A review on Insect - fungus interactions with special emphasis on Cordyceps spp.


Abstract views: 303 / PDF downloads: 58

Authors

  • Satish Kumar ICAR-Directorate of Mushroom Research, Solan
  • Ved Parkash Sharma ICAR-Directorate of Mushroom Research, Solan
  • Shwet Kamal ICAR-Directorate of Mushroom Research, Solan

Abstract

Insects belong to class Insecta and originally referred to as Hexapoda. Insects are tracheata arthropods where the body is typically divided in to three parts head, thorax and abdomen. The sexes are separate but in some species males may be rare or absent and reproduction may take place parthenogenetically. Insects are the most diverse group of organisms as the number of species of insects is more than any other group of living organisms. Biological attributes such as small size, strong exoskeleton, high mobility through flight, efficient water conservation, rapid reproduction and adoptability are associated with their predominance. In the world some 900 thousand different kind of living insects are known (www.si.edu/encyclopedia). So far much attention has been given to the entomofauna that exist in the canopies of tropical forests of the world. Insects also probably have the largest biomass of the terrestrial animals. It is estimated that there are some 10 quintillion (1018) individual insect alive. Certain social insects have large number of individuals in their nests. An ant nest in Jamaica was calculated to include 6, 30,000 individuals. The second largest group is of fungus flora, which is estimated to be 1.5 million species (Hawksworth, 1992). Therefore, the number of species of fungi would be second only to number of insects. Soil harbour numerous and diverse group of fungi e.g. more that 125 species of soil fungi (mostly Hypomycetes) were reported in depauperate alpine soil in the Rockies of Alberta by Bissett and Parkinson (1980). Insects and fungi are unrelated to each other still there is a lot of interdependence and interactions between them. Interactions may be mutualistic, symbiotic, commensalisms or parasitic. Fungi are highly versatile, plastic and adaptable pleomorphic group often abstract and transport nutrients from diverse substrates which can be used by the insects. Insect-fungus mutulism and commensalisms have co-evolved since they occur in diverse orders and families of Arthropoda and fungi (Batra, 1978). Some macro-fungi especially the polypores and mushrooms are major source of food for numerous insects particularly certain group of beetles (Histeridae, Languriidae) and flies (Sciaridae, Phoradae). On the other hand toxins produced by fungi such as aflatoxin from Aspergillus flavus, beauvericin from Beauveria bassiana and destruxin A and b from Metarrhizium anisopliae are responsible for death of host insect. First record of insect disease is that of Metarrhizium anisopliae in USSR in 1879. The common fungal diseases are caused by the green and white muscardine fungi which have wide host range (Atwal, 1976). On the other hand, there are number of similarities between fungi and arthropods. Both have fuselage like body form with chitin as the main structural component. They are small numerous and specialized in both sexual and asexual activity. They are found in almost all ecological niches. Different types of relationships viz symbiosis, mutualism and parasitism exists between insects and fungi. Existence of some interesting relationship between insects and fungi is reviewed and discussed in this communication. 

Author Biographies

  • Satish Kumar, ICAR-Directorate of Mushroom Research, Solan
    Principal Scientist
  • Ved Parkash Sharma, ICAR-Directorate of Mushroom Research, Solan
    Director
  • Shwet Kamal, ICAR-Directorate of Mushroom Research, Solan
    Sr. Scientist

References

Abe, T., D.E. Bignell and M. Higashi. 2000. Termites: Evolution, Society, Ecology. Kluwer Academic, Dordrecht, The Netherlands.

Alamouti, S.M., J.J. Kim and C. Breuil. 2005. Identity and phylogeny of Ophiostomatoid fungi associated with four spruce attacking bark beetles. In Forest insect epidemics: population dynamics, dispersal and ecosystem impacts. University of North british Columbia 11-14 July, 2005.

Amanda, D.R, M.A.J. Patrick, V.R. Adrianne, E.K.C. Janice, and A.H.S. Felix. 2011. Microb. Ecol. On line Pub.

Atwal, A.S. 1976. Agricultural Pests of India and South East Asia. Kalyani Pub., New Delhi. p 529

Batra, L.R. 1978. Insect- fungus symbiosis. Allanheld, Osmun & co. Pub. Inc. p. 259

Batra, L.R. and S.W.T. Batra. 1979. In Insect- Fungus Symbiosis (Ed Batra, L.R.) Allanheld, Osmun & co. Pub. pp. 117- 163.

Bissett, J and D. Parkinson. 1980. Long term effect of fire on the composition and activity of the soil microflora of a subalpine coniferous forest. Canad. J. Bot. 58: 1704-1721.

Celine Leroy, N.S. Delmas , Jauneau, A. Gonzalez, M.X.R, Gryta, H, Jargeat, P, Corbara, B., Dejean, A. and O. Jerome. 2011. Trophic mediation by a fungus in an ant plant mutualism. J. Eco. 99 (2): 583-590.

