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    93 références trouvées pour Anoplolepis gracilipes:
    Informations pour la gestion de l'espèce
      Résumé: Available from: http://www.abc.net.au/nature/island/ep2/locals/3.htm [Accessed 18 Jan 2005]
      Résumé: AntWeb illustrates ant diversity by providing information and high quality color images of many of the approximately 10,000 known species of ants. AntWeb currently focusses on the species of the Nearctic and Malagasy biogeographic regions, and the ant genera of the world. Over time, the site is expected to grow to describe every species of ant known. AntWeb provides the following tools: Search tools, Regional Lists, In-depth information, Ant Image comparision tool PDF field guides maps on AntWeb and Google Earth and Ant genera of the world slide show.
      AntWeb is available from: http://antweb.org/about.jsp [Accessed 20 April 2006]
      The species page is available from: http://antweb.org/getComparison.do?rank=species&genus=anoplolepis&name=gracilipes&project=&project= [Accessed 2 May 2006]
      Résumé: This plan establishes a national framework to guide and coordinate Australia’s response to tramp ants, identifying the research, management, and other actions necessary to ensure the long term survival of native species and ecological communities affected by tramp ants. It identifies six national priority species as an initial, but flexible, list on which to focus attention. They are the red imported fi re ant (Solenopsis invicta), tropical fire ant (S. geminata), little fire ant (Wasmannia auropunctata), African big-headed ant (Pheidole megacephala), yellow crazy ant (Anoplolepis gracilipes), and Argentine ant (Linepithema humile).
      Available from: http://www.environment.gov.au/biodiversity/threatened/publications/tap/pubs/tramp-ants.pdf [Accessed 17 November 2009]
      Résumé: This background document to the Threat abatement plan to reduce the impacts of tramp ants on biodiversity in Australia and its territories provides supporting information on a range of issues such as tramp ant biology, population dynamics, spread, biodiversity impacts and management measures.
      Available from: http://www.environment.gov.au/biodiversity/threatened/publications/tap/pubs/tramp-ants-background.pdf [Accessed 17 November 2009]
      Résumé: Available from: http://www.csiro.au/files/mediaRelease/mr2004/CrazyAnts.htm [Accessed 18 May 2007]
      Résumé: Available from: http://www.nationalparks.nsw.gov.au/npws.nsf/content/yellow_crazy_ant_ktp [Accessed 18 May 2007]
      Résumé: Available from: http://www.dpi.qld.gov.au/cps/rde/dpi/hs.xsl/4790_4538_ENA_HTML.htm [Accessed 30 April 2008]

    8. Haines, I. H. and Haines, J. B. 1978. Pest status of the crazy ant, Anoplolepis longipes (Jerdon) (Hymenoptera: Formicidae), in the Seychelles. Bull. Entomol. Res. 68: 627-638.

    9. Haines, I. H. and Haines, J. B. 1979. Residual sprays for the control of the crazy ant Anoplolepis longipes (Jerd.) in the Seychelles. Pesticide Science 10: 201-206.

    10. Haines, I. H. and Haines, J. B. 1979. Toxic bait for the control of Anoplolepis longipes (Jerdon) (Hymenoptera: Formicidae) in the Seychelles. I. The basic attractant carrier, its production and weathering properties. Bulletin of Entomological Research 69:

    11. Haines, I. H. and Haines, J. B. 1979. Toxic bait for the control of Anoplolepis longipes (Jerdon) (Hymenoptera: Formicidae) in the Seychelles. II. Effectiveness, specificity and cost of baiting in field applications. Bulletin of Entomological Research 69:

    12. Haines, I. H. and Haines, J. B. 1979. Toxic bait for the control of Anoplolepis longipes (Jerdon) (Hymenoptera: Formicidae) in the Seychelles. III. Selection of toxicants. Bulletin of Entomological Research 69: 203-211.

