taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
3406810EDD20B20AFDB2FAC9085A362C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832963/files/figure.png	https://doi.org/10.5281/zenodo.3832963	Fig. 2. Ascaltis reticulum (PMR 13739 = UFRJPOR 6870). A. Specimen in situ. B. Section showing the perpendicular arrangement of diactines. C. Regular triactines. D. Regular tetractine. E. Apical actine of a tetractine covered with short spines. F. Diactine.	Fig. 2. Ascaltis reticulum (PMR 13739 = UFRJPOR 6870). A. Specimen in situ. B. Section showing the perpendicular arrangement of diactines. C. Regular triactines. D. Regular tetractine. E. Apical actine of a tetractine covered with short spines. F. Diactine.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD20B20AFDB2FAC9085A362C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832993/files/figure.png	https://doi.org/10.5281/zenodo.3832993	Fig. 16. Maximum likelihood (ML) tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcinea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic specimens are written in bold; *Adriatic specimens obtained during this study; **Mediterranean specimens of Borojevia cerebrum; ***Brazilian specimens of Clathrina conifera.	Fig. 16. Maximum likelihood (ML) tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcinea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic specimens are written in bold; *Adriatic specimens obtained during this study; **Mediterranean specimens of Borojevia cerebrum; ***Brazilian specimens of Clathrina conifera.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD2FB208FD52FD4808093675.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832965/files/figure.png	https://doi.org/10.5281/zenodo.3832965	Fig. 3. Ascandra spalatensis sp. nov., holotype (PMR 17806 = UFRJPOR 7540). A. Specimen in ethanol. B. Tangential section. C. Triactines. D. Tetractines. E. Apical actine of a tetractine.	Fig. 3. Ascandra spalatensis sp. nov., holotype (PMR 17806 = UFRJPOR 7540). A. Specimen in ethanol. B. Tangential section. C. Triactines. D. Tetractines. E. Apical actine of a tetractine.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD2FB208FD52FD4808093675.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832993/files/figure.png	https://doi.org/10.5281/zenodo.3832993	Fig. 16. Maximum likelihood (ML) tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcinea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic specimens are written in bold; *Adriatic specimens obtained during this study; **Mediterranean specimens of Borojevia cerebrum; ***Brazilian specimens of Clathrina conifera.	Fig. 16. Maximum likelihood (ML) tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcinea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic specimens are written in bold; *Adriatic specimens obtained during this study; **Mediterranean specimens of Borojevia cerebrum; ***Brazilian specimens of Clathrina conifera.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD2DB20EFDB9FD6009533183.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832967/files/figure.png	https://doi.org/10.5281/zenodo.3832967	Fig. 4. Borojevia cerebrum (IRB-CLB33 = UFRJPOR 7539). A. Specimen in ethanol. B. Tangential section. C. Tripods. D. Triactines. E. Small tetractine. F. Large tetractine. G. Apical actine of a tetractine ornamented with spines.	Fig. 4. Borojevia cerebrum (IRB-CLB33 = UFRJPOR 7539). A. Specimen in ethanol. B. Tangential section. C. Tripods. D. Triactines. E. Small tetractine. F. Large tetractine. G. Apical actine of a tetractine ornamented with spines.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD2DB20EFDB9FD6009533183.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832993/files/figure.png	https://doi.org/10.5281/zenodo.3832993	Fig. 16. Maximum likelihood (ML) tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcinea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic specimens are written in bold; *Adriatic specimens obtained during this study; **Mediterranean specimens of Borojevia cerebrum; ***Brazilian specimens of Clathrina conifera.	