taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03DF87B62962FFD2FF30FC15C972FA3B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908949/files/figure.png	http://doi.org/10.5281/zenodo.4908949	FIGURE 3. (A) Specimen of Jaspis eudermis Lévi & Vacelet, 1958 collected from the Alboran Sea and photographed on graphic paper (MNCN-Sp71-BV10). (B) Three Alboranian specimens of Hemiasterella elongata Topsent, 1928 (from left to right, MNCN-Sp66-BV21, MNCN-Sp66 B & A).	FIGURE 3. (A) Specimen of Jaspis eudermis Lévi & Vacelet, 1958 collected from the Alboran Sea and photographed on graphic paper (MNCN-Sp71-BV10). (B) Three Alboranian specimens of Hemiasterella elongata Topsent, 1928 (from left to right, MNCN-Sp66-BV21, MNCN-Sp66 B & A).	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B62962FFD2FF30FC15C972FA3B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908953/files/figure.png	http://doi.org/10.5281/zenodo.4908953	FIGURE 4. Jaspis eudermis Lévi & Vacelet, 1958: (A) Line drawing of the spicule complement of the Alboranian specimen (MNCN-Sp71-BV10), consisting of oxeas I (a) with acerate or blunt ends (b), oxeas II (c) with acerate or conical ends (d), and oxyasters (e). (B) Light microscope micrographs of oxeas I (a) and oxeas II (b). (C) An abnormal end (ab) of an oxea I next to an oxyaster (ox). (D) SEM micrograph of an entirely smooth oxyaster. (E) SEM image of several oxyasters of the holotype of J. eudermis (Stn. 62 MNHN DCL738), one having some large spines (sp) on some actines. (F) Detail of an oxyaster actine of the holotype showing minute spines (sp).	FIGURE 4. Jaspis eudermis Lévi & Vacelet, 1958: (A) Line drawing of the spicule complement of the Alboranian specimen (MNCN-Sp71-BV10), consisting of oxeas I (a) with acerate or blunt ends (b), oxeas II (c) with acerate or conical ends (d), and oxyasters (e). (B) Light microscope micrographs of oxeas I (a) and oxeas II (b). (C) An abnormal end (ab) of an oxea I next to an oxyaster (ox). (D) SEM micrograph of an entirely smooth oxyaster. (E) SEM image of several oxyasters of the holotype of J. eudermis (Stn. 62 MNHN DCL738), one having some large spines (sp) on some actines. (F) Detail of an oxyaster actine of the holotype showing minute spines (sp).	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B62962FFD2FF30FC15C972FA3B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908943/files/figure.png	http://doi.org/10.5281/zenodo.4908943	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B6296CFFD1FF30FA2BC87BFEE9.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908949/files/figure.png	http://doi.org/10.5281/zenodo.4908949	FIGURE 3. (A) Specimen of Jaspis eudermis Lévi & Vacelet, 1958 collected from the Alboran Sea and photographed on graphic paper (MNCN-Sp71-BV10). (B) Three Alboranian specimens of Hemiasterella elongata Topsent, 1928 (from left to right, MNCN-Sp66-BV21, MNCN-Sp66 B & A).	FIGURE 3. (A) Specimen of Jaspis eudermis Lévi & Vacelet, 1958 collected from the Alboran Sea and photographed on graphic paper (MNCN-Sp71-BV10). (B) Three Alboranian specimens of Hemiasterella elongata Topsent, 1928 (from left to right, MNCN-Sp66-BV21, MNCN-Sp66 B & A).	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B6296CFFD1FF30FA2BC87BFEE9.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908955/files/figure.png	http://doi.org/10.5281/zenodo.4908955	FIGURE 5. Hemiasterella elongata Topsent, 1928: (A) Line drawing summarizing the skeletal complement of the Alboranian specimens, consisting of long, isodiametric styles (a) with a round to strongylote end (b) and an acerate or stepped distal end (c), and spiny spherostrongylasters (d). (B) Light microscope view of two differently curved styles. (C) SEM micrograph of a typical round end of a style surrounded by spherostrongylasters. (D–E) SEM details of spherostrongylasters, with spiny actines.	FIGURE 5. Hemiasterella elongata Topsent, 1928: (A) Line drawing summarizing the skeletal complement of the Alboranian specimens, consisting of long, isodiametric styles (a) with a round to strongylote end (b) and an acerate or stepped distal end (c), and spiny spherostrongylasters (d). (B) Light microscope view of two differently curved styles. (C) SEM micrograph of a typical round end of a style surrounded by spherostrongylasters. (D–E) SEM details of spherostrongylasters, with spiny actines.