taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
50ABE2C90B9C59B789E7DB39ABF4C497.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589682	https://doi.org/10.3897/zookeys.1060.63307.figure2	Figure 2. Bathydorus poculum sp. nov., holotype NIWA 126338, distribution, skeleton, and morphology A distribution in New Zealand waters B holotype in situ (scale bar approximate) C dermal (upper) and atrial (lower) sides of the preserved main part of the collected fragment D magnified area of the oscular margin, showing the atrial surface curving out over the dermal surface E dermal surface with dense prostal diactins F atrial surface with similarly dense prostal diactins. Image B captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR, and ICBM.	Figure 2. Bathydorus poculum sp. nov., holotype NIWA 126338, distribution, skeleton, and morphology A distribution in New Zealand waters B holotype in situ (scale bar approximate) C dermal (upper) and atrial (lower) sides of the preserved main part of the collected fragment D magnified area of the oscular margin, showing the atrial surface curving out over the dermal surface E dermal surface with dense prostal diactins F atrial surface with similarly dense prostal diactins. Image B captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR, and ICBM.	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
50ABE2C90B9C59B789E7DB39ABF4C497.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589683	https://doi.org/10.3897/zookeys.1060.63307.figure3	Figure 3. Bathydorus poculum sp. nov., holotype NIWA 126338 spicules A prostal diactin, whole and enlarged end B hypodermal pentactin, whole and enlarged spicule centre, tangential and proximal ray ends C choanosomal diactin, whole and enlarged end D stauractine dermalium, whole and enlarged ray end E pinular hexactine atrialium, whole and enlarged ray end F oxyhexaster G enlarged whole primary and secondary ray (left) and centre of spicule showing smooth primary and ornamentation of spines on secondary rays (right) H hemioxyhexaster I hemioxystauraster.	Figure 3. Bathydorus poculum sp. nov., holotype NIWA 126338 spicules A prostal diactin, whole and enlarged end B hypodermal pentactin, whole and enlarged spicule centre, tangential and proximal ray ends C choanosomal diactin, whole and enlarged end D stauractine dermalium, whole and enlarged ray end E pinular hexactine atrialium, whole and enlarged ray end F oxyhexaster G enlarged whole primary and secondary ray (left) and centre of spicule showing smooth primary and ornamentation of spines on secondary rays (right) H hemioxyhexaster I hemioxystauraster.	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
07CBE7530CA4568993E2515A627881FA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589692	https://doi.org/10.3897/zookeys.1060.63307.figure12	Figure 12. Caulophacus (Caulophacus) discohexaster Tabachnick & Levi, 2004, NIWA 126342, 126343, distribution, skeleton, and morphology A distribution in New Zealand waters B smaller specimen, NIWA 126342 in situ C smaller specimen atrial surface on-deck image D smaller specimen dermal surface and stalk connection (deck images by PJS) E larger specimen, NIWA 126343 in situ F section of the stalk of the smaller specimen G-I SEM images of surfaces of smaller specimen; dermal G atrial H and stalk I at same magnification. Images B and E captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR and ICBM.	Figure 12. Caulophacus (Caulophacus) discohexaster Tabachnick & Levi, 2004, NIWA 126342, 126343, distribution, skeleton, and morphology A distribution in New Zealand waters B smaller specimen, NIWA 126342 in situ C smaller specimen atrial surface on-deck image D smaller specimen dermal surface and stalk connection (deck images by PJS) E larger specimen, NIWA 126343 in situ F section of the stalk of the smaller specimen G-I SEM images of surfaces of smaller specimen; dermal G atrial H and stalk I at same magnification. Images B and E captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR and ICBM.	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
