Hostname: page-component-cd9895bd7-jn8rn Total loading time: 0 Render date: 2024-12-26T03:46:16.824Z Has data issue: false hasContentIssue false
  • English
  • Français

Adlatipora, a Distinctive New Acanthocladiid Bryozoan from the Permian of the Glass Mountains, Texas, U.S.A., and its Bearing on Fenestrate Astogeny and Growth

Published online by Cambridge University Press:  15 October 2015

T. Gary Gautier ,
Patrick N. Wyse Jackson  and
Frank K. McKinney
T. Gary Gautier
Affiliation:
3672, E 157 N, Rigby, ID 83442, USA
Patrick N. Wyse Jackson
Affiliation:
Department of Geology, Trinity College, Dublin 2, Ireland,
Frank K. McKinney
Affiliation:
Department of Geology, Appalachian State University, Boone, NC 28608, USA
Get access Rights & Permissions [Opens in a new window]

Abstract

A new acanthocladiid bryozoan genus from the Permian of the Glass Mountains of Texas, U.S.A., reveals a distinctive morphology and a growth pattern unique amongst members of the extinct stenolaemate Order Fenestrata. Adlatipora fossulata n. gen. n. sp. forms small pinnate expansions with moderately robust main stems and shorter laterally placed pinnae. Colonies developed from small basal discs that exhibit a unique multilayered skeletal structure, from which a circlet of first generation autozooids bud from the ancestrula; these become the bases of branches. In Adlatipora autozooecia are organized into diagonal rows that alternate along branches and are separated into right-handed or left-handed forms. A fossula is developed from the distal margin of autozooecial apertures. Proximal pores are located adjacent to autozooecial apertures and are remnants of fossulae. These pores probably acted as an anal pore providing a passageway for fecal products.

Type
Research Article
Information
Journal of Paleontology , Volume 87 , Issue 3 , May 2013 , pp. 444 - 455
Copyright
Copyright © The Paleontological Society 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Bain, R. J. 1971. An overgrowth relationship among Permian fossils from Texas. Journal of Paleontology, 45:134136.Google Scholar
Bancroft, A. J. 1986. Ovicells in the Palaeozoic bryozoan order Fenestrata. Palaeontology, 29:155164.Google Scholar
Blake, D. B. 1976. Functional morphology and taxonomy of branch dimorphism in the Paleozoic bryozoan genus Rhabdomeson. Lethaia, 9:169178.CrossRefGoogle Scholar
Boardman, R. S., and Utgaard, J. E., 1964. Modifications for study methods for Paleozoic Bryozoa. Journal of Paleontology, 38:768770.Google Scholar
Borg, F. 1926. Studies on Recent cyclostomatous Bryozoa. Zoologiska Bidrag från Uppsala, 10:181507.Google Scholar
Bose, E. 1917. The Permo-Carboniferous ammonoids of the Glass Mountains, west Texas, and their stratigraphic significance. Texas University Bulletin, 1762:1241.Google Scholar
Bostwick, D. A. 1962. Fusulinid stratigraphy of beds near the Gaptank-Wolfcamp boundary, Glass Mountains, Texas. Journal of Paleontology, 36:11891200.Google Scholar
Brezinski, D. K. 1992. Permian trilobites from West Texas. Journal of Paleontology, 66:924943.CrossRefGoogle Scholar
Condra, G. E., and Elias, M. K. 1944. Study and revision of Archimedes (Hall). Geological Society of America Special Paper, 53:1243.CrossRefGoogle Scholar
Condra, G. E., and Elias, M. K. 1945. Bicorbula, a new Permian bryozoan, probably a bryozoan-algal consortium. Journal of Paleontology, 19:116125.Google Scholar
Cooper, G. A., and Stehli, F. G. 1955. New genera of Permian brachiopods from West Texas. Journal of Paleontology, 29:469474.Google Scholar
Cooper, G. A., and Grant, R. E. 1972. Permian brachiopods of West Texas, I. Smithsonian Contributions to Paleobiology, 14:1231.Google Scholar
Cooper, G. A., and Grant, R. E. 1974. Permian brachiopods of West Texas, II. Smithsonian Contributions to Paleobiology, 15:233793.Google Scholar
Cooper, G. A., and Grant, R. E. 1975. Permian brachiopods of West Texas, III. Smithsonian Contributions to Paleobiology, 19:7951921.Google Scholar
