taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
2B7987A4FF8CFFFEA678F607FE4FFBC5.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813627/files/figure.png	https://doi.org/10.5281/zenodo.14813627	Figure 2. Arturia vansoesti sp. nov. (UFRJPOR 6720). A, specimen in vivo (arrow: water-collecting tube). B, specimen after fixation. C, tangential section of the skeleton. D, triactine. E, tetractine. F, apical actine of a tetractine.	Figure 2. Arturia vansoesti sp. nov. (UFRJPOR 6720). A, specimen in vivo (arrow: water-collecting tube). B, specimen after fixation. C, tangential section of the skeleton. D, triactine. E, tetractine. F, apical actine of a tetractine.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF8CFFFEA678F607FE4FFBC5.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813630/files/figure.png	https://doi.org/10.5281/zenodo.14813630	Figure 3. Borojevia tenuispinata (UFRJPOR 6700). A, fragmented specimen after fixation. B, detail of the cormus. C, tangential section of the skeleton of an external tube (left arrow: tripod; right arrow: tetrapod). D, tangential section of the cormus. E, tripod. F, triactine. G, tetrapod. H, tetractine. I, detail of the spined apical actine of the tetractine.	Figure 3. Borojevia tenuispinata (UFRJPOR 6700). A, fragmented specimen after fixation. B, detail of the cormus. C, tangential section of the skeleton of an external tube (left arrow: tripod; right arrow: tetrapod). D, tangential section of the cormus. E, tripod. F, triactine. G, tetrapod. H, tetractine. I, detail of the spined apical actine of the tetractine.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF87FFF9A666F7BEFD5BFD8E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813636/files/figure.png	https://doi.org/10.5281/zenodo.14813636	Figure 6. Clathrina curacaoensis sp. nov. (UFRJPOR 6734). A, specimen after fixation. B, tangential section of the	Figure 6. Clathrina curacaoensis sp. nov. (UFRJPOR 6734). A, specimen after fixation. B, tangential section of the	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF87FFF9A666F7BEFD5BFD8E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813632/files/figure.png	https://doi.org/10.5281/zenodo.14813632	Figure 4. Bayesian phylogenetic tree inferred from the ITS sequences of the Calcinean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	Figure 4. Bayesian phylogenetic tree inferred from the ITS sequences of the Calcinean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF87FFF9A666F7BEFD5BFD8E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813634/files/figure.png	https://doi.org/10.5281/zenodo.14813634	Figure 5. Maximum likelihood phylogenetic tree inferred from the C-LSU sequences of the Calcinean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	Figure 5. Maximum likelihood phylogenetic tree inferred from the C-LSU sequences of the Calcinean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF85FFE7A67BF740FD49FE6D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813638/files/figure.png	https://doi.org/10.5281/zenodo.14813638	Figure 7. Clathrina globulosa sp. nov. (UFRJPOR 6759). A, specimen after fixation (arrow: stalk). B, tangential section of the clathroid body. C, triactine I. D, triactine II. E, triactine of the stalk.	Figure 7. Clathrina globulosa sp. nov. (UFRJPOR 6759). A, specimen after fixation (arrow: stalk). B, tangential section of the clathroid body. C, triactine I. D, triactine II. E, triactine of the stalk.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF9BFFE4A7C5F763FB9BF8EA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813640/files/figure.png	https://doi.org/10.5281/zenodo.14813640	Figure 8. Clathrina hondurensis (UFRJPOR 6732). A, specimen in vivo. B, specimen after fixation. C, tangential section of the body (cormus) skeleton. D, detail of trichoxea indicated by an arrow. E, triactine.	Figure 8. Clathrina hondurensis (UFRJPOR 6732). A, specimen in vivo. B, specimen after fixation. C, tangential section of the body (cormus) skeleton. D, detail of trichoxea indicated by an arrow. E, triactine.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF9BFFE4A7C5F763FB9BF8EA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813642/files/figure.png	https://doi.org/10.5281/zenodo.14813642	Figure 9. Clathrina insularis (UFRJPOR 6737).A, specimen in vivo. B, tangential section of the body (cormus). C, triactine I. D–E, triactines II.	