Establishment of ectomycorrhizae on the roots of two species of Eucalyptus from fungal spores contained in the faeces of the long‐nosed potoroo (Potorous tridactylus)

Abstract

Abstract The long‐nosed potoroo (Potorous tridactylus), a medium‐sized, ground‐dwelling marsupial, inhabits the foothills and coastal forests of southeastern mainland Australia. Faecal analysis confirmed the mycophagous habit of P. tridactylus at a eucalypt forest site in East Gippsland, Victoria; in one month, the spores of 33 different fungi were identified. The majority of species (27) were hypogeal or subhypogeal gasteromycetes that form ectomycorrhizae with forest trees and shrubs, and included the widespread and common Mesophellia pachytrix. The possible role of mycophagy in establishment of eucalypt‐fungal mycorrhizae was investigated in several ways. Fungal spores were viable after passage through the gut of P. tridactylus; application of spore‐bearing faeces to seedlings of Eucalyptus sieberi and Eucalyptus globoidea grown in sterile soil produced ectomycorrhizae. Spores of M. pachythrix were among the most common spores in these faeces and some of the resulting ectomycorrhizae were of the type expected from M. pachythrix. In contrast, direct application of M. pachythrix spores from sporocarp tissue to seedlings produced no ectomycorrhizae. Ectomycorrhizae also were established on seedlings grown in unsterilized forest soil, indicating that soil‐borne spores had been conditioned, either by passage through the gut of a mammal or some other means, for reaction with the roots of eucalypts. Addition of faeces improved root and shoot growth of seedlings, although we could not determine whether this was primarily due to the formation of ectomycorrhizae, the addition of nutrients in the faeces, or a combination of both. Potorous tridactylus may enhance the re‐establishment of mycorrhizal colonies in logged and/or burned forest sites by dispersing in its faeces, the spores of mycorrhizal fungi from sporocarps consumed within the disturbed area, as well as spores from sporocarps eaten in adjacent undisturbed habitat. In performing this function, P. tridactylus may also aid in the recovery of regenerating silvertop ash‐stringybark forests.