taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03CC87E5C269DA473872136E57066ECB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14806125/files/figure.png	https://doi.org/10.5281/zenodo.14806125	Figure 3. Maximum-likelihood-based ancestral character state reconstruction for anatomical characters mapped on the Bayesian consensus tree of Fig. 1. A, shell anterior canal. B, duplicated peristome. C, shell inner organic layer. D, opercular peg. E, pallial tentacles. F, metapodial tentacles. G, posterior mucous gland. H, basal cusps on rachidian tooth. Taxa for which anatomical information was not available have been excluded from the tree. Branches with BPP support values lower than 90% are shown as collapsed. A likelihood of state at each node lower than 1% is omitted.	Figure 3. Maximum-likelihood-based ancestral character state reconstruction for anatomical characters mapped on the Bayesian consensus tree of Fig. 1. A, shell anterior canal. B, duplicated peristome. C, shell inner organic layer. D, opercular peg. E, pallial tentacles. F, metapodial tentacles. G, posterior mucous gland. H, basal cusps on rachidian tooth. Taxa for which anatomical information was not available have been excluded from the tree. Branches with BPP support values lower than 90% are shown as collapsed. A likelihood of state at each node lower than 1% is omitted.	2016-05-30	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori		Zenodo	biologists	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori			
03CC87E5C269DA473872136E57066ECB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14806127/files/figure.png	https://doi.org/10.5281/zenodo.14806127	Figure 4. Maximum-likelihood-based ancestral character state reconstruction for anatomical characters mapped on the Bayesian consensus tree of Fig. 1. A, prostate gland. B, penis shape. C, penial duct. D, upper oviduct gland. E, ventral channel. F, anterior sperm sac. G, genital opening. H, posterior bursa copulatrix. Taxa for which anatomical information was not available have been excluded from the tree. Branches with BPP support values lower than 90% are shown as collapsed. Question marks on nodes indicate an unknown character state. A likelihood of state at each node lower than 1% is omitted.	Figure 4. Maximum-likelihood-based ancestral character state reconstruction for anatomical characters mapped on the Bayesian consensus tree of Fig. 1. A, prostate gland. B, penis shape. C, penial duct. D, upper oviduct gland. E, ventral channel. F, anterior sperm sac. G, genital opening. H, posterior bursa copulatrix. Taxa for which anatomical information was not available have been excluded from the tree. Branches with BPP support values lower than 90% are shown as collapsed. Question marks on nodes indicate an unknown character state. A likelihood of state at each node lower than 1% is omitted.	2016-05-30	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori		Zenodo	biologists	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori			
03CC87E5C269DA403AF3175A54496ADF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14806125/files/figure.png	https://doi.org/10.5281/zenodo.14806125	Figure 3. Maximum-likelihood-based ancestral character state reconstruction for anatomical characters mapped on the Bayesian consensus tree of Fig. 1. A, shell anterior canal. B, duplicated peristome. C, shell inner organic layer. D, opercular peg. E, pallial tentacles. F, metapodial tentacles. G, posterior mucous gland. H, basal cusps on rachidian tooth. Taxa for which anatomical information was not available have been excluded from the tree. Branches with BPP support values lower than 90% are shown as collapsed. A likelihood of state at each node lower than 1% is omitted.	Figure 3. Maximum-likelihood-based ancestral character state reconstruction for anatomical characters mapped on the Bayesian consensus tree of Fig. 1. A, shell anterior canal. B, duplicated peristome. C, shell inner organic layer. D, opercular peg. E, pallial tentacles. F, metapodial tentacles. G, posterior mucous gland. H, basal cusps on rachidian tooth. Taxa for which anatomical information was not available have been excluded from the tree. Branches with BPP support values lower than 90% are shown as collapsed. A likelihood of state at each node lower than 1% is omitted.	2016-05-30	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori		Zenodo	biologists	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori			
03CC87E5C269DA473998162352496B44.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14806125/files/figure.png	https://doi.org/10.5281/zenodo.14806125	Figure 3. Maximum-likelihood-based ancestral character state reconstruction for anatomical characters mapped on the Bayesian consensus tree of Fig. 1. A, shell anterior canal. B, duplicated peristome. C, shell inner organic layer. D, opercular peg. E, pallial tentacles. F, metapodial tentacles. G, posterior mucous gland. H, basal cusps on rachidian tooth. Taxa for which anatomical information was not available have been excluded from the tree. Branches with BPP support values lower than 90% are shown as collapsed. A likelihood of state at each node lower than 1% is omitted.	Figure 3. Maximum-likelihood-based ancestral character state reconstruction for anatomical characters mapped on the Bayesian consensus tree of Fig. 1. A, shell anterior canal. B, duplicated peristome. C, shell inner organic layer. D, opercular peg. E, pallial tentacles. F, metapodial tentacles. G, posterior mucous gland. H, basal cusps on rachidian tooth. Taxa for which anatomical information was not available have been excluded from the tree. Branches with BPP support values lower than 90% are shown as collapsed. A likelihood of state at each node lower than 1% is omitted.	2016-05-30	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori		Zenodo	biologists	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori			
