Free Access
Issue
Apidologie
Volume 32, Number 1, January-February 2001
Page(s) 3 - 23
DOI https://doi.org/10.1051/apido:2001108

References

  • Akahira Y., Sakagami S.F. (1959a) Notes of the difference in some external characteristics between Japanese (A. cerana cerana) and European honeybees (A. m. ligustica), Annotat. Zool. Jap. 32, 35-42.
  • Akahira Y., Sakagami S.F. (1959b) A biometrical study on the Japanese honey bee, observations upon some populations of Kyushu, J. Hokkaido Gakugei Univ. 14, 175-184.
  • Arias M.C., Sheppard W.S. (1996) Molecular phylogenetics of honey bee subspecies (Apis mellifera L.) inferred from mitochondrial DNA sequence, Mol. Phylogenet. Evol. 5, 557-566.
  • Arias M.C., Tingek S., Kelitu A., Sheppard W.S. (1996) Apis nuluensis Tingek, Koeniger and Koeniger, 1996 and its genetic relationship with sympatric species inferred from DNA sequences, Apidologie 27, 415-422.
  • Avetisyan G.A. (1960) On certain problems of evolution, geographical distribution, protection and utilisation of species and races of bees, XVII Congr. Int. Apic., pp. 223-229.
  • Cornuet J.M., Garnery L. (1991) Genetic diversity in Apis mellifera, in: Smith D. (Ed.), Diversity in the Genus Apis, Westview, Boulder, pp. 103-115.
  • Cornuet J.M., Garnery L., Solignac M. (1991) Putative origin and function of the intergenic region between COI and COII of Apis mellifera L. mitochondrial DNA, Genetics 128, 393-403.
  • Daly H.V. (1991) Systematics and identification of Africanized honey bees, in: Spivak M., Fletcher D.J.C., Breed M.D. (Eds.), The "African'' Honey Bee, Westview, Boulder, pp. 13-44.
  • Daly H.V. (1992) A statistical and empirical evaluation of some morphometric variables of honey bee classification, in: Sorensen J.T., Footit R.J. (Eds.), Ordination in the Study of Morphology, Evolution and Systematics of Insects: Applications and Quantitative Genetic Rationals, Elsevier, Amsterdam, pp. 127-155.
  • Damus M.S., Otis G.W. (1997) A morphometric analysis of Apis cerana F. and Apis nigrocincta Smith populations from southeast Asia, Apidologie 28, 309-323.
  • de la Rúa P., Simon U.E., Tilde A.C., Moritz R.F.A., Fuchs S. (2000) mtDNA variations in Apis cerana populations from the Philippines, Heredity 84, 124-130.
  • Deowanish S., Nakamura J., Matsuka M., Kimura K. (1996) mtDNA variation among subspecies of Apis cerana using restriction fragment length polymorphism, Apidologie 27, 407-413.
  • Diniz-Filho J.A.F., Malaspina O., Pignata M.I.B. (1993) Geographic variation in Apis cerana indica F.: a spatial autocorrelation analysis of morphometric patterns, J. Apic. Res. 32, 65-72.
  • Diniz-Filho J.A.F., Hepburn H.R., Radloff S.E., Fuchs S. (2000) Spatial analysis of morphological variation in African honeybees (Apis mellifera L.) on a continental scale, Apidologie 31, 191-204.
  • DuPraw E.J. (1964) Non-Linnean taxonomy, Nature 202, 849-852.
  • DuPraw E.J. (1965) Non-Linnean taxonomy and the systematics of honeybees, Syst. Zool. 14, 1-24.
  • Engel M.S. (1999) The taxonomy of recent and fossil honeybees (Hymenoptera: Apidae; Apis), J. Hym. Res. 8, 165-196.
  • Fernando E.F.W. (1979) Some biometrical features of Apis cerana F. from Sri Lanka, Indian Bee J. 41, 5-8.
  • Fuchs S., Koeniger N., Tingek S. (1996) The morphometric position of Apis nuluensis within cavity-nesting honeybees, Apidologie 27, 397-405.
  • Gan Y.Y., Otis G.W., Mardan M., Tan S.G. (1991) Allozyme diversity in Asian Apis, in: Smith D. (Ed.), Diversity in the Genus Apis, Westview, Boulder, pp. 117-130.
  • Hadisoesilo S., Otis G.W., Meixner M. (1995) Two distinct populations of cavity-nesting honey bees (Hymenoptera: Apidae) in South Sulawesi, Indonesia, J. Kans. Entomol. Soc. 68, 399-407.
