taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
E01F2203DA770746FEB91B6B830FFB19.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5435350/files/figure.png	http://doi.org/10.5281/zenodo.5435350	Figure 1. Nanoa enana sp. nov., male palp (embolus in a slightly displaced position; normally its distal end rests tightly against the tegulum, next to the conductor). A, ventral; B, dorsoectal (arrow points out to homologue of alveolar sclerite); C, mesal; D, ectal. Scale bars = 0.1 mm. See main text for abbreviations.	Figure 1. Nanoa enana sp. nov., male palp (embolus in a slightly displaced position; normally its distal end rests tightly against the tegulum, next to the conductor). A, ventral; B, dorsoectal (arrow points out to homologue of alveolar sclerite); C, mesal; D, ectal. Scale bars = 0.1 mm. See main text for abbreviations.	2005-10-31	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj		Zenodo	biologists	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj			
E01F2203DA770746FEB91B6B830FFB19.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5435354/files/figure.png	http://doi.org/10.5281/zenodo.5435354	Figure 3. Nanoa enana sp. nov. A, male, ventral; B, female, dorsal; C, epigynum, ventral; D, cleared epigynum, ventral (arrow points out to possible location of copulatory opening); E, cleared epigynum, dorsal (arrow points out to distal end of fertilization duct). Scale bars: A, B = 0.5 mm; C–E = 0.1 mm. See main text for abbreviations.	Figure 3. Nanoa enana sp. nov. A, male, ventral; B, female, dorsal; C, epigynum, ventral; D, cleared epigynum, ventral (arrow points out to possible location of copulatory opening); E, cleared epigynum, dorsal (arrow points out to distal end of fertilization duct). Scale bars: A, B = 0.5 mm; C–E = 0.1 mm. See main text for abbreviations.	2005-10-31	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj		Zenodo	biologists	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj			
E01F2203DA770746FEB91B6B830FFB19.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5435358/files/figure.png	http://doi.org/10.5281/zenodo.5435358	Figure 5. Nanoa enana sp. nov. Female. A, epigynum, ventral; B, epigynum, caudoventral; C, epigynum, caudal; D, partially damaged PLS and PMS (PMS cylindrical spigot has shaft broken off; left PLS, on right, has one cylindrical spigot and part of the triplet broken off); E, right PLS triplet with ectal cylindrical spigot; F, prosoma, lateral. See main text for abbreviations.	Figure 5. Nanoa enana sp. nov. Female. A, epigynum, ventral; B, epigynum, caudoventral; C, epigynum, caudal; D, partially damaged PLS and PMS (PMS cylindrical spigot has shaft broken off; left PLS, on right, has one cylindrical spigot and part of the triplet broken off); E, right PLS triplet with ectal cylindrical spigot; F, prosoma, lateral. See main text for abbreviations.	2005-10-31	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj		Zenodo	biologists	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj			
E01F2203DA770740FB9219EB84B9F9C0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5435350/files/figure.png	http://doi.org/10.5281/zenodo.5435350	Figure 1. Nanoa enana sp. nov., male palp (embolus in a slightly displaced position; normally its distal end rests tightly against the tegulum, next to the conductor). A, ventral; B, dorsoectal (arrow points out to homologue of alveolar sclerite); C, mesal; D, ectal. Scale bars = 0.1 mm. See main text for abbreviations.	Figure 1. Nanoa enana sp. nov., male palp (embolus in a slightly displaced position; normally its distal end rests tightly against the tegulum, next to the conductor). A, ventral; B, dorsoectal (arrow points out to homologue of alveolar sclerite); C, mesal; D, ectal. Scale bars = 0.1 mm. See main text for abbreviations.	2005-10-31	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj		Zenodo	biologists	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj			