Figure 9. Clathrina insularis (UFRJPOR 6737).A, specimen in vivo. B, tangential section of the body (cormus). C, triactine I. D–E, triactines II.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF92FFEDA4E4F028FDF9FB17.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813648/files/figure.png	https://doi.org/10.5281/zenodo.14813648	Figure 12. Leucetta floridana (UFRJPOR 6757). A, specimen in vivo. B, specimen after fixation. C, triactine I. D, triactine II. E, tetractine I. F, tetractine II.	Figure 12. Leucetta floridana (UFRJPOR 6757). A, specimen in vivo. B, specimen after fixation. C, triactine I. D, triactine II. E, tetractine I. F, tetractine II.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF92FFEDA4E4F028FDF9FB17.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813632/files/figure.png	https://doi.org/10.5281/zenodo.14813632	Figure 4. Bayesian phylogenetic tree inferred from the ITS sequences of the Calcinean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	Figure 4. Bayesian phylogenetic tree inferred from the ITS sequences of the Calcinean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF91FFE8A645F1B5FE6DF913.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813650/files/figure.png	https://doi.org/10.5281/zenodo.14813650	Figure 13. Leucilla antillana sp. nov. (UFRJPOR 6768). A, specimen in vivo. B, specimen after fixation with the crown of trichoxea (arrow). C, cross section of the skeleton. D, tangential section of the cortex. E, choanoskeleton with the apical actine of a tetractine (arrow). F, atrial skeleton with a subatrial triactine (white arrow) and an apical actine of an atrial tetractine (black arrow). cx, cortex; at, atrium.	Figure 13. Leucilla antillana sp. nov. (UFRJPOR 6768). A, specimen in vivo. B, specimen after fixation with the crown of trichoxea (arrow). C, cross section of the skeleton. D, tangential section of the cortex. E, choanoskeleton with the apical actine of a tetractine (arrow). F, atrial skeleton with a subatrial triactine (white arrow) and an apical actine of an atrial tetractine (black arrow). cx, cortex; at, atrium.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF91FFE8A645F1B5FE6DF913.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813652/files/figure.png	https://doi.org/10.5281/zenodo.14813652	Figure 14. Spicules of Leucilla antillana sp. nov. (UFRJPOR 6768). A, cortical tetractine. B, large subatrial triactine. C, small subatrial triactine. D, atrial tetractine.	Figure 14. Spicules of Leucilla antillana sp. nov. (UFRJPOR 6768). A, cortical tetractine. B, large subatrial triactine. C, small subatrial triactine. D, atrial tetractine.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF91FFE8A645F1B5FE6DF913.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813625/files/figure.png	https://doi.org/10.5281/zenodo.14813625	Figure 1. Study area. A, Curaçao in the Caribbean Sea. B, sampled localities in Curaçao.	Figure 1. Study area. A, Curaçao in the Caribbean Sea. B, sampled localities in Curaçao.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF91FFE8A645F1B5FE6DF913.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813627/files/figure.png	https://doi.org/10.5281/zenodo.14813627	Figure 2. Arturia vansoesti sp. nov. (UFRJPOR 6720). A, specimen in vivo (arrow: water-collecting tube). B, specimen after fixation. C, tangential section of the skeleton. D, triactine. E, tetractine. F, apical actine of a tetractine.	Figure 2. Arturia vansoesti sp. nov. (UFRJPOR 6720). A, specimen in vivo (arrow: water-collecting tube). B, specimen after fixation. C, tangential section of the skeleton. D, triactine. E, tetractine. F, apical actine of a tetractine.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF91FFE8A645F1B5FE6DF913.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813630/files/figure.png	https://doi.org/10.5281/zenodo.14813630	Figure 3. Borojevia tenuispinata (UFRJPOR 6700). A, fragmented specimen after fixation. B, detail of the cormus. C, tangential section of the skeleton of an external tube (left arrow: tripod; right arrow: tetrapod). D, tangential section of the cormus. E, tripod. F, triactine. G, tetrapod. H, tetractine. I, detail of the spined apical actine of the tetractine.	