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Metarhizium acridum

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Title: Metarhizium acridum  
Author: World Heritage Encyclopedia
Language: English
Subject: Biopesticides, Brown locust, Metarhizium anisopliae, Senegalese grasshopper, Insecticides
Collection: Biopesticides, Clavicipitaceae, Fungi Described in 2009, Fungi with Sequenced Genomes, Hypocreales, Parasitic Fungi
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Metarhizium acridum

Metarhizium acridum
Locust killed by M. acridum
Scientific classification
Kingdom: Fungi
Subkingdom: Dikarya
Phylum: Ascomycota
Class: Sordariomycetes
Order: Hypocreales
Family: Clavicipitaceae
Genus: Metarhizium
Species: M. acridum
Binomial name
Metarhizium acridum
(Driver & Milner) J.F. Bisch., Rehner & Humber (2009)

Metarhizium acridum[1] is the new name given to a group of fungal isolates that are known to be virulent and specific to Acrididea. Previously, this species has had variety status in Metarhizium anisopliae (var. acridum[2]); before that, reference had been made to M. flavoviride or Metarhizium sp.[3] describing an "apparently homologous and distinctive group" of isolates that were most virulent against Schistocerca gregaria in early screening bioassays.

Contents

  • Biology 1
  • Important Isolates 2
  • References 3
  • See also 4

Biology

M. acridum almost exclusively infects grasshoppers in the suborder Caelifera of the Orthoptera. Various research groups, including the international LUBILOSA Programme [1] (which developed the product 'Green Muscle') have identified and addressed key technical challenges for exploitation of microbial control agents including: isolate selection, mass production and delivery systems (formulation and application).[4] In other words, insect control (mortality) depends on factors like the number of spores applied against the insect host, the formulation[5] and weather conditions.[6] Oil-based formulations allow the application of fungal spores under dry conditions, and are compatible with existing Ultra-Low Volume (ULV) application techniques for locust control.

M. acridum only targets and affects grasshoppers and locusts. Researchers wanted to know why this parasite was so specific to its target. Researchers believe that this has to do with the Mest1 gene which is not present in M. acridum. A study done by researchers from China tested the function of this gene. By taking a strain of M. robertsii that has a non-functioning Mest1 gene, researchers found that the mutant was only able to infect grasshoppers and locusts which is consistent with M. acridum. This Mest1 gene is what allows the initiation of the infection process on the specific targets. The expression of this Mest1 gene in the parasite M. acridum is triggered by substances that are only found on the waxy coat of the grasshoppers, which explains why this parasite specifically only targets grasshoppers and locusts. [7]

M. acridum is currently under consideration by the USDA for release in the Western U.S. for control of native grasshoppers and crickets.[8]

Important Isolates

  • IMI 330189 (= ARSEF 7486) is the ex-type of the species, originally collected from Niger: the active ingredient of 'Green Muscle'.
  • CSIRO FI 485 (= ARSEF 324) is an Australian isolate: the active ingredient of 'Green Guard'.

References

  1. ^ Bischoff J.F., Rehner S.A. and Humber R.A. (2009). "A multilocus phylogeny of the Metarhizium anisopliae lineage". Mycologia 101 (4): 512–530.  
  2. ^ Driver, F., Milner, R.J. and Trueman, W.H.A. (2000). "A Taxonomic revision of Metarhizium based on sequence analysis of ribosomal DNA". Mycological Research 104 (2): 135–151.  
  3. ^ Bateman, R.P., Carey, M., Batt, D., Prior, C., Abraham, Y., Moore, D., Jenkins, N., Fenlon J. (1996). "Screening for virulent isolates of entomopathogenic fungi against the desert locust, Schistocerca gregaria (Forskål)". Biocontrol Science and Technology 6 (4): 549–560.  
  4. ^ Lomer, C.J., Bateman, R.P., Johnson, D.L., Langewald, J. and Thomas, M. (2001). "Biological Control of Locusts and Grasshoppers". Annual Review of Entomology 46: 667–702.  
  5. ^ Burges, H.D. (ed.) (1998). Formulation of microbial biopesticides, beneficial microorganisms, nematodes and seed treatments. Dordrecht, Netherlands: Kluwer Academic. p. 412 pp.  
  6. ^ Thomas, M.H. and Blanford, S. (2003). "Thermal biology in insect-parasite interactions". Trends in Ecology and Evolution 18 (7): 344–350.  
  7. ^ Wang, S; Fang, W; Wang, C; St; Leger, RJ (2011). "Insertion of an Esterase Gene into a Specific Locust Pathogen (Metarhizium acrid) Enables It to Infect Caterpillars". PLoS Pathog 7 (6): e1002097.  
  8. ^ "Rangeland Grasshopper and Mormon Cricket Program". USDA-APHIS. Archived from the original on 20 January 2011. Retrieved 20 January 2011. 

See also

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