07CBE7530CA4568993E2515A627881FA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589693	https://doi.org/10.3897/zookeys.1060.63307.figure13	Figure 13. Caulophacus (Caulophacus) discohexaster Tabachnick & Levi, 2004, NIWA 126342, spicules: A hypodermal body pentactin; whole and enlarged tangential and proximal ray ends B hypoatrial body pentactin; whole and enlarged tangential and proximal ray ends C hypodermal stalk pentactin; whole and enlarged tangential and proximal ray ends D choanosomal hexactins; two whole and enlarged ray end E choanosomal diactins; two whole and four enlarged ends and one central swelling F dermal body pinular hexactin G atrial body pinular hexactin H stalk dermal pinular hexactin I discohexactin J hemidiscohexaster K Caulophacus discohexaster and magnified terminal ray and terminal disc. Scale bars in A apply to B and C; scale bar is the same for F-H, I-K.	Figure 13. Caulophacus (Caulophacus) discohexaster Tabachnick & Levi, 2004, NIWA 126342, spicules: A hypodermal body pentactin; whole and enlarged tangential and proximal ray ends B hypoatrial body pentactin; whole and enlarged tangential and proximal ray ends C hypodermal stalk pentactin; whole and enlarged tangential and proximal ray ends D choanosomal hexactins; two whole and enlarged ray end E choanosomal diactins; two whole and four enlarged ends and one central swelling F dermal body pinular hexactin G atrial body pinular hexactin H stalk dermal pinular hexactin I discohexactin J hemidiscohexaster K Caulophacus discohexaster and magnified terminal ray and terminal disc. Scale bars in A apply to B and C; scale bar is the same for F-H, I-K.	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
CAA72752CEEB5252962661AFC687BFC1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589696	https://doi.org/10.3897/zookeys.1060.63307.figure16	Figure 16. Caulophacus (Caulophacus) ramosus sp. nov., NIWA 126085, distribution, skeleton, and morphology A map of collection location on Kermadec Trench slope B in-situ image of the largest body; the irregular undulating stalk associated with it is largely hidden in accumulated sediment. The green line is 6.24 cm long copied from between laser spots elsewhere in the image C deck image of the large body, which was unavailable for taxonomic description since used for other analyses (image by PJS) D a smaller body (arrowhead) attached presumably to the same stalk but lower in the sinuous section with multiple branching attachments to small cobbles E The same body enlarged to show the plush of long atrial pinular pentactins F cross section of the larger contort white stalk and its central canal. Image B captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR, and ICBM.	Figure 16. Caulophacus (Caulophacus) ramosus sp. nov., NIWA 126085, distribution, skeleton, and morphology A map of collection location on Kermadec Trench slope B in-situ image of the largest body; the irregular undulating stalk associated with it is largely hidden in accumulated sediment. The green line is 6.24 cm long copied from between laser spots elsewhere in the image C deck image of the large body, which was unavailable for taxonomic description since used for other analyses (image by PJS) D a smaller body (arrowhead) attached presumably to the same stalk but lower in the sinuous section with multiple branching attachments to small cobbles E The same body enlarged to show the plush of long atrial pinular pentactins F cross section of the larger contort white stalk and its central canal. Image B captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR, and ICBM.	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
CAA72752CEEB5252962661AFC687BFC1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589697	https://doi.org/10.3897/zookeys.1060.63307.figure17	Figure 17. Caulophacus (Caulophacus) ramosus sp. nov., NIWA 126085, spicules A two whole hypodermal body pentactins and enlarged ray tips B two whole hypoatrial body pentactins and enlarged ray ends C a choanosomal hexactin and two enlarged ray tips D t wo whole choanosomal diactins and enlarged ends and central swellings E dermal body pinular pentactin and enlarged ray ends F atrial body pinular pentactin and enlarged ray ends G discohexactin and enlarged ray end H hemidiscohexaster I thin-rayed stellate Caulophacus discohexaster with enlarged secondary ray tuft and a secondary ray. Scale bars in A apply to B-D scales in E apply to F whole microscleres are at the same scale.	Figure 17. Caulophacus (Caulophacus) ramosus sp. nov., NIWA 126085, spicules A two whole hypodermal body pentactins and enlarged ray tips B two whole hypoatrial body pentactins and enlarged ray ends C a choanosomal hexactin and two enlarged ray tips D t wo whole choanosomal diactins and enlarged ends and central swellings E dermal body pinular pentactin and enlarged ray ends F atrial body pinular pentactin and enlarged ray ends G discohexactin and enlarged ray end H hemidiscohexaster I thin-rayed stellate Caulophacus discohexaster with enlarged secondary ray tuft and a secondary ray. Scale bars in A apply to B-D scales in E apply to F whole microscleres are at the same scale.	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
