taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
039D704E3816C223FF1D609C7C23F9AD.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919814/files/figure.png	https://doi.org/10.5281/zenodo.919814	FIGURE 4. SEM images of Acanella arbuscula (Haplotype A, JSLII 36942). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	FIGURE 4. SEM images of Acanella arbuscula (Haplotype A, JSLII 36942). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E3816C223FF1D609C7C23F9AD.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919820/files/figure.png	https://doi.org/10.5281/zenodo.919820	FIGURE 6. Polyps from three different specimens represented by Haplotype A. i: MAN 8031, identified as Acanella arbuscula when collected from Manning Seamount, New England Seamounts, Atlantic Ocean. ii: MU 5052, identified as Acanella eburnea when collected from Muir Seamount, Bermuda Rise, Atlantic Ocean. iii: MED 3, identified as Isidella elongata when collected from the Eastern Ionian Sea, Mediterranean Sea.	FIGURE 6. Polyps from three different specimens represented by Haplotype A. i: MAN 8031, identified as Acanella arbuscula when collected from Manning Seamount, New England Seamounts, Atlantic Ocean. ii: MU 5052, identified as Acanella eburnea when collected from Muir Seamount, Bermuda Rise, Atlantic Ocean. iii: MED 3, identified as Isidella elongata when collected from the Eastern Ionian Sea, Mediterranean Sea.	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E3816C223FF1D609C7C23F9AD.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919818/files/figure.png	https://doi.org/10.5281/zenodo.919818	FIGURE 5. Length of sclerites (mm) from specimens from within the same species and between genetically closely related species. A) Polyp body sclerites of Haplotype A. Bar color denotes specimens originally identified as Acanella arbuscula (white), A. eburnea (gray), or Isidella elongata (black). B) Coenenchyme sclerites of Haplotype A. Bar color as in (A). C) Polyp body sclerites of A. arbuscula (white) and A. scarletae (gray). D) Coenenchyme sclerites of A. arbuscula (white) and A. scarletae (gray).	FIGURE 5. Length of sclerites (mm) from specimens from within the same species and between genetically closely related species. A) Polyp body sclerites of Haplotype A. Bar color denotes specimens originally identified as Acanella arbuscula (white), A. eburnea (gray), or Isidella elongata (black). B) Coenenchyme sclerites of Haplotype A. Bar color as in (A). C) Polyp body sclerites of A. arbuscula (white) and A. scarletae (gray). D) Coenenchyme sclerites of A. arbuscula (white) and A. scarletae (gray).	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E3816C223FF1D609C7C23F9AD.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919810/files/figure.png	https://doi.org/10.5281/zenodo.919810	FIGURE 3. Box and whisker plot depicting the depth range of the 8 different Acanella Haplotypes (A-H) among the 97 samples sequenced for this study; where n = 1 the line connects depth extremes of the trawl that collected the sample. The Haplotypes are arranged in order of decreasing depth and divided by collection location (Haplotype A was collected from both the Atlantic and Pacific). The dashed line demarcates the 200 m isobath, a conventional limit for the upper depth of the deepsea (200 m).	FIGURE 3. Box and whisker plot depicting the depth range of the 8 different Acanella Haplotypes (A-H) among the 97 samples sequenced for this study; where n = 1 the line connects depth extremes of the trawl that collected the sample. The Haplotypes are arranged in order of decreasing depth and divided by collection location (Haplotype A was collected from both the Atlantic and Pacific). The dashed line demarcates the 200 m isobath, a conventional limit for the upper depth of the deepsea (200 m).	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E3816C223FF1D609C7C23F9AD.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919824/files/figure.png	https://doi.org/10.5281/zenodo.919824	FIGURE 7. Acanella arbuscula (M 007) collected from a muddy bottom on Ausias March Seamount, Mallorca Channel, Mediterranean Sea, at 546 m depth. A) Field of colonies. Red circle indicates specimen collected. B) In situ image of specimen before collection. Yellow circle indicates sampled branchlet. C) Specimen sampled with dichotomous and trichotomous branching at the node. Green circle indicates close up of polyps on branchlet. D) Close up of sampled specimen polyps with long intertentacular sclerites. Images courtesy of Sylvia Garcia, Oceana.	FIGURE 7. Acanella arbuscula (M 007) collected from a muddy bottom on Ausias March Seamount, Mallorca Channel, Mediterranean Sea, at 546 m depth. A) Field of colonies. Red circle indicates specimen collected. B) In situ image of specimen before collection. Yellow circle indicates sampled branchlet. C) Specimen sampled with dichotomous and trichotomous branching at the node. Green circle indicates close up of polyps on branchlet. D) Close up of sampled specimen polyps with long intertentacular sclerites. Images courtesy of Sylvia Garcia, Oceana.	