  • Hall H.G., Smith D.R. (1991) Distinguishing African and European honeybee matrilines using amplified mitochondrial DNA, Proc. Nat. Acad. Sci. USA 88, 4548-4552.
  • Harrison J.F., Nielsen D.I., Page R.E. (1996) Malate dehydrogenase phenotype, temperature and colony effects on flight metabolic rate in the honey-bee, Apis mellifera, Funct. Ecol. 10, 81-88.
  • Heaney L.R. (1985) Zoogeographic evidence for middle and late Pleistocene land bridges to the Philippine Islands, Mod. Quarternary Res. SE Asia 9, 127-143.
  • Heaney L.R. (1986) Biogeography of mammals in SE Asia: estimates of rates of colonization, extinction and speciation, Biol. J. Linnaean Soc. 28, 127-165.
  • Heaney L.R. (1991) A synopsis of climate and vegetational change in southeast Asia, Climate Change 19, 53-61.
  • Heaney L.R., Rickart E.A. (1990) Correlations of clades and clines: geographic, elevational and phylogenetic distribution patterns among Philippine mammals, in: Peters G., Hutterer R. (Eds.), Vertebrates in the tropics, Museum Alexander Koenig, Bonn, pp. 321-332.
  • Hepburn H.R., Radloff S.E. (1998) Honeybees of Africa, Springer-Verlag, Berlin.
  • Hepburn H.R., Radloff S.E., Fuchs S. (1999) Flight machinery dimensions of honeybees, Apis mellifera, J. Comp. Physiol. B 169, 107-112.
  • Hepburn H.R., Radloff S.E., Oghiake S. (2000) Mountain honeybees of Africa, Apidologie 31, 205-221.
  • Kapil R.P. (1956) Variation in biometrical characters of the Indian honey-bee (Apis indica F.), Indian J. Entomol. 18, 440-457.
  • Kshirsagar K.K. (1973) Comparative biometric studies on Indian honeybees. III. Preliminary observations on biometry of Apis cerana F. queen, Indian Bee J. 35, 21-26.
  • Kshirsagar K.K. (1983) Morphometric studies on the Indian hive bee Apis cerana indica F. I-morphometric characters useful in identification of intraspecific taxa, Proc. 2nd Int. Conf. Apic. Trop. Clim., New Delhi, pp. 254-261.
  • Kwon Y.J., Huh E.Y. (1992) Electron-morphometric classification of the native honeybees from Korea, Part VI. Cluster analysis by arithmetic mean, Korean J. Apic. 7, 118-129.
  • Lawrjochin F.A. (1960) Über die ersten Versuche zur Einführung der wildlebenden ussurischen Bienen (Apis indica F.) in den europäischen Teil der Sowjetunion, XVII Congr. Int. Apic., pp. 237-238.
  • Lee M.L., Woo K.S. (1991) Enzyme polymorphism of Apis cerana Fabr. in Korea, Honeybee Sci. 12, 58-60 (in Japanese).
  • Lee M.L., Yim Y.H., Kim S.S., Woo K.S., Suh D.S. (1989) Malate dehydrogenase and non-specific esterase polymorphism in Apis mellifera L. and Apis cerena F. in South Korea, Korean J. Apic. 4, 68-74 (in Korean).
  • Li S., Meng J.T., Chang J., Li S., He S., Kuang B. (1986) A comparative study of esterase isozymes in 6 species of Apis and 9 genera of Apoidea, J. Apic. Res. 25, 129-133.
  • Limbipichai K. (1990) Morphometric studies on the eastern honey bee (Apis cerana Fabricius) in Thailand and the Malaysian peninsula, Thesis, Chulalongkorn University, Bangkok.
  • Maa T. (1953) An inquiry into the systematics of the Tribus Apidini or honeybees (Hymenoptera), Treubia 21, 525-640.
  • Mattu V.K., Verma L.R. (1983a) Comparative morphometric studies on introduced European bee Apis mellifera L. and Indian honeybee Apis cerana indica F. in Himachal Pradesh, Proc. 2nd Int. Conf. Apic. Trop. Clim., New Delhi, pp. 262-277.
  • Mattu V.K., Verma L.R. (1983b) Comparative morphometric studies on the Indian honeybee of the north-west Himalayas. 1. Tongue and antenna, J. Apic. Res. 22, 79-85.
  • Mattu V.K., Verma L.R. (1984a) Comparative morphometric studies on the Indian honeybee of the north-west Himalayas. 2. Wings, J. Apic. Res. 23, 3-10.
