Seductorithyris septemtrionalis Sandy & Hryniewicz & Hammer & Nakrem & Little 2014, sp. nov.

Seductorithyris septemtrionalis sp. nov. Figs. 11.1–11.16, 12 2011 v. partim ‘ Cyrtothyris ’ sp.—Hammer et al. , p. 20, table 2, fig. 7.S. Material and occurrence. Holotype: PMO 224.896; paratypes: PMO 217.198, PMO 224.892–893, PMO 224.911, PMO 224.913, PMO 227.427?, PMO 227.430. All from seep 9. Ty...

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Main Authors: Sandy, Michael R., Hryniewicz, Krzysztof, Hammer, Øyvind, Nakrem, Hans Arne, Little, Crispin T. S.
Format: Text
Language:unknown
Published: Zenodo 2014
Subjects:
Online Access:https://dx.doi.org/10.5281/zenodo.4952592
https://zenodo.org/record/4952592
id ftdatacite:10.5281/zenodo.4952592
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
Brachiopoda
Rhynchonellata
Terebratulida
Loboidothyrididae
Seductorithyris
Seductorithyris septemtrionalis
spellingShingle Biodiversity
Taxonomy
Animalia
Brachiopoda
Rhynchonellata
Terebratulida
Loboidothyrididae
Seductorithyris
Seductorithyris septemtrionalis
Sandy, Michael R.
Hryniewicz, Krzysztof
Hammer, Øyvind
Nakrem, Hans Arne
Little, Crispin T. S.
Seductorithyris septemtrionalis Sandy & Hryniewicz & Hammer & Nakrem & Little 2014, sp. nov.
topic_facet Biodiversity
Taxonomy
Animalia
Brachiopoda
Rhynchonellata
Terebratulida
Loboidothyrididae
Seductorithyris
Seductorithyris septemtrionalis
description Seductorithyris septemtrionalis sp. nov. Figs. 11.1–11.16, 12 2011 v. partim ‘ Cyrtothyris ’ sp.—Hammer et al. , p. 20, table 2, fig. 7.S. Material and occurrence. Holotype: PMO 224.896; paratypes: PMO 217.198, PMO 224.892–893, PMO 224.911, PMO 224.913, PMO 227.427?, PMO 227.430. All from seep 9. Type locality. Knorringfjellet, central Spitsbergen, N78° 18’ 49.9” E16° 10’ 58.9”. Diagnosis. As for the genus. Etymology. For the northern high-latitudes that Spitsbergen occupies ( septem tri&omacr;n&emacr;s [also septentrional]: the seven stars of the constellation of Ursa Major [the Great Bear, or the Plough]—a constellation visible in the northern hemisphere throughout the year and a useful aid to finding North; also “of the north” or “north wind”). Dimensions of the holotype. PMO 224.896—Length 33.7 mm, width 29.8 mm, thickness 16.1 mm. Description. Length slightly greater than width, rounded outline, with the dorsal valve almost circular. Biconvex profile with the dorsal valve tending to be flatter, but not necessarily. Smooth shell with growth lines. Erect beak. Ventral valve umbo has a broad round keel. Lateral commissure straight, anterior commissure rectimarginate. Cardinal process developed (Fig. 12, sections 0.7–1.2 mm), flat, horizontal and wide hinge plates deflected dorsally (sections 1.2–2.3), crural bases develop on inner margin of hinge plates (sections 1.6–2.3) and have a clubbed appearance initially (section 1.8). Crura are initially weakly deflected dorsally (sections 2.3–2.7). Transverse band is curved and low-arched (section 6.6, this is approximately at the mid-length of the brachidium, based on the distance the loop was traced), anterior flanges of the brachidium extend significantly beyond the transverse band (at least 5.8 mm). Loop traced to at least 11.4 mm from initial section through brachiopod (ventral umbo of sectioned specimen is damaged). Discussion. The beak of the ventral valve is erect in Seductorithyris septemtrionalis whereas in “ Cyrtothyris ” maynci from East Greenland the beak is slightly produced, suberect, and with a massive umbo dominated by a large circular foramen (Owen 1976). The outline of the Spitsbergen material is comparable to that of rounded terebratulide species discussed by Middlemiss (1976) from the Claxby Ironstone Formation of Lincolnshire, England, such as Rouillieria tilbyensis (Davidson) and Cyrtothyris cyrta (Walker). Both of these species show rounded and elongated morphotypes and appear however to have a more massive pedicle foramen and may develop a uniplicate anterior commissure, which helps to distinguish them from Seductorithyris septemtrionalis . The rounded outline of Seductorithyris septemtrionalis is similar to that of Pinaxiothyris campestris (Dagys 1968, pl. 10, figs. 1–3), although the latter appears to have a slight elongation to its outline, reaching a greater size. One specimen from Spitsbergen is tentatively referred to Pinaxiothyris campestris Dagys (Fig. 13.1–13.4). It is similar in outline to an elongate specimen figured by Dagys (1968, pl. 10, fig. 4). The development of the cardinal process, flat hinge plates, crura, crural processes, and transverse band show similarities between the internal characters of Seductorithyris septemtrionalis (Fig. 12) and Pinaxiothyris (Dagys, 1968, fig. 52). The latter has hinge plates that are not as wide and the crural bases do not show the slight dorsal deflection seen in Seductorithyris . Another genus considered during classification of this species was Moutonithyris, characterized by distinctive horizontal hinge plates and crural bases derived from the inner margins of the hinge plates. However, the crescentshaped attached crura seen in Moutonithyris (e.g. Middlemiss 1976; Nekvasilova 1980) are different from the clubshaped crural bases of Seductorithyris . In addition, Moutonithyris has a lower-arched transverse band compared to that of Seductorithyris , and does not appear to share the long flanges of the brachidium seen in the latter. The nature of the horizontal hinge-plates with the rounded crural bases could be described as clubbed (after Cox & Middlemiss 1978) due to secondary overgrowth (Fig. 12, section 1.8). The crura project weakly dorsally and do not conform to those of any described Mesozoic terebratulide. The hinge-plates are short in length (sections 0.7–2.7) and the loop develops rapidly to the crural processes (section 4.0) before reaching the transverse band at 6.6 mm. The loop flanges were traced for another 5.8 mm to 11.4 mm. The sectioned specimen might represent a juvenile specimen because of its size and hence also in its loop development. The ontogenetic development of the brachidium can hardly be said to be well understood among terebratulide brachiopods, and even less so perhaps the relationship between the hinge plates and the crural bases. However, these elements of the cardinalia appear stable in juvenile brachiopods judging from serial sections of growth-series of brachiopods (e.g. Dagys 1972; Smirnova 1973 (for rhynchonellides), 1984, 2008; see also Lee et al. 2001 and Tort & Laurin 2001). In Seductorithyris the crural bases develop as rounded to cuneate processes that project weakly dorsally, or at least do not project ventrally while attached to the hinge plates, thereby making a unique configuration that suggests a new brachiopod genus that is certainly distinct from its contemporaries. This configuration of the clubbed crura is quite different from the pendant or keeled crural bases typical of representatives of the terebratuloid Gibbithyris or the loboidothyridoid Placothyris . A specimen from seep 3 (Fig. 13.5–13.8; Upper Volgian) is comparable to Placothyris kegeli from Wollaston Forland, East Greenland (Fig. 13.9–13.12; Valanginian, infilling matrix is a red micrite). Stratigraphic and geographic distribution. Uppermost Ryazanian of Spitsbergen. : Published as part of Sandy, Michael