taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03F7830DFF86FFADFC3CA8D1FAB9F8D9.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7031487/files/figure.png	https://doi.org/10.5281/zenodo.7031487	Figure 4. Photographs of: A, Tylodelphys variabilis comb. nov.from Didelphis virginiana, Arkansas; B, Alaria arisaemoides from Canis latrans, Oregon; C, Alaria alata from Nyctereutes procyonoides, Ukraine; D, Alaria marcianae from Taxidea taxus, North Dakota; E, Alaria ovalis comb. nov. from Procyon lotor, Mississippi; F, Alaria procyonis comb. nov. from Procyon lotor, Minnesota; G, H, Alaria mustelae from Mephitis mephitis, North Dakota.	Figure 4. Photographs of: A, Tylodelphys variabilis comb. nov.from Didelphis virginiana, Arkansas; B, Alaria arisaemoides from Canis latrans, Oregon; C, Alaria alata from Nyctereutes procyonoides, Ukraine; D, Alaria marcianae from Taxidea taxus, North Dakota; E, Alaria ovalis comb. nov. from Procyon lotor, Mississippi; F, Alaria procyonis comb. nov. from Procyon lotor, Minnesota; G, H, Alaria mustelae from Mephitis mephitis, North Dakota.	2022-09-01	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V		Zenodo	biologists	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V			
03F7830DFF86FFADFC3CA8D1FAB9F8D9.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7031479/files/figure.png	https://doi.org/10.5281/zenodo.7031479	Figure 1. Phylogenetic interrelationships among 54 diplostomoidean taxa based on BI analysis of partial 28S rDNA gene sequences including Didelphodiplostomum and Pharyngostomoides spp. BI posterior probability values lower than 80% are not shown. The new sequences generated in this study are indicated in bold. The scale bar indicates the number of substitutions per site.	Figure 1. Phylogenetic interrelationships among 54 diplostomoidean taxa based on BI analysis of partial 28S rDNA gene sequences including Didelphodiplostomum and Pharyngostomoides spp. BI posterior probability values lower than 80% are not shown. The new sequences generated in this study are indicated in bold. The scale bar indicates the number of substitutions per site.	2022-09-01	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V		Zenodo	biologists	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V			
03F7830DFF8BFFA1FEFFAD98FDEDFEC1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7031479/files/figure.png	https://doi.org/10.5281/zenodo.7031479	Figure 1. Phylogenetic interrelationships among 54 diplostomoidean taxa based on BI analysis of partial 28S rDNA gene sequences including Didelphodiplostomum and Pharyngostomoides spp. BI posterior probability values lower than 80% are not shown. The new sequences generated in this study are indicated in bold. The scale bar indicates the number of substitutions per site.	Figure 1. Phylogenetic interrelationships among 54 diplostomoidean taxa based on BI analysis of partial 28S rDNA gene sequences including Didelphodiplostomum and Pharyngostomoides spp. BI posterior probability values lower than 80% are not shown. The new sequences generated in this study are indicated in bold. The scale bar indicates the number of substitutions per site.	2022-09-01	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V		Zenodo	biologists	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V			
03F7830DFF8BFFA1FEFFAD98FDEDFEC1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7031481/files/figure.png	https://doi.org/10.5281/zenodo.7031481	Figure 2. Phylogenetic interrelationships among eight species of Alaria (syn. Pharyngostomoides) based on BI analysis of partial 28S rDNA gene sequences. BI posterior probability values lower than 80% are not shown. The new sequences generated in this study are indicated in bold. The scale bar indicates the number of substitutions per site. Biogeographical realm and family of definitive host from which specimens were collected are provided when possible; the information on biogeographical realms and families of definitive hosts is provided only for taxa confirmed with sequence data.Abbreviations of biogeographical realms: N, Nearctic; P, Palaearctic. Abbreviations of family of definitive host: Can, Canidae; Fel, Felidae; Mep, Mephitidae; Mus, Mustelidae; Pro, Procyonidae. ‡ All collected specimens are immature.	Figure 2. Phylogenetic interrelationships among eight species of Alaria (syn. Pharyngostomoides) based on BI analysis of partial 28S rDNA gene sequences. BI posterior probability values lower than 80% are not shown. The new sequences generated in this study are indicated in bold. The scale bar indicates the number of substitutions per site. Biogeographical realm and family of definitive host from which specimens were collected are provided when possible; the information on biogeographical realms and families of definitive hosts is provided only for taxa confirmed with sequence data.Abbreviations of biogeographical realms: N, Nearctic; P, Palaearctic. Abbreviations of family of definitive host: Can, Canidae; Fel, Felidae; Mep, Mephitidae; Mus, Mustelidae; Pro, Procyonidae. ‡ All collected specimens are immature.	2022-09-01	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V		Zenodo	biologists	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V			