    13. Haines, I. H., Haines, J. B. and Cherrett, J. M. 1994. The impact and control of the Crazy ant, Anoplolepis longipes (Jerd.), in the Seychelles. pp. 206–218 in Williams, D. F. (ed.), Exotic ants. Biology, impact, and control of introduced species. Westview, Boulder, CO.
      Résumé: The invasive ant risk assessment project, prepared for Biosecurity New Zealand by Landcare Research, synthesises information on the ant species that occur in New Zealand (native and introduced species), and on invasive ants that pose a potential threat to New Zealand.
      There is a great deal of information in this risk assessment on invasive ant species that is of global interest, including; biology, distribution, pest status, control technologies.
      The assessment project has five sections.1) The Ants of New Zealand: information sheets on all native and introduced ants established in New Zealand 2) Preliminary invasive ant risk assessment: risk scorecard to quantify the threat to New Zealand of 75 ant species. 3) Information sheets on invasive ant threats: information sheets on all ant species scored as medium to high risk (n = 39). 4) Pest risk assessment: A detailed pest risk assessment for the eight species ranked as having the highest potential risk to New Zealand (Anoplolepis gracilipes, Lasius neglectus, Monomorium destructor, Paratrechina longicornis, Solenopsis geminata, Solenopsis richteri, Tapinoma melanocephalum, Wasmannia auropunctata) 5) Ranking of high risk species: ranking of the eight highest risk ant species in terms of the risks of entry, establishment, spread, and detrimental consequences.
      NB. The red imported fire ant (Solenopsis invicta) is considered to be the worst ant pest in the world. However, Solenopsis invicta was specifically excluded from consideration in this risk assessment as this species has already been subject to detailed consideration by Biosecurity New Zealand
      (This invasive ant pest risk assessment was funded by Biosecurity New Zealand and Foundation for Research, Science and Technology. Undertaken by Landcare Research in collaboration with Victoria University of Wellington and Otago Museum)
      Available from: http://www.landcareresearch.co.nz/research/biocons/invertebrates/Ants/ant_pest_risk.asp [Accessed 20 May 2007]

    15. Harris, R.J. & Barker, G. (2007). Relative risk of invasive ants (Hymenoptera: Formicidae) establishing in New Zealand. New Zealand Journal of Zoology 34: 161-178.
      Résumé: The eradication project in NE Arnhem Land is a collaboration between Dhimurru Land Management Aboriginal Corporation, CSIRO, Alcan Gove, Department of Environment and Heritage, Northern Territory Government, Indigenous Land Corporation and the Northern Land Council. The project which began in 2004, is expected to last for 4 years.

      The yellow crazy ant eradication project in northeast Arnhem Land is the largest eradication project for this ant on mainland Australia. In the interest of sharing knowledge of invasive ant management, Dr. Ben Hoffmann has provided a brief project description as well as the project protocols here for public use. The project protocols are dynamic, and as such are updated from time to time as new knowledge is obtained or as requirements change.
      Any queries relating to these documents can be directed to Ben.Hoffmann@csiro.au

      Résumé: The eradication project in NE Arnhem Land is a collaboration between Dhimurru Land Management Aboriginal Corporation, CSIRO, Alcan Gove, Department of Environment and Heritage, Northern Territory Government, Indigenous Land Corporation and the Northern Land Council. The project which began in 2004, is expected to last for 4 years.

      The yellow crazy ant eradication project in northeast Arnhem Land is the largest eradication project for this ant on mainland Australia. In the interest of sharing knowledge of invasive ant management, Dr. Ben Hoffmann has provided a brief project description as well as the project protocols here for public use. The project protocols are dynamic, and as such are updated from time to time as new knowledge is obtained or as requirements change.
      Any queries relating to these documents can be directed to Ben.Hoffmann@csiro.au


    18. Holway, D.A., Lach, L., Suarez, A.V., Tsutsui, N.D. and Case, T.J. 2002. The Causes and Consequences of Ant Invasions, Annu. Rev. Ecol. Syst. 33: 181-233.
      Résumé: The IUCN Red List of Threatened Species provides taxonomic, conservation status and distribution information on taxa that have been globally evaluated using the IUCN Red List Categories and Criteria. This system is designed to determine the relative risk of extinction, and the main purpose of the IUCN Red List is to catalogue and highlight those taxa that are facing a higher risk of global extinction (i.e. those listed as Critically Endangered, Endangered and Vulnerable). The IUCN Red List also includes information on taxa that are categorized as Extinct or Extinct in the Wild; on taxa that cannot be evaluated because of insufficient information (i.e. are Data Deficient); and on taxa that are either close to meeting the threatened thresholds or that would be threatened were it not for an ongoing taxon-specific conservation programme (i.e. are Near Threatened).
      Available from: http://www.iucnredlist.org/ [Accessed 25 May 2011]
      Résumé: Available from: http://www.ctahr.hawaii.edu/peps/museum/ant_website/Krushelnycky_et_al_Ant_review2005.pdf [Accessed March10 2007]

    21. Lewis, T., Cherrett, J. M., Haines, I., Haines, J. B. and Mathias, P. L. 1976. The crazy ant (Anoplolepis longipes (Jerd.) (Hymenoptera, Formicidae)) in Seychelles, and its chemical control. Bull. Entomol. Res. 66: 97-111.