R., Hryniewicz, Krzysztof, Hammer, Øyvind, Nakrem, Hans Arne & Little, Crispin T. S., 2014, Brachiopods from Late Jurassic-Early Cretaceous hydrocarbon seep deposits, central Spitsbergen, Svalbard, pp. 501-532 in Zootaxa 3884 (6) on pages 523-526, DOI: 10.11646/zootaxa.3884.6.1, http://zenodo.org/record/4951742 : {"references": ["Owen, E. F. (1976) Some Lower Cretaceous brachiopods from East Greenland. Meddelelser om GrOnland, 171 (3), 1 - 19.", "Middlemiss, F. A. (1976) Lower Cretaceous Terebratulidina of northern England and Germany and their geological background. Geologisches Jahrbuch, 30, 21 - 104.", "Dagys, A. S. (1968) Jurskiye i rannemelovye brakhiopody Severa Sibiri [Jurassic and Early Cretaceous brachiopods from northern Siberia]. Akademia Nauk SSSR Sibiroskoe Otdelenie Institut Geologii I Geofiziki (IGIG) Trudy [Institute of Geology and Geophysics, Academy of Sciences of the USSR, Siberian Branch, Transactions], 41, 1 - 167. [In Russian]", "Nekvasilova, O. (1980) Terebratulida (Brachiopoda) from the Lower Cretaceous of Stramberk (north-east Moravia), Czechoslovakia. Journal of Geological Sciences, Palaeontology, 23, 49 - 81.", "Cox, M. M. & Middlemiss, F. A. (1978) Terebratulacea from the Cretaceous Shenley Limestone. Palaeontology, 21, 411 - 441.", "Dagys, A. S. (1972) Postembrional'noye razvitiye brakhidiya pozdnepaleozoyskikh i rannemezozoyskikh Terebratulida [Postembryonic development of the brachidium of late Paleozoic and early Mesozoic terebratulids]. In: Dagys, A. S. & Ivanovskii, A. B. (Eds.), Morphologicheskiye i filogeneticheskiye voprosy paleontologii [Morphological and Phylogenetic Questions of Paleontology]. Akademia Nauk SSSR Sibiroskoe Otdelenie Institut Geologii i Geofiziki (IGIG) Trudy. vol. 112. [Institute of Geology and Geophysics, Academy of Sciences of the USSR, Siberian Branch, Transactions], pp. 22 - 58. [In Russian]", "Smirnova, T. N. (1973) K izucheniiu ontogeneticheskikh izmenenii rhinkhonellid (Brachiopoda) [Contribution to the study of ontogenetic changes in rhynchonellids (Brachiopoda)]. Paleontologicheskii Zhurnal, 1973 (4), 40 - 46. [In Russian]", "Lee, D. L., Carlson, S. J., Buening, N. & Samson, C. R. (2001) Variation in the loops of two Recent species of Liothyrella (Brachiopoda: Terebratuloidea) from New Zealand and the South Orkney Islands. In: Brunton, C. H. C, Cocks, L. R. M. & Long, S. L. (Eds.), Brachiopods Past and Present, The Systematics Association Special Volume, pp. 56 - 70. [Series 63] http: // dx. doi. org / 10.1201 / 9780203210437. ch 7", "Tort, A. & Laurin, B. (2001) Intra- and interspecific variation in internal structures of the genus Stenosarina (Brachiopoda, Terebratulida) using landmarks. Journal of Paleontology, 7, 261 - 273. http: // dx. doi. org / 10.1666 / 0022 - 3360 (2001) 075 <0261: IAIVII> 2.0. CO; 2"]}
format Text
author Sandy, Michael R.
Hryniewicz, Krzysztof
Hammer, Øyvind
Nakrem, Hans Arne
Little, Crispin T. S.
author_facet Sandy, Michael R.
Hryniewicz, Krzysztof
Hammer, Øyvind
Nakrem, Hans Arne
Little, Crispin T. S.
author_sort Sandy, Michael R.
title Seductorithyris septemtrionalis Sandy & Hryniewicz & Hammer & Nakrem & Little 2014, sp. nov.
title_short Seductorithyris septemtrionalis Sandy & Hryniewicz & Hammer & Nakrem & Little 2014, sp. nov.
title_full Seductorithyris septemtrionalis Sandy & Hryniewicz & Hammer & Nakrem & Little 2014, sp. nov.
title_fullStr Seductorithyris septemtrionalis Sandy & Hryniewicz & Hammer & Nakrem & Little 2014, sp. nov.
title_full_unstemmed Seductorithyris septemtrionalis Sandy & Hryniewicz & Hammer & Nakrem & Little 2014, sp. nov.
title_sort seductorithyris septemtrionalis sandy & hryniewicz & hammer & nakrem & little 2014, sp. nov.