Cooper, G. A., and Grant, R. E. 1976. Permian brachiopods of West Texas, IV. Smithsonian Contributions to Paleobiology, 21:19232607.Google Scholar
Cooper, G. A., and Grant, R. E. 1976. Permian brachiopods of West Texas, V. Smithsonian Contributions to Paleobiology, 24:26093159.Google Scholar
Cooper, G. A., and Grant, R. E. 1977. Permian brachiopods of West Texas, VI. Smithsonian Contributions to Paleobiology, 32:31613370.Google Scholar
Crockford, J. 1949. Bryozoa from the Carboniferous of Queensland and New South Wales. Proceedings of the Linnean Society of New South Wales, 73:419429.Google Scholar
Cuffey, R. J. 1987. Fistuliporid bindstone, a newly discovered major type of bryozoan reef-rock in the West Texas Permian, and comparison with northeastern bryozoan reefs. Abstracts with Programs, Geological Society of America, 19:910.Google Scholar
Cumings, E. R. 1904. Development of some Paleozoic Bryozoa. American Journal of Science, 17:4978.CrossRefGoogle Scholar
Cumings, E. R. 1905. Development of Fenestella. American Journal of Science, 20:169177.CrossRefGoogle Scholar
Easton, W. H. 1944. (Review of)Condra, G. E. and Elias, M. K., Study and revision of Archimedes (Hall): Geol. Soc. America Spec. Papers, no. 53, viii+243 p., 6 fig., 41 pls. (Feb. 29, 1944). Journal of Paleontology, 18:405410.Google Scholar
Ehrenberg, C. G. 1831. Symbolae physicae, seu icones et descriptiones mammalium, avium, insectorium et animalium evertebratorumPars Zoologica. 4. Animalia evertebrate exclusis insectis.Decus Primula. Berlin. Officina Academica.Google Scholar
Elias, M. K., and Condra, G. E. 1957. Fenestella from the Permian of West Texas. Geological Society of America Memoir, 70:1158.CrossRefGoogle Scholar
Engel, B. A. 1975. A new ?bryozoan from the Carboniferous of eastern Australia. Palaeontology, 18:571605.Google Scholar
Ernst, A. 2001. Bryozoa of the Upper Permian Zechstein Formation of Germany. Senckenbergiana lethaea, 81:135181.CrossRefGoogle Scholar
Erwin, D. H. 1988 a. Permian Gastropoda of the Southwestern United States; Subulitacea. Journal of Paleontology, 62:5669.CrossRefGoogle Scholar
Erwin, D. H. 1988 b. Permian Gastropoda of the Southwestern United States; Cerithiacea, Acteonacea, and Pyramidellacea. Journal of Paleontology, 62:566575.Google Scholar
Fagerstrom, J. A., and Weidlich, O. 1999. Origin of the upper Capitan-Massive limestone (Permian), Guadalupe Mountains, New Mexico–Texas: is it a reef? Geological Society of America Bulletin, 111:159176.2.3.CO;2>CrossRefGoogle Scholar
Finks, R. M. 2010. The sponge Family Guadalupiidae in the Texas Permian. Journal of Paleontology, 84:821847.CrossRefGoogle Scholar
Fleming, P. J. G. 1972. Redescription of fenestellid species from the Upper Carboniferous of eastern Australia. Geological Survey of Queensland Publication, 354:18.Google Scholar
Gautier, T. G. 1972. Growth, form, and functional morphology of Permian acanthocladiid Bryozoa from the Glass Mountains, West Texas. Doctor of Philosophy thesis. University of Kansas. 187p.Google Scholar
Gautier, T. G. 1973. Growth in bryozoans of the Order Fenestrata, p. 271274. InLarwood, G. P.(ed.), Living and Fossil Bryozoa: recent advances in research. Academic Press, London and New York.Google Scholar
Girty, G. H. 1908. The Guadalupian fauna. Professional Paper United States Geological Survey, 58:1624.Google Scholar
Haas, O. 1945 . Notes on Archimedes. American Museum Novitates, 1302:15.Google Scholar
Hamilton, I. B. 1942. Ostracodes from the Upper Permian of Texas. Journal of Paleontology, 16:712718.Google Scholar
Hileman, M. E., and Mazzullo, S. J. 1977. Upper Guadalupian facies, Permian reef complex, Guadalupe Mountains, New Mexico and West Texas: 1977 Field Conference Guidebook. Permian Basin Section, Society of Economic Paleontologists and Mineralogists, 77–16:1508.Google Scholar
International Commission on Zoological Nomenclature. 1999. International Code of Zoological Nomenclature, 4th edition. ICZN, London.Google Scholar