Figure 3. Borojevia tenuispinata (UFRJPOR 6700). A, fragmented specimen after fixation. B, detail of the cormus. C, tangential section of the skeleton of an external tube (left arrow: tripod; right arrow: tetrapod). D, tangential section of the cormus. E, tripod. F, triactine. G, tetrapod. H, tetractine. I, detail of the spined apical actine of the tetractine.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF91FFE8A645F1B5FE6DF913.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813632/files/figure.png	https://doi.org/10.5281/zenodo.14813632	Figure 4. Bayesian phylogenetic tree inferred from the ITS sequences of the Calcinean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	Figure 4. Bayesian phylogenetic tree inferred from the ITS sequences of the Calcinean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF91FFE8A645F1B5FE6DF913.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813654/files/figure.png	https://doi.org/10.5281/zenodo.14813654	Figure 15. Bayesian phylogenetic tree inferred from the C-LSU sequences of the Calcaronean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	Figure 15. Bayesian phylogenetic tree inferred from the C-LSU sequences of the Calcaronean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF94FFD4A665F3B0FC00FE11.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813656/files/figure.png	https://doi.org/10.5281/zenodo.14813656	Figure 16. Leucilla micropilosa sp. nov. A–C, UFRJPOR 6756, UFRJPOR 6739 and UFRJPOR 6755 in vivo. D–F, UFRJPOR 6756, UFRJPOR 6739 and UFRJPOR 6755 after fixation. G, cross section of the skeleton. H, microdiactines along the surface. I, tufts of microdiactines in UFRJPOR 6739. J, cortical skeleton showing triactines (black arrow) and apical actine of a subcortical tetractine (white arrow). K, choanosomal and atrial skeletons showing the apical actine of a subcortical tetractine (white arrow), unpaired actine of a subatrial triactine (black arrow) and apical actine of an atrial tetractine (*). Skeleton photos were taken from UFRJPOR 6755, except when indicated. cx, cortex; at, atrium.	Figure 16. Leucilla micropilosa sp. nov. A–C, UFRJPOR 6756, UFRJPOR 6739 and UFRJPOR 6755 in vivo. D–F, UFRJPOR 6756, UFRJPOR 6739 and UFRJPOR 6755 after fixation. G, cross section of the skeleton. H, microdiactines along the surface. I, tufts of microdiactines in UFRJPOR 6739. J, cortical skeleton showing triactines (black arrow) and apical actine of a subcortical tetractine (white arrow). K, choanosomal and atrial skeletons showing the apical actine of a subcortical tetractine (white arrow), unpaired actine of a subatrial triactine (black arrow) and apical actine of an atrial tetractine (*). Skeleton photos were taken from UFRJPOR 6755, except when indicated. cx, cortex; at, atrium.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF94FFD4A665F3B0FC00FE11.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813658/files/figure.png	https://doi.org/10.5281/zenodo.14813658	Figure 17. Spicules of Leucilla micropilosa sp. nov. (UFRJPOR 6755). A, cortical triactine. B, subcortical tetractine. C, subatrial triactine. D, atrial tetractine.	Figure 17. Spicules of Leucilla micropilosa sp. nov. (UFRJPOR 6755). A, cortical triactine. B, subcortical tetractine. C, subatrial triactine. D, atrial tetractine.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FF94FFD4A665F3B0FC00FE11.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813654/files/figure.png	https://doi.org/10.5281/zenodo.14813654	Figure 15. Bayesian phylogenetic tree inferred from the C-LSU sequences of the Calcaronean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	Figure 15. Bayesian phylogenetic tree inferred from the C-LSU sequences of the Calcaronean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFA8FFD0A4CDF616FD2AF928.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813660/files/figure.png	https://doi.org/10.5281/zenodo.14813660	Figure 18. Leucandra caribea sp. nov. (UFRJPOR 6754). A, specimen in vivo. B, specimen after fixation. C, detail of trichoxeas (arrow) along the surface. D, tangential section of the oscular region. E, detail of the oscular trichoxeas (arrow). F, cross section of the skeleton. c, choanosomal canals; cc, choanocyte chambers.	