Kendra Autumn scite author profile

Arid soil habitats are challenging for sedentary and slow-growing lichens because the integrity of the substrate can easily be disturbed by natural forces, e.g., wind and flood. Yet, adaptation into such habitat types occurred multiple times in lichens that may be associated with specific morphological and ecological adaptations. We studied the genetic and chemical diversity of the lichen-forming fungal genus Xanthoparmelia in Western Australia, where it is abundant in both arid and temperate ecoregions occurring on both soil and rock substrates. We found frequent evolutionary transitions among substrate types and between arid and temperate habitats. However, specific chemical phenotypes were not associated with different habitat and substrate types, and the level of phenotypic (the composition of secondary metabolites) divergence was not correlated with the level of genetic divergence among taxa. The study closes by discussing the importance of arid soil habitats for evolutionary diversification in the hyperdiverse genus Xanthoparmelia.

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On the origin of feces: Fungal diversity, distribution, and conservation implications from feces of small mammals

Bradshaw

Autumn

Rickart

et al. 2022

Environmental DNA

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Kingdom Fungi is extremely diverse and ubiquitous across the globe, with ~148,000 currently accepted species known from the estimated 2.2-12 million species distributed on all continents and in most aquatic habitats (Hawksworth & Lücking, 2017;Wu et al., 2019). Documentation of fungal diversity has lagged far behind that of other groups of multicellular organisms, largely due to their generally cryptic habits and their unpredictable production of ephemeral macroscopic sporocarps, resulting in a severe bias in biodiversity knowledge towards plants and animals (Troudet et al., 2017). Recent technological advances such as molecular identification with highthroughput sequencing have made it possible to document fungal diversity indirectly from environmental samples, greatly accelerating the rate at which fungi can be detected and identified (Begerow

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On the Origin of Feces: Fungal diversity, distribution, and conservation implications from feces of small mammals

Bradshaw

Autumn

Rickart

et al. 2021

Preprint

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Fungi are extremely diverse, but only a small fraction of the total estimated species have been characterized. Often, the extent of diversity and distribution of fungal communities is difficult or near impossible to assess. This is due to the fact that many Fungi are cryptic and persist predominantly hidden within substrates such as soil or plant material. This is particularly true for hypogeous sporocarps, including truffles, which are extremely difficult to survey in a systematic manner. However, fungi with hypogeous sporocarps have evolved traits that make them highly attractive to animals, such as small mammals, which ingest and disperse fungal spores through defecation. Here, samples of feces from 138 small mammals collected in the western United States were assessed for total fungal diversity using a dual-index metabarcoding, high-throughput Illumina sequencing approach. Our findings exhibit many identifications within Agaricomycetidae, with 65 of the 138 samples containing sequences belonging to several species of the hypogeous truffle genus Rhizopogon. Metadata, such as geospatial coordinates, for each captured small mammal can be used as a proxy for the presence or absence of Rhizopogon species identified in their feces. Utilizing these proxy data, along with publicly available data on observation and occurrence from data repositories such as GBIF and MycoPortal, it is possible to augment our current knowledge of the extent of occurrence and area of occupancy of cryptic hypogeous fungi without direct observation, further enhancing our ability to assess their conservation status.

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Whose Ear?: Proposal to conserve the name Auricularia auricula (L.) Underw. for Auricularia auricula-judae (Bull.) Quél.

Autumn

Dentinger

2023

F1000Res

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Auricularia auricula-judae is a saprobic European jelly fungus with traditional culinary and medicinal significance, often said to resemble a human ear. It was originally named Tremella auricula by Linnaeus and has been moved to different genera since, but its specific epithet was also changed from auricula to auricula-judae by Bulliard in 1789, which is not normally a valid nomenclatural alteration. However, due to the practice of "name sanctioning" in the mycological nomenclatural code, this change has been accepted. This article outlines the nomenclatural and cultural history of the controversial name Auricularia auricula-judae and suggests its return to the original specific epithet auricula, as well as the designation of an epitype specimen.

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Kendra Autumn

Repeated Colonization Between Arid and Seasonal Wet Habitats, Frequent Transition Among Substrate Preferences, and Chemical Diversity in Western Australian Xanthoparmelia Lichens

On the origin of feces: Fungal diversity, distribution, and conservation implications from feces of small mammals

On the Origin of Feces: Fungal diversity, distribution, and conservation implications from feces of small mammals

Whose Ear?: Proposal to conserve the name Auricularia auricula (L.) Underw. for Auricularia auricula-judae (Bull.) Quél.

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