taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
672787C9FFAD6713B48A6FA8FB8CFF40.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217671/files/figure.png	https://doi.org/10.5281/zenodo.15217671	FIGURE 5. Ascandra polejaeffi sp. nov. (holotype, UFRJPOR 8805). A—Specimen in vivo. B—Specimen after fixation. C—Tangential section of a tube. D—Diactines protruding through the surface of a tube.	FIGURE 5. Ascandra polejaeffi sp. nov. (holotype, UFRJPOR 8805). A—Specimen in vivo. B—Specimen after fixation. C—Tangential section of a tube. D—Diactines protruding through the surface of a tube.	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FFAD6713B48A6FA8FB8CFF40.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217673/files/figure.png	https://doi.org/10.5281/zenodo.15217673	FIGURE 6. Spicules of Ascandra polejaeffi sp. nov. (holotype, UFRJPOR 8805). A—Diactine. B—Triactine. C—Tetractine I. D—Tetractines II. E—Apical actine of tetractine II.	FIGURE 6. Spicules of Ascandra polejaeffi sp. nov. (holotype, UFRJPOR 8805). A—Diactine. B—Triactine. C—Tetractine I. D—Tetractines II. E—Apical actine of tetractine II.	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FFB06711B48A69A6FA3EFE44.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217677/files/figure.png	https://doi.org/10.5281/zenodo.15217677	FIGURE 7. Borojevia brasiliensis (UFRJPOR 8827).A—Specimen in vivo. B—Specimen after fixation. C—Tangential section of the skeleton, with inset showing the apical actine of a tetractine pointing into the lumen of a tube. D—Tripods. E—Triactines. F—Tetractines. G—Apical actine of a tetractine with short spines.	FIGURE 7. Borojevia brasiliensis (UFRJPOR 8827).A—Specimen in vivo. B—Specimen after fixation. C—Tangential section of the skeleton, with inset showing the apical actine of a tetractine pointing into the lumen of a tube. D—Tripods. E—Triactines. F—Tetractines. G—Apical actine of a tetractine with short spines.	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FFB06711B48A69A6FA3EFE44.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217679/files/figure.png	https://doi.org/10.5281/zenodo.15217679	FIGURE 8. Borojevia trispinata (UFRJPOR 8827). A—Specimen in vivo. B—Specimen after fixation. C—Tangential section of the skeleton. D—Apical actines showing how variable are the spines. E—Tripod. F—Triactine. G—Tetractine.	FIGURE 8. Borojevia trispinata (UFRJPOR 8827). A—Specimen in vivo. B—Specimen after fixation. C—Tangential section of the skeleton. D—Apical actines showing how variable are the spines. E—Tripod. F—Triactine. G—Tetractine.	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FFB26717B48A690BFA34FD64.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217679/files/figure.png	https://doi.org/10.5281/zenodo.15217679	FIGURE 8. Borojevia trispinata (UFRJPOR 8827). A—Specimen in vivo. B—Specimen after fixation. C—Tangential section of the skeleton. D—Apical actines showing how variable are the spines. E—Tripod. F—Triactine. G—Tetractine.	FIGURE 8. Borojevia trispinata (UFRJPOR 8827). A—Specimen in vivo. B—Specimen after fixation. C—Tangential section of the skeleton. D—Apical actines showing how variable are the spines. E—Tripod. F—Triactine. G—Tetractine.	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FFB46715B48A6F7BFCDFFD64.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217681/files/figure.png	https://doi.org/10.5281/zenodo.15217681	FIGURE 9. Clathrina albata sp. nov. (holotype, UFRJPOR 8808).A—Specimen in vivo. B—Detail of the anastomosis (arrows point to oscula). C—Tangential section of the skeleton. D—Tripod. E—Triactines I. F—Triactine II.	FIGURE 9. Clathrina albata sp. nov. (holotype, UFRJPOR 8808).A—Specimen in vivo. B—Detail of the anastomosis (arrows point to oscula). C—Tangential section of the skeleton. D—Tripod. E—Triactines I. F—Triactine II.	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FFB46715B48A6F7BFCDFFD64.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217661/files/figure.png	https://doi.org/10.5281/zenodo.15217661	FIGURE 2. Maximum likelihood phylogeny of Calcinea using the C-LSU marker. Bold names are newly generated sequences. Branch supports indicate bootstrap and posterior probability, respectively. Bootstraps = 100% and posterior probabilities = 1 are presented with an asterisk (*). Bootstrap and posterior probabilities values lower than 70% are represented as (<).	