Terebellides stroemii Sars 1835

Terebellides stroemii Sars, 1835 (Figures 9–11, 12 c, 13) Terebellides stroemii Sars, 1835: 48 –50, Pl. 12 (labelled 13), Fig. 31 a–e. Terebellides stroemii —Garraffoni et al . 2005: 14. Garraffoni & Lana 2003: 356. Garraffoni & Lana 2004: 973, Tables 1–2, Figs 5–6. Jirkov 2001: 529, Figs 1–...

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Main Authors: Parapar, Julio, Mikac, Barbara, Fiege, Dieter
Format: Text
Language:unknown
Published: Zenodo 2013
Subjects:
Biodiversity
Taxonomy
Animalia
Annelida
Polychaeta
Terebellida
Trichobranchidae
Terebellides
Terebellides stroemii
Arctic
Fang
Solís
Online Access:https://dx.doi.org/10.5281/zenodo.6164485
https://zenodo.org/record/6164485
id ftdatacite:10.5281/zenodo.6164485
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language unknown
topic Biodiversity
Taxonomy
Animalia
Annelida
Polychaeta
Terebellida
Trichobranchidae
Terebellides
Terebellides stroemii
spellingShingle Biodiversity
Taxonomy
Animalia
Annelida
Polychaeta
Terebellida
Trichobranchidae
Terebellides
Terebellides stroemii
Parapar, Julio
Mikac, Barbara
Fiege, Dieter
Terebellides stroemii Sars 1835
topic_facet Biodiversity
Taxonomy
Animalia
Annelida
Polychaeta
Terebellida
Trichobranchidae
Terebellides
Terebellides stroemii
description Terebellides stroemii Sars, 1835 (Figures 9–11, 12 c, 13) Terebellides stroemii Sars, 1835: 48 –50, Pl. 12 (labelled 13), Fig. 31 a–e. Terebellides stroemii —Garraffoni et al . 2005: 14. Garraffoni & Lana 2003: 356. Garraffoni & Lana 2004: 973, Tables 1–2, Figs 5–6. Jirkov 2001: 529, Figs 1–5. Parapar et al . (2011): 14, Figs 11, 12, 13 d. Terebellides stroemi —Williams 1984: 119, Figs 1 a–c, 3, 6. Imajima & Williams 1985: 11. Holthe 1986 a: 170. Solís-Weiss et al . 1991: 147. Bremec & Elías 1999: 177. non Terebellides stroemii —Hutchings & Peart 2000: 254, Figs. 13 f, 16, Tab. 3. Material examined. A total of 51 specimens were examined (60.7% of the total Terebellides specimens collected) in all four stations studied. Station SJ 0 0 5 : 28.05. 2003 (PMR- 14563, 1 spec.; PMR- 14564, 1 spec.); 0 7.06.0 4 (PMR- 14565, 1 spec.); 0 2.12. 2004 (PMR- 14566, 1 spec.; PMR- 14567, 2 specs.). Station SJ 0 0 7 : 27.02. 2003 (4 specs.) (coll. BM); 28.05. 2003 (PMR- 14568, 4 specs.); 12.08. 2003 (MNCN 16.01/ 14717, 2 specs.; MNCN 16.01/ 14718, 1 spec.); 29.01.0 4 (PMR- 14569, 2 specs.); 30.08.0 4 (PMR- 14570, 1 spec.). Station LIM K 2 : 0 7.07. 2010 (PMR- 14571, 10 specs.); 0 7.07. 2010 (10 specs.) (coll. BM). Station LIM K 5 : 0 7.07. 2010 (PMR- 14572, 9 specs.; PMR- 14573, 2 specs. on one SEM stub). Description of Adriatic Sea specimens . Complete specimens ranging from 25 to 34 mm in length and 3.0 to 2.0 mm in width; specimens from LIM stations much larger than ones from SJ stations; body tapering posteriorly with segments becoming increasingly shorter and compact towards pygidium. Prostomium compact; tentacular membrane surrounding mouth and provided with buccal tentacles with expanded tips. First segment forming an expanded structure below tentacular membrane. Lateral lappets on SGIII–IX (CH 1–7) (Fig. 9 a, b). Some specimens with more or less conspicuous dorsal rounded projection in CH 4 – 6. An oval-shaped glandular region could be seen in lateral part of thoracic CH 3 (Fig. 9 a, b). Branchiae arising as single structure from segment 3 consisting of a single stalked structure located middorsally made up of two pairs of posterior lobes fused along most of their length; lower pair of same length but thinner than upper pair (Fig. 9 b). Pointed projection of posterior region of lobes present in both lobes. Anterior branchial projection (fifth lobe) present. Branchiae provided with papillar projections pointing over the edge of the branchial lamellae, the latter also provided with several parallel bent rows of cilia on both sides (Fig. 9 c–d). Eighteen