taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
740A87AE7F3BB829D2DFFE8647EDF922.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13921747/files/figure.png	https://doi.org/10.5281/zenodo.13921747	FIGURES 4‒5. Male genitalia of (4) B. nigrodorsalis and (5) B. weisi from the right lateral aspect, with posterior extremities at the top of the images and dorsal parts to the right of the images.	FIGURES 4‒5. Male genitalia of (4) B. nigrodorsalis and (5) B. weisi from the right lateral aspect, with posterior extremities at the top of the images and dorsal parts to the right of the images.	2024-09-30	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy		Zenodo	biologists	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy			
740A87AE7F3BB829D2DFFE8647EDF922.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13914596/files/figure.png	https://doi.org/10.5281/zenodo.13914596	FIGURE 2. Support for apparent species’ gene coalescents from unique haplotypes for COI barcode-like sequences including numts (nuclear copies of mitochondrial sequences), obtained from an evolutionary tree estimated with MRBAYES and using maximum likelihood to fit Poisson-Tree-Process (PTP) models. Numbers at each node show the probability that all daughter sequences to the right are parts of a single unique species. Branches change from blue to red at the node with the best fit (maximum local probability) for the change from inter-species to intraspecies branching PTP models (species’ coalescent nodes). Sequence labels include: sequence length in number of bases; taxon name; country in capitals (if not shown then MEXICO) and province; sequence identification code (E# = ECOSUR#). Sequence labels are followed by the percentage of the bases A and T at the third codon position, where low scores (≤97.6%) are likely to indicate numts. Labels for sequences interpreted as likely lower-divergence numts are shown in orange and for likely higher-divergence numts are shown in red (see Fig. 1). The scale bar represents branch length on the tree in substitutions per nucleotide.	FIGURE 2. Support for apparent species’ gene coalescents from unique haplotypes for COI barcode-like sequences including numts (nuclear copies of mitochondrial sequences), obtained from an evolutionary tree estimated with MRBAYES and using maximum likelihood to fit Poisson-Tree-Process (PTP) models. Numbers at each node show the probability that all daughter sequences to the right are parts of a single unique species. Branches change from blue to red at the node with the best fit (maximum local probability) for the change from inter-species to intraspecies branching PTP models (species’ coalescent nodes). Sequence labels include: sequence length in number of bases; taxon name; country in capitals (if not shown then MEXICO) and province; sequence identification code (E# = ECOSUR#). Sequence labels are followed by the percentage of the bases A and T at the third codon position, where low scores (≤97.6%) are likely to indicate numts. Labels for sequences interpreted as likely lower-divergence numts are shown in orange and for likely higher-divergence numts are shown in red (see Fig. 1). The scale bar represents branch length on the tree in substitutions per nucleotide.	2024-09-30	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy		Zenodo	biologists	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy			
740A87AE7F3BB829D2DFFE8647EDF922.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13914598/files/figure.png	https://doi.org/10.5281/zenodo.13914598	FIGURE 3. Support for species’ gene coalescents from unique haplotypes for COI barcode (orthologous) sequences excluding likely numts (orange and red bars and labels in Figs 1‒2), obtained from an evolutionary tree estimated with MRBAYES and using maximum likelihood to fit Poisson-Tree-Process (PTP) models. Numbers at nodes, treebranch colours, sequence labels, and scale bar as in Fig. 2.	FIGURE 3. Support for species’ gene coalescents from unique haplotypes for COI barcode (orthologous) sequences excluding likely numts (orange and red bars and labels in Figs 1‒2), obtained from an evolutionary tree estimated with MRBAYES and using maximum likelihood to fit Poisson-Tree-Process (PTP) models. Numbers at nodes, treebranch colours, sequence labels, and scale bar as in Fig. 2.	2024-09-30	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy		Zenodo	biologists	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy			
740A87AE7F3BB829D2DFFE8647EDF922.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13914600/files/figure.png	https://doi.org/10.5281/zenodo.13914600	FIGURE 6. Map showing the distributions of samples examined for this study of the weisi-complex: (white spots) taxon nigrodorsalis s. str. (=B. nigrodorsalis stat. rev.); (grey spots) taxon montezumae (=B. weisi stat. rev.); and (black spots) taxon weisi s. str. (=B. weisi stat. rev.). Larger symbols with spots in their centres show locations from which specimens were sequenced for each taxon. Spherical projection with international boundaries as recognized by the UN shown as grey lines. Map projected in ArcGIS using the World_Shaded_Relief basemap © 2014 ESRI.	FIGURE 6. Map showing the distributions of samples examined for this study of the weisi-complex: (white spots) taxon nigrodorsalis s. str. (=B. nigrodorsalis stat. rev.); (grey spots) taxon montezumae (=B. weisi stat. rev.); and (black spots) taxon weisi s. str. (=B. weisi stat. rev.). Larger symbols with spots in their centres show locations from which specimens were sequenced for each taxon. Spherical projection with international boundaries as recognized by the UN shown as grey lines. Map projected in ArcGIS using the World_Shaded_Relief basemap © 2014 ESRI.	2024-09-30	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy		Zenodo	biologists	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy			
