journal article
Jan 01, 2018
A three‐dimensional geometric morphometric study of the development of sulcus versus shell outline in Permian neospiriferine brachiopods
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References
50
[1]
Ager, D.V. 1967: Brachiopod palaeoecology. Earth‐Science Reviews 3, 157–179.
10.1016/0012-8252(67)90375-3
[2]
Alexander R.R. 1999: Function of external skeletal characteristics of articulate brachiopods. In Savazzi E. (ed.): Functional Morphology of the Invertebrate Skeleton 371–398. John Wiley & Sons New York.
[3]
Archbold, N.W. & Thomas, G.A. 1986: Neospirifer and Trigonotreta (Spiriferida, Brachiopoda) from the Permian of Western Australia. Alcheringa 10, 125–161.
10.1080/03115518608619165
[4]
Archbold, N.W. & Thomas, G.A. 1993: Imperiospira, a new Western Australian Permian Spiriferidae (Brachiopoda). Memoir of the Association of Australasian Palaeontologists 15, 313–328.
[6]
Bookstein F.L. 1991: Morphometric Tools for Landmark Data. Geometry and Biology 435 pp. Cambridge University Press New York.
10.1017/cbo9780511573064
[7]
Bookstein, F.L. 1997: Landmark methods for forms without landmarks: morphometrics of group differences in outline shape. Medical Image Analysis 1, 225–243.
10.1016/s1361-8415(97)85012-8
[8]
Bose, R. 2012: A new morphometric model in distinguishing two closely related extinct brachiopod species. Historical Biology 24, 655–664.
10.1080/08912963.2012.658568
[10]
Dunbar, C.O. 1962: Faunas and correlation of the Late Paleozoic rocks of Northeast Greenland. Part III. Brachiopoda. Meddelelser om Grønland 167, 1–14.
[11]
Elewa A.M.T. 2004: Morphometrics. Applications in Biology and Paleontology 263 pp. Springer Berlin.
10.1007/978-3-662-08865-4
[12]
Emig, C.C. 1992: Functional disposition of the lophophore in living Brachiopoda. Lethaia 25, 291–302.
10.1111/j.1502-3931.1992.tb01398.x
[13]
Fagerstrom, J. & Boellstorff, J. 1964: Taxonomic criteria in the classification of the Pennsylvanian productoid Juresania nebrascensis. Palaeontology 7, 23–28.
[14]
Gunz P. Mitteroecker P. & Bookstein F.L. 2005: Semilandmarks in three dimensions. In Slice D.E. (ed.): Modern Morphometrics in Physical Anthropology 73–98. Kluwer Academic/Plenum Publishers New York.
10.1007/0-387-27614-9_3
[15]
Hammer Ø. & Harper D.A.T. 2006: Chapter 4. Morphometrics. In Hammer Ø. & Harper D.A.T. (eds): Paleontological Data Analysis 78–156. Blackwell Publishing Oxford.
10.1002/9780470750711
[16]
Haney, R.A., Mitchell, C.E. & Kim, K. 2001: Geometric morphometric analysis of patterns of shape change in the Ordovician Brachiopod Sowerbyella. Palaios 16, 115–125.
10.1669/0883-1351(2001)016<0115:gmaopo>2.0.co;2
[17]
[18]
Krause, R.A. Jr 2004: An assessment of morphological fidelity in the sub‐fossil record of a terebratulide Brachiopod. Palaios 19, 460–476.
10.1669/0883-1351(2004)019<0460:aaomfi>2.0.co;2
[19]
Laurin B. & David B. 1991: Analysis of the shape changes among brachiopods by using landmarks application to the Jurassic Septaliphoria lineage. In Mackinnon D.I. Lee D.E. & Campbell J.D. (eds): Brachiopods Through Time 81–87. A.A. Balkema Publisher Rotterdam.
[20]
[21]
A reappraisal of feeding current systems inferred for spire-bearing brachiopods
Miguel O. Manceñido, Rémy Gourvennec
Earth and Environmental Science Transactions of th...
2008
10.1017/s1755691007078462
[22]
Márquez, F., Robledo, J., Peñaloza, G.E. & Van der Molen, S. 2010: Use of different geometric morphometrics tools for the discrimination of phenotypic stocks of the striped clam Ameghinomya antiqua (Veneridae) in north Patagonia, Argentina. Fisheries Research 101, 127–131.
10.1016/j.fishres.2009.09.018
[23]
Mitteroecker, P. & Bookstein, F. 2008: The evolutionary role of modularity and integration in the hominoid cranium. Evolution 62, 943–958.
10.1111/j.1558-5646.2008.00321.x
[24]
Neubauer, T.A., Harzhauser, M. & Mandic, O. 2013: Phenotypic evolution in a venerid bivalve species lineage from the late Middle Miocene Central Paratethys Sea: a multi‐approach morphometric analysis. Biological Journal of the Linnean Society 110, 320–334.
10.1111/bij.12120
[25]
Orton, J.H. 1914: On ciliary mechanisms in brachiopods and some polychaetes, with a comparison of the ciliary mechanisms on the gills of mollusks, protochordata, brachiopods, and cryptocephalous polychaetes, and an account of the endostyle of Crepidula and its allies. Journal of the Marine Biological Association of the United Kingdom, New Series 10, 283–311.
10.1017/s0025315400007803
[26]
Peck, L.S., Clarke, A. & Holmes, L.J. 1987: Size, shape and the distribution of organic matter in the Recent Antarctic brachiopod Liothyrella uva. Lethaia 20, 33–40.