  • Mattu V.K., Verma L.R. (1984b) Comparative morphometric studies on the Indian honeybee of the north-west Himalayas. 3. Hind leg, tergites and sternites, J. Apic. Res. 23, 117-122.
  • Meixner M., Sheppard W.S., Dietz A., Krell R. (1994) Morphological and allozyme variability in honey bees from Kenya, Apidologie 25, 188-202.
  • Muzaffar N., Ahmad R. (1989) Distribution and competition of Apis spp. in Pakistan, Proc. 4th Int. Conf. Apic. Trop. Clim., Cairo, pp. 449-452.
  • Narayanan E.S., Sharma P.L., Phadke K.G. (1960) Studies on biometry of the Indian bees, 1. Tongue length and number of hooks on the hind wings of Apis indica F., Indian Bee J. 22, 58-63.
  • Narayanan E.S., Sharma P.L., Phadke K.G. (1961a) Studies on biometry of the Indian bees, III. Tongue length and number of hooks on the hind wings of Apis indica F. collected from Madras State, Indian Bee J. 23, 3-9.
  • Narayanan E.S., Sharma P.L., Phadke K.G. (1961b) Studies on biometry of the Indian bees, IV. Tongue length and number of hooks on the hind wings of Apis indica F. collected from Uttar Pradesh, Indian Bee J. 23, 69-74.
  • Nunamaker R.A., Wilson W.T., Ahmad R. (1984) Malate dehydrogenase and non-specific esterase isozymes of Apis florea, A. dorsata and A. cerana as detected by isoelectric focusing, J. Kans. Entomol. Soc. 57, 591-595.
  • Ono M. (1992) The Asian honeybees (Apis spp.), Honeybee Sci. 13, 19-22 (in Japanese).
  • Otis G.W., Hadisoesilo S. (1990) Honeybee survey of South Sulawesi, J. Penelitian Kehutanan 4, 1-3.
  • Otis G.W. (1991) A review of the diversity of species within Apis, in: Smith D. (Ed.), Diversity in the Genus Apis, Westview, Boulder, pp. 29-49.
  • Peng Y.S., Nasr M.E., Locke S.J. (1989) Geographical races of Apis cerana Fabricius in China and their distribution. Review of recent Chinese publications and a preliminary statistical analysis, Apidologie 20, 9-20.
  • Pesenko Y.A., Lelej A.S., Radchenko V.G., Filatkin G.N. (1990) Chinese wax-bee Apis cerana cerana (Hymenoptera, Apidae) in the Soviet Far East, Entomol. Rev. 69, 21-46.
  • Radloff S.E., Hepburn H.R. (1998) The matter of sampling distance and confidence levels in the subspecific classification of honeybees, Apis mellifera L., Apidologie 29, 491-501.
  • Rinderer T.E., Koeniger N., Tingek S., Mardan M., Koeniger G. (1989) A morphological comparison of the cavity dwelling honeybees of Borneo Apis koschevnikovi (Buttel-Reepen, 1906) and Apis cerana (Fabricius, 1793), Apidologie 20, 405-411.
  • Rozalski R.J., Sakurai H., Tsuchida K. (1996) Esterase and malate dehybrogenase isozymes analysis in the population of honeybee, Apis cerana japonica and Apis mellifera, Jap. J. Entomol. 64, 910-917.
  • Ruttner F. (1988) Biogeography and Taxonomy of Honeybees, Springer-Verlag, Berlin.
  • Ruttner F. (1992) Naturgeschichte der Honigbienen, Ehrenwirth, München.
  • Ruttner F., Tassencourt L., Louveaux J. (1978) Biometrical statistical analysis of geographic variability of Apis mellifera L., Apidologie 9, 363-381.
  • Ruttner F., Kauhausen D., Koeniger N. (1989) Position of the red honey bee, Apis koschevnikovi (Buttel-Reepen 1906), within the genus Apis, Apidologie 20, 395-404.
  • Ruttner F., Pour Elmi M., Fuchs S. (2000) Ecoclines in the Near East along 36$^\circ$ N latitude in Apis mellifera L., Apidologie 31, 157-165.
  • Sakai T. (1956) Morphological studies on the difference among some strains of the honeybees, Honeybee Sci. 9, 115-125 (in Japanese).
  • Sakai T. (1958) Morphological studies on the drone honeybees, Jap. Bee J. 11, 40-46 (in Japanese).