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B6296CFFD1FF30FA2BC87BFEE9.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908943/files/figure.png	http://doi.org/10.5281/zenodo.4908943	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B6296EFFC9FF30FA48CFE5FFAE.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908961/files/figure.png	http://doi.org/10.5281/zenodo.4908961	FIGURE 6. (A–B) Holotype of Axinella alborana nov. sp. seen from its both sides (MNCN-Sp155-DR44A). (C) Holotype and 3 additional, collected specimens of A. alborana nov. sp. (from left to right, MNCN-Sp3-DR05A, MNCN-Sp146-BV33A, MNCN-Sp155-DR44A, MNCN-Sp146-BV33B). (D) Specimen of Axinella spatula nov. sp., photographed on board immediately after collection. (E) Preserved specimens of A. spatula nov. sp., being the first (from left to right) the holotype (MNCN-Sp145); the remaining specimens are BV33B, MNCN-Sp116-BV15A & B, and MNCN-Sp65-BV21B. (F–G) Blackish specimens (MNCN-Sp57-BV21A and MNCN-Sp57-BV21B, respectively) of A. spatula nov. sp. The former shows an incipient branching, while the latter is clearly branched and with no narrowing at the stalk. (H–J) Syntypes of Tragosia flustra (Topsent, 1892) collected by Topsent in 1888 (Stn. 247. M. O. M. 040272) and in 1886 (Stn. 58. M. O. M. 040044), respectively. The former (H–I) is shown on its both sides, being profusely ramified, while the latter (J) shows only 3 branches.	FIGURE 6. (A–B) Holotype of Axinella alborana nov. sp. seen from its both sides (MNCN-Sp155-DR44A). (C) Holotype and 3 additional, collected specimens of A. alborana nov. sp. (from left to right, MNCN-Sp3-DR05A, MNCN-Sp146-BV33A, MNCN-Sp155-DR44A, MNCN-Sp146-BV33B). (D) Specimen of Axinella spatula nov. sp., photographed on board immediately after collection. (E) Preserved specimens of A. spatula nov. sp., being the first (from left to right) the holotype (MNCN-Sp145); the remaining specimens are BV33B, MNCN-Sp116-BV15A & B, and MNCN-Sp65-BV21B. (F–G) Blackish specimens (MNCN-Sp57-BV21A and MNCN-Sp57-BV21B, respectively) of A. spatula nov. sp. The former shows an incipient branching, while the latter is clearly branched and with no narrowing at the stalk. (H–J) Syntypes of Tragosia flustra (Topsent, 1892) collected by Topsent in 1888 (Stn. 247. M. O. M. 040272) and in 1886 (Stn. 58. M. O. M. 040044), respectively. The former (H–I) is shown on its both sides, being profusely ramified, while the latter (J) shows only 3 branches.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B6296EFFC9FF30FA48CFE5FFAE.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908965/files/figure.png	http://doi.org/10.5281/zenodo.4908965	FIGURE 7. Axinella alborana nov. sp.: (A) Line drawing summarizing the skeletal complement of the Alboranian specimens, consisting of styles (a) and oxeas (b) with acerate, blunt or mucronate ends (c). (B–C) Light microscope view of a style, with examples of the round end. (D–E) Light microscope views of oxeas. Note the varying curving angle, the anisoxea (an) character in some spicules, and the annular swelling (sw) of others. (F) SEM details of oxea ends, being typically either blunt or mucronate. (G) Light microscope view of the skeletal arrangement, showing a style embedded in spongin (s) in the extra-axial skeleton. (H) Light microscope view of oxeas at the extra-axial plumoreticulate skeleton occurring either in paucispicular tracts (pc) or free (sn).	FIGURE 7. Axinella alborana nov. sp.: (A) Line drawing summarizing the skeletal complement of the Alboranian specimens, consisting of styles (a) and oxeas (b) with acerate, blunt or mucronate ends (c). (B–C) Light microscope view of a style, with examples of the round end. (D–E) Light microscope views of oxeas. Note the varying curving angle, the anisoxea (an) character in some spicules, and the annular swelling (sw) of others. (F) SEM details of oxea ends, being typically either blunt or mucronate. (G) Light microscope view of the skeletal arrangement, showing a style embedded in spongin (s) in the extra-axial skeleton. (H) Light microscope view of oxeas at the extra-axial plumoreticulate skeleton occurring either in paucispicular tracts (pc) or free (sn).	