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E3812C221FF1D62277CF2FEF4.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919828/files/figure.png	https://doi.org/10.5281/zenodo.919828	FIGURE 8. SEM images of Acanella chiliensis (Haplotype C, MAIN 31392). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	FIGURE 8. SEM images of Acanella chiliensis (Haplotype C, MAIN 31392). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E3813C23EFF1D60747C85F86E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919832/files/figure.png	https://doi.org/10.5281/zenodo.919832	FIGURE 9. SEM images of Acanella sp. cf. A. disPar (Haplotype D, TER 10037). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	FIGURE 9. SEM images of Acanella sp. cf. A. disPar (Haplotype D, TER 10037). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E3813C23EFF1D60747C85F86E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919810/files/figure.png	https://doi.org/10.5281/zenodo.919810	FIGURE 3. Box and whisker plot depicting the depth range of the 8 different Acanella Haplotypes (A-H) among the 97 samples sequenced for this study; where n = 1 the line connects depth extremes of the trawl that collected the sample. The Haplotypes are arranged in order of decreasing depth and divided by collection location (Haplotype A was collected from both the Atlantic and Pacific). The dashed line demarcates the 200 m isobath, a conventional limit for the upper depth of the deepsea (200 m).	FIGURE 3. Box and whisker plot depicting the depth range of the 8 different Acanella Haplotypes (A-H) among the 97 samples sequenced for this study; where n = 1 the line connects depth extremes of the trawl that collected the sample. The Haplotypes are arranged in order of decreasing depth and divided by collection location (Haplotype A was collected from both the Atlantic and Pacific). The dashed line demarcates the 200 m isobath, a conventional limit for the upper depth of the deepsea (200 m).	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E3813C23EFF1D60747C85F86E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919806/files/figure.png	https://doi.org/10.5281/zenodo.919806	FIGURE 2. Median-joining network of the 8 genetic haplotypes of Acanella (based on concatenated mtMutS - 5 ’, mtMutS - 3 ’ and 18 S alignments) depicting relatedness, abundance, and geographic location; BY # s are the Lower Bathyal Provinces of Watling et al. (2013). Circles are labeled with Haplotype ID and their size is proportional to the number of specimens sequenced. The location of the deep-sea province where the samples were collected is shown as a pie chart in each circle, with pie slice sizes corresponding to the number of specimens collected in that province. Hash marks and branch lengths indicate the number of nucleotide substitutions between each haplotype. The black squares indicate median vector (unsampled, hypothesized haplotypes).	FIGURE 2. Median-joining network of the 8 genetic haplotypes of Acanella (based on concatenated mtMutS - 5 ’, mtMutS - 3 ’ and 18 S alignments) depicting relatedness, abundance, and geographic location; BY # s are the Lower Bathyal Provinces of Watling et al. (2013). Circles are labeled with Haplotype ID and their size is proportional to the number of specimens sequenced. The location of the deep-sea province where the samples were collected is shown as a pie chart in each circle, with pie slice sizes corresponding to the number of specimens collected in that province. Hash marks and branch lengths indicate the number of nucleotide substitutions between each haplotype. The black squares indicate median vector (unsampled, hypothesized haplotypes).	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E380DC23FFF1D64A77A6BF8EF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919834/files/figure.png	https://doi.org/10.5281/zenodo.919834	FIGURE 10. SEM images of Acanella rigida (Haplotype E, CP 3652 / 3). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	FIGURE 10. SEM images of Acanella rigida (Haplotype E, CP 3652 / 3). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E380DC23FFF1D64A77A6BF8EF.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919810/files/figure.png	https://doi.org/10.5281/zenodo.919810	FIGURE 3. Box and whisker plot depicting the depth range of the 8 different Acanella Haplotypes (A-H) among the 97 samples sequenced for this study; where n = 1 the line connects depth extremes of the trawl that collected the sample. The Haplotypes are arranged in order of decreasing depth and divided by collection location (Haplotype A was collected from both the Atlantic and Pacific). The dashed line demarcates the 200 m isobath, a conventional limit for the upper depth of the deepsea (200 m).	