taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
44798798FFF6FB72A231FA4EE8C10BBC.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7845817/files/figure.png	https://doi.org/10.5281/zenodo.7845817	Fig. 1. Maximum clade credibity tree with divergence estimates in the genus Pteronotus using fossil calibration.Bars correspond to the 95% High Posterior Density (HPD) time interval of each node. Bayesian Posterior Probabilities (BPP) of all nodes were higher than 0.95.	Fig. 1. Maximum clade credibity tree with divergence estimates in the genus Pteronotus using fossil calibration.Bars correspond to the 95% High Posterior Density (HPD) time interval of each node. Bayesian Posterior Probabilities (BPP) of all nodes were higher than 0.95.	2017-03-01	Pavan, Ana C;Marroig, Gabriel		Zenodo	biologists	Pavan, Ana C;Marroig, Gabriel			
44798798FFF6FB72A231FA4EE8C10BBC.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7845819/files/figure.png	https://doi.org/10.5281/zenodo.7845819	Fig. 2. Geographic range evolution in the genus Pteronotus. (a) Current distribution of genus Pteronotus (coloured map) with biogeographical areas scored for species presence/absence matrix.ME = Mexico;CA = Central America; CC = Caribean Coast of South America; LA = Lesser Antilles; AM = Amazon; CE = Brazilian Dry Diagonal:Cerrado and Caatinga; AF = Northern Atlantic Forest; JC = Jamaica and Cuba; HI = Hispaniola; PR = Puerto Rico. (b) Geographic range estimates with the highest marginal probabilities for Pteronotus ancestral nodes according to DIVAj model. Dashed-line borders indicate area combinations with probabilities smaller than 10% in the model, but still being the most probable state in that node among the 638 possible combinations. Curved arrows represent splits in the ancestral geographic ranges explained by vicariance; many of them were succeeded by anagenetic dispersal/extinction events, as highlighted by the linear black arrows; Dotted-line straight arrows highlight shifts in nodes geographic ranges due to dispersal jumps.	Fig. 2. Geographic range evolution in the genus Pteronotus. (a) Current distribution of genus Pteronotus (coloured map) with biogeographical areas scored for species presence/absence matrix.ME = Mexico;CA = Central America; CC = Caribean Coast of South America; LA = Lesser Antilles; AM = Amazon; CE = Brazilian Dry Diagonal:Cerrado and Caatinga; AF = Northern Atlantic Forest; JC = Jamaica and Cuba; HI = Hispaniola; PR = Puerto Rico. (b) Geographic range estimates with the highest marginal probabilities for Pteronotus ancestral nodes according to DIVAj model. Dashed-line borders indicate area combinations with probabilities smaller than 10% in the model, but still being the most probable state in that node among the 638 possible combinations. Curved arrows represent splits in the ancestral geographic ranges explained by vicariance; many of them were succeeded by anagenetic dispersal/extinction events, as highlighted by the linear black arrows; Dotted-line straight arrows highlight shifts in nodes geographic ranges due to dispersal jumps.	2017-03-01	Pavan, Ana C;Marroig, Gabriel		Zenodo	biologists	Pavan, Ana C;Marroig, Gabriel			