Figure 18. Leucandra caribea sp. nov. (UFRJPOR 6754). A, specimen in vivo. B, specimen after fixation. C, detail of trichoxeas (arrow) along the surface. D, tangential section of the oscular region. E, detail of the oscular trichoxeas (arrow). F, cross section of the skeleton. c, choanosomal canals; cc, choanocyte chambers.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFA8FFD0A4CDF616FD2AF928.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813662/files/figure.png	https://doi.org/10.5281/zenodo.14813662	Figure 19. Skeleton of Leucandra caribea sp. nov. (UFRJPOR 6754). A, cross section of the skeleton. B, cortex. C, choanosomal canal showing tetractines. D, choanosomal canal showing triactines. E, atrial skeleton showing triactine. F, tetractine with the apical actine protruding into the atrial cavity (arrow). cx, cortex; c, choanosomal canal; at, atrium.	Figure 19. Skeleton of Leucandra caribea sp. nov. (UFRJPOR 6754). A, cross section of the skeleton. B, cortex. C, choanosomal canal showing tetractines. D, choanosomal canal showing triactines. E, atrial skeleton showing triactine. F, tetractine with the apical actine protruding into the atrial cavity (arrow). cx, cortex; c, choanosomal canal; at, atrium.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFA8FFD0A4CDF616FD2AF928.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813664/files/figure.png	https://doi.org/10.5281/zenodo.14813664	Figure 20. Spicules of Leucandra caribea sp. nov. (UFRJPOR 6754). A, cortical triactine. B, choanosomal triactine. C, triactine of choanosomal canals. D, tetractine of choanosomal canals. E, atrial triactine. F, atrial tetractine.	Figure 20. Spicules of Leucandra caribea sp. nov. (UFRJPOR 6754). A, cortical triactine. B, choanosomal triactine. C, triactine of choanosomal canals. D, tetractine of choanosomal canals. E, atrial triactine. F, atrial tetractine.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFACFFDDA7BBF3B9FD5FFC7F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813666/files/figure.png	https://doi.org/10.5281/zenodo.14813666	Figure 21. Leucandrilla quadriradiata sp. nov. A–B, UFRJPOR 6732 and UFRJPOR 6696 in vivo. C–E, UFRJPOR 6732, UFRJPOR 6705 and UFRJPOR 6696 after fixation.	Figure 21. Leucandrilla quadriradiata sp. nov. A–B, UFRJPOR 6732 and UFRJPOR 6696 in vivo. C–E, UFRJPOR 6732, UFRJPOR 6705 and UFRJPOR 6696 after fixation.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFACFFDDA7BBF3B9FD5FFC7F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813668/files/figure.png	https://doi.org/10.5281/zenodo.14813668	Figure 22. Skeleton of Leucandrilla quadriradiata sp. nov. (UFRJPOR 6705). A, osculum. B, cross section of the skeleton. C, cortex. D, choanoskeleton indicating the cortical tetractine (white arrow) and the subatrial tetractine (black arrow). E, choanosomal canal showing apical actines of tetractines. F, atrial skeleton. cx, cortex; at, atrium; c, choanosomal canal.	Figure 22. Skeleton of Leucandrilla quadriradiata sp. nov. (UFRJPOR 6705). A, osculum. B, cross section of the skeleton. C, cortex. D, choanoskeleton indicating the cortical tetractine (white arrow) and the subatrial tetractine (black arrow). E, choanosomal canal showing apical actines of tetractines. F, atrial skeleton. cx, cortex; at, atrium; c, choanosomal canal.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFACFFDDA7BBF3B9FD5FFC7F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813670/files/figure.png	https://doi.org/10.5281/zenodo.14813670	Figure 23. Spicules of Leucandrilla quadriradiata sp. nov. (UFRJPOR 6705). A, cortical triactine. B, cortical tetractine. C, pseudosagittal cortical tetractine. D, tetractine of a canal. E, subatrial tetractine. F, atrial tetractine.	Figure 23. Spicules of Leucandrilla quadriradiata sp. nov. (UFRJPOR 6705). A, cortical triactine. B, cortical tetractine. C, pseudosagittal cortical tetractine. D, tetractine of a canal. E, subatrial tetractine. F, atrial tetractine.