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Phytophagy and Mycophagy

  • Graham E. Rotheray
Chapter
Part of the Zoological Monographs book series (ZM, volume 4)

Abstract

Phytophages and mycophages obtain nourishment from live plant and fungal tissue respectively and are the subject of this chapter. Compared to the low-viscosity food utilised by most saprophages, the food of phytophages and mycophages is typically firmer and harder. To imbibe firm to hard food, phytophagous and mycophagous larvae must fragment tissue prior to sucking it up and the various morphologies and features involved are identified and compared and contrasted. The roles of these features both as indicators of feeding mode and as a means of understanding phytophagy and mycophagy are evaluated. Facultative phytophages and mycophages are a route to obligate phytophagy and mycophagy. Facultative taxa possess a complex variety of relationships with microbes that help soften and decay tissue prior to feeding, and larvae supplement their diets by feeding on associated microbes. Despite certain common features in morphology and movement, feeding and locomotor mechanisms are diverse in phytophages and mycophages and such diversity correlates to variable food qualities and conditions of access at development sites.

References

  1. Aderkas von P, Peterson BV (1987) Chirosia betuleti (Ringdahl) (Diptera: Anthomyiidae) a gall-former on the Ostrich fern, Matteuccia struthiopteris, with notes on other insect-fern associates. Proc Entomol Soc Wash 89:532–547Google Scholar
  2. Bauer G (1986) Life-history strategy of Rhagoletis alternata (Diptera: Trypetidae), a fruit fly operating in a ‘non-interactive’ system. J Anim Ecol 55:785–794CrossRefGoogle Scholar
  3. Benavent-Corai J, Martinez M, Peydró R (2005) Catalogue of the host-plants of the world Agromyzidae (Diptera). Bolletino Di Zoologia Agraria e Di Bachicoltura (Suppl) 37:1–97Google Scholar
  4. Bland KP, Horsfield D (2016) Distribution and biology of Palloptera scutellata (Macquart) (Diptera, Pallopteridae) in south-east Scotland. Dipt Digest 23:51–53Google Scholar
  5. Burke HE (1905) Black check in western hemlock, vol 61. USDA, Bureau of Entomology, Washington, pp 1–10Google Scholar
  6. Cameron AE (1914) A contribution to a knowledge of the Belladonna leaf-miner, Pegomyia hyoscyami, Panz., its life history and biology. Ann Appl Biol 1:43–71CrossRefGoogle Scholar
  7. Chandler PJ (1975) Observations on the plant of the Psilidae (Diptera). Entomol Rec J Var 87:13–16Google Scholar
  8. Chandler PJ (1991) Attraction of Palloptera usta Meigen (Diptera: Pallopteridae) to recently cut conifer wood and other notes on Pallopteridae. Br J Entomol Nat Hist 4:85–87Google Scholar
  9. Chandler PJ (2001) The flat-footed flies (Diptera: Opetiidae and Platypezidae) of Europe. Fauna Entomol Scand 36:1–276Google Scholar
  10. Chandler PJ (2010) Associations with fungi and mycetozoa. In: Chandler PJ (ed) A Dipterist’s handbook, vol 15, 2nd edn. The Amateur Entomologists’ Society, Orpington, pp 417–441Google Scholar
  11. Chandler PJ (2016) Flat-footed fly recording scheme. Biol Rec Centre Newsl 1:1–10Google Scholar
  12. Chinery M (2011) Britain’s plant galls: a photographic guide. WildGuidesGoogle Scholar
  13. Crowson R (1981) The biology of the Coleoptera. Academic Press, LondonGoogle Scholar
  14. Currie GA (1937) Galls on eucalyptus trees. A new type of association between flies and nematodes. Proc Linn Soc NSW 62:147–174Google Scholar
  15. Dempewolf M (2001) Larvalmorphologie und Phylogenie der Agromyzidae (Diptera). Ph.D thesis. University of Bielefeld, GermanyGoogle Scholar