Johnson, J. H. 1951. Permian calcareous algae from the Apache Mountains, Texas. Journal of Palaeontology, 25:2130.Google Scholar
Kelly, M. A., and Zangerl, R. 1976. Helicoprion (Edestidae) in the Permian of west Texas. Journal of Paleontology, 50:992994.Google Scholar
Kier, P. M. 1958. Permian echinoids from West Texas. Journal of Paleontology, 32:889892.Google Scholar
King, P. B. 1931. The geology of the Glass Mountains, Texas, Part 1: Descriptive Geology. University of Texas Bulletin, 3038:1167.Google Scholar
King, P. B. 1948. Geology of the southern Guadalupe Mountains, Texas. United States Geological Survey Professional Paper, 215:1183.Google Scholar
King, R. E. 1931. The geology of the Glass Mountains, Texas, Part 2: Faunal summary and correlation of the Permian Formations with description of Brachiopoda. University of Texas Bulletin, 3042:1245.Google Scholar
King, W. 1850.A monograph of the Permian fossils of England. Palaeontographical Society, London, 258p.CrossRefGoogle Scholar
Lambert, L. L., Wardlaw, B. R., Nestell, M. K., and Nestell, G. P. 2002. Latest Guadalupian (Middle Permian) conodonts and Foraminifers from West Texas. Micropaleontology, 48:343364.CrossRefGoogle Scholar
McKinney, F. K. 1978. Astogeny of the lyre-shaped Carboniferous fenestrate bryozoan Lyroporella. Journal of Paleontology, 52:8390.Google Scholar
McKinney, F. K. 1981. Intercolony fusion suggests polyembryony in Paleozoic fenestrate bryozoans. Paleobiology, 7:247251.CrossRefGoogle Scholar
McKinney, F. K. 2002. Chesterian (Carboniferous) Septopora (Order Fenestrida), eastern North America, p. 183189. InWyse Jackson, P. N., Buttler, C. J., and Spencer Jones, M. E.(eds), Bryozoan Studies 2001. A. A. Balkema Publishers, Lisse.Google Scholar
McKinney, M. J. 1997. Fecal pellet disposal in marine bryozoans. Invertebrate Biology, 116:151160.CrossRefGoogle Scholar
Miller, A. K. 1945. Permian nautiloids from the Glass Mountains and the Sierra Diablo of west Texas. Journal of Paleontology, 19:282294.Google Scholar
Miller, A. K., and Furnish, W. M. 1957. Ammonoids of the basal Word Formation, Glass Mountains, West Texas. Journal of Paleontology, 31:10521056.Google Scholar
Miller, T. G. 1961. New Irish Tournaisian fenestellids. Geological Magazine, 98:493500.CrossRefGoogle Scholar
Moore, R. C. 1939. Platycrinid columnals in Lower Permian limestone of western Texas. Journal of Paleontology, 13:228229.Google Scholar
Moore, R. C., and Dudley, R. M. 1944. Cheilotrypid bryozoans from Pennsylvanian and Permian rocks of the Midcontinent region. Geological Survey of Kansas Bulletin, 52:229403.Google Scholar
Nestell, G. P., and Nestell, M. K. 2006. Middle Permian (Late Guadalupian) foraminifers from Dark Canyon, Guadalupe Mountains, New Mexico. Micropaleontology, 52:150.CrossRefGoogle Scholar
Newell, N. D., and Boyd, D. W. 1970. Oyster-like Permian Bivalvia. Bulletin of the American Museum of Natural History, 143:217282.Google Scholar
Newell, N. D., Rigby, J. K., Fischer, A. G., Whiteman, A. J., Hickox, J. E., and Bradley, J. S. 1953. The Permian reef complex of the Guadalupe Mountains region, Texas and New Mexico. Freeman and Co., San Francisco, 236p.Google Scholar
Nickles, J. M., and Bassler, R. S. 1900. A synopsis of American fossil Bryozoa including bibliography and synonymy. Bulletin of the United States Geological Survey, 173:1663.Google Scholar
Nye, O. B. Jr., Dean, D. A., and Hinds, R. W. 1972. Improved thin section techniques for fossil and recent organisms. Journal of Paleontology, 46:271275.Google Scholar
Okulitch, V. J., and Albritton, C. C. Jr. 1937. Malonophyllum, a new tetracoral from the Permian of Texas. Journal of Paleontology, 11:2425.Google Scholar
Rigby, J. K. 1956. Acanthocladia guadalupensis Girty, a possible algal-bryozoan symbiot (New Mexico-Texas). Journal of Paleontology, 30:10111012.Google Scholar
Rigby, J. K. 1957. Relationships between Acanthocladia guadalupensis and Solenopora texana and the bryozoan-algal consortium hypothesis. Journal of Palaeontology, 31:603606.Google Scholar