E01F2203DA770740FB9219EB84B9F9C0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5435352/files/figure.png	http://doi.org/10.5281/zenodo.5435352	Figure 2. Nanoa enana sp. nov. A–B, male palp, schematic drawings. A, ventral; B, dorsoectal (arrow points out the homologue of alveolar sclerite, seen by transparency through the cymbial cuticle). See main text for abbreviations.	Figure 2. Nanoa enana sp. nov. A–B, male palp, schematic drawings. A, ventral; B, dorsoectal (arrow points out the homologue of alveolar sclerite, seen by transparency through the cymbial cuticle). See main text for abbreviations.	2005-10-31	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj		Zenodo	biologists	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj			
E01F2203DA770740FB9219EB84B9F9C0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5435354/files/figure.png	http://doi.org/10.5281/zenodo.5435354	Figure 3. Nanoa enana sp. nov. A, male, ventral; B, female, dorsal; C, epigynum, ventral; D, cleared epigynum, ventral (arrow points out to possible location of copulatory opening); E, cleared epigynum, dorsal (arrow points out to distal end of fertilization duct). Scale bars: A, B = 0.5 mm; C–E = 0.1 mm. See main text for abbreviations.	Figure 3. Nanoa enana sp. nov. A, male, ventral; B, female, dorsal; C, epigynum, ventral; D, cleared epigynum, ventral (arrow points out to possible location of copulatory opening); E, cleared epigynum, dorsal (arrow points out to distal end of fertilization duct). Scale bars: A, B = 0.5 mm; C–E = 0.1 mm. See main text for abbreviations.	2005-10-31	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj		Zenodo	biologists	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj			
E01F2203DA770740FB9219EB84B9F9C0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5435358/files/figure.png	http://doi.org/10.5281/zenodo.5435358	Figure 5. Nanoa enana sp. nov. Female. A, epigynum, ventral; B, epigynum, caudoventral; C, epigynum, caudal; D, partially damaged PLS and PMS (PMS cylindrical spigot has shaft broken off; left PLS, on right, has one cylindrical spigot and part of the triplet broken off); E, right PLS triplet with ectal cylindrical spigot; F, prosoma, lateral. See main text for abbreviations.	Figure 5. Nanoa enana sp. nov. Female. A, epigynum, ventral; B, epigynum, caudoventral; C, epigynum, caudal; D, partially damaged PLS and PMS (PMS cylindrical spigot has shaft broken off; left PLS, on right, has one cylindrical spigot and part of the triplet broken off); E, right PLS triplet with ectal cylindrical spigot; F, prosoma, lateral. See main text for abbreviations.	2005-10-31	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj		Zenodo	biologists	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj			
E01F2203DA770740FB9219EB84B9F9C0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5435362/files/figure.png	http://doi.org/10.5281/zenodo.5435362	Figure 7. One of the eight minimal length trees of 188 steps that result from the analysis of the data matrix presented in the Appendix (CI = 0.53, RI = 0.73). Exclusion of the six parsimony uninformative characters decreases the tree length to 179 steps and the ensemble consistency index to 0.51. Most of the ambiguous character changes are resolved under ‘Farris optimization.’ Closed circles represent nonhomoplasious character changes. The three nodes that collapse in the strict consensus cladogram of the eight most parsimonious trees (Fig. 6) are marked with a closed rectangle. The basal trichotomy has been resolved according to the araneoid topology presented in Griswold et al. (1998) (see text for details).	Figure 7. One of the eight minimal length trees of 188 steps that result from the analysis of the data matrix presented in the Appendix (CI = 0.53, RI = 0.73). Exclusion of the six parsimony uninformative characters decreases the tree length to 179 steps and the ensemble consistency index to 0.51. Most of the ambiguous character changes are resolved under ‘Farris optimization.’ Closed circles represent nonhomoplasious character changes. The three nodes that collapse in the strict consensus cladogram of the eight most parsimonious trees (Fig. 6) are marked with a closed rectangle. The basal trichotomy has been resolved according to the araneoid topology presented in Griswold et al. (1998) (see text for details).	2005-10-31	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj		Zenodo	biologists	Hormiga, Gustavo;Buckle, Donald J.;Scharff, Nikolaj			