F8338B31A2F8591C87DAA811AB9862BB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589694	https://doi.org/10.3897/zookeys.1060.63307.figure14	Figure 14. Caulophacus (Caulophacus) serpens sp. nov., NIWA 126084, distribution, skeleton, and morphology A distribution in New Zealand waters, collection location of holotype on the Kermadec Trench slope B in situ image of the largest specimen body and the irregular undulating stalk associated with it. The laser spots indicated by the arrows are 6.24 cm apart C deck image of the same with smaller specimens in the stalk tangle at right (image by PJS) D two smaller bodies and their stalks, previously attached to the main mass, used for spicule analysis E cross sections of the uncleaned stalk of the larger specimen in D; F Acid-cleaned part of the stalk of the same (SEM) G closer view of the outer stalk surface showing most fused diactins oriented nearly parallel to the stalk axis (SEM) H close view of the internal stalk surface showing most superficial spicules oriented at large angles to the stalk axis (SEM). Image B captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR, and ICBM.	Figure 14. Caulophacus (Caulophacus) serpens sp. nov., NIWA 126084, distribution, skeleton, and morphology A distribution in New Zealand waters, collection location of holotype on the Kermadec Trench slope B in situ image of the largest specimen body and the irregular undulating stalk associated with it. The laser spots indicated by the arrows are 6.24 cm apart C deck image of the same with smaller specimens in the stalk tangle at right (image by PJS) D two smaller bodies and their stalks, previously attached to the main mass, used for spicule analysis E cross sections of the uncleaned stalk of the larger specimen in D; F Acid-cleaned part of the stalk of the same (SEM) G closer view of the outer stalk surface showing most fused diactins oriented nearly parallel to the stalk axis (SEM) H close view of the internal stalk surface showing most superficial spicules oriented at large angles to the stalk axis (SEM). Image B captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR, and ICBM.	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
F8338B31A2F8591C87DAA811AB9862BB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589695	https://doi.org/10.3897/zookeys.1060.63307.figure15	Figure 15. Caulophacus (Caulophacus) serpens sp. nov., NIWA 126084, spicules A hypodermal body pentactin B hypoatrial body pentactin C hypodermal stalk pentactin D two whole choanosomal hexactins and an enlarged ray end E two whole choanosomal diactins and enlarged ends and central swellings; F dermal body pinular pentactin G atrial body pinular pentactin H stalk dermal pinular pentactin I discohexactin with enlarged terminal ray and facial view of end disc J large thick-rayed Caulophacus discohexaster with two smaller thin-rayed discohexasters entangled K thin-rayed Caulophacus discohexaster and magnified terminal ray. Scale bar in A applies to B-E scale bar in F applies to G and H whole microscleres are at the same scale.	Figure 15. Caulophacus (Caulophacus) serpens sp. nov., NIWA 126084, spicules A hypodermal body pentactin B hypoatrial body pentactin C hypodermal stalk pentactin D two whole choanosomal hexactins and an enlarged ray end E two whole choanosomal diactins and enlarged ends and central swellings; F dermal body pinular pentactin G atrial body pinular pentactin H stalk dermal pinular pentactin I discohexactin with enlarged terminal ray and facial view of end disc J large thick-rayed Caulophacus discohexaster with two smaller thin-rayed discohexasters entangled K thin-rayed Caulophacus discohexaster and magnified terminal ray. Scale bar in A applies to B-E scale bar in F applies to G and H whole microscleres are at the same scale.	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