publisher Zenodo
publishDate 2014
url https://dx.doi.org/10.5281/zenodo.4952592
https://zenodo.org/record/4952592
long_lat ENVELOPE(-45.500,-45.500,-60.583,-60.583)
ENVELOPE(-44.766,-44.766,-60.766,-60.766)
ENVELOPE(-60.790,-60.790,-63.668,-63.668)
ENVELOPE(70.203,70.203,-49.626,-49.626)
ENVELOPE(-130.771,-130.771,56.466,56.466)
ENVELOPE(10.633,10.633,-71.717,-71.717)
ENVELOPE(-19.861,-19.861,74.476,74.476)
ENVELOPE(16.128,16.128,78.296,78.296)
geographic Svalbard
Greenland
New Zealand
South Orkney Islands
Davidson
Wollaston
Gronland
The Beak
Smirnova
Wollaston Forland
Knorringfjellet
geographic_facet Svalbard
Greenland
New Zealand
South Orkney Islands
Davidson
Wollaston
Gronland
The Beak
Smirnova
Wollaston Forland
Knorringfjellet
genre East Greenland
Greenland
South Orkney Islands
Svalbard
Wollaston forland
Siberia
Spitsbergen
genre_facet East Greenland
Greenland
South Orkney Islands
Svalbard
Wollaston forland
Siberia
Spitsbergen
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op_doi https://doi.org/10.5281/zenodo.4952592
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spelling ftdatacite:10.5281/zenodo.4952592 2023-05-15T16:03:57+02:00 Seductorithyris septemtrionalis Sandy & Hryniewicz & Hammer & Nakrem & Little 2014, sp. nov. Sandy, Michael R. Hryniewicz, Krzysztof Hammer, Øyvind Nakrem, Hans Arne Little, Crispin T. S. 2014 https://dx.doi.org/10.5281/zenodo.4952592 https://zenodo.org/record/4952592 unknown Zenodo http://zenodo.org/record/4951742 http://publication.plazi.org/id/BA56144B6258FFBF96124213FFD43043 http://zoobank.org/BD4F285D-358C-4350-88EA-7FA94513D930 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.3884.6.1 http://zenodo.org/record/4951742 http://publication.plazi.org/id/BA56144B6258FFBF96124213FFD43043 https://dx.doi.org/10.5281/zenodo.4951796 https://dx.doi.org/10.5281/zenodo.4951804 https://dx.doi.org/10.5281/zenodo.4951808 http://zoobank.org/BD4F285D-358C-4350-88EA-7FA94513D930 https://dx.doi.org/10.5281/zenodo.4952591 https://zenodo.org/communities/biosyslit Open Access info:eu-repo/semantics/openAccess Biodiversity Taxonomy Animalia Brachiopoda Rhynchonellata Terebratulida Loboidothyrididae Seductorithyris Seductorithyris septemtrionalis Text Taxonomic treatment article-journal ScholarlyArticle 2014 ftdatacite https://doi.org/10.5281/zenodo.4952592 https://doi.org/10.11646/zootaxa.3884.6.1 https://doi.org/10.5281/zenodo.4951796 https://doi.org/10.5281/zenodo.4951804 https://doi.org/10.5281/zenodo.4951808 https://doi.org/10.5281/zenodo.4952591 2021-11-05T12:55:41Z Seductorithyris septemtrionalis sp. nov. Figs. 11.1–11.16, 12 2011 v. partim ‘ Cyrtothyris ’ sp.—Hammer et al. , p. 20, table 2, fig. 7.S. Material and occurrence. Holotype: PMO 224.896; paratypes: PMO 217.198, PMO 224.892–893, PMO 224.911, PMO 224.913, PMO 227.427?, PMO 227.430. All from seep 9. Type locality. Knorringfjellet, central Spitsbergen, N78° 18’ 49.9” E16° 10’ 58.9”. Diagnosis. As for the genus. Etymology. For the northern high-latitudes that Spitsbergen occupies ( septem tri&omacr;n&emacr;s [also septentrional]: the seven stars of the constellation of Ursa Major [the Great Bear, or the Plough]—a constellation visible in the northern hemisphere throughout the year and a useful aid to finding North; also “of the north” or “north wind”). Dimensions of the holotype. PMO 224.896—Length 33.7 mm, width 29.8 mm, thickness 16.1 mm. Description. Length slightly greater than width, rounded outline, with the dorsal valve almost circular. Biconvex profile with the dorsal valve tending to be flatter, but not necessarily. Smooth shell with growth lines. Erect beak. Ventral valve umbo has a broad round keel. Lateral commissure straight, anterior commissure rectimarginate. Cardinal process developed (Fig. 12, sections 0.7–1.2 mm), flat, horizontal and wide hinge plates deflected dorsally (sections 1.2–2.3), crural bases develop on inner margin of hinge plates (sections 1.6–2.3) and have a clubbed appearance initially (section 1.8). Crura are initially weakly deflected dorsally (sections 2.3–2.7). Transverse band is curved and low-arched (section 6.6, this is approximately at the mid-length of the brachidium, based on the distance the loop was traced), anterior flanges of the brachidium extend significantly beyond the transverse band (at least 5.8 mm). Loop traced to at least 11.4 mm from initial section through brachiopod (ventral umbo of sectioned specimen is damaged). Discussion. The beak of the ventral valve is erect in Seductorithyris septemtrionalis whereas in “ Cyrtothyris ” maynci from East Greenland the beak is slightly produced, suberect, and with a massive umbo dominated by a large circular foramen (Owen 1976). The outline of the Spitsbergen material is comparable to that of rounded terebratulide species discussed by Middlemiss (1976) from the Claxby Ironstone Formation of Lincolnshire, England, such as Rouillieria tilbyensis (Davidson) and Cyrtothyris cyrta (Walker). Both of these species show rounded and elongated morphotypes and appear however to have a more massive pedicle foramen and may develop a uniplicate anterior commissure, which helps to distinguish them from Seductorithyris septemtrionalis . The rounded outline of Seductorithyris septemtrionalis is similar to that of Pinaxiothyris campestris (Dagys 1968, pl. 10, figs. 1–3), although the latter appears to have a slight elongation to its outline, reaching a greater size. One specimen from Spitsbergen is tentatively referred to Pinaxiothyris campestris Dagys (Fig. 13.1–13.4). It is similar in outline to an elongate specimen figured by Dagys (1968, pl. 10, fig. 4). The development of the cardinal process, flat hinge plates, crura, crural processes, and transverse band show similarities between the internal characters of Seductorithyris septemtrionalis (Fig. 12) and Pinaxiothyris (Dagys, 1968, fig. 52). The latter has hinge plates that are not as wide and the crural bases do not show the slight dorsal deflection seen in Seductorithyris . Another genus considered during classification of this species was Moutonithyris, characterized by distinctive horizontal hinge plates and crural bases derived from the inner margins of the hinge plates. However, the crescentshaped attached crura seen in Moutonithyris (e.g. Middlemiss 1976; Nekvasilova 1980) are different from the clubshaped crural bases of Seductorithyris . In addition, Moutonithyris has a lower-arched transverse band compared to that of Seductorithyris , and does not appear to share the long flanges of the brachidium seen in the latter. The nature of the horizontal hinge-plates with the rounded crural bases could be described as clubbed (after Cox & Middlemiss 1978) due to secondary overgrowth (Fig. 12, section 1.8). The crura project weakly dorsally and do not conform to those of any described Mesozoic terebratulide. The hinge-plates are short in length (sections 0.7–2.7) and the loop develops rapidly to the crural processes (section 4.0) before reaching the transverse band at 6.6 mm. The loop flanges were traced for another 5.8 mm to 11.4 mm. The sectioned specimen might represent a juvenile specimen because of its size and hence also in its loop development. The ontogenetic development of the brachidium can hardly be said to be well understood among terebratulide brachiopods, and even less so perhaps the relationship between the hinge plates and the crural bases. However, these elements of the cardinalia appear stable in juvenile brachiopods judging from serial sections of growth-series of brachiopods (e.g. Dagys 1972; Smirnova 1973 (for rhynchonellides), 1984, 2008; see also Lee et al. 2001 and Tort & Laurin 2001). In Seductorithyris the crural bases develop as rounded to cuneate processes that project weakly dorsally, or at least do not project ventrally while attached to the hinge plates, thereby making a unique configuration that suggests a new brachiopod genus that is certainly distinct from its