Fig. 16. Maximum likelihood (ML) tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcinea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic specimens are written in bold; *Adriatic specimens obtained during this study; **Mediterranean specimens of Borojevia cerebrum; ***Brazilian specimens of Clathrina conifera.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD2BB20CFD42FA10090D320C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832969/files/figure.png	https://doi.org/10.5281/zenodo.3832969	Fig. 5. Borojevia croatica sp. nov., holotype (PMR 13740 = UFRJPOR 6864). A. Specimen in situ. B. Tangential section. C. Tripod. D. Triactines. E. Tetractine. F. Apical actine of a tetractine ornamented	Fig. 5. Borojevia croatica sp. nov., holotype (PMR 13740 = UFRJPOR 6864). A. Specimen in situ. B. Tangential section. C. Tripod. D. Triactines. E. Tetractine. F. Apical actine of a tetractine ornamented	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD2BB20CFD42FA10090D320C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832993/files/figure.png	https://doi.org/10.5281/zenodo.3832993	Fig. 16. Maximum likelihood (ML) tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcinea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic specimens are written in bold; *Adriatic specimens obtained during this study; **Mediterranean specimens of Borojevia cerebrum; ***Brazilian specimens of Clathrina conifera.	Fig. 16. Maximum likelihood (ML) tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcinea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic specimens are written in bold; *Adriatic specimens obtained during this study; **Mediterranean specimens of Borojevia cerebrum; ***Brazilian specimens of Clathrina conifera.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD29B212FDF6F9680A993196.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832971/files/figure.png	https://doi.org/10.5281/zenodo.3832971	Fig. 6. Clathrina conifera (PMR 13738 = UFRJPOR 6869). A. Specimen in ethanol. B. Tangential	Fig. 6. Clathrina conifera (PMR 13738 = UFRJPOR 6869). A. Specimen in ethanol. B. Tangential	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD29B212FDF6F9680A993196.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832993/files/figure.png	https://doi.org/10.5281/zenodo.3832993	Fig. 16. Maximum likelihood (ML) tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcinea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic specimens are written in bold; *Adriatic specimens obtained during this study; **Mediterranean specimens of Borojevia cerebrum; ***Brazilian specimens of Clathrina conifera.	Fig. 16. Maximum likelihood (ML) tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcinea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic specimens are written in bold; *Adriatic specimens obtained during this study; **Mediterranean specimens of Borojevia cerebrum; ***Brazilian specimens of Clathrina conifera.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD37B217FD88FA030F3C36F2.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832973/files/figure.png	https://doi.org/10.5281/zenodo.3832973	Fig. 7. Clathrina primordialis (IRB-CLB3 = UFRJPOR 6863). A. Specimen in situ. B. Tangential section. C. Triactines with variable sizes and shapes.	Fig. 7. Clathrina primordialis (IRB-CLB3 = UFRJPOR 6863). A. Specimen in situ. B. Tangential section. C. Triactines with variable sizes and shapes.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD32B21BFD40FD200FE33C27.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832975/files/figure.png	https://doi.org/10.5281/zenodo.3832975	Fig. 8. Leucandra falakra sp. nov., holotype (PMR-13748 = UFRJPOR 8349). A. Specimen in ethanol. B. Cross section. C. Detail of the cortex. D. Detail of a canal in the choanosome. E. Atrial skeleton. Abbreviations: at = atrium; cx = cortex; c = canal.	Fig. 8. Leucandra falakra sp. nov., holotype (PMR-13748 = UFRJPOR 8349). A. Specimen in ethanol. B. Cross section. C. Detail of the cortex. D. Detail of a canal in the choanosome. E. Atrial skeleton. Abbreviations: at = atrium; cx = cortex; c = canal.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD32B21BFD40FD200FE33C27.