  16. Ferrar P (1979) The immature stages of dung-breeding muscoid flies in Australia, with notes on the species and keys to larvae and puparia. Aust J Zool Suppl Ser 27:1–106CrossRefGoogle Scholar
  17. Ferrar P (1987) A guide to the breeding habits and immature stages of Diptera Cyclorrhapha. Entomon 8:1–907Google Scholar
  18. Godfray HCJ (1986) Clutch size in a leaf-mining fly (Pegomya nigritarsis: Anthomyiidae). Ecol Entomol 11:75–81CrossRefGoogle Scholar
  19. Headrick DH, Goeden RD (1990) Description of the immature stages of Paracantha gentilis Hering (Diptera: Tephritidae). Ann Entomol Soc Am 83:220–229CrossRefGoogle Scholar
  20. Headrick DH, Goeden RD (1993) Life history and description of immature stages of Aciurina thoracica Curran (Diptera: Tephritidae) on Baccharis sarothroides in southern California. Ann Entomol Soc Am 86:68–79CrossRefGoogle Scholar
  21. Hellrigl K (1992) Die Fichtenharzfliege Cheilosia morio Zett. (Dipt. Syrphidae) als physiologischer Schädling an Fichten in Sudtirol. Anz Schädl Pflanzen Umwelt 65:33–36CrossRefGoogle Scholar
  22. Hennig W (1952) Die Larvenformen der Dipteren, vol 3. Akademie Verlag, BerlinGoogle Scholar
  23. Hering EM (1951) Biology of the leafminers. Dr W Junk, The HagueGoogle Scholar
  24. Imada Y, Kato M (2016) Bryophyte-feeders in a basal brachyceran lineage (Diptera: Rhagionidae: Spaniinae): adult oviposition behavior and changes in the larval mouthpart morphology accompanied with the diet shifts. PLoS One 11(11):e0165808.  https://doi.org/10.1371/journal.pone.0165808 CrossRefPubMedPubMedCentralGoogle Scholar
  25. Kadowacka K (2010) Species coexistence patterns in a mycophagous insect community inhabiting the wood-decaying bracket fungus Cryptoporus volvatus (Polyporaceae: Basidiomycota). Eur J Entomol 107:89–99CrossRefGoogle Scholar
  26. Keilin D (1912) Structure du pharynx en fonction du regime chez les larves des Diptères cyclorhaphes. Comptes rendus hebdomadaires des seances de l’académie Paris, vol 155, pp 1548–1550Google Scholar
  27. Keilin D (1915) Recherches sur les larves de Dipteres Cyclorrhaphes. Bull Sci Fr Bel 49:15–198Google Scholar
  28. Keilin D, Tate P (1930) On certain semi-carnivorous anthomyid larvae. Parasitology (Cam) 22:168–181CrossRefGoogle Scholar
  29. Keilin D, Tate P (1943) The larval stages of the celery fly (Acidia heraclei L.) and of the braconid Adelura apii (Curtis) with notes upon an associated parasitic yeast-like fungus. Parasitology (Cam) 35:27–36CrossRefGoogle Scholar
  30. Kessel EL (1961) The immature stages of Callomyia, with description of a new species of this genus (Diptera: Platypezidae). Occ Pap Calif Acad Sci 30:1–10Google Scholar
  31. Krivosheina NP (2008) Macromycete fruit bodies as a habitat for dipterans (Insecta, Diptera). Entomol Rev 88:778–792CrossRefGoogle Scholar
  32. Lewinsohn T, Novotny V, Basset Y (2005) Insects on plants: diversity of herbivore assemblages revisited. Annu Rev Evol Syst 36:597–620CrossRefGoogle Scholar
  33. Martin MM (1979) Biochemical implications of insect mycophagy. Biol Rev 54:1–21CrossRefGoogle Scholar
  34. Morge G (1956) Der Morphologie und Lebensweise der bisher unbekannten Larven von Palloptera usta Meigen, Palloptera ustulata Fallén und Stegana coleoptrata Scopoli (Diptera). Beitr Entomol 6:124–137Google Scholar
  35. Narchuk EP (1985) Adaptations of cyclorrhaphan larvae (Diptera) for the inhabitation of living plants. In: Skarlato OA (ed) Systematics of Diptera (Insecta): ecological and morphological principles. Oxonian Press, New Delhi, pp 97–101Google Scholar
  36. Papp L (1979) Some fungivorous species of Sphaeroceridae and Drosophilidae (Diptera) from Karelia, USSR. Folia Entomol Hung 32:189–193Google Scholar