740A87AE7F3BB828D2DFF8BD46ACFA9B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13921747/files/figure.png	https://doi.org/10.5281/zenodo.13921747	FIGURES 4‒5. Male genitalia of (4) B. nigrodorsalis and (5) B. weisi from the right lateral aspect, with posterior extremities at the top of the images and dorsal parts to the right of the images.	FIGURES 4‒5. Male genitalia of (4) B. nigrodorsalis and (5) B. weisi from the right lateral aspect, with posterior extremities at the top of the images and dorsal parts to the right of the images.	2024-09-30	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy		Zenodo	biologists	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy			
740A87AE7F3BB828D2DFF8BD46ACFA9B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13914596/files/figure.png	https://doi.org/10.5281/zenodo.13914596	FIGURE 2. Support for apparent species’ gene coalescents from unique haplotypes for COI barcode-like sequences including numts (nuclear copies of mitochondrial sequences), obtained from an evolutionary tree estimated with MRBAYES and using maximum likelihood to fit Poisson-Tree-Process (PTP) models. Numbers at each node show the probability that all daughter sequences to the right are parts of a single unique species. Branches change from blue to red at the node with the best fit (maximum local probability) for the change from inter-species to intraspecies branching PTP models (species’ coalescent nodes). Sequence labels include: sequence length in number of bases; taxon name; country in capitals (if not shown then MEXICO) and province; sequence identification code (E# = ECOSUR#). Sequence labels are followed by the percentage of the bases A and T at the third codon position, where low scores (≤97.6%) are likely to indicate numts. Labels for sequences interpreted as likely lower-divergence numts are shown in orange and for likely higher-divergence numts are shown in red (see Fig. 1). The scale bar represents branch length on the tree in substitutions per nucleotide.	FIGURE 2. Support for apparent species’ gene coalescents from unique haplotypes for COI barcode-like sequences including numts (nuclear copies of mitochondrial sequences), obtained from an evolutionary tree estimated with MRBAYES and using maximum likelihood to fit Poisson-Tree-Process (PTP) models. Numbers at each node show the probability that all daughter sequences to the right are parts of a single unique species. Branches change from blue to red at the node with the best fit (maximum local probability) for the change from inter-species to intraspecies branching PTP models (species’ coalescent nodes). Sequence labels include: sequence length in number of bases; taxon name; country in capitals (if not shown then MEXICO) and province; sequence identification code (E# = ECOSUR#). Sequence labels are followed by the percentage of the bases A and T at the third codon position, where low scores (≤97.6%) are likely to indicate numts. Labels for sequences interpreted as likely lower-divergence numts are shown in orange and for likely higher-divergence numts are shown in red (see Fig. 1). The scale bar represents branch length on the tree in substitutions per nucleotide.	2024-09-30	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy		Zenodo	biologists	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy			
740A87AE7F3BB828D2DFF8BD46ACFA9B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13914598/files/figure.png	https://doi.org/10.5281/zenodo.13914598	FIGURE 3. Support for species’ gene coalescents from unique haplotypes for COI barcode (orthologous) sequences excluding likely numts (orange and red bars and labels in Figs 1‒2), obtained from an evolutionary tree estimated with MRBAYES and using maximum likelihood to fit Poisson-Tree-Process (PTP) models. Numbers at nodes, treebranch colours, sequence labels, and scale bar as in Fig. 2.	FIGURE 3. Support for species’ gene coalescents from unique haplotypes for COI barcode (orthologous) sequences excluding likely numts (orange and red bars and labels in Figs 1‒2), obtained from an evolutionary tree estimated with MRBAYES and using maximum likelihood to fit Poisson-Tree-Process (PTP) models. Numbers at nodes, treebranch colours, sequence labels, and scale bar as in Fig. 2.	2024-09-30	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy		Zenodo	biologists	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy			
740A87AE7F3BB828D2DFF8BD46ACFA9B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13914600/files/figure.png	https://doi.org/10.5281/zenodo.13914600	FIGURE 6. Map showing the distributions of samples examined for this study of the weisi-complex: (white spots) taxon nigrodorsalis s. str. (=B. nigrodorsalis stat. rev.); (grey spots) taxon montezumae (=B. weisi stat. rev.); and (black spots) taxon weisi s. str. (=B. weisi stat. rev.). Larger symbols with spots in their centres show locations from which specimens were sequenced for each taxon. Spherical projection with international boundaries as recognized by the UN shown as grey lines. Map projected in ArcGIS using the World_Shaded_Relief basemap © 2014 ESRI.	FIGURE 6. Map showing the distributions of samples examined for this study of the weisi-complex: (white spots) taxon nigrodorsalis s. str. (=B. nigrodorsalis stat. rev.); (grey spots) taxon montezumae (=B. weisi stat. rev.); and (black spots) taxon weisi s. str. (=B. weisi stat. rev.). Larger symbols with spots in their centres show locations from which specimens were sequenced for each taxon. Spherical projection with international boundaries as recognized by the UN shown as grey lines. Map projected in ArcGIS using the World_Shaded_Relief basemap © 2014 ESRI.	2024-09-30	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy		Zenodo	biologists	Williams, Paul H.;Sagot, Philippe;Martínez-López, Oscar;Barajas, Ricardo Ayala-;Mérida-Rivas, Jorge A.;Vandame, Rémy			