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832979/files/figure.png	https://doi.org/10.5281/zenodo.3832979	Fig. 9. Leucandra falakra sp. nov., holotype (PMR-13748 = UFRJPOR 8349). A–B. Cortical triactines. C–D. Small choanosomal triactines. E–F. Giant choanosomal triactines. G–H. Tetractines of the canals.	Fig. 9. Leucandra falakra sp. nov., holotype (PMR-13748 = UFRJPOR 8349). A–B. Cortical triactines. C–D. Small choanosomal triactines. E–F. Giant choanosomal triactines. G–H. Tetractines of the canals.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD3FB21FFD4EFEFA098A3C26.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832981/files/figure.png	https://doi.org/10.5281/zenodo.3832981	Fig. 10. Leucandra spinifera sp. nov., holotype (IRB-SG3 = UFRJPOR 8348). A. Specimen in ethanol. B. Cross section. Detail: cortical microdiactine (arrow). C. Detail of the cortex. D. Tangential section of	Fig. 10. Leucandra spinifera sp. nov., holotype (IRB-SG3 = UFRJPOR 8348). A. Specimen in ethanol. B. Cross section. Detail: cortical microdiactine (arrow). C. Detail of the cortex. D. Tangential section of	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD3FB21FFD4EFEFA098A3C26.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832983/files/figure.png	https://doi.org/10.5281/zenodo.3832983	Fig. 11. Leucandra spinifera sp. nov., holotype (IRB-SG3 = UFRJPOR 8348). A–B. Cortical diactines (scale bar = 200 µm). C. Microdiactine (scale bar = 20 µm). D. Detail of the spines of a microdiactine (scale bar = 10 µm). E–F. Cortical triactines. G. Choanosomal triactine. H–I. Choanosomal tetractines. J–L. Atrial triactines. M. Atrial tetractine. Scale bar E–M = 100 µm.	Fig. 11. Leucandra spinifera sp. nov., holotype (IRB-SG3 = UFRJPOR 8348). A–B. Cortical diactines (scale bar = 200 µm). C. Microdiactine (scale bar = 20 µm). D. Detail of the spines of a microdiactine (scale bar = 10 µm). E–F. Cortical triactines. G. Choanosomal triactine. H–I. Choanosomal tetractines. J–L. Atrial triactines. M. Atrial tetractine. Scale bar E–M = 100 µm.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD3BB21CFD58FEB9099E31B0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832985/files/figure.png	https://doi.org/10.5281/zenodo.3832985	Fig. 12. Paraleucilla dalmatica sp. nov., holotype (IRB-SD5 = UFRJPOR 8346). A. Specimen in ethanol. B. Cross section. C. Cortex. D. Detail of the cortex showing the tufts of diactines (white arrow = trichoxeas; black arrow = diactine). E. Choanosome with the outer and inner regions. F. Atrial skeleton.	Fig. 12. Paraleucilla dalmatica sp. nov., holotype (IRB-SD5 = UFRJPOR 8346). A. Specimen in ethanol. B. Cross section. C. Cortex. D. Detail of the cortex showing the tufts of diactines (white arrow = trichoxeas; black arrow = diactine). E. Choanosome with the outer and inner regions. F. Atrial skeleton.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD3BB21CFD58FEB9099E31B0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832987/files/figure.png	https://doi.org/10.5281/zenodo.3832987	Fig. 13. Paraleucilla dalmatica sp. nov., holotype (IRB-SD5 = UFRJPOR 8346). A. Cortical diactine (scale bar = 50 µm). B. Cortical microdiactine (scale bar = 20 µm). C–D. Cortical tetractines. E. Cortical triactine. F–H. Subatrial triactines. I–K. Subatrial tetractines. L–M. Atrial tetractines. Scale bar C–M = 100 µm.	Fig. 13. Paraleucilla dalmatica sp. nov., holotype (IRB-SD5 = UFRJPOR 8346). A. Cortical diactine (scale bar = 50 µm). B. Cortical microdiactine (scale bar = 20 µm). C–D. Cortical tetractines. E. Cortical triactine. F–H. Subatrial triactines. I–K. Subatrial tetractines. L–M. Atrial tetractines. Scale bar C–M = 100 µm.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD39B225FD61FA3B0968379C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832989/files/figure.png	https://doi.org/10.5281/zenodo.3832989	Fig. 14. Sycon ancora sp. nov., holotype (PMR 17809 = UFRJPOR 8345). A. Specimen in ethanol. B. Cross section. C. Detail of the distal cone. D. Tubar and subatrial skeletons. E. Atrial skeleton (white	Fig. 14. Sycon ancora sp. nov., holotype (PMR 17809 = UFRJPOR 8345). A. Specimen in ethanol. B. Cross section. C. Detail of the distal cone. D. Tubar and subatrial skeletons. E. Atrial skeleton (white	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD39B225FD61FA3B0968379C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832991/files/figure.png	https://doi.org/10.5281/zenodo.3832991	Fig. 15. Sycon ancora sp. nov., holotype (PMR 17809 = UFRJPOR 8345). A. Cortical diactine. B–C. Anchor-like tetractines. D–E. Triactines of the cones. F–H. Tubar triactines. I. Subatrial triactine. J. Atrial triactine. K. Atrial tetractine. Scale bar D–K = 100 µm.	