10.1111/j.1502-3931.1987.tb00757.x
[27]
Rohlf, F.J. & Bookstein, F.L. 1990: Proceedings of the Michigan morphometrics workshop, Ann Arbor, Michigan. University of Michigan Museum of Zoology, Special Publication 2, 1–380.
[28]
Extensions of the Procrustes Method for the Optimal Superimposition of Landmarks
F. James Rohlf, Dennis Slice
Systematic Zoology
1990
10.2307/2992207
[29]
Rudwick M.J.S. 1970: Living and Fossil Brachiopods 199 pp. Hutchinson University Library Biological Sciences London.
[30]
Rufino, M.M., Gaspar, M.B., Pereira, A.M. & Vasconcelos, P. 2006: Use of shape to distinguish Chamelea gallina and Chamelea striatula (Bivalvia: Veneridae): linear and geometric morphometric methods. Journal of Morphology 267, 1433–1440.
10.1002/jmor.10489
[31]
Ruggiero, E.T., Raia, P. & Buono, G. 2008: Geometric morphometrics species discrimination within the genus Terebratula from the Late Cenozoic of Italy. Fossils and Strata 54, 209–217.
10.18261/9781405186643-2008-22
[32]
Schreiber, H.A., Roopnarine, P.D. & Carlson, S.J. 2014: Three‐dimensional morphological variability of recent rhynchonellide brachiopod crura. Paleobiology 40, 640–658.
10.1666/13042
[33]
Serb, J.M., Alejandrino, A., Otárola‐Castillo, E. & Adams, D.C. 2011: Morphological convergence of shell shape in distantly related scallop species (Mollusca: Pectinidae). Zoological Journal of the Linnean Society 163, 571–584.
10.1111/j.1096-3642.2011.00707.x
[34]
Shi G.R. & Waterhouse J.B. 1991: A quantitative taxonomic study of four rugosochonetid genera. In Mackinnon D.I. Lee D.E. & Campbell J.D. (eds): Brachiopods Through Time 57–62. A.A. Balkema Publisher Rotterdam.
[38]
Shiino, Y., Kuwazuru, O. & Yoshikawa, N. 2009: Computational fluid dynamics simulations on a Devonian spiriferid Paraspirifer bownockeri (Brachiopoda): generating mechanism of passive feeding flows. Journal of Theoretical Biology 259, 132–141.
10.1016/j.jtbi.2009.02.018
[40]
Tomošových, A., Carlson, S.J. & Labarbera, M. 2008: Ontogenetic niche shift in the brachiopod Terebratalia transversa: relationship between the loss of rotation ability and allometric growth. Palaeontology 51, 1471–1496.
10.1111/j.1475-4983.2008.00809.x
[41]
Tort, A. 2003: Morphological plasticity of the outline and the internal structures of the shell of the Recent Terebratella tenuis sp. nov. (Brachiopoda, Terebratulida). Zoomorphology 122, 47–54.
10.1007/s00435-002-0068-6
[42]
Tort, A. & Laurin, B. 2001: Intra‐and interspecific variation in internal structures of the genus Stenosarina (Brachiopoda, Terebratulida) using landmarks. Journal of Paleontology 75, 261–273.
10.1666/0022-3360(2001)075<0261:iaivii>2.0.co;2
[43]
Toula, F. 1873: Kohlenkalk‐Fossilien von der Südspitze von Spitzbergen. Kaiserliche Akademie der Wissenschaften, Mathematisch‐Naturwissenschaftliche Klasse, Sitzungsberichte (Wien) 68, 267–291.
[45]
Valladares, A., Manríquez, G. & Suárez‐Isla, B.A. 2010: Shell shape variation in populations of Mytilus chilensis (Hupe 1854) from southern Chile: a geometric morphometric approach. Marine Biology 157, 2731–2738.
10.1007/s00227-010-1532-3
[46]
Waterhouse, J.B. 1968: The classification and descriptions of Permian Spiriferida (Brachiopoda) from New Zealand. Palaeontographica (Abt. A) 129, 1–94.
[47]
Waterhouse J.B. 2004: Permian and Triassic Stratigraphy and Fossils of the Himalaya in Northern Nepal 288 pp. Earthwise Oamaru.
[48]
Webster, M. & Sheets, H.D. 2010: A practical introduction to landmark‐based geometric morphometrics: quantitative methods in paleobiology. Paleontological Society Papers 16, 163–188.
10.1017/s1089332600001868
[49]
Wilk, J. & Bieler, R. 2009: Ecophenotypic variation in the Flat Tree Oyster, Isognomon alatus (Bivalvia: Isognomonidae), across a tidal microhabitat gradient. Marine Biology Research 5, 155–163.
10.1080/17451000802279644
[50]
Zelditch M.L. Swiderski D.L. Sheets H.D. & Fink W.L. 2004: Geometric Morphometrics for Biologists: A Primer 443 pp. Elsevier Academic Press San Diego.
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Citations
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References
Details
- Published
- Jan 01, 2018
- Vol/Issue
- 51(1)
- Pages
- 1-14
- License
- View
Authors
Funding
Australian Research Council
Award: DP150100690
Deakin University
Cite This Article
Sangmin Lee, Jikhan Jung, G. R. Shi (2018). A three‐dimensional geometric morphometric study of the development of sulcus versus shell outline in Permian neospiriferine brachiopods. Lethaia, 51(1), 1-14. https://doi.org/10.1111/let.12217
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