. 92, pp. 3029-3031, March 1995 Neurobiology.
  211. Biomechanics of the movable pretarsal adhesive organ in ants and bees. PDF 1780 Kb. Walter Federle, Elizabeth L. Brainerd, Thomas A. McMahon, and Bert Holldobler. PNAS; May 22, 2001; vol. 98; no. 11: 6215–6220.
  212. Energy metabolism, enzymatic flux capacities, and metabolic flux rates in flying honeybees. PDF 1089 Kb. R. K. Suarez, J. R. B. Lighton, B. Joost, S. P. Roberts, and J. F. Harrison. Proc. Natl. Acad. Sci. USA Vol. 93, pp. 12616-12620, December 1996 Physiology.
  213. Morphology of the Honeybee Larva. PDF 6.177 Kb. James A. Nelson. Journal Agricultural Research Volume 28 Issue 12: 1167-1232. 1924.
  214. Knauer, U.; Himmelbach, M.; Winkler, F.; Zautke, F.; Bienefeld, K.; Meffert, B. Application of an Adaptive Background Model for Monitoring Honeybees. PDF 513 Kb. Reviewed Proc. 5th IASTED International Conference on Visualization, Imaging, & Image Processing, Benidorm , Spain , 2005, p. 46-50.
  215. Bienefeld, K. (1996). Factors affecting duration of the postcapping period in the brood of the honeybee (Apis mellifera carnica). PDF 928 Kb. Journal Apicultural Research 35(1): 11-17.
  216. Martin, S. J., Dils, V.,Billen, J. (2005). Morphology of the Dufour's gland within the honey bee sting gland complex. 726 Kb. Apidologie 36: 543-436.
  217. Martin, S. J., Châline, N., Drijfthout, F., Jones, G. R. (2005) Role of esters in egg removal in honeybee colonies. PDF 257 Kb. Behavioral Ecology & Sociobiology 59: 24-29.
  218. Chaline, N., Sandoz, J. C., Martin, S. J., Ratnieks, F. L. W., Jones, G. R. (2005). Learning and discrimination of individual cuticular hydrocarbons by honey bees (Apis mellifera). PDF 420 Kb. Chemical Senses, 30: 1-9.
  219. Martin, S.J., Châline, N., Ratnieks F.L.W., Jones, G. (2005). Searching for the egg-marking signal in honeybees. Journal of Negative Results. PDF 1.317 Kb. Ecology & Evolutionary Biology, 2: 1-10.
  220. Martin, S.J., Jones, G. (2004) Conservation of bio-synthetic pheromone pathways in honeybees Apis. PDF 168 Kb. Naturwissenschaften, 91: 232-237.
  221. Martin, S.J., Châline, N., Jones, G., Ratnieks, F.L.W. (2004). Role of hydrocarbons in egg recognition in the honeybee. PDF 160 Kb. Physiological Entomology, 29:395-399.
  222. Martin, S.J., Châline, N., Oldroyd, B., Jones, G., Ratnieks, F.L.W. (2004). Egg marking pheromones of anarchistic worker honeybees (Apis mellifera). PDF 257 Kb. Behavioural Ecology, 15: 839-844.
  223. Martin, S. J., Jones, G.J., Châline, N., Middleton, H., Ratnieks, F.L.W (2002). Reassessing the role of the honeybee (Apis mellifera) Dufour’s gland in egg marking. PDF 252 Kb. Naturwissenschaften. 89, 528-532.

Hoover, S.E.R., Oldroyd, B.P., Wossler, T.C. & M.L. Winston. (2005). Anarchistic queen honey bees have normal queen mandibular pheromones. PDF 170 Kb. Insec.Soc. 52:6 -10

Taxonomía[]

  1. Schutz und Wiederansiedlung der Dunklen Europäischen Honigbiene in Naturschutzgebieten und Biosphärenreservaten Deutschlands. PDF 172 Kb. August Wilhelm Steffan, Bochum & Biebergemünd. Insecta, Berlin, 5 (1997), Seite 33-47. Alemán.
  2. The wing coupling apparatus and the morphometric analysis of honeybee populations. PDF 600 Kb. H.R. Hepburn and S.E. Radloff. South African Journal of Science 100, November/December 2004.