FIGURE 2. Maximum likelihood phylogeny of Calcinea using the C-LSU marker. Bold names are newly generated sequences. Branch supports indicate bootstrap and posterior probability, respectively. Bootstraps = 100% and posterior probabilities = 1 are presented with an asterisk (*). Bootstrap and posterior probabilities values lower than 70% are represented as (<).	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FFB66715B48A686CFD98F848.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217685/files/figure.png	https://doi.org/10.5281/zenodo.15217685	FIGURE 10. Clathrina capixaba sp. nov. (holotype, UFRJPOR 8823). A—Specimens after fixation attached to an octocoral (arrows). B—Detail of the organisation of the cormus showing water-collecting tubes (arrowhead). C—Tangential section of the skeleton. D—Triactines I. E—Triactines II.	FIGURE 10. Clathrina capixaba sp. nov. (holotype, UFRJPOR 8823). A—Specimens after fixation attached to an octocoral (arrows). B—Detail of the organisation of the cormus showing water-collecting tubes (arrowhead). C—Tangential section of the skeleton. D—Triactines I. E—Triactines II.	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FFB8671AB48A6BB9FD09F82B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217687/files/figure.png	https://doi.org/10.5281/zenodo.15217687	FIGURE 11. Clathrina delicata (UFRJPOR 8796). A—Specimen in vivo. B—Specimen after fixation. C—Tangential section of the skeleton. D—Triactine I (arrow) and triactine II (arrowhead).	FIGURE 11. Clathrina delicata (UFRJPOR 8796). A—Specimen in vivo. B—Specimen after fixation. C—Tangential section of the skeleton. D—Triactine I (arrow) and triactine II (arrowhead).	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FFB8671AB48A6BB9FD09F82B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217691/files/figure.png	https://doi.org/10.5281/zenodo.15217691	FIGURE 12. Clathrina delicata (UFRJPOR 8796). A—Triactines I. B—Triactines II. C—Triactines III.	FIGURE 12. Clathrina delicata (UFRJPOR 8796). A—Triactines I. B—Triactines II. C—Triactines III.	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FFBA6719B48A6BB9FDA6F99C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217693/files/figure.png	https://doi.org/10.5281/zenodo.15217693	FIGURE 13. Clathrina soluta (UFRJPOR 8806). A—Specimen in vivo. B—Specimen after fixation. C—Tangential section of the skeleton. D—Trichoxea protruding through the wall of a tube (arrow). E—Triactine I. F—Triactine II.	FIGURE 13. Clathrina soluta (UFRJPOR 8806). A—Specimen in vivo. B—Specimen after fixation. C—Tangential section of the skeleton. D—Trichoxea protruding through the wall of a tube (arrow). E—Triactine I. F—Triactine II.	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FFBA6719B48A6BB9FDA6F99C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217661/files/figure.png	https://doi.org/10.5281/zenodo.15217661	FIGURE 2. Maximum likelihood phylogeny of Calcinea using the C-LSU marker. Bold names are newly generated sequences. Branch supports indicate bootstrap and posterior probability, respectively. Bootstraps = 100% and posterior probabilities = 1 are presented with an asterisk (*). Bootstrap and posterior probabilities values lower than 70% are represented as (<).	FIGURE 2. Maximum likelihood phylogeny of Calcinea using the C-LSU marker. Bold names are newly generated sequences. Branch supports indicate bootstrap and posterior probability, respectively. Bootstraps = 100% and posterior probabilities = 1 are presented with an asterisk (*). Bootstrap and posterior probabilities values lower than 70% are represented as (<).	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FFBA6719B48A6BB9FDA6F99C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217665/files/figure.png	https://doi.org/10.5281/zenodo.15217665	FIGURE 3. Maximum likelihood phylogeny of Calcinea using the ITS marker. Bold names are newly generated sequences. Branch supports indicate bootstrap and posterior probability, respectively. Bootstraps = 100% and posterior probabilities = 1 are presented with an asterisk (*). Bootstrap and posterior probabilities values lower than 70% are represented as (<).	FIGURE 3. Maximum likelihood phylogeny of Calcinea using the ITS marker. Bold names are newly generated sequences. Branch supports indicate bootstrap and posterior probability, respectively. Bootstraps = 100% and posterior probabilities = 1 are presented with an asterisk (*). Bootstrap and posterior probabilities values lower than 70% are represented as (<).	