taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
474887DDFFC0FFA490BA6B2CA52FF8C3.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/199748/files/figure.png	https://doi.org/10.5281/zenodo.199748	FIGURE 9. Morphology-based cladistic analysis of species previously placed in Euwallacea, Xyleborus, and several similar species of unclear affiliation. Combinable-component consensus of 72 MP trees, (113 steps). Numbers at nodes indicate Bremer support.	FIGURE 9. Morphology-based cladistic analysis of species previously placed in Euwallacea, Xyleborus, and several similar species of unclear affiliation. Combinable-component consensus of 72 MP trees, (113 steps). Numbers at nodes indicate Bremer support.	2010-12-31	Hulcr, Jiri		Zenodo	biologists	Hulcr, Jiri			
474887DDFFC0FFBB90BA6F1AA6D0FEAD.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/199748/files/figure.png	https://doi.org/10.5281/zenodo.199748	FIGURE 9. Morphology-based cladistic analysis of species previously placed in Euwallacea, Xyleborus, and several similar species of unclear affiliation. Combinable-component consensus of 72 MP trees, (113 steps). Numbers at nodes indicate Bremer support.	FIGURE 9. Morphology-based cladistic analysis of species previously placed in Euwallacea, Xyleborus, and several similar species of unclear affiliation. Combinable-component consensus of 72 MP trees, (113 steps). Numbers at nodes indicate Bremer support.	2010-12-31	Hulcr, Jiri		Zenodo	biologists	Hulcr, Jiri			
474887DDFFDFFFBA90BA69F4A77EFEF6.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/199748/files/figure.png	https://doi.org/10.5281/zenodo.199748	FIGURE 9. Morphology-based cladistic analysis of species previously placed in Euwallacea, Xyleborus, and several similar species of unclear affiliation. Combinable-component consensus of 72 MP trees, (113 steps). Numbers at nodes indicate Bremer support.	FIGURE 9. Morphology-based cladistic analysis of species previously placed in Euwallacea, Xyleborus, and several similar species of unclear affiliation. Combinable-component consensus of 72 MP trees, (113 steps). Numbers at nodes indicate Bremer support.	2010-12-31	Hulcr, Jiri		Zenodo	biologists	Hulcr, Jiri			
474887DDFFDBFFBE90BA6A88A6CEFE4E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/199748/files/figure.png	https://doi.org/10.5281/zenodo.199748	FIGURE 9. Morphology-based cladistic analysis of species previously placed in Euwallacea, Xyleborus, and several similar species of unclear affiliation. Combinable-component consensus of 72 MP trees, (113 steps). Numbers at nodes indicate Bremer support.	FIGURE 9. Morphology-based cladistic analysis of species previously placed in Euwallacea, Xyleborus, and several similar species of unclear affiliation. Combinable-component consensus of 72 MP trees, (113 steps). Numbers at nodes indicate Bremer support.	2010-12-31	Hulcr, Jiri		Zenodo	biologists	Hulcr, Jiri			
474887DDFFDAFFBE90BA6C6AA795FADA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/199748/files/figure.png	https://doi.org/10.5281/zenodo.199748	FIGURE 9. Morphology-based cladistic analysis of species previously placed in Euwallacea, Xyleborus, and several similar species of unclear affiliation. Combinable-component consensus of 72 MP trees, (113 steps). Numbers at nodes indicate Bremer support.	FIGURE 9. Morphology-based cladistic analysis of species previously placed in Euwallacea, Xyleborus, and several similar species of unclear affiliation. Combinable-component consensus of 72 MP trees, (113 steps). Numbers at nodes indicate Bremer support.	2010-12-31	Hulcr, Jiri		Zenodo	biologists	Hulcr, Jiri			
474887DDFFDAFFBD90BA6D25A577FD96.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/199748/files/figure.png	https://doi.org/10.5281/zenodo.199748	FIGURE 9. Morphology-based cladistic analysis of species previously placed in Euwallacea, Xyleborus, and several similar species of unclear affiliation. Combinable-component consensus of 72 MP trees, (113 steps). Numbers at nodes indicate Bremer support.	FIGURE 9. Morphology-based cladistic analysis of species previously placed in Euwallacea, Xyleborus, and several similar species of unclear affiliation. Combinable-component consensus of 72 MP trees, (113 steps). Numbers at nodes indicate Bremer support.	2010-12-31	Hulcr, Jiri		Zenodo	biologists	Hulcr, Jiri			
474887DDFFD8FFB390BA68D4A6E7FE06.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/199747/files/figure.png	https://doi.org/10.5281/zenodo.199747	FIGURE 8. A morphology-based cladistic analysis of species previously placed in Amasa, Cyclorhipidion, Xyleborus, and similar species of unclear affiliation. Combinable-component consensus of 240 most parsimonious trees (60 steps). The large number of MP trees is almost entirely due to the lack of resolution among the terminal Amasa spp., illustrating the paucity of synapomorphic characters in these dubious species. Numbers at nodes indicate Bremer support.	FIGURE 8. A morphology-based cladistic analysis of species previously placed in Amasa, Cyclorhipidion, Xyleborus, and similar species of unclear affiliation. Combinable-component consensus of 240 most parsimonious trees (60 steps). The large number of MP trees is almost entirely due to the lack of resolution among the terminal Amasa spp., illustrating the paucity of synapomorphic characters in these dubious species. Numbers at nodes indicate Bremer support.	2010-12-31	Hulcr, Jiri		Zenodo	biologists	Hulcr, Jiri			
474887DDFFD7FFB290BA6E95A65BFCFE.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/199747/files/figure.png	https://doi.org/10.5281/zenodo.199747	FIGURE 8. A morphology-based cladistic analysis of species previously placed in Amasa, Cyclorhipidion, Xyleborus, and similar species of unclear affiliation. Combinable-component consensus of 240 most parsimonious trees (60 steps). The large number of MP trees is almost entirely due to the lack of resolution among the terminal Amasa spp., illustrating the paucity of synapomorphic characters in these dubious species. Numbers at nodes indicate Bremer support.	FIGURE 8. A morphology-based cladistic analysis of species previously placed in Amasa, Cyclorhipidion, Xyleborus, and similar species of unclear affiliation. Combinable-component consensus of 240 most parsimonious trees (60 steps). The large number of MP trees is almost entirely due to the lack of resolution among the terminal Amasa spp., illustrating the paucity of synapomorphic characters in these dubious species. Numbers at nodes indicate Bremer support.	2010-12-31	Hulcr, Jiri		Zenodo	biologists	Hulcr, Jiri			