    22. McGlynn, T.P. 1999. The Worldwide Transfer of Ants: Geographical Distribution and Ecological Invasions, Journal of Biogeography 26(3): 535-548.

    23. McGregor, A. J. and Moxon, J. E. 1985. Potential for biological control of tent building species of ants associated with Phytophthora palmivora pod rot of cocoa in Papua New-Guinea. Annals of Applied Biology 107(2): 271-278.

    24. Ness, J. H and Bronstein, J. L. 2004. The Effects of Invasive Ants on Prospective ant Mutualists, Biological Invasions 6: 445-461.
      Résumé: Discusses over a dozen of the worst arthropod pests in the South Pacific, with particular emphasis on ants and their control and management.

    26. O’Dowd, D. J., Green, P. T. and Lake, P. S. 1999. Status, Impact, and Recommendations for Research and Management of Exotic Invasive Ants in Christmas Island National Park. Report to Environment Australia.

    27. O’Dowd, D.J., Green, P.T. and Lake, P.S. 1999. Status, Impact, and Recommendations for Research and Management of Exotic Invasive Ants in Christmas Island National Park. Centre for the Analysis and Management of Biological Invasions: Clayton (Victoria, Australia).

    28. O'Dowd, D. J. 1999. Crazy ant attack. Wingspan 9(2): 7.

    29. O'Dowd, D. J., Green, P. T. and Lake, P. S. 1999. Status, impact, and recommendations for research and management of exotic invasive ants in Christmas Island National Park. Darwin, Northern Territory, Environment Australia: 50 pp, 8 figures, 2 plates.

    30. Oi, D.H., Vail, K.M. and Williams, D.F. 2000. Bait distribution among multiple colonies of Pharaoh ants (Hymenoptera: Formicidae), Journal of Economic Entomology 93(4): 1247–1255.
      Résumé: A proposal prepared for the Pacific Plant Protection Organisation and Regional Technical Meeting For Plant Protection. This plan aims to prevent the red imported fire ant and other invasive ant species with economic, environmental and/or social impacts, entering and establishing in or spreading between (or within) countries of the Pacific Region.

    32. Rao, N. S. and Veeresh, G. K. 1990. Management of crazy ant, Anoplolepis longipes (Jerdon). Indian J. Plant Prot. 18: 105-8.

    33. Reimer, N. J. 1994. Distribution and impact of alien ants in vulnerable Hawaiian ecosystems. In Exotic ants: biology, impact, and control of introduced species. Williams, D. F. (ed) Boulder, Colorado, Westview Press: 11-22.
      Résumé: PIAkey (Pacific Invasive Ant key) is an electronic guide designed to assist users identify invasive ant species commonly encountered in the Pacific Island region. The guide covers four subfamilies, 20 genera and 44 species.
      The primary tool offered by PIAkey is an interactive key designed using Lucid3 software. In addition to being fully illustrated, the Lucid key allows users to enter at multiple character points, skip unknown characters, and find the most efficient path for identifying the available taxa. Each species is linked to its own web page. These species pages, or factsheets, are linked to an illustrated glossary of morphological terms, and include the following seven sections: 1) Overview of the species; 2) Diagnostic chart illustrating a unique combination of identification characters; 3) Comparison chart illustrating differences among species of similar appearance; 4) Video clip of the species behavior at food baits (where available); 5) Image gallery that includes original specimen images and live images (where available); 6) Nomenclature section detailing the taxonomic history of the species, and 7) Links and references section for additional literature and online resources.
      Available from: http://www.lucidcentral.org/keys/v3/PIAkey/index.html [Accessed 17 December 2008]

    36. Stanaway, M. A., Zalucki, M. P., Gillespie, P. S. and Rodriquez, C. M. 2001. Pest risk assessment of insects in sea cargo containers. Australian Journal of Entomology 40: 180-192.
      Résumé: Available from: http://www.landcareresearch.co.nz/research/biocons/invertebrates/ants/BaitEfficacyReport.pdf [Accessed 10 December 2005]

    38. Veeresh, G. K. 1987. Pest status of crazy ant Anoplolepis longipes (Jerdon) in Karnataka, India, and causes for its outbreak. In Chemistry and biology of social insects. J. Eder and H. Rembold. Munich, Peperny: 667-668.