  37. Papp L (1994) Morphology of third instar larva and puparium of three heleomyzid species (Diptera: Heleomyzidae). Acta Zool Acad Sci Hung 40:219–229Google Scholar
  38. Prado PI, Lewinsohn TM, Almeida AM, Norrbom AL, Buys BD, Macedo AC, Lopes MB (2002) The fauna of Tephritidae (Diptera) from capitula of Asteraceae in Brazil. Proc Entomol Soc Wash 104:1007–1028Google Scholar
  39. Reader T (2003) Strong interactions between species of phytophagous fly: a case of intraguild kleptoparasitism. Oikos 103:101–112CrossRefGoogle Scholar
  40. Redfern M, Shirley P, Bloxham M (2011) British plant galls: identification of galls on plants and fungi. AIDGAP Guides, Field Studies CouncilGoogle Scholar
  41. Ricarte A, Marcos-García MA, Rotheray GE (2008) The early stages and life histories of three Eumerus and two Merodon species (Diptera: syrphidae) from the Mediterranean region. Entomol Fenn 19:129–141Google Scholar
  42. Roberts MJ (1971) The structure of the mouthparts of some calypterate dipteran larvae in relation to their feeding habits. Acta Zool 52:171–188CrossRefGoogle Scholar
  43. Rotheray GE (1986) Colour, shape and defence in aphidophagous syrphid larvae (Diptera). Zool J Linnean Soc 88:201–216CrossRefGoogle Scholar
  44. Rotheray GE (1988a) Larval morphology and feeding patterns of four Cheilosia species (Diptera: Syrphidae) associated with Cirsium palustre L. Scopoli (Compositae) in Scotland. J Nat Hist 22:17–25CrossRefGoogle Scholar
  45. Rotheray GE (1988b) Morphology and feeding behaviour of the leaf-mining larva of Cheilosia semifasciata (Diptera: Syrphidae). J Nat Hist 22:865–873CrossRefGoogle Scholar
  46. Rotheray GE (1990) The relationship between feeding mode and morphology in Cheilosia larvae (Diptera, Syrphidae). J Nat Hist 24:7–19CrossRefGoogle Scholar
  47. Rotheray GE (1991) Larval stages of 17 rare and poorly known British hoverflies (Diptera: Syrphidae). J Nat Hist 25:945–969CrossRefGoogle Scholar
  48. Rotheray GE (2011) The puparia of Chyromya femorellum (Fallén) (Chyromyidae), Camilla atrimana Strobl and Camilla fuscipes Collin (Camillidae) (Diptera) reared from bird and mammal nests and burrows. Dipt Digest 18:81–93Google Scholar
  49. Rotheray GE (2014) Development sites, feeding modes and early stages of seven European Palloptera species (Diptera, Pallopteridae). Zootaxa 3900:50–76CrossRefGoogle Scholar
  50. Rotheray GE (2016) Improving knowledge of the cyclorrhaphan larva (Diptera). J Nat Hist 50:2169–2198CrossRefGoogle Scholar
  51. Rotheray GE, Bland KP (2003) The stem-living larva of Platyparea discoidea (Fabricius) (Diptera, Tephritidae). Dipt Digest 10:7–12Google Scholar
  52. Rotheray GE, Gilbert F (2011) The natural history of hoverflies. Forrest Text, CardiganGoogle Scholar
  53. Rotheray GE, Hewitt S (2015) Development site, feeding mode and early stages of Palloptera scutellata (Macquart) (Diptera, Pallopteridae). Dipt Digest 22:157–170Google Scholar
  54. Rotheray GE, Horsfield D (2013) Development sites and early stages of eleven species of Clusiidae (Diptera) occurring in Europe. Zootaxa 3619:401–427CrossRefGoogle Scholar
  55. Rotheray GE, Lyszkowski R (2015) Diverse mechanisms of feeding and movement in Cyclorrhaphan larvae (Diptera). J Nat Hist 49:2139–2211CrossRefGoogle Scholar
  56. Rotheray GE, Chandler PJ, Gilbert F (2004) Final stage larvae and puparia of Platypezidae (Diptera). Insect Syst Evol 35:79–105CrossRefGoogle Scholar
  57. Ryzhkova YV (1962) Phytopathogenic symbionts of Oscinella frit. L. and O. pusillanimous Mg. (Diptera, Chloropidae) and their practical use. Entomol Rev 41:788–795Google Scholar
