taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03DF2749DE74D853638EF853F346D580.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7329549/files/figure.png	https://doi.org/10.5281/zenodo.7329549	FIGURE 1. Morphological description of Gibellula aurea. (a) Spider Macrophyes pacoti (Anyphaenidae) parasitized by G. aurea exhibiting one synnema (arrow) growing from the host’s abdomen. (b–g) G. aurea visualized in the light microscope and (h–l) in the fluorescent microscope with UV light. (b, h) Inflated and fertile tip of synnema; (c) Conidiophore, stipe with verrucose wall, conidial head spherical; (d) Conidial head globose, vesicle ellipsoidal, metulae ellipsoidal, and phialides cylindrical; (e, j) Conidia ellipsoidal, with apiculate ends; (f, i) Granulomanus-like conidiophores; (g) Conidiogenous cells; (k) Spider leg (brown) covered by hyphae (blue) at the beginning of the infection; (l) Setae of spider leg involved by fungal hyphae. Scale bars: b, k, h = 100 µm, l = 50 µm, c, d, e, f, g, i, j = 10 µm.	FIGURE 1. Morphological description of Gibellula aurea. (a) Spider Macrophyes pacoti (Anyphaenidae) parasitized by G. aurea exhibiting one synnema (arrow) growing from the host’s abdomen. (b–g) G. aurea visualized in the light microscope and (h–l) in the fluorescent microscope with UV light. (b, h) Inflated and fertile tip of synnema; (c) Conidiophore, stipe with verrucose wall, conidial head spherical; (d) Conidial head globose, vesicle ellipsoidal, metulae ellipsoidal, and phialides cylindrical; (e, j) Conidia ellipsoidal, with apiculate ends; (f, i) Granulomanus-like conidiophores; (g) Conidiogenous cells; (k) Spider leg (brown) covered by hyphae (blue) at the beginning of the infection; (l) Setae of spider leg involved by fungal hyphae. Scale bars: b, k, h = 100 µm, l = 50 µm, c, d, e, f, g, i, j = 10 µm.	2022-11-17	Mendes-Pereira, Thairine;Araújo, João Paulo Machado De;Mendes, Flávia Carvalho;Fonseca, Emily Oliveira;Alves, Julie Erica Da Rocha;Sobczak, Jober Fernando;Góes-Neto, Aristóteles		Zenodo	biologists	Mendes-Pereira, Thairine;Araújo, João Paulo Machado De;Mendes, Flávia Carvalho;Fonseca, Emily Oliveira;Alves, Julie Erica Da Rocha;Sobczak, Jober Fernando;Góes-Neto, Aristóteles			
03DF2749DE74D853638EF853F346D580.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7329551/files/figure.png	https://doi.org/10.5281/zenodo.7329551	FIGURE 2. Diversity of host spiders parasitized by Gibellula aurea. (a) and (b) Corinnidae; but differ by abdomen shape, body size, and shape of the front legs; (c) Macrophyes pacoti (Anyphaenidae); (d) Anyphaenidae. Scale bars: a, b, c, d = 1 mm.	FIGURE 2. Diversity of host spiders parasitized by Gibellula aurea. (a) and (b) Corinnidae; but differ by abdomen shape, body size, and shape of the front legs; (c) Macrophyes pacoti (Anyphaenidae); (d) Anyphaenidae. Scale bars: a, b, c, d = 1 mm.	2022-11-17	Mendes-Pereira, Thairine;Araújo, João Paulo Machado De;Mendes, Flávia Carvalho;Fonseca, Emily Oliveira;Alves, Julie Erica Da Rocha;Sobczak, Jober Fernando;Góes-Neto, Aristóteles		Zenodo	biologists	Mendes-Pereira, Thairine;Araújo, João Paulo Machado De;Mendes, Flávia Carvalho;Fonseca, Emily Oliveira;Alves, Julie Erica Da Rocha;Sobczak, Jober Fernando;Góes-Neto, Aristóteles			
03DF2749DE74D853638EF853F346D580.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7329553/files/figure.png	https://doi.org/10.5281/zenodo.7329553	FIGURE 3. Placement of Gibellula aurea within the genus. Phylogenetic trees were based on concatenated sequences of SSU, LSU, TEF, and RPB2 markers. This tree topology resulted from a Maximum Likelihood, although Bayesian Inference displayed the same topology for most of the clades (Fig. S1). Numbers on branches indicate bootstrap values (ML>50%) followed by posterior probabilities (BI>0.70). Nucleotide substitutions per site are indicated by the scale bar. The phylogenetic tree includes 33 SSU, 63 LSU, 77 TEF, and 37 RPB2 sequences. Sequences from GenBank are exhibited by the name followed by their voucher numbers. For G. aurea specimens sequenced in this study, we show the name in bold (code: LBMCF). Formerly described species that split into single clades were also highlighted. The species Hevansia novoguineensis (NHJ 11923) was used as an outgroup.	