    39. Veeresh, G. K. and Gubbaiah 1984. A report on the 'Crazy ant' (Anoplolepis longipes Jerdon) menace in Karnataka. J Soil Biol Ecol 4: 65-73.
      Résumé: PaDIL (Pests and Diseases Image Library) is a Commonwealth Government initiative, developed and built by Museum Victoria's Online Publishing Team, with support provided by DAFF (Department of Agriculture, Fisheries and Forestry) and PHA (Plant Health Australia), a non-profit public company. Project partners also include Museum Victoria, the Western Australian Department of Agriculture and the Queensland University of Technology. The aim of the project is: 1) Production of high quality images showing primarily exotic targeted organisms of plant health concern to Australia. 2) Assist with plant health diagnostics in all areas, from initial to high level. 3) Capacity building for diagnostics in plant health, including linkage developments between training and research organisations. 4) Create and use educational tools for training undergraduates/postgraduates. 5) Engender public awareness about plant health concerns in Australia. PaDIL is available from : http://www.padil.gov.au/aboutOverview.aspx, this page is available from: http://www.padil.gov.au/viewPestDiagnosticImages.aspx?id=84 [Accessed 6 October 2006]

    41. Way, M. J. 1953. The relationship between certain ant species with particular reference to biological control of the coreid, Theraptus spp. Bull. Entomol. Res. 44: 669-691.

    42. Way, M. J. and Khoo, K. C. 1992. Role of ants in pest management. Annu. Rev. Entomol. 37: 479-503.

    43. Williams, D. F. 1994. Exotic ants: biology, impact, and control of introduced species. Westview Press, Boulder, Colorado.

    Références générales

    44. Baker, G. L. 1976. The seasonal life cycle of Anoplolepis longipes (Jerdon) (Hymenoptera: Formicidae) in a cacao plantation and under brushed rain forest in the northern district of Papua New Guinea. Insectes Soc. 23: 253-261.

    45. Blard, F. 2006. Les fourmis envahissantes de l’île de la Réunion : Interaction compétitives et facteurs d’invasion. Thèse de doctorat. Université de la Réunion. 97 pp
      Résumé: Cette étude porte sur les relations compétitives entre trois espèces ainsi que sur les facteurs liés à leur succès dans l'invasion des milieux.

    46. Bos, M.M., Tylianakis, J.M., Steffan-Dewenter, I.S. & Tscharntke, T. (2008). The invasive Yellow Crazy Ant and the decline of forest ant diversity in Indonesian cacao agroforests. Biological Invasions 10:1399–1409.

    47. Brown, E. S. 1959. Immature nutfall of coconuts in the Solomon Islands, I. Distribution of nutfall in relation to that of Amblypelta and of certain species of ants. Bull. Entomol. Res. 50: 97-133, plates 2 & 3.

    48. Brown, E. S. 1959. Immature nutfall of coconuts in the Solomon Islands, II: Changes in ant populations and their relation to vegetation. Bull. Entomol. Res. 50: 523-558.

    49. Bruhl, C.A. & Eltz, T. (2009). Fuelling the biodiversity crisis: species loss of ground-dwelling forest ants in oil palm plantations in Sabah, Malaysia (Borneo). Biodiversity and Conservation, in press.
      Résumé: Available from: http://www.biodiv.org/doc/meetings/sbstta/sbstta-09/information/sbstta-09-inf-33-en.pdf [Accessed 18 April 2005]

    51. Drescher, Jochen; Heike Feldhaar and Nico Bluthgen, 2010. Interspecific Aggression and Resource Monopolization of the Invasive Ant Anoplolepis gracilipes in Malaysian Borneo. Biotropica Article In Press gracilipes in Malaysian Borneo

    52. Drescher, Jochen; Nico Bluthgen and Heike Feldhaar, 2007. Population structure and intraspecific aggression in the invasive ant species Anoplolepis gracilipes in Malaysian Borneo. Molecular Ecology (2007) 16, 1453–1465

    53. Feare, C. 1999. Ants take over from rats on Bird Island, Seychelles. Bird Conservation International 9: 95-96.

    54. Fellowes, J. R. 1994. Community structure of Hong Kong ants. Les Insectes Sociaux. 12th Congress of the International Union for the Study of Social Insects, Paris, Sorbonne, 21-27 August 1994. A. Lenoir, G. Arnold and M. Lepage. Paris, Université Paris Nord: 421.