Ross, C. A. 1964. Two significant fusulinid genera from Word Formation (Permian), Texas. Journal of Paleontology, 38:311315.Google Scholar
Ross, C. A., and Ross, J. P. 1962. Pennsylvanian, Permian rugose corals, Glass Mountains, Texas. Journal of Paleontology, 36:11631188.Google Scholar
Ross, J. P., and Ross, C. A. 1963. Late Paleozoic rugose corals, Glass Mountains, Texas. Journal of Paleontology, 37:409420.Google Scholar
Schlaudt, C. McC., and Young, K. P. 1960. Acrothoracic barnacles from the Texas Permian and Cretaceous. Journal of Paleontology, 34:903907.Google Scholar
Schlotheim, E. F. 1820. Die Petrefactenkunde auf ihrem jetzigen Standpunkte durch die Beschreibung seiner Sammlung versteinerter und fossiler Überreste des Thier- und Pflanzenreichs der Vorwelt erläutert. Becker, Gotha, 437p.Google Scholar
Shul'ga-Nesterenko, M. I. 1949. Funktsional'noe, filogeneticheskoe I stratigraficheskoe znachenie mikrostruktury skeletnykh tkanei mshanok [Functional, phylogenetic and stratigrafic significance of the microstructural skeletal fabric of Bryozoa]. Trudy Paleontologicheskogo Instituta Adademiia Nauk SSSR [Transactions of the Paleontological Institute of the Academy of Science of the USSR], 23:167.Google Scholar
Shumard, B. F. 1859. Fossils from the Permian strata of Texas and New Mexico. Transactions of the St Louis Academy of Science, 1:387403.Google Scholar
Southwood, D. 1985. Ovicells in some Fenestrata from the Permian of N.E. England, p. 301310. InNielsen, C. and Larwood, G. P.(eds.), Bryozoa: Ordovician to Recent. Olsen and Olsen, Fredensborg.Google Scholar
Southwood, D. 1990. New bryozoan taxa from the Upper Permian Zechstein reef in N.E. England. Proceedings of the Yorkshire Geological Society, 48:3340.CrossRefGoogle Scholar
Tavener-Smith, R. 1968. Skeletal structure and growth in the Fenestellidae (Bryozoa) (preliminary report). Atti della Società Italiana di Scienze naturali e del Museo Civico de Storia naturale di Milano, 108:8592.Google Scholar
Tavener-Smith, R. 1969. Skeletal structure and growth in the Fenestellidae (Bryozoa). Palaeontology, 12:281309.Google Scholar
Tavener-Smith, R. 1971. Polypora stenostoma: a Carboniferous bryozoan with cheilostomatous features. Palaeontology, 14:178187.Google Scholar
Tëmkin, I., and Pojeta, J. Jr. 2010. Cassiavellia galtarae, new species, new genus: a new Permian bivalve and its significance for Pterioidean systematics. Journal of Paleontology, 84:11521176.CrossRefGoogle Scholar
Toots, H. 1952. Epoekie von Algen (Microweedia n.g.) auf Bryozoen des estnischen Kuckersits. Mitteilungen aus dem Geologischen Staatsinstitut in Hamburg, 21:138141.Google Scholar
Ulrich, E. O. 1890. Palaeozoic Bryozoa. Illinois Geological Survey, 8:283688.Google Scholar
Wardlaw, B. R., Grant, R. E., and Rohr, D. M. 2000. Guadalupian Symposium. Smithsonian Contributions to the Earth Sciences, 32:1415.CrossRefGoogle Scholar
Wood, R., Dickson, J. A. D., and Kirkland-George, B. 1994. Turning the Capitan Reef upside down; a new appraisal of the ecology of the Permian Capitan Reef, Guadalupe Mountains, Texas and New Mexico. Palaios, 9:422427.CrossRefGoogle Scholar
Young, J., and Young, J. 1874. New Carboniferous Polyzoa. Quarterly Journal of the Geological Society, 30:681683.CrossRefGoogle Scholar
Zimmerman, L. S., and Cuffey, R. J. 1985 a. Acanthoclad-fenestrate-trepostome frame-thickets, Permian, West Texas: a model for late Paleozoic bryozoan reefs. Proceedings of the Fifth International Coral Reef Congress, 6:587592.Google Scholar
Zimmerman, L. S., and Cuffey, R. J. 1985 b. Species discrimination in acanthoclad bryozoans in the West Texas Permian. Abstracts with Programs, Geological Society of America, 17 (1):71.Google Scholar
Zimmerman, L. S., and Cuffey, R. J. 1987. Species involved in Permian bryozoan bioherms, West Texas, p. 309316. InRoss, J. R. P.(ed.), Bryozoa: Present and Past. Western Washington University, Bellingham.Google Scholar
Zittel, K. 1880. Handbuch der Paläontologie, Bund 1, Bryozoa. München and Leipzig, p. 573641.Google Scholar