FIGURE 3. Box and whisker plot depicting the depth range of the 8 different Acanella Haplotypes (A-H) among the 97 samples sequenced for this study; where n = 1 the line connects depth extremes of the trawl that collected the sample. The Haplotypes are arranged in order of decreasing depth and divided by collection location (Haplotype A was collected from both the Atlantic and Pacific). The dashed line demarcates the 200 m isobath, a conventional limit for the upper depth of the deepsea (200 m).	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E380EC23CFF1D64A77D28FD2C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919838/files/figure.png	https://doi.org/10.5281/zenodo.919838	FIGURE 11. SEM images of Acanella robusta (Haplotype H, PNG 1161). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	FIGURE 11. SEM images of Acanella robusta (Haplotype H, PNG 1161). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E380EC23CFF1D64A77D28FD2C.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919810/files/figure.png	https://doi.org/10.5281/zenodo.919810	FIGURE 3. Box and whisker plot depicting the depth range of the 8 different Acanella Haplotypes (A-H) among the 97 samples sequenced for this study; where n = 1 the line connects depth extremes of the trawl that collected the sample. The Haplotypes are arranged in order of decreasing depth and divided by collection location (Haplotype A was collected from both the Atlantic and Pacific). The dashed line demarcates the 200 m isobath, a conventional limit for the upper depth of the deepsea (200 m).	FIGURE 3. Box and whisker plot depicting the depth range of the 8 different Acanella Haplotypes (A-H) among the 97 samples sequenced for this study; where n = 1 the line connects depth extremes of the trawl that collected the sample. The Haplotypes are arranged in order of decreasing depth and divided by collection location (Haplotype A was collected from both the Atlantic and Pacific). The dashed line demarcates the 200 m isobath, a conventional limit for the upper depth of the deepsea (200 m).	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E380EC23DFF1D62767C60F847.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919842/files/figure.png	https://doi.org/10.5281/zenodo.919842	FIGURE 12. SEM images of Acanella furcata (Haplotype F, MED 2). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	FIGURE 12. SEM images of Acanella furcata (Haplotype F, MED 2). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E3808C23AFF1D64A77DB5FA7F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919846/files/figure.png	https://doi.org/10.5281/zenodo.919846	FIGURE 13. Acanella aurelia colony fragment (NSFIII 07223).	FIGURE 13. Acanella aurelia colony fragment (NSFIII 07223).	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E3808C23AFF1D64A77DB5FA7F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919850/files/figure.png	https://doi.org/10.5281/zenodo.919850	FIGURE 14. SEM images of Acanella aurelia (Haplotype B, NSFIII 07223). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	FIGURE 14. SEM images of Acanella aurelia (Haplotype B, NSFIII 07223). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E3808C23AFF1D64A77DB5FA7F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919834/files/figure.png	https://doi.org/10.5281/zenodo.919834	FIGURE 10. SEM images of Acanella rigida (Haplotype E, CP 3652 / 3). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	FIGURE 10. SEM images of Acanella rigida (Haplotype E, CP 3652 / 3). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E380AC239FF1D60467BCCF88A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919854/files/figure.png	https://doi.org/10.5281/zenodo.919854	FIGURE 15. Acanella scarletae images of live colony taken prior to preservation. A) Whole colony (TR 03049). B) Whole colony (TR 03010). C) Root-like holdfast (TR 03010). D) Single polyp (TR 03010). E) Longitudinally ribbed skeleton covered with thin red coenenchyme (TR 03049).	FIGURE 15. Acanella scarletae images of live colony taken prior to preservation. A) Whole colony (TR 03049). B) Whole colony (TR 03010). C) Root-like holdfast (TR 03010). D) Single polyp (TR 03010). E) Longitudinally ribbed skeleton covered with thin red coenenchyme (TR 03049).	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
039D704E380AC239FF1D60467BCCF88A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/919858/files/figure.png	https://doi.org/10.5281/zenodo.919858	FIGURE 16. SEM images of Acanella scarletae (Haplotype G, TR 3010). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	FIGURE 16. SEM images of Acanella scarletae (Haplotype G, TR 3010). A) Tentacle sclerites. B) Coenenchyme sclerites. C) Polyp body sclerites.	2017-09-22	France, Scott C.		Zenodo	biologists	France, Scott C.			
