taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03F5D923FFBD1A77097CFF76FEF07C06.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5454611/files/figure.png	https://doi.org/10.5281/zenodo.5454611	Figure 7. Ebiscothyris bellonensis gen. et sp. nov., cruise EBISCO, Coral Sea, South-West Pacific: A–H, ventral, dorsal, lateral, and anterior views of complete specimens, CP 2616, 786–836 m depth; A–D, paratype, IB-2013-2; E–H, holotype, IB-2013-1. I, dorsal view of complete specimen, with very long, thin pedicle, paratype, CP 2616, 786–836 m depth, IB- 2013-3. Scale bars: 5 mm.	Figure 7. Ebiscothyris bellonensis gen. et sp. nov., cruise EBISCO, Coral Sea, South-West Pacific: A–H, ventral, dorsal, lateral, and anterior views of complete specimens, CP 2616, 786–836 m depth; A–D, paratype, IB-2013-2; E–H, holotype, IB-2013-1. I, dorsal view of complete specimen, with very long, thin pedicle, paratype, CP 2616, 786–836 m depth, IB- 2013-3. Scale bars: 5 mm.	2015-01-29	Bitner, Maria Aleksandra;Cohen, Bernard L.		Zenodo	biologists	Bitner, Maria Aleksandra;Cohen, Bernard L.			
03F5D923FFBD1A77097CFF76FEF07C06.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5454613/files/figure.png	https://doi.org/10.5281/zenodo.5454613	Figure 8. Ebiscothyris bellonensis gen. et sp. nov., cruise EBISCO, Coral Sea, South-West Pacific, SEM micrographs: A, inner view of ventral valve to show symphytium with a weak line of junction, and small teeth, paratype, CP 2616, 786–836 m depth, IB-2013-4; B–E, inner, tilted, posterior, and side views of dorsal valve to show brachidium and cardinalia, paratype, CP 2557, 800–923 m depth, IB-2013-5; F, inner view of posterior part of complete specimen to show tubular pedicle collar and cardinal process, paratype, CP 2616, 786–836 m depth, IB-2013-6. Scale bars: 1 mm.	Figure 8. Ebiscothyris bellonensis gen. et sp. nov., cruise EBISCO, Coral Sea, South-West Pacific, SEM micrographs: A, inner view of ventral valve to show symphytium with a weak line of junction, and small teeth, paratype, CP 2616, 786–836 m depth, IB-2013-4; B–E, inner, tilted, posterior, and side views of dorsal valve to show brachidium and cardinalia, paratype, CP 2557, 800–923 m depth, IB-2013-5; F, inner view of posterior part of complete specimen to show tubular pedicle collar and cardinal process, paratype, CP 2616, 786–836 m depth, IB-2013-6. Scale bars: 1 mm.	2015-01-29	Bitner, Maria Aleksandra;Cohen, Bernard L.		Zenodo	biologists	Bitner, Maria Aleksandra;Cohen, Bernard L.			
03F5D923FFBD1A77097CFF76FEF07C06.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5454615/files/figure.png	https://doi.org/10.5281/zenodo.5454615	Figure 9. Ebiscothyris bellonensis gen. et sp. nov., cruise EBISCO, Coral Sea, South-West Pacific, SEM micrographs; A, B, ventral valve, station CP 2556, 741–791 m depth, IB-2013-7; A, transverse section of the entire shell showing the primary layer (pri) underlain by the fibrous secondary layer (sec), passing into the prismatic tertiary layer (ter); B, section of the shell showing primary (pri), secondary (sec), and tertiary (ter) layers; a puncta with a radiating brush is also visible; C, D, dorsal valve, CP 2557, 800–923 m depth, IB-2013-5; C, latero-oblique view of internal surface, showing the incurved valve margin built of densely arranged sheets of secondary fibres (left) and prisms of tertiary layer (right); D, internal surface showing discrete units of prisms and very small punctae (arrows). E, F, Kanakythyris pachyrhynchos Laurin, 1997, cruise NORFOLK 2, Norfolk Ridge, station DW 2136, 402–410 m depth; E, transverse section of the entire shell; F, internal surface with discrete units of prisms. Scale bars: A, C, D, E, F, 50 μm, B, 20 μm.	Figure 9. Ebiscothyris bellonensis gen. et sp. nov., cruise EBISCO, Coral Sea, South-West Pacific, SEM micrographs; A, B, ventral valve, station CP 2556, 741–791 m depth, IB-2013-7; A, transverse section of the entire shell showing the primary layer (pri) underlain by the fibrous secondary layer (sec), passing into the prismatic tertiary layer (ter); B, section of the shell showing primary (pri), secondary (sec), and tertiary (ter) layers; a puncta with a radiating brush is also visible; C, D, dorsal valve, CP 2557, 800–923 m depth, IB-2013-5; C, latero-oblique view of internal surface, showing the incurved valve margin built of densely arranged sheets of secondary fibres (left) and prisms of tertiary layer (right); D, internal surface showing discrete units of prisms and very small punctae (arrows). E, F, Kanakythyris pachyrhynchos Laurin, 1997, cruise NORFOLK 2, Norfolk Ridge, station DW 2136, 402–410 m depth; E, transverse section of the entire shell; F, internal surface with discrete units of prisms. Scale bars: A, C, D, E, F, 50 μm, B, 20 μm.	2015-01-29	Bitner, Maria Aleksandra;Cohen, Bernard L.		Zenodo	biologists	Bitner, Maria Aleksandra;Cohen, Bernard L.			
03F5D923FFBF1A770B59FA15FB637DA2.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5454603/files/figure.png	https://doi.org/10.5281/zenodo.5454603	Figure 3. Case 3: Dyscolioid and Terebratuloid gene tree. Best maximum-likelihood tree (GTR + invariant + gamma model) from RAxML with thorough bootstrap support (%), based on 3427 nucleotides of aligned sequences from up to four genes (12S and 16S mitochondrial, and SSU and LSU nuclear) from 19 in-group and three rhynchonellide out-group taxa. Pruned of potentially misaligned and gap sites by hand (7% discarded). In-group backbone nodes with no bootstrap support value attached are considered to be unsupported (may be collapsed; boostrap <50%). Nine taxa, marked (LSU), are represented by LSU sequence data alone, and in each case this sequence clusters with the cognate multiple sequences, indicating that the LSU fragment alone can accurately place the taxon. These results validate the placement of Ebiscothyris, Dallithyris, and Dyscolia, each of which is represented by LSU alone.	Figure 3. Case 3: Dyscolioid and Terebratuloid gene tree. Best maximum-likelihood tree (GTR + invariant + gamma model) from RAxML with thorough bootstrap support (%), based on 3427 nucleotides of aligned sequences from up to four genes (12S and 16S mitochondrial, and SSU and LSU nuclear) from 19 in-group and three rhynchonellide out-group taxa. Pruned of potentially misaligned and gap sites by hand (7% discarded). In-group backbone nodes with no bootstrap support value attached are considered to be unsupported (may be collapsed; boostrap <50%). Nine taxa, marked (LSU), are represented by LSU sequence data alone, and in each case this sequence clusters with the cognate multiple sequences, indicating that the LSU fragment alone can accurately place the taxon. These results validate the placement of Ebiscothyris, Dallithyris, and Dyscolia, each of which is represented by LSU alone.	2015-01-29	Bitner, Maria Aleksandra;Cohen, Bernard L.		Zenodo	biologists	Bitner, Maria Aleksandra;Cohen, Bernard L.			