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B6296EFFC9FF30FA48CFE5FFAE.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908943/files/figure.png	http://doi.org/10.5281/zenodo.4908943	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B62977FFCEFF30F948C968FA5E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908961/files/figure.png	http://doi.org/10.5281/zenodo.4908961	FIGURE 6. (A–B) Holotype of Axinella alborana nov. sp. seen from its both sides (MNCN-Sp155-DR44A). (C) Holotype and 3 additional, collected specimens of A. alborana nov. sp. (from left to right, MNCN-Sp3-DR05A, MNCN-Sp146-BV33A, MNCN-Sp155-DR44A, MNCN-Sp146-BV33B). (D) Specimen of Axinella spatula nov. sp., photographed on board immediately after collection. (E) Preserved specimens of A. spatula nov. sp., being the first (from left to right) the holotype (MNCN-Sp145); the remaining specimens are BV33B, MNCN-Sp116-BV15A & B, and MNCN-Sp65-BV21B. (F–G) Blackish specimens (MNCN-Sp57-BV21A and MNCN-Sp57-BV21B, respectively) of A. spatula nov. sp. The former shows an incipient branching, while the latter is clearly branched and with no narrowing at the stalk. (H–J) Syntypes of Tragosia flustra (Topsent, 1892) collected by Topsent in 1888 (Stn. 247. M. O. M. 040272) and in 1886 (Stn. 58. M. O. M. 040044), respectively. The former (H–I) is shown on its both sides, being profusely ramified, while the latter (J) shows only 3 branches.	FIGURE 6. (A–B) Holotype of Axinella alborana nov. sp. seen from its both sides (MNCN-Sp155-DR44A). (C) Holotype and 3 additional, collected specimens of A. alborana nov. sp. (from left to right, MNCN-Sp3-DR05A, MNCN-Sp146-BV33A, MNCN-Sp155-DR44A, MNCN-Sp146-BV33B). (D) Specimen of Axinella spatula nov. sp., photographed on board immediately after collection. (E) Preserved specimens of A. spatula nov. sp., being the first (from left to right) the holotype (MNCN-Sp145); the remaining specimens are BV33B, MNCN-Sp116-BV15A & B, and MNCN-Sp65-BV21B. (F–G) Blackish specimens (MNCN-Sp57-BV21A and MNCN-Sp57-BV21B, respectively) of A. spatula nov. sp. The former shows an incipient branching, while the latter is clearly branched and with no narrowing at the stalk. (H–J) Syntypes of Tragosia flustra (Topsent, 1892) collected by Topsent in 1888 (Stn. 247. M. O. M. 040272) and in 1886 (Stn. 58. M. O. M. 040044), respectively. The former (H–I) is shown on its both sides, being profusely ramified, while the latter (J) shows only 3 branches.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B62977FFCEFF30F948C968FA5E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908969/files/figure.png	http://doi.org/10.5281/zenodo.4908969	FIGURE 8. Axinella spatula nov. sp.: (A) Line drawing summarizing the skeletal complement of the Alboranian specimens. It consists of styles (a) in a wide range of sizes, with a round end that occasionally shows one or more swellings (b) and a distal end that can be acerate, stepped or blunt (c). Oxeas of varying shape (d), with acerate to mucronate ends (e). Raphides (f) are in trichodragmata. (B–C) Light microscope views of styles and trichodragmata (tr). (D) Light microscope view of oxeas. (E) SEM micrograph of the flattened trichodragmata typically found in the beige specimens (e.g., in MNCN-Sp65-BV21A). (F) SEM micrograph of a more cylindrical trichodragmata typically found in blackish specimens (e.g., in MNCN-Sp57-BV21A). (G) Detail of the plumoreticulate and somewhat irregular skeletal arrangement at the lamina region of the sponge. Note the spongin (s) is embedding the paucispicular tracts (pc).	