BD8B043A48B9551BAEB1EEE18E9F7785.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589686	https://doi.org/10.3897/zookeys.1060.63307.figure6	Figure 6. Nubes poculiformis gen. nov., sp. nov., holotype NIWA 126016, distribution, skeleton and morphology A distribution in New Zealand waters B holotype in situ C holotype, deck image (by PJS); D longitudinal section of holotype, showing hypodermal pentactin veil E closer view of hypodermal pentactin veil F edge of osculum with tuft of marginalia G close view of stalk subdivided for spicule preparation of smaller sample H dermal surface with intact lattice of dermalia over inhalant canals I atrial surface with disrupted lattice of atrialia. Image B captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR, and ICBM.	Figure 6. Nubes poculiformis gen. nov., sp. nov., holotype NIWA 126016, distribution, skeleton and morphology A distribution in New Zealand waters B holotype in situ C holotype, deck image (by PJS); D longitudinal section of holotype, showing hypodermal pentactin veil E closer view of hypodermal pentactin veil F edge of osculum with tuft of marginalia G close view of stalk subdivided for spicule preparation of smaller sample H dermal surface with intact lattice of dermalia over inhalant canals I atrial surface with disrupted lattice of atrialia. Image B captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR, and ICBM.	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
BD8B043A48B9551BAEB1EEE18E9F7785.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589687	https://doi.org/10.3897/zookeys.1060.63307.figure7	Figure 7. Nubes poculiformis gen. nov., sp. nov., holotype NIWA 126016, spicules A three prostal hypodermal pentactins, the lower one in plane of tangential rays, with enlarged ray ends B whole marginal diactins (ray ends unavailable) C two whole choanosomal hexactins with two enlarged ray ends and one centrum. Scale of whole spicules as in C; D four whole stalk diactins and enlarged end E dermalia, stauractin and pentactin with enlarged ray ends F atrialium and enlarged ray end G two oxyhexasters and enlarged terminal ray H whole anisodiscohexaster; an enlarged section showing disc diameter increasing in longer terminal rays; an enlarged side view of a terminal ray and end views of terminal ray discs.	Figure 7. Nubes poculiformis gen. nov., sp. nov., holotype NIWA 126016, spicules A three prostal hypodermal pentactins, the lower one in plane of tangential rays, with enlarged ray ends B whole marginal diactins (ray ends unavailable) C two whole choanosomal hexactins with two enlarged ray ends and one centrum. Scale of whole spicules as in C; D four whole stalk diactins and enlarged end E dermalia, stauractin and pentactin with enlarged ray ends F atrialium and enlarged ray end G two oxyhexasters and enlarged terminal ray H whole anisodiscohexaster; an enlarged section showing disc diameter increasing in longer terminal rays; an enlarged side view of a terminal ray and end views of terminal ray discs.	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
D0CFA768826F5F16B8404AB1356975B9.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589684	https://doi.org/10.3897/zookeys.1060.63307.figure4	Figure 4. Nubes tubulata gen. nov., sp. nov., holotype NIWA 126159, distribution, skeleton and morphology A Distribution in New Zealand waters B holotype in situ C holotype, deck image D holotype, deck image showing moderate-sized osculum and veil of hypodermal pentactins (deck images by PJS) E dermal surface with dense veil of prostal hypodermal pentactins F atrial surface without a hypodermal veil G closer view of dermal surface with disrupted lattice H closer view of atrial surface with intact lattice over exhalant apertures I section of body wall, dermal surface on left side. Image B captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR, and ICBM.	Figure 4. Nubes tubulata gen. nov., sp. nov., holotype NIWA 126159, distribution, skeleton and morphology A Distribution in New Zealand waters B holotype in situ C holotype, deck image D holotype, deck image showing moderate-sized osculum and veil of hypodermal pentactins (deck images by PJS) E dermal surface with dense veil of prostal hypodermal pentactins F atrial surface without a hypodermal veil G closer view of dermal surface with disrupted lattice H closer view of atrial surface with intact lattice over exhalant apertures I section of body wall, dermal surface on left side. Image B captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR, and ICBM.	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
