taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
5404A05EFFC2B734FF16FC62FD58E459.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7256794/files/figure.png	https://doi.org/10.5281/zenodo.7256794	FIGURE 2. A, B. In situ photos of Aspiculortis garifuna sp. nov. of two color morphotypes, with a mostly contracted surface (A), and the pseudo-criblate surface (B). C. Light microscopy micrograph of the internal organization of A. garifuna. D. Detailed view of the ectosome showing concentration of vacuolar cells. E. Detailed view of the choanosome showing two choanocyte chambers and the sylleibid-like aquiferous system. cha, choanocyte chambers; ec, ectosome; pin, pinacocytes; pk, prokaryotes; vc, vacuolar cell.	FIGURE 2. A, B. In situ photos of Aspiculortis garifuna sp. nov. of two color morphotypes, with a mostly contracted surface (A), and the pseudo-criblate surface (B). C. Light microscopy micrograph of the internal organization of A. garifuna. D. Detailed view of the ectosome showing concentration of vacuolar cells. E. Detailed view of the choanosome showing two choanocyte chambers and the sylleibid-like aquiferous system. cha, choanocyte chambers; ec, ectosome; pin, pinacocytes; pk, prokaryotes; vc, vacuolar cell.	2022-10-27	Ruiz, Cesar;Ereskovsky, Alexander;Perez, Thierry		Zenodo	biologists	Ruiz, Cesar;Ereskovsky, Alexander;Perez, Thierry			
5404A05EFFC2B734FF16FC62FD58E459.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7256796/files/figure.png	https://doi.org/10.5281/zenodo.7256796	FIGURE 3. TEM micrograph of Aspiculortis garifuna sp. nov. A. Detailed view of a choanocyte chamber: choanocytes have their nucleus in apical position.Some prokaryotesare phagocyted by choanocyte vacuoles.B. Detailed view of an endopinacocyte with a typical flat shape, surrounded by a thick glycocalyx layer. C, D. Vacuolar cells. E. Micrograph showing morphological diversity of prokaryotes inside the mesohyl of A. garifuna. cho, choanocyte; gly, glycocalyx layer; pk, prokaryotes; vc, vacuolar cell. Numbers from 1 to 5 represent different morphotypes.	FIGURE 3. TEM micrograph of Aspiculortis garifuna sp. nov. A. Detailed view of a choanocyte chamber: choanocytes have their nucleus in apical position.Some prokaryotesare phagocyted by choanocyte vacuoles.B. Detailed view of an endopinacocyte with a typical flat shape, surrounded by a thick glycocalyx layer. C, D. Vacuolar cells. E. Micrograph showing morphological diversity of prokaryotes inside the mesohyl of A. garifuna. cho, choanocyte; gly, glycocalyx layer; pk, prokaryotes; vc, vacuolar cell. Numbers from 1 to 5 represent different morphotypes.	2022-10-27	Ruiz, Cesar;Ereskovsky, Alexander;Perez, Thierry		Zenodo	biologists	Ruiz, Cesar;Ereskovsky, Alexander;Perez, Thierry			
5404A05EFFCEB73BFF16FF75FD8EE206.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7256798/files/figure.png	https://doi.org/10.5281/zenodo.7256798	FIGURE 4. A, B. In situ photographs of two color morphotypes of Aspiculophora papillata sp. nov. showing the characteristic papillate surface. C. Light microscopy micrograph of the internal organization of A. papillata. D. Detailed view of the ectosome showing concentration of vacuolar cells and sub-ectosomal cavities: the arrow indicates the collagen layer between the region of exopinacocyte and ectosome. E. Detailed view of a choanosome. cha, choanocyte chambers; ec, ectosome; pin, pinacocytes; pk, prokaryotes; vc, vacuolar cell; Scav, sub-ectosomal cavities.	FIGURE 4. A, B. In situ photographs of two color morphotypes of Aspiculophora papillata sp. nov. showing the characteristic papillate surface. C. Light microscopy micrograph of the internal organization of A. papillata. D. Detailed view of the ectosome showing concentration of vacuolar cells and sub-ectosomal cavities: the arrow indicates the collagen layer between the region of exopinacocyte and ectosome. E. Detailed view of a choanosome. cha, choanocyte chambers; ec, ectosome; pin, pinacocytes; pk, prokaryotes; vc, vacuolar cell; Scav, sub-ectosomal cavities.	2022-10-27	Ruiz, Cesar;Ereskovsky, Alexander;Perez, Thierry		Zenodo	biologists	Ruiz, Cesar;Ereskovsky, Alexander;Perez, Thierry			
5404A05EFFCEB73BFF16FF75FD8EE206.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/7256801/files/figure.png	https://doi.org/10.5281/zenodo.7256801	FIGURE 5. TEM micrograph of Aspiculophora papillata sp. nov. A. Detailed view of a choanocyte chamber: the choanocyte nucleus is inapical position.Arrows point toapopylarcells.B. Detailedview of choanocytes.C.Vacuolar cellandendopinacocytes bordering an exhalant canal in A. papillata: arrows point to prokaryotes inside vacuolar cells. D. morphological diversity of the prokaryote community associated to A. papillata: numbers correspond to morphotypes. apo, apopylar cells; cha, choanocyte chambers; cho, choanocyte; n, nucleus; pin, pinacocytes; pk, prokaryotes; vc, vacuolar cell.	FIGURE 5. TEM micrograph of Aspiculophora papillata sp. nov. A. Detailed view of a choanocyte chamber: the choanocyte nucleus is inapical position.Arrows point toapopylarcells.B. Detailedview of choanocytes.C.Vacuolar cellandendopinacocytes bordering an exhalant canal in A. papillata: arrows point to prokaryotes inside vacuolar cells. D. morphological diversity of the prokaryote community associated to A. papillata: numbers correspond to morphotypes. apo, apopylar cells; cha, choanocyte chambers; cho, choanocyte; n, nucleus; pin, pinacocytes; pk, prokaryotes; vc, vacuolar cell.	2022-10-27	Ruiz, Cesar;Ereskovsky, Alexander;Perez, Thierry		Zenodo	biologists	Ruiz, Cesar;Ereskovsky, Alexander;Perez, Thierry			
