- Ambrosia beetle
Taxobox
name = Ambrosia beetles
image_caption= Examples of Xyleborina. From top left: Amasa sp., Eccoptopterus spinosus, Sampsonius sp., Xylosandrus ursa, Streptocranus fragilis.
regnum =Animal ia
phylum =Arthropod a
classis =Insect a
ordo = Coleoptera
familia = "Curculionidae "
subfamilia =Scolytinae ,Platypodinae
genus = "Platypus,Xylosandrus ,Xyleborus ,..."
subdivision_ranks = Species
subdivision = manyAmbrosia beetles are beetles of the
weevil subfamiliesScolytinae andPlatypodinae (Coleoptera ,Curculionidae ), which live in nutritionalsymbiosis withambrosia fungi . The beetles excavate tunnels in dead trees in which they cultivate fungal gardens, their sole source of nutrition. An ambrosia beetle excavates a tunnel in which it releasesspore s of its fungal symbiont. The fungus penetrates the plant'sxylem tissues, digests it, and then concentrates the nutrients. The majority of ambrosia beetles colonize xylem (sapwood and/or heartwood) of dying or recently dead trees. Species differ in the preferred part of tree, in the shape of their tunnels (“galleries”) or in the preferred physical features of their host, but the majority of ambrosia beetles are not specialized to any taxonomic group of hosts, unlike majority ofphytophagous organisms.Beetles and their
larvae graze onmycelium exposed on the gallery walls and on bodies calledsporodochia , clusters of the fungus’ spores. Most ambrosia beetle species don’t ingest the wood tissue; instead the sawdust resulting from the excavation (called frass) is pushed out of the gallery. Following the larval and pupal stage, adult ambrosia beetles collect masses of spores of the fungal symbiont into their mycangia and leave the gallery to find their own tree.Taxonomy
Until recently ambrosia beetles have been placed in independent families Scolytidae and Platypodidae, however, they are in fact some of the most highly derived
weevils . [Kuschel, G., R. A. B. Leschen, et al. (2000): Platypodidae under scrutiny. Invertebrate Taxonomy 14: 771-805.
Marvaldi, A. E., A. S. Sequeira, et al. (2002): Molecular and Morphological Phylogenetics of Weevils (Coleoptera, Curculionoidea): Do Niche Shifts Accompany Diversifcation? Systematic Biology 51(5): 761-785.] There are currently about 3,000 species of beetles employing the ambrosia strategy, most of them from the subfamily Platypodinae and the subtribe Xyleborina of subfamily Scolytinae, and numerous smaller groups within Scolytinae.Note that the term ambrosia beetle does not denote a taxonomic group, and the ambrosia habit is an example of convergent evolution, in that several groups evolved the same symbiotic relationship independently. [Farrell, B. D., A. S. O. Sequeira, et al. (2001): The evolution of agriculture in beetles (Curculionidae: Scolytinae and Platypodinae). Evolution 55: 2011-2027.] The highest diversity of ambrosia beetles is in the tropics. In the
Neotropic s for example,Platypodinae are joined by the scolytine tribesCortylini andXyleborini . Ambrosial beetle fauna in theNearctic is rather limited by contrast, dominated by a few species from Cortylini, Xyleborini andXyloterini . In thePalearctic ecozone , significant groups are Platypodinae and Xyleborini andScolytoplatypodini .The symbiotic relationship
A few dozen species of ambrosia fungi have been described, currently in the polyphyletic genera "
Ambrosiella ", "Raffaelea " and "Dryadomyces " (all from Ophiostomatales, Ascomycetes). Many more species remain to be discovered. Little is known about thebionomy or specificity of ambrosia fungi. Ambrosia fungi are thought to be dependent on transport and inoculation provided by their beetle symbionts, as they have not been found in any otherhabitat . All ambrosia fungi are probablyasexual and clonal. [Malloch, D., and M. Blackwell. 1993. Dispersal biology of ophiostomatoid fungi. p. 195-206. In: Ceratocystis and Ophiostoma: Taxonomy, Ecology and Pathology. Eds., Wingfield, M.J., K.A. Seifert, and J.F. Webber. APS, St. Paul.]During the evolution of this symbiotic lifestyle, most scolytid and all platypodid groups became progressively more dependent on fungi regularly cohabiting dead trees. This evolution had various outcomes in different groups:
* Somephloem -eating bark beetles (phloeophages) are able to attack and kill live trees since their fungal symbiont is an aggressivephytopathogen . [Paine, T. D., K. F. Raffa, et al. (1997): Interactions between scolytid bark beetles, their associated fungi and live hostconifer s. Annual Review of Entomology 42: 179-206.]
* Many of phloem-feeding bark beetles use phloem-infesting fungi as an addition to their diet; some phloeophages became more or less dependent on such a mixed diet and evolved mycangia to transport their symbionts from maternal trees to newly infested trees. [Klepzik, K. D. and D. L. Six (2004): Bark Beetle - Fungal Symbiosis: Context Dependency in Complex Associations. Symbiosis 37: 189-205.] These beetles are called "mycophloeophages".
* The closest association evolved between ambrosia beetles and ambrosia fungi, where both the beetle and the fungus are completely dependent on each other in multiple stages of life. [Beaver, R. A. (1989): Insect-Fungus Relationship in the Bark and Ambrosia Beetles. Insect-Fungus Interactions. N. Wilding, N. M. Collins, P. M. Hammond and J. F. Webber, Academic Press: 121-143.]References
External links
* The [http://www.scolytid.msu.edu MSU HISL database] contains [http://xyleborini.tamu.edu/world_genera_key/ Xyleborina-related information] from the Catalog of Scolytidae and Platypodidae of Wood &Bright (1987) Wood, S.L. and D.E. Bright. 1987.
* More information on ambrosia beetle social behaviour and fungiculture on [http://behav.zoology.unibe.ch/index.php?pp=55&p=46]
* [http://creatures.ifas.ufl.edu/trees/asian_ambrosia_beetle.htm Asian (or granulate) ambrosia beetle, "Xylosandrus crassiusculus "] on theUF / IFAS Featured Creatures Web site
* [http://creatures.ifas.ufl.edu/trees/beetles/platypus.htm ambrosia beetles, "Platypus" spp.] on theUF / IFAS Featured Creatures Web
* [http://creatures.ifas.ufl.edu/trees/black_twig_borer.htm "Xylosandrus compactus", Black twig borer] on theUF / IFAS Featured Creatures Website
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