FIGURE 8. Axinella spatula nov. sp.: (A) Line drawing summarizing the skeletal complement of the Alboranian specimens. It consists of styles (a) in a wide range of sizes, with a round end that occasionally shows one or more swellings (b) and a distal end that can be acerate, stepped or blunt (c). Oxeas of varying shape (d), with acerate to mucronate ends (e). Raphides (f) are in trichodragmata. (B–C) Light microscope views of styles and trichodragmata (tr). (D) Light microscope view of oxeas. (E) SEM micrograph of the flattened trichodragmata typically found in the beige specimens (e.g., in MNCN-Sp65-BV21A). (F) SEM micrograph of a more cylindrical trichodragmata typically found in blackish specimens (e.g., in MNCN-Sp57-BV21A). (G) Detail of the plumoreticulate and somewhat irregular skeletal arrangement at the lamina region of the sponge. Note the spongin (s) is embedding the paucispicular tracts (pc).	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B62977FFCEFF30F948C968FA5E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908943/files/figure.png	http://doi.org/10.5281/zenodo.4908943	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B62970FFCDFF30FC18CA43FBCE.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908947/files/figure.png	http://doi.org/10.5281/zenodo.4908947	FIGURE 2. Benthic communities on the deep shelf of the Alboran Island in which sponges are important members. (A) View of a rhodolith bottom dominated by cnidarians and sponges. The most abundant sponges were Phakellia ventilabrum (Pv), Phakellia robusta (Pr), and Bubaris vermiculata (Bv). (B) Detail of a rhodolith, largely encrusted by Bubaris vermiculata (Bv). (C) View of a gently sloping rocky bottom, showing large specimens of Phakellia robusta (Pr) and Poecillastra compressa (Pc) together with a dense "canopy" of small digitiform, claviform and globiform sponges, such as Axinella vellerea (Av) and Crella pyrula (Cp). (D) Individual of Vulcanella aberrans (Va) surrounded by small globiform and digitiform sponges. (E) Benthic community on the outcrops dominated by cnidarians, including the octocoral Corallium rubrum. Abundant massive, submassive and encrusting sponges are common under the gorgonian forest. (F) Large astrophorid (Geodia spp.) sighted from the ROV on the top of an outcrop. (G) Collected specimen of Crella (Yvesia) pyrula (MNHN-Sp136-DR44). (H) Collected specimen of Rhizaxinella gracilis (MNHN-Sp22-BV14). (I) A solitary specimen of Axinella salicina located by the ROV on a coarse-sand and gravel bottom, a substrate type that generally shows low abundance of sponges.	FIGURE 2. Benthic communities on the deep shelf of the Alboran Island in which sponges are important members. (A) View of a rhodolith bottom dominated by cnidarians and sponges. The most abundant sponges were Phakellia ventilabrum (Pv), Phakellia robusta (Pr), and Bubaris vermiculata (Bv). (B) Detail of a rhodolith, largely encrusted by Bubaris vermiculata (Bv). (C) View of a gently sloping rocky bottom, showing large specimens of Phakellia robusta (Pr) and Poecillastra compressa (Pc) together with a dense "canopy" of small digitiform, claviform and globiform sponges, such as Axinella vellerea (Av) and Crella pyrula (Cp). (D) Individual of Vulcanella aberrans (Va) surrounded by small globiform and digitiform sponges. (E) Benthic community on the outcrops dominated by cnidarians, including the octocoral Corallium rubrum. Abundant massive, submassive and encrusting sponges are common under the gorgonian forest. (F) Large astrophorid (Geodia spp.) sighted from the ROV on the top of an outcrop. (G) Collected specimen of Crella (Yvesia) pyrula (MNHN-Sp136-DR44). (H) Collected specimen of Rhizaxinella gracilis (MNHN-Sp22-BV14). (I) A solitary specimen of Axinella salicina located by the ROV on a coarse-sand and gravel bottom, a substrate type that generally shows low abundance of sponges.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B62970FFCDFF30FC18CA43FBCE.