  • Sasaki M. (1994) Comparative evaluation of southern and northern Apis cerana ecotypes and points which should be considered for future breeding, Honeybee Sci. 15, 99-106 (in Japanese).
  • Schneider P., Djalal A.S. (1970) Vorkommen und Haltung der Östlichen Honigbiene (Apis cerana Fabr.) in Afghanistan, Apidologie 1, 329-341.
  • Schneider P., Kloft W. (1971) Beobachtungen zum Gruppenverteidigungsverhalten der Östlichen Honigbiene Apis cerana Fabr., Zool. Tier. 29, 337-342.
  • Sheppard W.S., Berlocher S.H. (1989) Allozyme variation and differentiation among four Apis species, Apidologie 20, 419-431.
  • Sihanuntavong D., Sittipraneed S., Klinbunga S. (1999) Mitochondrial DNA diversity and population structure of the honey bee, Apis cerana, in Thailand, J. Apic. Res. 38, 211-219.
  • Singh M.P., Verma L.R., Daly H.V. (1990) Morphometric analysis of the Indian honeybee in the north-east Himalayan Region, J. Apic. Res. 29, 3-14.
  • Smith D.R. (1991) Mitochondrial DNA and honey bee biogeography, in: Smith D. (Ed.), Diversity in the Genus Apis, Westview, Boulder, pp. 131-176.
  • Smith D.R., Glenn T.C. (1994) Allozyme polymorphisms in Spanish honey bees (Apis mellifera iberica), J. Hered. 86, 12-16.
  • Smith D.R., Hagen R.H. (1997) The biogeography of Apis cerana as revealed by mitochondrial DNA sequence data, J. Kans. Entomol. Soc. 69, 294-310.
  • Smith D.R., Hagen R.H., Otis G.W. (1999) Phylogeny and biogeography of Apis cerana subspecies: testing alternative hypotheses, in: Hoopingarner R., Connor L. (Eds.), Apiculture for the 21st Century, Wicwas Press, Cheshire, CT, pp. 60-68.
  • Smith D.R., Palopoli M.F., Taylor.B.R., Garnery L., Cornuet J.M., Solignac M., Brown W.M. (1991) Geographical overlap of two mitochondrial genomes in Spanish honey bees (Apis mellifera iberica), J. Hered. 82, 96-100.
  • Smith D.R., Villafuerte L., Otis G., Palmer M.R (2000), Biogeography of Apis cerana F. and A. nigrocincta Smith: Insights from mtDNA studies, Apidologie 31, 265-280.
  • Sylvester H.A., Limbipichai K., Wongsiri S., Rinderer T.E., Mardan M. (1998) Morphometric studies of Apis cerana in Thailand and the Malaysian peninsula, J. Apic. Res. 37, 137-145.
  • Tanabe Y., Tamaki Y. (1985) Biochemical genetic studies on Apis mellifera and Apis cerana, Proc. 30th Int. Beekeep. Congr., Nagoya, Japan, pp. 152-154.
  • Tilde A.C., Fuchs S., Koeniger N., Cervancia C.R. (2000) Morphometric diversity of Apis cerana Fabr. within the Philippines, Apidologie 31, 249-264.
  • Tokuda Y. (1924) Studies on the honey bee, with special reference to the Japanese honey bee, Trans. Sapporo Nat. Hist. Soc. 9, 1-26.
  • Verma L.R. (1990) Beekeeping in Integrated Mountain Development, Oxford & IBH, New Delhi.
  • Verma L.R. (Ed.) (1992) Honeybees in Mountain Agriculture, Oxford & IBH, New Delhi.
  • Verma L.R., Kalle G.P., Sharma A., Mattu V.K. (1989) Biometry of Apis cerana of Nepal, Himalayas, Proc. 4th Int. Conf. Apic. Trop. Clim., Cairo, pp. 458-465.
  • Verma L.R., Mattu V.K., Daly H.V. (1994) Multivariate morphometrics of the Indian honeybee in the northwest Himalayan region, Apidologie 25, 203-223.
  • Whitmore T.C. (1984) Tropical rain forests of the Far East, second edition, Oxford Scientific Publications, Clarendon Press, Oxford.
  • Yang G.H., The resources of the Chinese honeybee and its utilization (cited from Peng et al., 1989).
  • Zhen-Ming J., Guanhuang Y., Shuangxiu H., Shikui L., Zaijin R. (1992) The advancement of apicultural science and technology in China, in: Verma L. (Ed.), Honeybees in Mountain Agriculture, Oxford & IBH, New Delhi, pp. 133-147.


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