pairs of thoracic notopodia (SGIII −XX). Notopodia and notochaetae of CH 1 shorter in size to subsequent notopodia. Neuropodia present as sessile pinnules from CH 6 (SGVIII) to pygidium and provided with uncini in single rows throughout. First thoracic neuropodia (CH 6) with 4−5 sharply bent, acute tipped, geniculate acicular hooks (Fig. 10 a). Minute teeth forming a capitium on geniculate chaetae not observed (Fig. 10 b). Second and all subsequent thoracic neuropodia with up to 10–16 uncini per torus. Uncini provided with long shafted denticulate hooks with 2−4 teeth above main fang surmounted by about 3 shorter teeth and an upper crest of several smaller denticles (Fig. 10 c, d), dental formula MF: 2–4: 3:∞. Between 30–32 abdominal neuropodia as erect pinnules provided with about 23 uncini per torus; uncini with 4 teeth above main fang surmounted by an upper crest of 3−5 shorter teeth and a variable number of smaller teeth (Fig. 11 a), dental formula MF: 4: 3–5:∞. One large, button-hole like nephridial opening on each notopodium of CH 4–5 (Fig. 11 b). Low ciliated papillae located dorsally to all thoracic notopodia from second chaetiger (Fig. 11 c, d). Pygidium blunt, funnel-like depression. MG staining pattern 5 (Fig. 12 c; 13 a): compact green colouration in CH 1–3, after turning into striped pattern in CH 4–12 and fading in following segments. Oval-shaped glandular region of CH 3 also stained but differently to others. Colour in alcohol pale brown (Fig. 13 b), oval region of CH 3 slightly lighter. Remarks. General characteristics of Adriatic specimens agree with those of Icelandic specimens identified as T. stroemii sensu Holthe (1986 a) by Parapar et al. (2011), and therefore differ from those characters referred to this species by Hutchings and Peart (2000) from the study of some Norwegian specimens: presence and degree of development of the anterior lateral lappets, position of nephridial openings and shape of geniculate chaetae. Other characters also in agreement with Parapar et al. (2011) are the MG coloration pattern and the distribution of branchial ciliature. Habitat. The species was reported in a wide range of depths and temperatures in all world oceans, nevertheless, it is impossible to establish with confidence any habitat preferences given that today, it is considered a complex of species. Terebellides stroemii was frequently reported in all parts of the Adriatic Sea on soft bottoms up to a depth of 1,150 m and was considered a species of wide ecological distribution. In this research the species was found in the northern Adriatic Sea on offshore stations on silty sand bottom at 31 m depth and on coastal stations on muddy bottom at 28–29 m depth. Distribution. Boreo-Arctic waters (Hutchings & Peart 2000). Our record in the Adriatic Sea confirms the presence of T. stroemii in Mediterranean waters. : Published as part of Parapar, Julio, Mikac, Barbara & Fiege, Dieter, 2013, Diversity of the genus Terebellides (Polychaeta: Trichobranchidae) in the Adriatic Sea with the description of a new species, pp. 333-350 in Zootaxa 3691 (3) on pages 342-344, DOI: 10.11646/zootaxa.3691.3.3, http://zenodo.org/record/248600
format Text
author Parapar, Julio
Mikac, Barbara
Fiege, Dieter
author_facet Parapar, Julio
Mikac, Barbara
Fiege, Dieter
author_sort Parapar, Julio
title Terebellides stroemii Sars 1835
title_short Terebellides stroemii Sars 1835
title_full Terebellides stroemii Sars 1835
title_fullStr Terebellides stroemii Sars 1835
title_full_unstemmed Terebellides stroemii Sars 1835
title_sort terebellides stroemii sars 1835
publisher Zenodo
publishDate 2013
url https://dx.doi.org/10.5281/zenodo.6164485
https://zenodo.org/record/6164485
long_lat ENVELOPE(167.217,167.217,-77.483,-77.483)
ENVELOPE(-59.783,-59.783,-62.533,-62.533)
geographic Arctic
Fang
Solís
geographic_facet Arctic
Fang
Solís
genre Arctic
genre_facet Arctic