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908975/files/figure.png	http://doi.org/10.5281/zenodo.4908975	FIGURE 9. Axinella vellerea Topsent, 1904. (A–B) One of the collected Alboranian specimens (MNCN-Sp51-DR05A) shown on its both sides and bearing an incipient branching. (C) A branchless Alboranian specimen (MNCN-SP51-DR05B) of A. vellerea photographed on graphic paper. (D-E) Another unbranched Alboranian specimen (MNCN-Sp142-DR44A) attached to a piece of gravel, shown on its both sides. (F) Photograph of the holotype (the large sponge to the right) and the syntype (to the left) of A. vellerea, collected by Topsent in 1897 (Stn. 866. M. O. M. 040631). (G) Close up of the holotype of A. vellerea, being clearly ramified and larger than most specimens collected from the Alboran Island. (H) Close up of the syntype of A. vellerea, showing an incipient branch.	FIGURE 9. Axinella vellerea Topsent, 1904. (A–B) One of the collected Alboranian specimens (MNCN-Sp51-DR05A) shown on its both sides and bearing an incipient branching. (C) A branchless Alboranian specimen (MNCN-SP51-DR05B) of A. vellerea photographed on graphic paper. (D-E) Another unbranched Alboranian specimen (MNCN-Sp142-DR44A) attached to a piece of gravel, shown on its both sides. (F) Photograph of the holotype (the large sponge to the right) and the syntype (to the left) of A. vellerea, collected by Topsent in 1897 (Stn. 866. M. O. M. 040631). (G) Close up of the holotype of A. vellerea, being clearly ramified and larger than most specimens collected from the Alboran Island. (H) Close up of the syntype of A. vellerea, showing an incipient branch.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B62970FFCDFF30FC18CA43FBCE.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908979/files/figure.png	http://doi.org/10.5281/zenodo.4908979	FIGURE 10. Axinella vellerea Topsent, 1904: (A) Line drawing summarizing the skeletal complement of the Alboranian specimens. Styles (a) are in a wide variety of shapes, with a round end that can be regular or showing one or more swellings (b) and a distal end (c) that can be regular to blunt, sometimes with mucronate variations. Oxeas (d) occur in varying size and shapes, with ends ranging from acerate to mucronate (e). (B) Light microscope view of a style with a subtylote end. (C) SEM detail of three typical morphologies (i.e., subterminal ring, subtylote, and regular) of the round end of styles. (D) Light microscope view of a double-bent oxea. (E) Light microscope view of plumose arrangement in the extra-axial skeleton. (F) Detail of styles embedded by spongin (s).	FIGURE 10. Axinella vellerea Topsent, 1904: (A) Line drawing summarizing the skeletal complement of the Alboranian specimens. Styles (a) are in a wide variety of shapes, with a round end that can be regular or showing one or more swellings (b) and a distal end (c) that can be regular to blunt, sometimes with mucronate variations. Oxeas (d) occur in varying size and shapes, with ends ranging from acerate to mucronate (e). (B) Light microscope view of a style with a subtylote end. (C) SEM detail of three typical morphologies (i.e., subterminal ring, subtylote, and regular) of the round end of styles. (D) Light microscope view of a double-bent oxea. (E) Light microscope view of plumose arrangement in the extra-axial skeleton. (F) Detail of styles embedded by spongin (s).	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B62970FFCDFF30FC18CA43FBCE.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908943/files/figure.png	http://doi.org/10.5281/zenodo.4908943	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B6297DFFC0FF30FF20CBF9FD5B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908981/files/figure.png	http://doi.org/10.5281/zenodo.4908981	FIGURE 11. (A–B) Neotype (MNCN-Sp23-BV14) of Rhabdobaris implicata Pulitzer-Finali, 1983 collected from the Alboran Island and photographed on its both sides. Note some ribs (r) on the lamina. (C–D) Holotype of Endectyon (Hemectyon) filiformis nov. sp. (MNCN-Sp69 BV21) attached on a small piece of gravel, photographed on its both sides.	FIGURE 11. (A–B) Neotype (MNCN-Sp23-BV14) of Rhabdobaris implicata Pulitzer-Finali, 1983 collected from the Alboran Island and photographed on its both sides. Note some ribs (r) on the lamina. (C–D) Holotype of Endectyon (Hemectyon) filiformis nov. sp. (MNCN-Sp69 BV21) attached on a small piece of gravel, photographed on its both sides.