D0CFA768826F5F16B8404AB1356975B9.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589685	https://doi.org/10.3897/zookeys.1060.63307.figure5	Figure 5. Nubes tubulata gen. nov., sp. nov., holotype NIWA 126159, spicules A whole prostal hypodermal pentactin and enlarged ray ends B whole curved and straight choanosomal diactins with two enlarged ends; scales of whole spicules and parts in B and C as in A; C whole choanosomal hexactin with two enlarged ray ends D two dermalia, a subhexactin, and a stauractin, with enlarged ray ends and centres E two atrialia, a pinular subhexactin, and a regular hexactin with enlarged centrum of the pinular subhexactin and a ray end; scales of whole spicules and parts as in D; F two oxyhexasters G enlarged terminal ray of an oxyhexaster H anisodiscohexasters, from SEM preparation (above) and LM preparation (below).	Figure 5. Nubes tubulata gen. nov., sp. nov., holotype NIWA 126159, spicules A whole prostal hypodermal pentactin and enlarged ray ends B whole curved and straight choanosomal diactins with two enlarged ends; scales of whole spicules and parts in B and C as in A; C whole choanosomal hexactin with two enlarged ray ends D two dermalia, a subhexactin, and a stauractin, with enlarged ray ends and centres E two atrialia, a pinular subhexactin, and a regular hexactin with enlarged centrum of the pinular subhexactin and a ray end; scales of whole spicules and parts as in D; F two oxyhexasters G enlarged terminal ray of an oxyhexaster H anisodiscohexasters, from SEM preparation (above) and LM preparation (below).	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
44B4A7D7A3735F1C8A3E1ABDD7800305.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589688	https://doi.org/10.3897/zookeys.1060.63307.figure8	Figure 8. Scyphidium australiense Tabachnick, Janussen & Menschenina, 2008, NIWA 126237, distribution, skeleton and morphology A distribution in New Zealand waters, holotype as open circle, new specimen as filled circle B new specimen in situ (scale bar is approximate) C deck image (two sides, image by PJS) D osculum, deck image (by PJS) E preserved conulose outer surface of the lower body with prostal diactins F preserved wall section of the mid-body without conules G preserved dermal surface with intact pentactin lattice H preserved atrial surface with hexactins displaced from the atrial lattice. Image B captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR, and ICBM.	Figure 8. Scyphidium australiense Tabachnick, Janussen & Menschenina, 2008, NIWA 126237, distribution, skeleton and morphology A distribution in New Zealand waters, holotype as open circle, new specimen as filled circle B new specimen in situ (scale bar is approximate) C deck image (two sides, image by PJS) D osculum, deck image (by PJS) E preserved conulose outer surface of the lower body with prostal diactins F preserved wall section of the mid-body without conules G preserved dermal surface with intact pentactin lattice H preserved atrial surface with hexactins displaced from the atrial lattice. Image B captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR, and ICBM.	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
44B4A7D7A3735F1C8A3E1ABDD7800305.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589689	https://doi.org/10.3897/zookeys.1060.63307.figure9	Figure 9. Scyphidium australiense Tabachnick, Janussen & Menschenina, 2008, NIWA 126237, spicules A prostal diactin, whole and enlarged ends, one broken distal end and two intact proximal ends B choanosomal diactins, whole long and short versions at different scales plus enlarged tips and central swellings C dermalium: pentactin, whole and enlarged tips D atrialia, hexactin, whole and enlarged tip, pentactin, whole with enlarged tips, and paratetractin, whole; scales are the same as those for dermalium E spheres as small group of whole ones and one enlarged F Caulophacus discohexaster 1, whole and enlarged terminal ray end G Caulophacus discohexaster 2, whole and enlarged part of one ray tuft H oxyhexaster, whole and enlarged terminal ray end. Scales are the same for all whole microscleres and their enlarged parts.	Figure 9. Scyphidium australiense Tabachnick, Janussen & Menschenina, 2008, NIWA 126237, spicules A prostal diactin, whole and enlarged ends, one broken distal end and two intact proximal ends B choanosomal diactins, whole long and short versions at different scales plus enlarged tips and central swellings C dermalium: pentactin, whole and enlarged tips D atrialia, hexactin, whole and enlarged tip, pentactin, whole with enlarged tips, and paratetractin, whole; scales are the same as those for dermalium E spheres as small group of whole ones and one enlarged F Caulophacus discohexaster 1, whole and enlarged terminal ray end G Caulophacus discohexaster 2, whole and enlarged part of one ray tuft H oxyhexaster, whole and enlarged terminal ray end. Scales are the same for all whole microscleres and their enlarged parts.	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