03CC87E5C269DA473AD612BE55176E20.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14806125/files/figure.png	https://doi.org/10.5281/zenodo.14806125	Figure 3. Maximum-likelihood-based ancestral character state reconstruction for anatomical characters mapped on the Bayesian consensus tree of Fig. 1. A, shell anterior canal. B, duplicated peristome. C, shell inner organic layer. D, opercular peg. E, pallial tentacles. F, metapodial tentacles. G, posterior mucous gland. H, basal cusps on rachidian tooth. Taxa for which anatomical information was not available have been excluded from the tree. Branches with BPP support values lower than 90% are shown as collapsed. A likelihood of state at each node lower than 1% is omitted.	Figure 3. Maximum-likelihood-based ancestral character state reconstruction for anatomical characters mapped on the Bayesian consensus tree of Fig. 1. A, shell anterior canal. B, duplicated peristome. C, shell inner organic layer. D, opercular peg. E, pallial tentacles. F, metapodial tentacles. G, posterior mucous gland. H, basal cusps on rachidian tooth. Taxa for which anatomical information was not available have been excluded from the tree. Branches with BPP support values lower than 90% are shown as collapsed. A likelihood of state at each node lower than 1% is omitted.	2016-05-30	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori		Zenodo	biologists	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori			
03CC87E5C26EDA40399213D754AB6EAF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14806127/files/figure.png	https://doi.org/10.5281/zenodo.14806127	Figure 4. Maximum-likelihood-based ancestral character state reconstruction for anatomical characters mapped on the Bayesian consensus tree of Fig. 1. A, prostate gland. B, penis shape. C, penial duct. D, upper oviduct gland. E, ventral channel. F, anterior sperm sac. G, genital opening. H, posterior bursa copulatrix. Taxa for which anatomical information was not available have been excluded from the tree. Branches with BPP support values lower than 90% are shown as collapsed. Question marks on nodes indicate an unknown character state. A likelihood of state at each node lower than 1% is omitted.	Figure 4. Maximum-likelihood-based ancestral character state reconstruction for anatomical characters mapped on the Bayesian consensus tree of Fig. 1. A, prostate gland. B, penis shape. C, penial duct. D, upper oviduct gland. E, ventral channel. F, anterior sperm sac. G, genital opening. H, posterior bursa copulatrix. Taxa for which anatomical information was not available have been excluded from the tree. Branches with BPP support values lower than 90% are shown as collapsed. Question marks on nodes indicate an unknown character state. A likelihood of state at each node lower than 1% is omitted.	2016-05-30	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori		Zenodo	biologists	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori			
03CC87E5C26EDA43387217C754A06CBD.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14806123/files/figure.png	https://doi.org/10.5281/zenodo.14806123	Figure 2. Maximum-likelihood phylogram based on analyses of the concatenated 16S and 28S sequences. Numbers on branches indicate nodal support (%) by ML bootstrap (BTSP; only values ≥ 70% are shown; values of 100% are represented by asterisks). Thick lines mark branches that are consistent with the topology of the BI tree. Taxa included in the Rissooidea are shaded. Taxon names are followed by registration numbers.Names of bathyal taxa are followed by a dot.	Figure 2. Maximum-likelihood phylogram based on analyses of the concatenated 16S and 28S sequences. Numbers on branches indicate nodal support (%) by ML bootstrap (BTSP; only values ≥ 70% are shown; values of 100% are represented by asterisks). Thick lines mark branches that are consistent with the topology of the BI tree. Taxa included in the Rissooidea are shaded. Taxon names are followed by registration numbers.Names of bathyal taxa are followed by a dot.	2016-05-30	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori		Zenodo	biologists	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori			
03CC87E5C26EDA43387217C754A06CBD.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14806129/files/figure.png	https://doi.org/10.5281/zenodo.14806129	Figure 5. Shells of rissooidean taxa included in the analysis and not figured elsewhere. A, ‘Alvania’ cf. akibai (Yokoyama, 1926) (AORI YK1996). B, ‘Alvania’ sp. (AORI YK1997). C, Punctulum cf. flavum (Okutani, 1964) (AORI YK1998). D, Lucidestea sp. (AORI YK1628). E, Rissoina fasciata Adams, 1852 (voucher AM C. 466913). F, Merelina lyalliana (Suter, 1898) (voucher AM C.466920). G, Merelina taupoensis Powell, 1938 (voucher AM C.466919). H, Schwartziella sp. (voucher AM C.466915). J, Parashiela sp. (voucher AM C.476714). Scalebar = 2mm. [Correction added on 14 June 2016, after first online publication: A scale bar has since been added on the top right of Figure 5.]	Figure 5. Shells of rissooidean taxa included in the analysis and not figured elsewhere. A, ‘Alvania’ cf. akibai (Yokoyama, 1926) (AORI YK1996). B, ‘Alvania’ sp. (AORI YK1997). C, Punctulum cf. flavum (Okutani, 1964) (AORI YK1998). D, Lucidestea sp. (AORI YK1628). E, Rissoina fasciata Adams, 1852 (voucher AM C. 466913). F, Merelina lyalliana (Suter, 1898) (voucher AM C.466920). G, Merelina taupoensis Powell, 1938 (voucher AM C.466919). H, Schwartziella sp. (voucher AM C.466915). J, Parashiela sp. (voucher AM C.476714). Scalebar = 2mm. [Correction added on 14 June 2016, after first online publication: A scale bar has since been added on the top right of Figure 5.]	2016-05-30	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori		Zenodo	biologists	Criscione, Francesco;Ponder, Winston Frank;Köhler, Frank;Takano, Tsuyoshi;Kano, Yasunori			