Orientación[]

  1. Magnetic Material Arrangement In Apis Mellifera Abdomens. Darci M. S. Esquivel, Eliane Wajnberg, Geraldo R. Cernicchiaro, Daniel Acosta-Avalos; B.E. Garcia.Mat. Res. Soc. Symp. Proc. Vol. 724. 2002 Materials Research Society.
  2. Electron Paramagnetic Resonance Study of the Migratory Ant Pachycondyla marginata abdomens. PDF 75 Kb.E. Wajnberg, D. Acosta-Avalos, L. J. El-Jaick, L. Abracado, J. L. A. Coelho, A. F. Bakuzis, P. C. Morais, and D. M. S. Esquivel. Biophysical Journal Volume 78 February 2000 1018–1023.
  3. Interacao do Campo Magnetico da Terra com os Seres Vivos: Historia da sua Descoberta. PDF 134 Kb. Henrique G.P. Lins de Barros. Revista Brasileira de Ensino de Física, vol. 22, no. 3, Setembro, 2000.
  4. Magnetic Material Arrangement In Apis Mellifera Abdomens. PDF 187 Kb. Darci M. S. Esquivel, Eliane Wajnberg, Geraldo R. Cernicchiaro, Daniel Acosta-Avalos, B.E. Garcia. Mat. Res. Soc. Symp. Proc. Vol. 724. 2002. Materials Research Society.
  5. Electron paramagnetic resonance study of honeybees Apis mellifera abdomens. PDF 156 Kb. El Jaick, L.J., Acosta-Avalos, D., et al. Eur Biophys J. (2001) 29:579-586.
  6. Measurament of the threshold sensitivity of honeybees to weak, extremely low frequency magnetic fields. PDF 46 Kb. Joseph L. Kirschvink, S. Padmanabha, C. K. Boyce, J. Oglesby. The Journal of Experimental Biology 200, 1363–1368 (1997).
  7. Tracking bees with harmonic radar. PDF 627 Kb. J. R. Riley, A. D. Smith, D. R. Reynolds, A. S. Edwards, J. L. Osborne, I. H. Williams, N. L. Carreck, G. M. Poppy. Nature 379, 29 - 30 (04 Jan 1996) Scientific Correspondence (from the Nature Archive: January 1987 - December 1996).
  8. Ontogeny of orientation flight in the honeybee revealed by harmonic radar. PDF 638 Kb. Elizabeth A. Capaldi, Alan D. Smith, Juliet L. Osborne, Susan E. Fahrbach, Sarah M. Farris, Donald R. Reynolds, Ann S. Edwards, Andrew Martin, Gene E. Robinson, Guy M. Poppy, Joseph R. Riley. Nature 403, 537 - 540 (03 Feb 2000) Letters to Nature.
  9. Olfaction: Scent-triggered navigation in honeybees. PDF 122 Kb. Judith Reinhard, Mandyam V. Srinivasan, Shaowu Zhang. Nature 427, 411 (29 Jan 2004) Brief Communications.
  10. Animal navigation: The bee's celestial compass. PDF 291 Kb. R.C. Hardie. Nature 323, 106 (11 Sep 1986) News and Views.
  11. Polarization vision in bees. PDF 447 Kb. Samuel Rossel, Rediger Wehner. Nature 323, 128 - 131 (11 Sep 1986) Article.
  12. The role of orientation flights on homing performance in honeybees. PDF 330 Kb. Elizabeth A. Capaldi; Fred C. Dyer. The Journal of Experimental Biology 202, 1655-1666 (1999).
  13. Honeybee navigation: properties of the visually driven odometer. PDF 139 Kb. Aung Si, Mandyam V. Srinivasan and Shaowu Zhang. The Journal of Experimental Biology 206, 1265-1273.
