Your search keyword '"Elliott, Todd F."' showing total 3 results

1. Modeling mycorrhizal fungi dispersal by the mycophagous swamp wallaby (Wallabia bicolor).

Author

Danks, Melissa A., Simpson, Natalie, Elliott, Todd F., Paine, C. E. Timothy, and Vernes, Karl

Subjects

MYCORRHIZAL fungi, WALLABIES, SWAMPS, ANIMAL dispersal, FUNGAL spores

Abstract

Despite the importance of mammal‐fungal interactions, tools to estimate the mammal‐assisted dispersal distances of fungi are lacking. Many mammals actively consume fungal fruiting bodies, the spores of which remain viable after passage through their digestive tract. Many of these fungi form symbiotic relationships with trees and provide an array of other key ecosystem functions. We present a flexible, general model to predict the distance a mycophagous mammal would disperse fungal spores. We modeled the probability of spore dispersal by combining animal movement data from GPS telemetry with data on spore gut‐retention time. We test this model using an exemplar generalist mycophagist, the swamp wallaby (Wallabia bicolor). We show that swamp wallabies disperse fungal spores hundreds of meters—and occasionally up to 1,265 m—from the point of consumption, distances that are ecologically significant for many mycorrhizal fungi. In addition to highlighting the ecological importance of swamp wallabies as dispersers of mycorrhizal fungi in eastern Australia, our simple modeling approach provides a novel and effective way of empirically describing spore dispersal by a mycophagous animal. This approach is applicable to the study of other animal‐fungi interactions in other ecosystems. [ABSTRACT FROM AUTHOR]

Published

2020

2. The endangered Hastings River mouse (Pseudomys oralis) as a disperser of ectomycorrhizal fungi in eastern Australia.

Author

Elliott, Todd F., Townley, Sally, Johnstone, Charmaine, Meek, Paul, Gynther, Ian, and Vernes, Karl

Subjects

*ECTOMYCORRHIZAL fungi, *MURIDAE, *MYCORRHIZAL fungi, *MICE, *ZOOGEOGRAPHY, *ECOSYSTEM services, *FECES

Abstract

Rodents are the most widespread and diverse order of vertebrate mycophagists and are key to the dispersal of mycorrhizal fungi. Rodents consume and subsequently disperse fungi through their feces on every continent except Antarctica. This study examines the fungal taxa consumed by the Hastings River mouse (Pseudomys oralis), an endangered Australian endemic rodent from the family Muridae. We analyzed 251 fecal samples collected over a 19-year period between 1993 and 2012 at sites throughout the distribution of the animal in New South Wales and Queensland. We show that at least 16 genera of mycorrhizal fungi are eaten by this species and that it is therefore playing an important role as a vector of ectomycorrhizal truffle-like fungi in eastern Australia. Similar to the fungal diets of other mammals in eastern Australia, seasonal fungal consumption was greatest in autumn and winter. The dietary diversity of P. oralis also appeared to follow a geographic trend from south to north; samples collected at sites in the southern part of the species' range had greater diversity than those from sites in the northern part of the range, and overall, diets from southern sites yielded more fungal taxa than did northern sites. This study provides novel insights into the diet of P. oralis and highlights the importance of previously overlooked ecosystem services this species provides through its dispersal of mycorrhizal fungi. [ABSTRACT FROM AUTHOR]

Published

2020

3. AUSTRALASIAN SEQUESTRATE FUNGI 20: RUSSULA SCARLATINA (AGARICOMYCETES: RUSSULALES: RUSSULACEAE), A NEW SPECIES FROM DRY GRASSY WOODLANDS OF SOUTHEASTERN AUSTRALIA.

Author

Elliott, Todd F. and Trappe, James M.

Subjects

FORESTS & forestry, SCARLATINA, SPECIES, FUNGI, EUCALYPTUS

Abstract

Russula scarlatina sp. nov. is a common sequestrate fungus found in the dry sclerophyll Eucalyptus woodlands of southeastern Australia. Basidiomata are hypogeous or sometimes emergent; they are scarlet in youth and become dark sordid red or brown with advanced age. Historically, this species would have been placed in the genus Gymnomyces, but in light of recent revisions in the taxonomy of sequestrate Russulaceae, we place it in the genus Russula. It is morphologically distinct from other sequestrate species of Russula because of its scarlet peridium and unusual cystidial turf in youth. It has been collected only in dry grassy woodlands and open forest habitats of southeastern Australia. [ABSTRACT FROM AUTHOR]

Published

2019