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFACFFDDA7BBF3B9FD5FFC7F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813654/files/figure.png	https://doi.org/10.5281/zenodo.14813654	Figure 15. Bayesian phylogenetic tree inferred from the C-LSU sequences of the Calcaronean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	Figure 15. Bayesian phylogenetic tree inferred from the C-LSU sequences of the Calcaronean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFA1FFC6A64DF001FC5FFA5A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813672/files/figure.png	https://doi.org/10.5281/zenodo.14813672	Figure 24. Grantessa tumida sp. nov. A–B, UFRJPOR 6701 and UFRJPOR 6766 after fixation. C, osculum. D, distal part of the skeleton indicating a cortical triactine (black arrow) and a pseudosagittal subcortical triactine (white arrow). E, tubar skeleton indicating a tubar triactine (arrow). F, subatrial skeleton showing subatrial triactine (white arrow), atrial tetractine I (black arrow) and atrial tetractine II (arrowhead). G, atrial skeleton showing apical actines of tetractine I (arrow) and tetractine II (arrowhead). All skeleton photos were taken from the specimen UFRJPOR 6701. at, atrium.	Figure 24. Grantessa tumida sp. nov. A–B, UFRJPOR 6701 and UFRJPOR 6766 after fixation. C, osculum. D, distal part of the skeleton indicating a cortical triactine (black arrow) and a pseudosagittal subcortical triactine (white arrow). E, tubar skeleton indicating a tubar triactine (arrow). F, subatrial skeleton showing subatrial triactine (white arrow), atrial tetractine I (black arrow) and atrial tetractine II (arrowhead). G, atrial skeleton showing apical actines of tetractine I (arrow) and tetractine II (arrowhead). All skeleton photos were taken from the specimen UFRJPOR 6701. at, atrium.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFA1FFC6A64DF001FC5FFA5A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813674/files/figure.png	https://doi.org/10.5281/zenodo.14813674	Figure 25. Spicules of Grantessa tumida sp. nov. (UFRJPOR 6701). A, diactine. B, cortical triactine. C, subcortical triactine. D, tubar triactine. E, subatrial triactine. F, atrial triactine. G, detail of the swollen tip of the atrial triactine. H, atrial tetractine I. I, detail of the swollen tip of the unpaired actine of the atrial tetractine I. J, atrial tetractine II. K, detail of the unpaired actine of the atrial tetractine II.	Figure 25. Spicules of Grantessa tumida sp. nov. (UFRJPOR 6701). A, diactine. B, cortical triactine. C, subcortical triactine. D, tubar triactine. E, subatrial triactine. F, atrial triactine. G, detail of the swollen tip of the atrial triactine. H, atrial tetractine I. I, detail of the swollen tip of the unpaired actine of the atrial tetractine I. J, atrial tetractine II. K, detail of the unpaired actine of the atrial tetractine II.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFA1FFC6A64DF001FC5FFA5A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813654/files/figure.png	https://doi.org/10.5281/zenodo.14813654	Figure 15. Bayesian phylogenetic tree inferred from the C-LSU sequences of the Calcaronean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	Figure 15. Bayesian phylogenetic tree inferred from the C-LSU sequences of the Calcaronean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFBBFFC7A653F46BFC53FE54.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813676/files/figure.png	https://doi.org/10.5281/zenodo.14813676	Figure 26. Sycon conulosum sp. nov. (UFRJPOR 6707). A, specimen after fixation. B, osculum. C, detail of the oscular T-shaped triactines. D, cross section of the skeleton. E, part of the skeleton with a tuft of diactines, a triactine of the distal cone (black arrow) and a tubar triactine (white arrow). F, subatrial skeleton indicating a subatrial triactine (arrow). G, atrial skeleton indicating atrial triactine (black arrow) and atrial tetractine (white arrow). at, atrium.	Figure 26. Sycon conulosum sp. nov. (UFRJPOR 6707). A, specimen after fixation. B, osculum. C, detail of the oscular T-shaped triactines. D, cross section of the skeleton. E, part of the skeleton with a tuft of diactines, a triactine of the distal cone (black arrow) and a tubar triactine (white arrow). F, subatrial skeleton indicating a subatrial triactine (arrow). G, atrial skeleton indicating atrial triactine (black arrow) and atrial tetractine (white arrow). at, atrium.