Christina Pilz, R. Wegensteiner and S. Keller. 2008. Natural occurrence of insect pathogenic fungi and insect parasitic nematodes in Diabrotica virgifera virgifera populations. Bio- Control 53: 353-359.

Darlington, J.E.C.P. 1994. In Nourishment and Evalution in Insect Societies (Eds Hunt, J.H. and Nalepa, C.A.) Westview Boulder Co . pp105-130.

Flores, J.M., J.A. Ruiz, J.M. Ruz, F. Puerta, M. Bustos, F. Padilla and F. Campano. 1996. Effect of temperature and humidity of sealed brood on chalkbrood development under controlled conditions. Apidologie 27:185-192.

Garling, L. 1979. Origin of ant-fungus mutualism: a new hypothesis. Biotropica 11: 284-291.

Hawksworth, D.L. 1992. Fungi: A neglected component of biodiversity crucial to ecosystem function and maintenance. Canadian Biodiversity 1:4-10.

Kim, B.C., J.J. Lee, A. Plattner, S. Diguistini and W.Y. Lim. 2005. What is new about the fungi associated with the moutain pine beetle. In Forest insect epidemics: population dynamics, dispersal and ecosystem impacts. University of North British Columbia 11-14 July, 2005.

Kobayasi, Y. 1982. Key to taxa of the genera Cordyceps and Torrubiella. Trans Mycol Soc 23: 329-364

Kok, L.T. 1979. Lipids of ambrosia fungi and the life of mutualistic beetles. In Insect- Fungus Symbiosis (Ed Batra), L.R. Allanheld, Osmun & co. Pub. pp33-52.

Lavallee, R.T., R. Guertin, C. Cote, C. Coulmbe, P. Desrochers, R. De G Alfaro, H. Kope, J. Sweeney and G. Thurston. 2005. The use of Beauveria bassiana as a potential control method against pine shoot beetle. . In Forest insect epidemics: population dynamics, dispersal and ecosystem impacts. University of North British Columbia 11-14 July, 2005.

Lee, S., J.J. Kim, and C. Breuil. 2005. Genetic diversity and pathogenicity of Ophiostoma clavigerum associated with the mountain pine beetle in BC and the northwestern US. In Forest insect epidemics: population dynamics, dispersal and ecosystem impacts. University of North British Columbia 11-14 July, 2005.

Martin, M.M. 1992. The evolution of insect-fungus associations-from contact to stable symbiosis. Am Zool 32: 596-605

Maassen, A. 1913. Weitere Mitteilungen Aber die Seuchenhaften der Bienen. Mitt Biol Zent Anst 14: 48-58

Moss, S.T. 1979. Commensalism of the Trichomycetes. In Insect- Fungus Symbiosis (Ed Batra), L.R. Allanheld, Osmun& co. Pub.pp175-228.

Mueller, U.G. and N. Gerado. 2002. Fungus farming insects: multiple origins and diverse evolutionary histories. PANS 99(24): 15247-15249.

North, R.D., C.W. Jackson and P.E. Howse. 1997. Evolutionary aspects of antfungus interactions in leaf cutting ants. TREE 12: 386-389

Rikiya, E., M. Suzuki, G. Okada, Y. Takeuchi and K. Futai. 2011. Fungus symnionts colonizing the galleries of the ambrosia beetle, Platypus quercivorus. Microb Ecol. On line Pub.

Ross, H.H., C.A. Ross and J.R.P. Ross. 1982. A Text Book of Entomology. John Wiley and Sons, New York, 666p.

White, P.F. 1995. Biological control if mushroom pests: an evaluation. Mush Sci XIV: 478-484.

Winkler, D. 2010. Caterpillar fungus (Ophiocordyceps sinensis) production and sustainability on the Tibetan Plateau and in Himalaya. Chinese Grass Land Jour 32: 96-108.

Downloads

Submitted

2016-04-02

Published

2016-10-25

Issue

Vol. 24 No. 1 (2015)

Section

Articles

License

I/We have taken permission from the copyright holder to reproduce the matter not owned by me and acknowledged the source.

I/We permit editors to publish the said paper in the journal or in any other means with editorial modification, if any.
In case of publication of the article in the journal,

I/We hereby assign copyright to the Mushroom Research Journal for its publication in any form/language including all media (print and electronic, or presently unknown), and exclusive right to use the matter for the life of the work (no time restriction on re-use of matter). 

How to Cite

Kumar, S., Sharma, V. P., & Kamal, S. (2016). A review on Insect - fungus interactions with special emphasis on Cordyceps spp. Mushroom Research, 24(1). https://epubs.icar.org.in/index.php/MR/article/view/57333