0984F0D27E075AFAA164DCFAC8FF3BB2.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589690	https://doi.org/10.3897/zookeys.1060.63307.figure10	Figure 10. Scyphidium variospinosum sp. nov.: A distribution in New Zealand waters, location of both holotype NIWA 126279 and paratype NIWA 126274 on Wairarapa Slope B holotype NIWA 126279 in situ (green laser spots are 6.24 cm apart) C holotype, deck image, torn open on the left side. Note the distinct pentactin veil around body D holotype, superior end, deck image, where torn wall is obvious, and osculum is partly intact on the upper left side. Scale bar unavailable E paratype, NIWA 126274 (deck images by PJS) F close view of the prostal pentactins forming the veil of the holotype G Closer view of the thorns on the prostal pentactin tangential rays H dermal surface of preserved holotype with partly damaged lattice of dermalia I atrial surface of the preserved holotype with no lattice evident. Image B captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR, and ICBM.	Figure 10. Scyphidium variospinosum sp. nov.: A distribution in New Zealand waters, location of both holotype NIWA 126279 and paratype NIWA 126274 on Wairarapa Slope B holotype NIWA 126279 in situ (green laser spots are 6.24 cm apart) C holotype, deck image, torn open on the left side. Note the distinct pentactin veil around body D holotype, superior end, deck image, where torn wall is obvious, and osculum is partly intact on the upper left side. Scale bar unavailable E paratype, NIWA 126274 (deck images by PJS) F close view of the prostal pentactins forming the veil of the holotype G Closer view of the thorns on the prostal pentactin tangential rays H dermal surface of preserved holotype with partly damaged lattice of dermalia I atrial surface of the preserved holotype with no lattice evident. Image B captured by ROV Team GEOMAR, ROV Kiel 6000 onboard RV Sonne (voyage SO 254), courtesy of Project PoribacNewZ, GEOMAR, and ICBM.	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
0984F0D27E075AFAA164DCFAC8FF3BB2.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/589691	https://doi.org/10.3897/zookeys.1060.63307.figure11	Figure 11. Scyphidium variospinosum sp. nov., holotype NIWA 126279, spicules A prostal diactins, two whole and enlarged end and near-end segment B prostal pentactins, two whole spicules, inside and end views and parts including a tangential ray end (top), a thorned part and a proximal end (lower). Scale bars of whole and parts are same as in A C choanosomal diactins, three whole long and short versions plus enlarged tips D one pentactine dermalium and enlarged tangential and proximal ray tips E one hexactine atrialium and enlarged ray end F Caulophacus discohexaster 1 and enlarged terminal ray end G Caulophacus discohexaster 2 with enlarged terminal ray end H Caulophacus discohexaster 3 I hemioxyhexaster with enlarged terminal ray end. All microscleres and their enlarged parts are at same scale bars.	Figure 11. Scyphidium variospinosum sp. nov., holotype NIWA 126279, spicules A prostal diactins, two whole and enlarged end and near-end segment B prostal pentactins, two whole spicules, inside and end views and parts including a tangential ray end (top), a thorned part and a proximal end (lower). Scale bars of whole and parts are same as in A C choanosomal diactins, three whole long and short versions plus enlarged tips D one pentactine dermalium and enlarged tangential and proximal ray tips E one hexactine atrialium and enlarged ray end F Caulophacus discohexaster 1 and enlarged terminal ray end G Caulophacus discohexaster 2 with enlarged terminal ray end H Caulophacus discohexaster 3 I hemioxyhexaster with enlarged terminal ray end. All microscleres and their enlarged parts are at same scale bars.	2021-09-17	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert		Zenodo	biologists	Reiswig, Henry M.;Dohrmann, Martin;Kelly, Michelle;Mills, Sadie;Schupp, Peter J.;Woerheide, Gert			