    55. Fluker, S. S. 1969. Sympatric associations among selected ant species and some effects of ants on sugarcane mealybugs in Hawaii. Ph.D. thesis, University of Hawaii, 96 pp.

    56. Fluker, S. S. and Beardsley, J. W. 1970. Sympatric associations of three ants: Iridomyrmex humilis, Pheidole megacephala, and Anoplolepis longipes in Hawaii. Ann. Entomol. Soc. Am. 63: 1290-96.

    57. Gerlach, J. (2004). Impact of the invasive crazy ant Anoplolepis gracilipes on Bird Island, Seychelles. Journal of Insect Conservation 8: 15-25.

    58. Gillespie, R. and Reimer, N. 1993. The effect of alien predatory ants on Hawaiian endemic spiders. Pacific Science 47(1): 21-33.

    59. Gillespie, R.G. and Reimer, N. 1993. The Effect of Alien Predatory Ants (Hymenoptera: Formididae) on Hawaiian Endemic Spiders (Araneae:Tetragnathidae). Pacific Science 47(1) 21-33.

    60. Green, P. T., O'Dowd, D. J. and Lake, P. S. 1999. Alien ant invasion and ecosystem collapse on Christmas Island, Indian Ocean. Aliens 9: 2-4.

    61. Greenslade, P. J. M. 1971. Phenology of three ant species in the Solomon Islands. J. Aust. Entomol. Soc. 10: 241-252.

    62. Greenslade, P. J. M. 1972. Comparative ecology of four tropical ant species. Insect. Soc. 19: 195-212.

    63. Greenslade, P. J. M. and Greenslade, P. 1977. Some effects of vegetation cover and disturbance on a tropical ant fauna. Insectes Soc. 24: 163-182.

    64. Haines, I. H. and Haines, J. B. 1978. Colony structure, seasonality and food requirements of the crazy ant, Anoplolepis longipes (Jerd.), in the Seychelles. Ecol. Entomol. 3: 109-118.

    65. Hardy, D. E. 1979. An ecological survey of Puaaluu Stream. Part III. Report on a preliminary entomological survey of Puaaluu Stream, Maui, Coop. Nat. Park Resources Study Unit. Univ. of Hawaii, Manoa. Tech. Rept. 27: 34-39.

    66. Hill, M., Holm, K. Vel, T., Shah, N.J. and Matyot, P. 2003. Impact of the introduced yellow crazy ant Anoplolepis gracilipes on Bird Island, Seychelles Biodiversity and Conservation 12(9): 1969 – 1984.
      Résumé: An online database that provides taxonomic information, common names, synonyms and geographical jurisdiction of a species. In addition links are provided to retrieve biological records and collection information from the Global Biodiversity Information Facility (GBIF) Data Portal and bioscience articles from BioOne journals.
      Available from: http://www.itis.gov/servlet/SingleRpt/SingleRpt?search_topic=TSN&search_value=575523 [Accessed 22 February 2008]

    68. Jourdan, H., Mille, C. 2006. Les invertébrés introduits dans l'archipel néo-calédonien : espèces envahissantes et potentiellement envahissantes. Première évaluation et recommandations pour leur gestion. In M.-L. Beauvais et al. (2006) : Les espèces envahissantes dans l’archipel néo-calédonien, Paris, IRD Éditions, 260 p.+ cédérom.
      Résumé: Cette synthèse sur les invertébrés envahissants et potentiellement envahissants dans l'archipel calédonien a été réalisée dans le cadre d'une expertise collégiale menée par l'IRD.
      Résumé: Available from: http://muse.jhu.edu/journals/pacific_science/v058/58.3lester.pdf [Accessed Jan 20 2006]

    70. Lumsden, L., Silins J., and Schulz, M. 1999. Population dynamics and ecology of the Christmas Island Pipistrelle, Pipistrellus murrayi, on Christmas Island. Heidelberg, Victoria, Australia, Arthur Rylah Institute for Environmental Research, Department of Natural Resources and Environment: 99.

    71. Majer, J. D. 1993. Comparison of the arboreal ant mosaic in Ghana, Brazil, Papua New Guinea and Australia - its structure and influence on arthropod diversity. In Hymenoptera and Biodiversity. J. LaSalle and I. D. Gauld. Wallingford, UK, CAB International: 115-141.

    72. Maschwitz, U., Fiala, B. and Dolling, W. R. 1987. New trophobiotic symbioses of ants with South East Asian bugs. Journal of Natural History 21(5): 1097-1108.