Fig. 15. Sycon ancora sp. nov., holotype (PMR 17809 = UFRJPOR 8345). A. Cortical diactine. B–C. Anchor-like tetractines. D–E. Triactines of the cones. F–H. Tubar triactines. I. Subatrial triactine. J. Atrial triactine. K. Atrial tetractine. Scale bar D–K = 100 µm.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD39B225FD61FA3B0968379C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832999/files/figure.png	https://doi.org/10.5281/zenodo.3832999	Fig. 19. Maximum likelihood tree based on partial 28S rDNA sequences of Calcaronea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic specimens are written in bold. Adriatic specimens obtained in this study are marked with an asterisk. The detached tree shows the only difference in the topology of the ML and Bayesian analyses.	Fig. 19. Maximum likelihood tree based on partial 28S rDNA sequences of Calcaronea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic specimens are written in bold. Adriatic specimens obtained in this study are marked with an asterisk. The detached tree shows the only difference in the topology of the ML and Bayesian analyses.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD39B225FD61FA3B0968379C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832993/files/figure.png	https://doi.org/10.5281/zenodo.3832993	Fig. 16. Maximum likelihood (ML) tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcinea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic specimens are written in bold; *Adriatic specimens obtained during this study; **Mediterranean specimens of Borojevia cerebrum; ***Brazilian specimens of Clathrina conifera.	Fig. 16. Maximum likelihood (ML) tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcinea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic specimens are written in bold; *Adriatic specimens obtained during this study; **Mediterranean specimens of Borojevia cerebrum; ***Brazilian specimens of Clathrina conifera.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD39B225FD61FA3B0968379C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832995/files/figure.png	https://doi.org/10.5281/zenodo.3832995	Fig. 17. Maximum likelihood tree (ML) based on partial 28S rDNA sequences of Calcinea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic species are written in bold.Adriatic specimens obtained in this study are marked with an asterisk.	Fig. 17. Maximum likelihood tree (ML) based on partial 28S rDNA sequences of Calcinea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50). Adriatic species are written in bold.Adriatic specimens obtained in this study are marked with an asterisk.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD39B225FD61FA3B0968379C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3832997/files/figure.png	https://doi.org/10.5281/zenodo.3832997	Fig. 18. Maximum likelihood tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcaronea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50).	Fig. 18. Maximum likelihood tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcaronea. Bayesian posterior probabilities (PP) and bootstrap values (BS) are given near the branches (PP/BS; when>0.50).	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
3406810EDD39B225FD61FA3B0968379C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/3833001/files/figure.png	https://doi.org/10.5281/zenodo.3833001	Fig. 20. Species richness in the Adriatic Sea divided by sectors.: 1–9 species;: 10–17 species;: 18–26 species.	Fig. 20. Species richness in the Adriatic Sea divided by sectors.: 1–9 species;: 10–17 species;: 18–26 species.	2016-03-02	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena		Zenodo	biologists	Klautau, Michelle;Imešek, Mirna;Azevedo, Fernanda;Pleše, Bruna;Nikolić, Vedran;Ćetković, Helena			