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spelling ftdatacite:10.5281/zenodo.6164485 2023-05-15T15:20:35+02:00 Terebellides stroemii Sars 1835 Parapar, Julio Mikac, Barbara Fiege, Dieter 2013 https://dx.doi.org/10.5281/zenodo.6164485 https://zenodo.org/record/6164485 unknown Zenodo http://zenodo.org/record/248600 http://publication.plazi.org/id/FFB27461FFFDFF8E3F53B658091BFFCB http://zoobank.org/24C5A895-F6B0-47CF-B138-A74670268984 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.3691.3.3 http://zenodo.org/record/248600 http://publication.plazi.org/id/FFB27461FFFDFF8E3F53B658091BFFCB https://dx.doi.org/10.5281/zenodo.248610 https://dx.doi.org/10.5281/zenodo.248611 https://dx.doi.org/10.5281/zenodo.248612 https://dx.doi.org/10.5281/zenodo.248613 https://dx.doi.org/10.5281/zenodo.248606 https://dx.doi.org/10.5281/zenodo.248607 https://dx.doi.org/10.5281/zenodo.248602 https://dx.doi.org/10.5281/zenodo.248603 https://dx.doi.org/10.5281/zenodo.248604 https://dx.doi.org/10.5281/zenodo.248605 https://dx.doi.org/10.5281/zenodo.248614 http://zoobank.org/24C5A895-F6B0-47CF-B138-A74670268984 https://dx.doi.org/10.5281/zenodo.6164486 https://zenodo.org/communities/biosyslit Open Access Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode cc0-1.0 info:eu-repo/semantics/openAccess CC0 Biodiversity Taxonomy Animalia Annelida Polychaeta Terebellida Trichobranchidae Terebellides Terebellides stroemii article-journal ScholarlyArticle Taxonomic treatment Text 2013 ftdatacite https://doi.org/10.5281/zenodo.6164485 https://doi.org/10.11646/zootaxa.3691.3.3 https://doi.org/10.5281/zenodo.248610 https://doi.org/10.5281/zenodo.248611 https://doi.org/10.5281/zenodo.248612 https://doi.org/10.5281/zenodo.248613 https://do 2022-04-01T11:20:40Z Terebellides stroemii Sars, 1835 (Figures 9–11, 12 c, 13) Terebellides stroemii Sars, 1835: 48 –50, Pl. 12 (labelled 13), Fig. 31 a–e. Terebellides stroemii —Garraffoni et al . 2005: 14. Garraffoni & Lana 2003: 356. Garraffoni & Lana 2004: 973, Tables 1–2, Figs 5–6. Jirkov 2001: 529, Figs 1–5. Parapar et al . (2011): 14, Figs 11, 12, 13 d. Terebellides stroemi —Williams 1984: 119, Figs 1 a–c, 3, 6. Imajima & Williams 1985: 11. Holthe 1986 a: 170. Solís-Weiss et al . 1991: 147. Bremec & Elías 1999: 177. non Terebellides stroemii —Hutchings & Peart 2000: 254, Figs. 13 f, 16, Tab. 3. Material examined. A total of 51 specimens were examined (60.7% of the total Terebellides specimens collected) in all four stations studied. Station SJ 0 0 5 : 28.05. 2003 (PMR- 14563, 1 spec.; PMR- 14564, 1 spec.); 0 7.06.0 4 (PMR- 14565, 1 spec.); 0 2.12. 2004 (PMR- 14566, 1 spec.; PMR- 14567, 2 specs.). Station SJ 0 0 7 : 27.02. 2003 (4 specs.) (coll. BM); 28.05. 2003 (PMR- 14568, 4 specs.); 12.08. 2003 (MNCN 16.01/ 14717, 2 specs.; MNCN 16.01/ 14718, 1 spec.); 29.01.0 4 (PMR- 14569, 2 specs.); 30.08.0 4 (PMR- 14570, 1 spec.). Station LIM K 2 : 0 7.07. 2010 (PMR- 14571, 10 specs.); 0 7.07. 2010 (10 specs.) (coll. BM). Station LIM K 5 : 0 7.07. 2010 (PMR- 14572, 9 specs.; PMR- 14573, 2 specs. on one SEM stub). Description of Adriatic Sea specimens . Complete specimens ranging from 25 to 34 mm in length and 3.0 to 2.0 mm in width; specimens from LIM stations much larger than ones from SJ stations; body tapering posteriorly with segments becoming increasingly shorter and compact towards pygidium. Prostomium compact; tentacular membrane surrounding mouth and provided with buccal tentacles with expanded tips. First segment forming an expanded structure below tentacular membrane. Lateral lappets on SGIII–IX (CH 1–7) (Fig. 9 a, b). Some specimens with more or less conspicuous dorsal rounded projection in CH 4 – 6. An oval-shaped glandular region could be seen in lateral part of thoracic CH 3 (Fig. 9 a, b). Branchiae arising as single structure from segment 3 consisting of a single stalked structure located middorsally