Samples used to determine the types of fungi associated with dermatitis in wild snakes. Location data are displayed only to the county (or sometimes state) level due to concerns with disclosing specific locations of rare or sensitive snake populations. Fungal infection was assessed by examining histologic sections of skin lesions. The number of gross lesions consistent with dermatitis were categorized as "none" (no gross skin lesions observed), "single" (one lesion), "multiple" (more than one discrete lesion), or "not assessed" (no information was available on the number of skin lesions present). The type of fungal growth medium upon which samples were cultured is listed as "DTM" (dermatophyte test medium) or "SD" (Sabouraud dextrose medium containing chloramphenicol and gentamycin). The number of unique internal transcribed spacer region DNA sequences identified per snake (or operational taxonomic units [OTUs] at 100% sequence identity) is listed. Samples originating from snakes cited in previous literature are specified

Samples used to determine the types of fungi associated with dermatitis in wild snakes. Location data are displayed only to the county (or sometimes state) level due to concerns with disclosing specific locations of rare or sensitive snake populations. Fungal infection was assessed by examining histologic sections of skin lesions. The number of gross lesions consistent with dermatitis were categorized as "none" (no gross skin lesions observed), "single" (one lesion), "multiple" (more than one discrete lesion), or "not assessed" (no information was available on the number of skin lesions present). The type of fungal growth medium upon which samples were cultured is listed as "DTM" (dermatophyte test medium) or "SD" (Sabouraud dextrose medium containing chloramphenicol and gentamycin). The number of unique internal transcribed spacer region DNA sequences identified per snake (or operational taxonomic units [OTUs] at 100% sequence identity) is listed. Samples originating from snakes cited in previous literature are specified

Prevalence of dermatitis in snakes post-emergence from hibernation. Each site surveyed was given a unique code; location data is displayed only to the county level due to concerns with disclosing specific locations of rare or sensitive snake populations. The US Geological Survey - National Wildlife Health Center (NWHC) case numbers for some snakes are cross-listed in Tables S1. Presence of clinical signs of dermatitis was noted, and biopsies were collected from a subset of snakes with lesions. Results of Ophidiomyces culture and histopathology analyses are listed. An asterisk (*) indicates samples that were culture-negative for Ophidiomyces but that tested positive for the fungus by PCR. Snakes that had microscopic lesions consistent with snake fungal disease were considered positive by histopathology; samples that were not of sufficient size or quality for histopatholoic interpretation are listed as "unsuitable". NA = not applicable

Prevalence of dermatitis in snakes post-emergence from hibernation. Each site surveyed was given a unique code; location data is displayed only to the county level due to concerns with disclosing specific locations of rare or sensitive snake populations. The US Geological Survey - National Wildlife Health Center (NWHC) case numbers for some snakes are cross-listed in Tables S1. Presence of clinical signs of dermatitis was noted, and biopsies were collected from a subset of snakes with lesions. Results of Ophidiomyces culture and histopathology analyses are listed. An asterisk (*) indicates samples that were culture-negative for Ophidiomyces but that tested positive for the fungus by PCR. Snakes that had microscopic lesions consistent with snake fungal disease were considered positive by histopathology; samples that were not of sufficient size or quality for histopatholoic interpretation are listed as "unsuitable". NA = not applicable

Additional samples analyzed by fungal culture to assess the known host range and geographic distribution of Ophidiomyces. Location data is displayed only to the county level due to concerns with disclosing specific locations of rare or sensitive snake populations. The type of growth medium upon which the fungus culture was performed is listed in the last column (DTM = dermatophyte test medium; IMA = inhibitory mold agar; PFA = potato flake agar; SD = Sabouraud's dextrose agar)

Additional samples analyzed by fungal culture to assess the known host range and geographic distribution of Ophidiomyces. Location data is displayed only to the county level due to concerns with disclosing specific locations of rare or sensitive snake populations. The type of growth medium upon which the fungus culture was performed is listed in the last column (DTM = dermatophyte test medium; IMA = inhibitory mold agar; PFA = potato flake agar; SD = Sabouraud's dextrose agar)

Fungal operational taxonomic units (OTUs) recovered from the skin of snakes. Each unique internal transcribed spacer (ITS) region DNA sequence variant (i.e., 100% identity) was assigned a numerical code and a presumptive taxon identification. The NWHC case number (see table S1) of the host(s) from which each variant was recovered is specified. A representative DNA sequence for each variant has been deposited in GenBank; bolded case numbers depict the snakes from which these deposited fungal DNA sequences originated. The assignment of each ITS variant to an OTU based on cut-offs of 99.5%, 99%, 98%, and 97% sequence identities is shown, with each OTU given an alpha-numeric code

Fungal operational taxonomic units (OTUs) recovered from the skin of snakes. Each unique internal transcribed spacer (ITS) region DNA sequence variant (i.e., 100%25 identity) was assigned a numerical code and a presumptive taxon identification. The NWHC case number (see table S1) of the host(s) from which each variant was recovered is specified. A representative DNA sequence for each variant has been deposited in GenBank; bolded case numbers depict the snakes from which these deposited fungal DNA sequences originated. The assignment of each ITS variant to an OTU based on cut-offs of 99.5%25, 99%25, 98%25, and 97%25 sequence identities is shown, with each OTU given an alpha-numeric code