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FFBC671CB48A690DFAAAFEF0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217695/files/figure.png	https://doi.org/10.5281/zenodo.15217695	FIGURE 14. Grantia kempfi (UFRJPOR 8831). A—Specimen after fixation. B—Cross section of the body wall. C—Detail of the cortical skeleton. D—Detail of the tubar skeleton. E—Subatrial (arrow) and atrial skeletons, with the long apical actines of the atrial tetractines pointing towards the atrial lumen. F—Atrial skeleton, arrow points to atrial triactines. Abbreviations: cx = cortex; at = atrium.	FIGURE 14. Grantia kempfi (UFRJPOR 8831). A—Specimen after fixation. B—Cross section of the body wall. C—Detail of the cortical skeleton. D—Detail of the tubar skeleton. E—Subatrial (arrow) and atrial skeletons, with the long apical actines of the atrial tetractines pointing towards the atrial lumen. F—Atrial skeleton, arrow points to atrial triactines. Abbreviations: cx = cortex; at = atrium.	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FFBC671CB48A690DFAAAFEF0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217699/files/figure.png	https://doi.org/10.5281/zenodo.15217699	FIGURE 15. Grantia kempfi (UFRJPOR 8831). A—Broken trichoxea. B—Diactine I. C—Diactine II. D—Oscular triactine. E—Cortical triactine. F—Tubar triactine. G—Tubar tetractine. H—Subatrial triactine. I—Atrial triactine. J—Atrial tetractine.	FIGURE 15. Grantia kempfi (UFRJPOR 8831). A—Broken trichoxea. B—Diactine I. C—Diactine II. D—Oscular triactine. E—Cortical triactine. F—Tubar triactine. G—Tubar tetractine. H—Subatrial triactine. I—Atrial triactine. J—Atrial tetractine.	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FF806721B48A6AD1FEBEF810.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217701/files/figure.png	https://doi.org/10.5281/zenodo.15217701	FIGURE 16. Vosmaeropsis anomala sp. nov. (UFRJPOR 8835). A—Specimen after fixation. B—Tangential section of the cortex (microdiactines on the detail). C—Subcortical region (arrow: pseudosagittal triactine). D—Cross section of the body wall. E—Choanosomal canals. F—Subatrial triactine (arrow). G—Subatrial tetractine (arrow). H—Tangential section of the atrial skeleton. Abbreviations: cx = cortex; at = atrium.	FIGURE 16. Vosmaeropsis anomala sp. nov. (UFRJPOR 8835). A—Specimen after fixation. B—Tangential section of the cortex (microdiactines on the detail). C—Subcortical region (arrow: pseudosagittal triactine). D—Cross section of the body wall. E—Choanosomal canals. F—Subatrial triactine (arrow). G—Subatrial tetractine (arrow). H—Tangential section of the atrial skeleton. Abbreviations: cx = cortex; at = atrium.	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FF806721B48A6AD1FEBEF810.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217705/files/figure.png	https://doi.org/10.5281/zenodo.15217705	FIGURE 17. Abnormal spicules of Vosmaeropsis anomala sp. nov. (UFRJPOR 8839). A—Subatrial tetractine with two apical actines. B—Atrial tetractine with another actine growing on the apical actine. Abbreviations: cx = cortex.	FIGURE 17. Abnormal spicules of Vosmaeropsis anomala sp. nov. (UFRJPOR 8839). A—Subatrial tetractine with two apical actines. B—Atrial tetractine with another actine growing on the apical actine. Abbreviations: cx = cortex.	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
672787C9FF806721B48A6AD1FEBEF810.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15217711/files/figure.png	https://doi.org/10.5281/zenodo.15217711	FIGURE 18. Vosmaeropsis anomala sp. nov. (UFRJPOR 8835). A—Microdiactine. B—Cortical triactine. C—Subcortical pseudosagittal triactine. D—Choanosomal triactine I. E—Choanosomal triactine II. F—Choanosomal triactine III. G— Choanosomal tetractine. H—Subatrial triactine. I—Subatrial tetractine. J—Atrial triactine. K—Atrial tetractine.	FIGURE 18. Vosmaeropsis anomala sp. nov. (UFRJPOR 8835). A—Microdiactine. B—Cortical triactine. C—Subcortical pseudosagittal triactine. D—Choanosomal triactine I. E—Choanosomal triactine II. F—Choanosomal triactine III. G— Choanosomal tetractine. H—Subatrial triactine. I—Subatrial tetractine. J—Atrial triactine. K—Atrial tetractine.	2025-04-02	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle		Zenodo	biologists	Lopes, Matheus Vieira;Padua, André;Azevedo, Fernanda;Klautau, Michelle			