made up of two pairs of posterior lobes fused along most of their length; lower pair of same length but thinner than upper pair (Fig. 9 b). Pointed projection of posterior region of lobes present in both lobes. Anterior branchial projection (fifth lobe) present. Branchiae provided with papillar projections pointing over the edge of the branchial lamellae, the latter also provided with several parallel bent rows of cilia on both sides (Fig. 9 c–d). Eighteen pairs of thoracic notopodia (SGIII −XX). Notopodia and notochaetae of CH 1 shorter in size to subsequent notopodia. Neuropodia present as sessile pinnules from CH 6 (SGVIII) to pygidium and provided with uncini in single rows throughout. First thoracic neuropodia (CH 6) with 4−5 sharply bent, acute tipped, geniculate acicular hooks (Fig. 10 a). Minute teeth forming a capitium on geniculate chaetae not observed (Fig. 10 b). Second and all subsequent thoracic neuropodia with up to 10–16 uncini per torus. Uncini provided with long shafted denticulate hooks with 2−4 teeth above main fang surmounted by about 3 shorter teeth and an upper crest of several smaller denticles (Fig. 10 c, d), dental formula MF: 2–4: 3:∞. Between 30–32 abdominal neuropodia as erect pinnules provided with about 23 uncini per torus; uncini with 4 teeth above main fang surmounted by an upper crest of 3−5 shorter teeth and a variable number of smaller teeth (Fig. 11 a), dental formula MF: 4: 3–5:∞. One large, button-hole like nephridial opening on each notopodium of CH 4–5 (Fig. 11 b). Low ciliated papillae located dorsally to all thoracic notopodia from second chaetiger (Fig. 11 c, d). Pygidium blunt, funnel-like depression. MG staining pattern 5 (Fig. 12 c; 13 a): compact green colouration in CH 1–3, after turning into striped pattern in CH 4–12 and fading in following segments. Oval-shaped glandular region of CH 3 also stained but differently to others. Colour in alcohol pale brown (Fig. 13 b), oval region of CH 3 slightly lighter. Remarks. General characteristics of Adriatic specimens agree with those of Icelandic specimens identified as T. stroemii sensu Holthe (1986 a) by Parapar et al. (2011), and therefore differ from those characters referred to this species by Hutchings and Peart (2000) from the study of some Norwegian specimens: presence and degree of development of the anterior lateral lappets, position of nephridial openings and shape of geniculate chaetae. Other characters also in agreement with Parapar et al. (2011) are the MG coloration pattern and the distribution of branchial ciliature. Habitat. The species was reported in a wide range of depths and temperatures in all world oceans, nevertheless, it is impossible to establish with confidence any habitat preferences given that today, it is considered a complex of species. Terebellides stroemii was frequently reported in all parts of the Adriatic Sea on soft bottoms up to a depth of 1,150 m and was considered a species of wide ecological distribution. In this research the species was found in the northern Adriatic Sea on offshore stations on silty sand bottom at 31 m depth and on coastal stations on muddy bottom at 28–29 m depth. Distribution. Boreo-Arctic waters (Hutchings & Peart 2000). Our record in the Adriatic Sea confirms the presence of T. stroemii in Mediterranean waters. : Published as part of Parapar, Julio, Mikac, Barbara & Fiege, Dieter, 2013, Diversity of the genus Terebellides (Polychaeta: Trichobranchidae) in the Adriatic Sea with the description of a new species, pp. 333-350 in Zootaxa 3691 (3) on pages 342-344, DOI: 10.11646/zootaxa.3691.3.3, http://zenodo.org/record/248600 Text Arctic DataCite Metadata Store (German National Library of Science and Technology) Arctic Fang ENVELOPE(167.217,167.217,-77.483,-77.483) Solís ENVELOPE(-59.783,-59.783,-62.533,-62.533)

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