    73. Rajagopal, D. 1984. Observations on the natural enemies of Odontotermes wallonensis (Wasmann) (Isoptera: Termitidae) in South India. J. Soil Biol. Ecol. 4: 102-107.

    74. Rajagopal, D. and Musthak, Ali T. M. 1984. Predatory ants of the mound building termite, Odontotermes wallonensis (Wasmann) with special reference to the predatory behaviour of Leptogenys processionalis (Jerdon). J. Bombay Nat. Hist. Soc. 81: 721-725.

    75. Rao, N. S. and Veeresh, G. K. 1991. Nesting and foraging habits of crazy ant Anoplolepis longipes (Jerdon) (Hymenoptera: Formicidae). Environmental Ecology 9(3): 670-677.

    76. Rao, N. S. and Veeresh, G. K. 1991. Some observations on the biology and behaviour of crazy ant, Anoplolepis longipes (Jerdon) (Hymenoptera: Formicidae). Entomon. 16(4): 261-267.

    77. Rao, N. S., Veeresh, G. K. and Viraktamath, C. A. 1989. Association of crazy ant, Anoplolepis longipes (Jordon) with different fauna and flora. Indian Journal of Ecology 16(2): 205-208.

    78. Rao, N. S., Veeresh, G. K. and Viraktamath, C. A. 1991. Dispersal and spread of crazy ant Anoplolepis longipes (Jerdon) (Hymenoptera: Formicidae). Environmental Ecology 9(3): 682-686.

    79. Reimer, N. J., Beardsley, J. W. and Jahn, G. 1990. Pest ants in the Hawaiian Islands. Applied myrmecology, a world perspective. In Vander Meer, R. K., Jaffe, K. and Cedeno, A.. Boulder, CO, Westview Press: 40-50.

    80. Room, P. M. 1975. Diversity and organization of the ground foraging ant faunas of forest, grassland and tree crops in Papua New Guinea. Australian Journal of Zoology 23: 71-89.

    81. Room, P. M. 1980. Insect fauna of oil palm in the Northern Province of Papua New Guinea. Papua New Guinea Agric. J. 31: 1-4.

    82. Sakimura and Higa 1967. The long-legged ant, new to pineapple. Pineapple Research Institute News 15: 48-53.
      Résumé: Available from: http://www.fijiants.org/ [Accessed 7 February 2011]

    84. Soans, A. B. and Soans, J. S. 1971. A case of intergeneric competition and replacement in the ants Oecophylla smaragdina (Fab.) and Anoplolepis longipes (Jerdon) (Hymenoptera: Formicidae). Journal of the Bombay Natural History Society 68: 289-290.

    85. Van der Groot, P. 1916. Verdere onderzoekingen omtrent de oeconomische beteekenis der gramang-mier. Mededeelingen van het Proefstation Midden-Java, Salatiga 22: 1-222.

    86. Vander Meer, R. K., Jaffe, K. and Cedeno, A. 1990. Applied Myrmecology: A World Perspective. Boulder, CO, Westview Press.

    87. Veeresh, G. K. 1990. Pest ants of India. Applied Myrmecology, A World Perspective. In Vander Meer, R. K., Jaffe, K. and Cedeno, A.. Boulder, CO. 741 pp., Westview Press: 15-24.

    88. Way, M. J. and Khoo, K. C. 1989. Relationships between Helopeltis theobromae damage and ants with special reference to Malaysian cocoa smallholdings. J. Plant Prot Trop 6: 1-11.

    89. Wetterer, J. K. (2005). Worldwide distribution and potential spread of the long-legged ant, Anoplolepis gracilipes (Hymenoptera: Formicidae). Sociobiology 45(1): 77-97.

    90. Wetterer, J. K. 1997. Ants On Cecropia in Hawaii. Biotropica 29(1): 128-132.

    91. Wetterer, J. K. 1998. Nonindigenous ants associated with geothermal and human disturbances in Hawai'i Volcanoes National Park. Pacific Science 52(1): 40-50.

    92. Wilson, E. O. and Taylor, R. W. 1967. The ants of Polynesia (Hymenoptera: Formicidae). Pacific Insects Monog. 14: 1-109.

    93. Young, G. R. 1996. The Crazy Ant, Anoplolepis longipes (Jerdon) (Hymenoptera: Formicidae) on coconut palms in New Guinea. Papua New Guinea Journal of Agriculture, Forestry and Fisheries. 39(2): 10-13.
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ISSG Landcare Research NBII IUCN University of Auckland