  58. Schmid U (1999) Die Larve von Cheilosia impressa (Diptera, Syrphidae). Volucella 4:113–119Google Scholar
  59. Schmid U (2000) Cheilosia rhodiolae spec. nov. – taxonomie und ökologie einer alpinen schwebfliege (Diptera, Syrphidae) aus der Cheilosia fasciata-gruppe. Volucella 5:15–50Google Scholar
  60. Semelbauer M, Kozánek M. (2012) Morphology of preimaginal stages of Lauxania and Calliopum (Diptera: lauxaniidae). Zootaxa 3346:1–28CrossRefGoogle Scholar
  61. Shaw MR, Askew RR (2010) Hymenopterous parasitoids of Diptera. In: Chandler P (ed) A Dipterist’s handbook, vol 15, 2nd edn. Amateur Entomologist’s Society, Hanworth, pp 347–361Google Scholar
  62. Shorthouse JD, Rohfritsch O (eds) (1992) Biology of insect-induced galls. Oxford University Press, OxfordGoogle Scholar
  63. Skidmore P (1985) The biology of the Muscidae of the world. Junk, DordrechtGoogle Scholar
  64. Smith KVG (1989) An introduction to the immature stages of British Flies. Handbk Ident Br Insects 10:1–280Google Scholar
  65. Speight MCD (1986) Portevinia maculata (Fal.): last instar larva and puparium, with notes on the relationship between this hoverfly and its host-plant, Allium ursinium (Diptera, Syrphidae). Nouv Rev Entomol 3:37–43Google Scholar
  66. Spencer KA (1990) Host specialization in the world Agromyzidae (Diptera). Kluwer, DordrechtCrossRefGoogle Scholar
  67. Stone GN, Schönrogge K (2003) The adaptive significance of insect gall morphology. Trends Ecol Evol 18:512–522CrossRefGoogle Scholar
  68. Strong DR, Lawton JH, Southwood R (1984) Insects on plants, community patterns and mechanisms. Blackwell, OxfordGoogle Scholar
  69. Stubbs AE (1969) Observations on Palloptera scutellata Mcq. in Berkshire and Surrey and a discussion on the larval habits of Pallopteridae (Dipt.). Entomol Mon Mag 104:157–160Google Scholar
  70. Stuke J-H (2000) Phylogenetische Rekonstruktion der Verwandtschaftsbeziehungen innerhalb der Gattung Cheilosia Meigen, 1822 anhand der Larvenstadien (Diptera: Syrphidae). Studia Dipterol Suppl 8:1–118Google Scholar
  71. Trifourkis S (1977) The bionomics and taxonomy of the larval Mycetophilidae and other fungicolous Diptera. Unpublished Ph.D. Thesis, University of LondonGoogle Scholar
  72. Varley GC (1937) The life history of some trypetid flies, with descriptions of the early stages (Diptera). Trans R Entomol Soc Lond A 12:109–122Google Scholar
  73. Ward LK, Spalding DF (1993) Phytophagous British insects and mites and their food-plant families: total numbers and polyphagy. Biol J Linn Soc 49:257–276CrossRefGoogle Scholar
  74. Wiegmann BM, Trautwein MD, Winkler IS, Barra NB, Kima J-W, Lambkin C, Berton MA, Cassela BK, Bayless KM, Heimberg AM, Wheeler BM, Petersone KJ, Pape T, Sinclair BJ, Skevington JH, Blagoderov V, Caravask J, Narayanan Kutty SN, Schmidt-Ott U, Kampmeier GE, Thompson FC, Grimaldi DA, Beckenbach AT, Courtney GM, Friedrich M, Meier R, Yeates DK (2011) Episodic radiations in the fly tree of life. Proc Natl Acad Sci 108:5690–5695CrossRefGoogle Scholar
  75. Wirth WW (1952) Two new spider egg predators from the Hawaiian Islands (Diptera: Drosophilidae). Proc Hawaii Entomol Soc 14:415–417Google Scholar
  76. White IM, Elson-Harris MM (1992) Fruit flies of economic significance: their identification and bionomics. CAB Int ernational, LondonGoogle Scholar
  77. Ylioja T, Saranpää P, Roininen H, Rousi M (1998) Larval tunnels of Phytobia betulae (Diptera: Agromyzidae) in birch wood. J Econ Entomol 4:185–181Google Scholar

Copyright information

© Springer Nature Switzerland AG 2019

Authors and Affiliations

  • Graham E. Rotheray
    • 1
  1. 1.National Museums of ScotlandEdinburghUK

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