03F7830DFF8BFFA1FEFFAD98FDEDFEC1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7031483/files/figure.png	https://doi.org/10.5281/zenodo.7031483	Figure 3. Phylogenetic interrelationships among 31 sequences from members of Alaria (syn. Pharyngostomoides) based on BI analysis of partial cox1 mtDNA gene sequences. BI posterior probability values lower than 80% are not shown. The new sequences generated in this study are indicated in bold. The scale bar indicates the number of substitutions per site. The information on biogeographical realms and families of definitive hosts is provided only for taxa confirmed with sequence data. Abbreviations of biogeographical realms: N, Nearctic; P, Palaearctic. Abbreviations of family of definitive host: Can, Canidae; Fel, Felidae; Mep, Mephitidae; Mus, Mustelidae; Pro, Procyonidae. ‡ All collected specimens are immature. § Previously identified as A. americana by Locke et al. (2018).	Figure 3. Phylogenetic interrelationships among 31 sequences from members of Alaria (syn. Pharyngostomoides) based on BI analysis of partial cox1 mtDNA gene sequences. BI posterior probability values lower than 80% are not shown. The new sequences generated in this study are indicated in bold. The scale bar indicates the number of substitutions per site. The information on biogeographical realms and families of definitive hosts is provided only for taxa confirmed with sequence data. Abbreviations of biogeographical realms: N, Nearctic; P, Palaearctic. Abbreviations of family of definitive host: Can, Canidae; Fel, Felidae; Mep, Mephitidae; Mus, Mustelidae; Pro, Procyonidae. ‡ All collected specimens are immature. § Previously identified as A. americana by Locke et al. (2018).	2022-09-01	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V		Zenodo	biologists	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V			
03F7830DFF8BFFA1FEFFAD98FDEDFEC1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7031487/files/figure.png	https://doi.org/10.5281/zenodo.7031487	Figure 4. Photographs of: A, Tylodelphys variabilis comb. nov.from Didelphis virginiana, Arkansas; B, Alaria arisaemoides from Canis latrans, Oregon; C, Alaria alata from Nyctereutes procyonoides, Ukraine; D, Alaria marcianae from Taxidea taxus, North Dakota; E, Alaria ovalis comb. nov. from Procyon lotor, Mississippi; F, Alaria procyonis comb. nov. from Procyon lotor, Minnesota; G, H, Alaria mustelae from Mephitis mephitis, North Dakota.	Figure 4. Photographs of: A, Tylodelphys variabilis comb. nov.from Didelphis virginiana, Arkansas; B, Alaria arisaemoides from Canis latrans, Oregon; C, Alaria alata from Nyctereutes procyonoides, Ukraine; D, Alaria marcianae from Taxidea taxus, North Dakota; E, Alaria ovalis comb. nov. from Procyon lotor, Mississippi; F, Alaria procyonis comb. nov. from Procyon lotor, Minnesota; G, H, Alaria mustelae from Mephitis mephitis, North Dakota.	2022-09-01	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V		Zenodo	biologists	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V			
03F7830DFF8AFFA1FF56AAB3FEC2F9B7.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7031479/files/figure.png	https://doi.org/10.5281/zenodo.7031479	Figure 1. Phylogenetic interrelationships among 54 diplostomoidean taxa based on BI analysis of partial 28S rDNA gene sequences including Didelphodiplostomum and Pharyngostomoides spp. BI posterior probability values lower than 80% are not shown. The new sequences generated in this study are indicated in bold. The scale bar indicates the number of substitutions per site.	Figure 1. Phylogenetic interrelationships among 54 diplostomoidean taxa based on BI analysis of partial 28S rDNA gene sequences including Didelphodiplostomum and Pharyngostomoides spp. BI posterior probability values lower than 80% are not shown. The new sequences generated in this study are indicated in bold. The scale bar indicates the number of substitutions per site.	2022-09-01	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V		Zenodo	biologists	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V			
03F7830DFF8AFFA1FF56AAB3FEC2F9B7.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7031487/files/figure.png	https://doi.org/10.5281/zenodo.7031487	Figure 4. Photographs of: A, Tylodelphys variabilis comb. nov.from Didelphis virginiana, Arkansas; B, Alaria arisaemoides from Canis latrans, Oregon; C, Alaria alata from Nyctereutes procyonoides, Ukraine; D, Alaria marcianae from Taxidea taxus, North Dakota; E, Alaria ovalis comb. nov. from Procyon lotor, Mississippi; F, Alaria procyonis comb. nov. from Procyon lotor, Minnesota; G, H, Alaria mustelae from Mephitis mephitis, North Dakota.	Figure 4. Photographs of: A, Tylodelphys variabilis comb. nov.from Didelphis virginiana, Arkansas; B, Alaria arisaemoides from Canis latrans, Oregon; C, Alaria alata from Nyctereutes procyonoides, Ukraine; D, Alaria marcianae from Taxidea taxus, North Dakota; E, Alaria ovalis comb. nov. from Procyon lotor, Mississippi; F, Alaria procyonis comb. nov. from Procyon lotor, Minnesota; G, H, Alaria mustelae from Mephitis mephitis, North Dakota.	2022-09-01	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V		Zenodo	biologists	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V			
03F7830DFF8AFFA1FC1EA800FA08F9EB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7031479/files/figure.png	https://doi.org/10.5281/zenodo.7031479	Figure 1. Phylogenetic interrelationships among 54 diplostomoidean taxa based on BI analysis of partial 28S rDNA gene sequences including Didelphodiplostomum and Pharyngostomoides spp. BI posterior probability values lower than 80% are not shown. The new sequences generated in this study are indicated in bold. The scale bar indicates the number of substitutions per site.	Figure 1. Phylogenetic interrelationships among 54 diplostomoidean taxa based on BI analysis of partial 28S rDNA gene sequences including Didelphodiplostomum and Pharyngostomoides spp. BI posterior probability values lower than 80% are not shown. The new sequences generated in this study are indicated in bold. The scale bar indicates the number of substitutions per site.	2022-09-01	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V		Zenodo	biologists	Achatz, Tyler J;Chermak, Taylor P;Martens, Jakson R;Woodyard, Ethan T;Rosser, Thomas G;Pulis, Eric E;Weinstein, Sara B;Mcallister, Chris T;Kinsella, John M;Tkach, Vasyl V			