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFBBFFC7A653F46BFC53FE54.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813678/files/figure.png	https://doi.org/10.5281/zenodo.14813678	Figure 27. Spicules of Sycon conulosum sp. nov. (UFRJPOR 6707). A, diactine of the distal cone. B, triactine of the distal cone. C, tubar triactines. D, subatrial triactine. E, atrial triactine. F, atrial tetractine.	Figure 27. Spicules of Sycon conulosum sp. nov. (UFRJPOR 6707). A, diactine of the distal cone. B, triactine of the distal cone. C, tubar triactines. D, subatrial triactine. E, atrial triactine. F, atrial tetractine.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFBCFFCCA4CEF174FBB8FBB6.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813680/files/figure.png	https://doi.org/10.5281/zenodo.14813680	Figure 28. Sycon magnapicale sp. nov. A–B, UFRJPOR 6748 and UFRJPOR 6763 after fixation. C, skeleton of the osculum indicating the neck (n) and the crown (c). D, detail of the oscular T-shaped triactine (white arrow) and tetractine (black arrow). E, cross section of the skeleton. F, distal cones with diactines (black arrow) and triactines (white arrow). G, tubar skeleton indicating a tubar triactine (arrow). I, subatrial skeleton with tetractine (white arrow) and triactine (black arrow). J, atrial skeleton with tetractines. All skeleton photos were taken from UFRJPOR 6748. at, atrium.	Figure 28. Sycon magnapicale sp. nov. A–B, UFRJPOR 6748 and UFRJPOR 6763 after fixation. C, skeleton of the osculum indicating the neck (n) and the crown (c). D, detail of the oscular T-shaped triactine (white arrow) and tetractine (black arrow). E, cross section of the skeleton. F, distal cones with diactines (black arrow) and triactines (white arrow). G, tubar skeleton indicating a tubar triactine (arrow). I, subatrial skeleton with tetractine (white arrow) and triactine (black arrow). J, atrial skeleton with tetractines. All skeleton photos were taken from UFRJPOR 6748. at, atrium.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFBCFFCCA4CEF174FBB8FBB6.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813683/files/figure.png	https://doi.org/10.5281/zenodo.14813683	Figure 29. Spicules of Sycon magnapicale sp. nov. (UFRJPOR 6748). A, diactine. B, triactine of the distal cone. C, tubar triactine. D, subatrial triactine. E, subatrial tetractine. F, atrial tetractine.	Figure 29. Spicules of Sycon magnapicale sp. nov. (UFRJPOR 6748). A, diactine. B, triactine of the distal cone. C, tubar triactine. D, subatrial triactine. E, subatrial tetractine. F, atrial tetractine.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFBCFFCCA4CEF174FBB8FBB6.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813654/files/figure.png	https://doi.org/10.5281/zenodo.14813654	Figure 15. Bayesian phylogenetic tree inferred from the C-LSU sequences of the Calcaronean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	Figure 15. Bayesian phylogenetic tree inferred from the C-LSU sequences of the Calcaronean species. Posterior probabilities and bootstrap values are given on the branches (pp/bootstrap). *Sequences generated in this study.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
2B7987A4FFB4FFC8A7F2F138FB64FD8E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14813660/files/figure.png	https://doi.org/10.5281/zenodo.14813660	Figure 18. Leucandra caribea sp. nov. (UFRJPOR 6754). A, specimen in vivo. B, specimen after fixation. C, detail of trichoxeas (arrow) along the surface. D, tangential section of the oscular region. E, detail of the oscular trichoxeas (arrow). F, cross section of the skeleton. c, choanosomal canals; cc, choanocyte chambers.	Figure 18. Leucandra caribea sp. nov. (UFRJPOR 6754). A, specimen in vivo. B, specimen after fixation. C, detail of trichoxeas (arrow) along the surface. D, tangential section of the oscular region. E, detail of the oscular trichoxeas (arrow). F, cross section of the skeleton. c, choanosomal canals; cc, choanocyte chambers.	2018-07-31	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle		Zenodo	biologists	Cóndor-Luján, Báslavi;Louzada, Taynara;Hajdu, Eduardo;Klautau, Michelle			
