Details

Autor(en) / Beteiligte

• Hajek, Ann E.
• Longcore, Joyce E.
• Rabern Simmons, D.
• Peters, Kenlyn
• Humber, Richard A.

Titel

Chytrid mycoparasitism of entomophthoralean azygospores

Ist Teil von

• Journal of invertebrate pathology, 2013-11, Vol.114 (3), p.333-336

Ort / Verlag

Amsterdam: Elsevier Inc

Erscheinungsjahr

2013

Quelle

MEDLINE

Beschreibungen/Notizen

• Fungus eats fungus: First report of a mycoparasite attacking an entomophthoralean fungus. •Entomophaga maimaiga azygospores in Ohio soil were parasitized by a chytrid.•The chytrid was isolated and identified as Gaertneriomyces semiglobifer.•G. semiglobifer was reisolated after parasitism, satisfying Koch’s postulates.•G. semiglobifer is able to parasitize both immature and mature azygospores. Mycoparasitism – when one fungus parasitizes another – has been reported to affect Beauveria bassiana and mycorrhizal fungi in the field. However, mycoparasitism of any fungi in the Order Entomophthorales has never been reported before now. The majority of entomophthoralean species persist as resting spores (either zygospores or azygospores) in the environment and dormant entomophthoralean resting spores (whether formed as zygospores or azygospores) are thought to be especially well adapted for survival over long periods due to their thick double walls. Entomophthoralean resting spores can accumulate in the soil as large reservoirs of inoculum which can facilitate the onset and development of epizootics. We report parasitism of azygospores of the gypsy moth pathogen Entomophaga maimaiga caged in soil from southern Ohio by the chytrid fungus Gaertneriomyces semiglobifer. G. semiglobifer had previously been isolated from soil samples from North America, Europe and Australia or horse manure from Virginia. After isolation and identification of G. semiglobifer, azygospores of E. maimaiga exposed to zoospores of G. semiglobifer exhibited high levels of mycoparasitism and G. semiglobifer was subsequently reisolated from mycoparasitized resting spores. We discuss the importance of this finding to the epizootiology of insect diseases caused by entomophthoralean fungi.