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B6297DFFC0FF30FF20CBF9FD5B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908985/files/figure.png	http://doi.org/10.5281/zenodo.4908985	FIGURE 12. Rhabdobaris implicata Pulitzer-Finali, 1983: (A) Line drawing summarizing the skeletal complement of the Alboranian specimen (MNCN-Sp23-BV14), consisting of hispidating styles (a), smooth rhabdostyles (b) with a regular or swollen round end (c) and acerate, bifid to polyactinal, or stepped distal end (d), acanthostyles (e), small styles (f), smooth oxeas (g) with acerate, stepped, mucronate or polyactinal ends (h), acanthoxeas (i), developing stages of oxeas (j), strongyles (k), acanthostrongyles (l), and toxiform raphides in trichodragmata (m). (B–D) Light microscope views of an hispidating style (B) and choanosomal rhabdostyles (C), sometimes with abnormal, polyactinal points (po). (D) SEM view of an acanthostyle. (E) Light microscope view of oxeas in various shapes, sometimes showing polyactinal ends (po). (F) SEM micrograph of an acanthoxea. (G) Light microscope view of an acanthostrongyle of the holotype Rhabdobaris implicata Pulitzer-Finali, 1983 (MSNG-47170). (H) SEM image of two overlapped trichodragmata of toxiform raphides in the Alboranian specimen.	FIGURE 12. Rhabdobaris implicata Pulitzer-Finali, 1983: (A) Line drawing summarizing the skeletal complement of the Alboranian specimen (MNCN-Sp23-BV14), consisting of hispidating styles (a), smooth rhabdostyles (b) with a regular or swollen round end (c) and acerate, bifid to polyactinal, or stepped distal end (d), acanthostyles (e), small styles (f), smooth oxeas (g) with acerate, stepped, mucronate or polyactinal ends (h), acanthoxeas (i), developing stages of oxeas (j), strongyles (k), acanthostrongyles (l), and toxiform raphides in trichodragmata (m). (B–D) Light microscope views of an hispidating style (B) and choanosomal rhabdostyles (C), sometimes with abnormal, polyactinal points (po). (D) SEM view of an acanthostyle. (E) Light microscope view of oxeas in various shapes, sometimes showing polyactinal ends (po). (F) SEM micrograph of an acanthoxea. (G) Light microscope view of an acanthostrongyle of the holotype Rhabdobaris implicata Pulitzer-Finali, 1983 (MSNG-47170). (H) SEM image of two overlapped trichodragmata of toxiform raphides in the Alboranian specimen.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B6297DFFC0FF30FF20CBF9FD5B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908943/files/figure.png	http://doi.org/10.5281/zenodo.4908943	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B62979FFC5FF30FF2FCE25F8F6.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908981/files/figure.png	http://doi.org/10.5281/zenodo.4908981	FIGURE 11. (A–B) Neotype (MNCN-Sp23-BV14) of Rhabdobaris implicata Pulitzer-Finali, 1983 collected from the Alboran Island and photographed on its both sides. Note some ribs (r) on the lamina. (C–D) Holotype of Endectyon (Hemectyon) filiformis nov. sp. (MNCN-Sp69 BV21) attached on a small piece of gravel, photographed on its both sides.	FIGURE 11. (A–B) Neotype (MNCN-Sp23-BV14) of Rhabdobaris implicata Pulitzer-Finali, 1983 collected from the Alboran Island and photographed on its both sides. Note some ribs (r) on the lamina. (C–D) Holotype of Endectyon (Hemectyon) filiformis nov. sp. (MNCN-Sp69 BV21) attached on a small piece of gravel, photographed on its both sides.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B62979FFC5FF30FF2FCE25F8F6.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908987/files/figure.png	http://doi.org/10.5281/zenodo.4908987	FIGURE 13. Endectyon (Hemectyon) filiformis nov. sp.: (A) Line drawing summarizing the spicule complement of the holotype (MNCN-Sp69-BV21). There are subectosomal styles (a) with a round end and an acerate or hastate distal end (b) and choanosomal styles with a regular or swollen round end (d) and an acerate, hastate or polyaxonic distal end (e). There are also oxeas (f) with conical to hastate ends (g) and acanthostyles (h) with large spines that can be clavulate at the round end (i). (B) Light microscope view of choanosomal styles, with slight subterminal swelling (bs) or a subtle subtyle (sb). (C) Light microscope view of an oxea. (D) SEM micrographs of acanthostyles. (E) Line drawing sketching the organization of the ectosomal skeleton, which consists of the subectosomal styles (es) surrounded by an hispidating brush of acanthostyles (as). (F) Light microscope view of the choanosomal skeleton where spongin (s) can be observed embedding the choanosomal styles.	