  14. Magnetic compass cues and visual patternv learning in honeybees. PDF 138 Kb. Helen J. Frier, Emma Edwards, Claire Smith, Susi Neale; Thomas S. Collett. The Journal of Experimental Biology 199, 1353–1361 (1996).
  15. Honeybee navigation en route to the goal: visual flight control and odometry. PDF 135 Kb. M. V. Srinivasan, S. W. Zhang, M. Lehrer, T. S. Collett. The Journal of Experimental Biology 199, 237–244 (1996).
  16. The use of landmarks and panoramic context in the performance of local vectors by navigating honeybees. PDF 104 Kb. Matthew Collett, Duane Harland, Thomas S. Collett. The Journal of Experimental Biology 205, 807–814 (2002).
  17. Sensory preconditioning in honeybees. PDF 93 Kb. Dirk Muller, Bertram Gerber, Frank Hellstern, Martin Hammer; Randolf Menzel. The Journal of Experimental Biology 203, 1351–1364 (2000).
  18. Measurement of the threshold sensitivity of honeybees to weak, Extremely low frequency magnetic fields. PDF 46 Kb. Joseph L. Kirschvink, S. Padmanabha, C. K. Boyce; J. Oglesby. The Journal of Experimental Biology 200, 1363–1368 (1997).
  19. Ovarian activation in Melipona quadrifasciata queens triggered by mating plug stimulation (Hymenoptera, Apidae). PDF (30.2 KB). Gabriel A.R. Melo, Maria Luisa T. Buschini and Lucio A.O. Campos. Apidologie 32(4):355-361.
  20. The propodeal corbicula of Andrena proxima and allied species (Hymenoptera, Andrenidae). PDF (492 KB). Andreas Dubitzky and Klaus Schönitzer. Apidologie 32(5):429-434.
  21. Selective blocking of contact chemosensilla in Apis mellifera. PDF file (1.32 MB). Claudia Groh, Axel Brockmann, Monika Altwein and Jürgen Tautz. Apidologie 33(1): 33-40.
  22. Sexing of newly hatched live larvae of the honey bee, Apis mellifera, allows the recognition of diploid drones. PDF file (104 KB). Giulia Santomauro and Wolf Engels. Apidologie 33(3): 283-288.
  23. Honeybees Dufour's gland - idiosyncrasy of a new queen signal. PDF file (267 KB). Tamar Katzav-Gozansky, Victoria Soroker and Abraham Hefetz. Apidologie 33(6): 525-537.
  24. Flow cytometric analysis of lectin-stained haemocytes of the honeybee (Apis mellifera). PDF file (525 KB). Dirk C. de Graaf, Rebecca Dauwe, Karl Walravens and Frans J. Jacobs. Apidologie 33(6): 571-579.
  25. Floral scents induce recall of navigational and visual memories in honeybees. PDF 268 Kb. Judith Reinhard, Mandyam V. Srinivasan, David Guez and Shaowu W. Zhang. The Journal of Experimental Biology 207, 4371-4381.
  26. Neuroanatomie und Neurophysiologie am Gehirn sozialer Insekten. PDF 1220 Kb. A.G. Rössler.
  27. The visual system of honeybee. PDF 437 Kb. Timothy Goldsmith. Proc. NAS. 1957: 123-126.
  28. Infrared absorption in fields studies of olfaction in honeybee. PDF 4898 Kb. Miles, Walter; Beck Lloyd. Proc. NAS. 1947: 292-310.
  29. Social exploitation of vitellogenin. PDF 138 Kb. Gro V. Amdam, Kari Norberg, Arne Hagen, Stig W. Omholt. PNAS. February 18, 2003. vol. 100, no. 4: 1799–1802.
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