contemporaries. This configuration of the clubbed crura is quite different from the pendant or keeled crural bases typical of representatives of the terebratuloid Gibbithyris or the loboidothyridoid Placothyris . A specimen from seep 3 (Fig. 13.5–13.8; Upper Volgian) is comparable to Placothyris kegeli from Wollaston Forland, East Greenland (Fig. 13.9–13.12; Valanginian, infilling matrix is a red micrite). Stratigraphic and geographic distribution. Uppermost Ryazanian of Spitsbergen. : Published as part of Sandy, Michael R., Hryniewicz, Krzysztof, Hammer, Øyvind, Nakrem, Hans Arne & Little, Crispin T. S., 2014, Brachiopods from Late Jurassic-Early Cretaceous hydrocarbon seep deposits, central Spitsbergen, Svalbard, pp. 501-532 in Zootaxa 3884 (6) on pages 523-526, DOI: 10.11646/zootaxa.3884.6.1, http://zenodo.org/record/4951742 : {"references": ["Owen, E. F. (1976) Some Lower Cretaceous brachiopods from East Greenland. Meddelelser om GrOnland, 171 (3), 1 - 19.", "Middlemiss, F. A. (1976) Lower Cretaceous Terebratulidina of northern England and Germany and their geological background. Geologisches Jahrbuch, 30, 21 - 104.", "Dagys, A. S. (1968) Jurskiye i rannemelovye brakhiopody Severa Sibiri [Jurassic and Early Cretaceous brachiopods from northern Siberia]. Akademia Nauk SSSR Sibiroskoe Otdelenie Institut Geologii I Geofiziki (IGIG) Trudy [Institute of Geology and Geophysics, Academy of Sciences of the USSR, Siberian Branch, Transactions], 41, 1 - 167. [In Russian]", "Nekvasilova, O. (1980) Terebratulida (Brachiopoda) from the Lower Cretaceous of Stramberk (north-east Moravia), Czechoslovakia. Journal of Geological Sciences, Palaeontology, 23, 49 - 81.", "Cox, M. M. & Middlemiss, F. A. (1978) Terebratulacea from the Cretaceous Shenley Limestone. Palaeontology, 21, 411 - 441.", "Dagys, A. S. (1972) Postembrional'noye razvitiye brakhidiya pozdnepaleozoyskikh i rannemezozoyskikh Terebratulida [Postembryonic development of the brachidium of late Paleozoic and early Mesozoic terebratulids]. In: Dagys, A. S. & Ivanovskii, A. B. (Eds.), Morphologicheskiye i filogeneticheskiye voprosy paleontologii [Morphological and Phylogenetic Questions of Paleontology]. Akademia Nauk SSSR Sibiroskoe Otdelenie Institut Geologii i Geofiziki (IGIG) Trudy. vol. 112. [Institute of Geology and Geophysics, Academy of Sciences of the USSR, Siberian Branch, Transactions], pp. 22 - 58. [In Russian]", "Smirnova, T. N. (1973) K izucheniiu ontogeneticheskikh izmenenii rhinkhonellid (Brachiopoda) [Contribution to the study of ontogenetic changes in rhynchonellids (Brachiopoda)]. Paleontologicheskii Zhurnal, 1973 (4), 40 - 46. [In Russian]", "Lee, D. L., Carlson, S. J., Buening, N. & Samson, C. R. (2001) Variation in the loops of two Recent species of Liothyrella (Brachiopoda: Terebratuloidea) from New Zealand and the South Orkney Islands. In: Brunton, C. H. C, Cocks, L. R. M. & Long, S. L. (Eds.), Brachiopods Past and Present, The Systematics Association Special Volume, pp. 56 - 70. [Series 63] http: // dx. doi. org / 10.1201 / 9780203210437. ch 7", "Tort, A. & Laurin, B. (2001) Intra- and interspecific variation in internal structures of the genus Stenosarina (Brachiopoda, Terebratulida) using landmarks. Journal of Paleontology, 7, 261 - 273. http: // dx. doi. org / 10.1666 / 0022 - 3360 (2001) 075 <0261: IAIVII> 2.0. CO; 2"]} Text East Greenland Greenland South Orkney Islands Svalbard Wollaston forland Siberia Spitsbergen DataCite Metadata Store (German National Library of Science and Technology) Svalbard Greenland New Zealand South Orkney Islands ENVELOPE(-45.500,-45.500,-60.583,-60.583) Davidson ENVELOPE(-44.766,-44.766,-60.766,-60.766) Wollaston ENVELOPE(-60.790,-60.790,-63.668,-63.668) Gronland ENVELOPE(70.203,70.203,-49.626,-49.626) The Beak ENVELOPE(-130.771,-130.771,56.466,56.466) Smirnova ENVELOPE(10.633,10.633,-71.717,-71.717) Wollaston Forland ENVELOPE(-19.861,-19.861,74.476,74.476) Knorringfjellet ENVELOPE(16.128,16.128,78.296,78.296)