FIGURE 13. Endectyon (Hemectyon) filiformis nov. sp.: (A) Line drawing summarizing the spicule complement of the holotype (MNCN-Sp69-BV21). There are subectosomal styles (a) with a round end and an acerate or hastate distal end (b) and choanosomal styles with a regular or swollen round end (d) and an acerate, hastate or polyaxonic distal end (e). There are also oxeas (f) with conical to hastate ends (g) and acanthostyles (h) with large spines that can be clavulate at the round end (i). (B) Light microscope view of choanosomal styles, with slight subterminal swelling (bs) or a subtle subtyle (sb). (C) Light microscope view of an oxea. (D) SEM micrographs of acanthostyles. (E) Line drawing sketching the organization of the ectosomal skeleton, which consists of the subectosomal styles (es) surrounded by an hispidating brush of acanthostyles (as). (F) Light microscope view of the choanosomal skeleton where spongin (s) can be observed embedding the choanosomal styles.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B62979FFC5FF30FF2FCE25F8F6.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908943/files/figure.png	http://doi.org/10.5281/zenodo.4908943	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B6297BFFC4FF30FAFBCE4EFF5C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908991/files/figure.png	http://doi.org/10.5281/zenodo.4908991	FIGURE 14. Gelliodes fayalensis Topsent, 1892. Specimen from the Alboran Island (MNCN-Sp137-DR07), photographed on its both sides while attached to a rhodolith fragment.	FIGURE 14. Gelliodes fayalensis Topsent, 1892. Specimen from the Alboran Island (MNCN-Sp137-DR07), photographed on its both sides while attached to a rhodolith fragment.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B6297BFFC4FF30FAFBCE4EFF5C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908993/files/figure.png	http://doi.org/10.5281/zenodo.4908993	FIGURE 15. Gelliodes fayalensis Topsent, 1892: (A) Line drawing summarizing the spicule complement of the Alboranian specimen (MNCN-Sp137-DR07), consisting of fusiform oxeas I (a) with acerate to malformed ends (b), isodiametric oxeas II (c) with acerate ends (d), and sigmata (e). (B) Light microscope view of Oxea I. (C) SEM detail of regular and abnormal ends of oxea I. (D) Light microscope view of isodiametric Oxea II. (E) SEM view oxeas I and II and a sigma. (F) SEM detail of a sigma. (G) Light microscope view of multispiculate tracts of oxeas I and II forming a network. (H) Light microscope detail of a multispiculate tract.	FIGURE 15. Gelliodes fayalensis Topsent, 1892: (A) Line drawing summarizing the spicule complement of the Alboranian specimen (MNCN-Sp137-DR07), consisting of fusiform oxeas I (a) with acerate to malformed ends (b), isodiametric oxeas II (c) with acerate ends (d), and sigmata (e). (B) Light microscope view of Oxea I. (C) SEM detail of regular and abnormal ends of oxea I. (D) Light microscope view of isodiametric Oxea II. (E) SEM view oxeas I and II and a sigma. (F) SEM detail of a sigma. (G) Light microscope view of multispiculate tracts of oxeas I and II forming a network. (H) Light microscope detail of a multispiculate tract.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
03DF87B6297BFFC4FF30FAFBCE4EFF5C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4908943/files/figure.png	http://doi.org/10.5281/zenodo.4908943	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	FIGURE 1. (A) Localization of the Alboran Island in the Mediterranean. (B) Distribution of the 25 studied sampling stations over the bathymetric map of the shelf of the Alboran Island.	2014-01-31	Sitjà, Cèlia;Maldonado, Manuel		Zenodo	biologists	Sitjà, Cèlia;Maldonado, Manuel			