FIGURE 3. Placement of Gibellula aurea within the genus. Phylogenetic trees were based on concatenated sequences of SSU, LSU, TEF, and RPB2 markers. This tree topology resulted from a Maximum Likelihood, although Bayesian Inference displayed the same topology for most of the clades (Fig. S1). Numbers on branches indicate bootstrap values (ML>50%) followed by posterior probabilities (BI>0.70). Nucleotide substitutions per site are indicated by the scale bar. The phylogenetic tree includes 33 SSU, 63 LSU, 77 TEF, and 37 RPB2 sequences. Sequences from GenBank are exhibited by the name followed by their voucher numbers. For G. aurea specimens sequenced in this study, we show the name in bold (code: LBMCF). Formerly described species that split into single clades were also highlighted. The species Hevansia novoguineensis (NHJ 11923) was used as an outgroup.	2022-11-17	Mendes-Pereira, Thairine;Araújo, João Paulo Machado De;Mendes, Flávia Carvalho;Fonseca, Emily Oliveira;Alves, Julie Erica Da Rocha;Sobczak, Jober Fernando;Góes-Neto, Aristóteles		Zenodo	biologists	Mendes-Pereira, Thairine;Araújo, João Paulo Machado De;Mendes, Flávia Carvalho;Fonseca, Emily Oliveira;Alves, Julie Erica Da Rocha;Sobczak, Jober Fernando;Góes-Neto, Aristóteles			
03DF2749DE74D853638EF853F346D580.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7329555/files/figure.png	https://doi.org/10.5281/zenodo.7329555	FIGURE 4. Genetic distance within the genus Gibellula. Heatmaps were generated with sequences from each genomic region obtained from GenBank and the specimens from this study. Genetic distances between sequences are displayed from the lowest (red) to the highest (blue) distance. (a) Genetic distance within the small nuclear ribosomal subunit (SSU); (b) within the large nuclear ribosomal subunit (LSU); (c) translation elongation factor 1-α (TEF); and (d) RNA polymerase II second largest subunit (RPB2). Closer sequences are connected by the dendrogram on top and left in each heatmap.	FIGURE 4. Genetic distance within the genus Gibellula. Heatmaps were generated with sequences from each genomic region obtained from GenBank and the specimens from this study. Genetic distances between sequences are displayed from the lowest (red) to the highest (blue) distance. (a) Genetic distance within the small nuclear ribosomal subunit (SSU); (b) within the large nuclear ribosomal subunit (LSU); (c) translation elongation factor 1-α (TEF); and (d) RNA polymerase II second largest subunit (RPB2). Closer sequences are connected by the dendrogram on top and left in each heatmap.	2022-11-17	Mendes-Pereira, Thairine;Araújo, João Paulo Machado De;Mendes, Flávia Carvalho;Fonseca, Emily Oliveira;Alves, Julie Erica Da Rocha;Sobczak, Jober Fernando;Góes-Neto, Aristóteles		Zenodo	biologists	Mendes-Pereira, Thairine;Araújo, João Paulo Machado De;Mendes, Flávia Carvalho;Fonseca, Emily Oliveira;Alves, Julie Erica Da Rocha;Sobczak, Jober Fernando;Góes-Neto, Aristóteles			
03DF2749DE74D853638EF853F346D580.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7329557/files/figure.png	https://doi.org/10.5281/zenodo.7329557	FIGURE 5. Intra- and interspecific genetic distances among sequences. (a) Proportion of intra- and interspecific of each genomic region (SSU, LSU, TEF and RPP2); (b) interspecific genetic distances among the sequences identified at the species level within the closest clade to Gibellula aurea.	FIGURE 5. Intra- and interspecific genetic distances among sequences. (a) Proportion of intra- and interspecific of each genomic region (SSU, LSU, TEF and RPP2); (b) interspecific genetic distances among the sequences identified at the species level within the closest clade to Gibellula aurea.	2022-11-17	Mendes-Pereira, Thairine;Araújo, João Paulo Machado De;Mendes, Flávia Carvalho;Fonseca, Emily Oliveira;Alves, Julie Erica Da Rocha;Sobczak, Jober Fernando;Góes-Neto, Aristóteles		Zenodo	biologists	Mendes-Pereira, Thairine;Araújo, João Paulo Machado De;Mendes, Flávia Carvalho;Fonseca, Emily Oliveira;Alves, Julie Erica Da Rocha;Sobczak, Jober Fernando;Góes-Neto, Aristóteles			
