Chamber arrangement versus wall structure in the high-rank phylogenetic classification of Foraminifera

• Autorzy: Dubicka Z.
• Języki publikacji: EN

Abstrakty

EN

Foraminiferal wall micro/ultra-structures of Recent and well-preserved Jurassic (Bathonian) foraminifers of distinct foraminiferal high-rank taxonomic groups, Globothalamea (Rotaliida, Robertinida, and Textulariida), Miliolida, Spirillinata and Lagenata, are presented. Both calcite-cemented agglutinated and entirely calcareous foraminiferal walls have been investigated. Original test ultra-structures of Jurassic foraminifers are given for the first time. “Monocrystalline” wall-type which characterizes the class Spirillinata is documented in high resolution imaging. Globothalamea, Lagenata, porcelaneous representatives of Tubothalamea and Spirillinata display four different major types of wall-structure which may be related to distinct calcification processes. It confirms that these distinct molecular groups evolved separately, probably from single-chambered monothalamids, and independently developed unique wall types. Studied Jurassic simple bilocular taxa, characterized by undivided spiralling or irregular tubes, are composed of miliolid-type needle-shaped crystallites. In turn, spirillinid “monocrystalline” test structure has only been recorded within more complex, multilocular taxa possessing secondary subdivided chambers: Jurassic Paalzowella and Recent Patellina. More integrated molecular and structural studies are needed in order to better understand taxonomic position and phylogeny of tubular taxa. Unilocular and multichambered Lagenata (Lagenidae and Nodosariidae, respectively) show identical test micro and ultra-structure which suggests their close phylogenetic relationship and questions most recent theories of their separate evolutionary history and origins. A comparison of Recent, Cretaceous, and Jurassic foraminiferal test structure indicates that test characteristics at particular higher-rank taxonomic levels change very little over time and thus can serve as good proxies for the taxonomic designations of fossil taxa, when their state of preservation is appropriate for microstructural observations.

• Wydawca: -
• Czasopismo: Acta Palaeontologica Polonica
• Rocznik: 2019
• Tom: 64
• Numer: 1
• Opis fizyczny: p.1-18,fig.,ref.

Twórcy

autor

Dubicka Z.

• Faculty of Geology, University of Warsaw, al. Zwirki i Wigury 93, 02-089 Warsaw, Poland

Bibliografia

• Alexander, S.P. and DeLaca, T.E. 1987. Feeding adaptations of the foraminiferan Cibicides refulgens living epizoically and parasitically on the antarctic scallop Adamussium colbecki. Biological Bulletin 173: 136–159.
• Angell, R.W. 1980. Test morphogenesis (chamber formation) in the foraminifer Spiroloculina hyaline Schultze. Journal of Foraminiferal Research 10: 89–101.
• Bender, H. and Hemleben, C. 1988. Constructional aspects in test formation of some agglutinated foraminifera. Abhandlungen der Geologischen Bundesanstalt 41: 13–21.
• Berthold, W.-U. 1976. Test morphology and morphogenesis in Patellina corrugata Williamson, Foraminiferida. Journal of Foraminiferal Research 6: 167–185.
• Bielecka, W. and Styk, O. 1981. Biostratygrafia batonu i keloweju północno-zachodniej Polski na podstawie otwornic i małżoraczków. Prace Instytutu Geologicznego 100: 5–56.
• Bielecka, W., Styk, O., Pazdro, O., and Kopik, J. 1988. Order Foraminiferida Eichwald 1830. In: L. Malinowska (ed.), Geology of Poland. Vol. III. Atlas of Guide and Characteristic Fossils. Part 2b. Mesozoic, Jurassic, 89–111. Wydawnictwo Geologiczne, Warszawa.
• Bowser, S.S., Habura, A., and Pawlowski, J. 2006. Molecular evolution of Foraminifera. In: L. Katz and D. Bhattacharya (eds.), Genomics and Evolution of Microbial Eukaryotes, 78–93. University Press, Oxford.
• Clode, P., Lema, K., Saunders, M., and Weiner, S. 2011. Skeletal mineralogy of newly settling Acropora millepora (Scleractinia) coral recruits. Coral Reefs 30: 1–8.
• Darling, K.F., Thomas, E., Kasemann, S.A., Seears, H.A., Smart, C.W. and Wade, C.M. 2009. Surviving mass extinction by bridging the benthic/ planktic divide. Proceedings of the National Academy of Sciences of USA 106: 12629–12633.
• Darling, K.F., Wade, C.M., Kroon, D., and Leigh, A.J. 1997. Planktic foraminiferal molecular evolution and their polyphyletic origins from benthic taxa. Marine Micropaleontology 30: 251–266.
• Debenay, J.P., Guillou, J.J., and Lesourd, M. 1996. Colloidal calcitein foraminiferal tests: Crystallization and texture of the test. Journal of Foraminiferal Research 26: 277–288.
• Debenay, J.P., Guillou, J.J., Geslin, E., and Lesourd, M. 2000. Crystallization of calcite in foraminiferal tests. Micropaleontology 46 (Supplement 1): 87–94.
• De Nooijer, L.J., Spero, H.J., Erez, J., Bijma, J. and Reichart, G.J. 2014. Biomineralization in perforate foraminifera. Earth-Sciences Reviews 135: 48–58.
• De Nooijer, L.J., Toyofuku, T., and Kitazato, H. 2009. Foraminifera promote calcification by elevating their intracellular pH. Proceedings of the National Academy of Sciences of USA 106: 15374–15378.
• De Vargas, C., Zaninetti, L., Hilbrecht, H. and Pawlowski, J. 1997. Phylogeny and rates of molecular evolution of planktonic foraminifera: SSU rDNA sequences compared to the fossil record. Journal of Molecular Evolution 45: 285–294.
• Dubicka, Z. and Gorzelak, P. 2017. Unlocking the biomineralization style and affinity of Paleozoic fusulinid foraminifera. Scientific Reports 7: 15218.
• Dubicka, Z., Owocki, K., and Gloc, M. 2018. Micro- and nanostructures of calcareous foraminiferal tests: Insight from representatives of Miliolida, Rotaliida and Lagenida. Journal of Foraminiferal Research 48: 142–155.
• Erez, J. 2003. The source of ions for biomineralization in foraminifera and their implications for paleoceanographic proxies. In: P.M. Dove, J.J.D. Yoreo, and S. Weiner (eds.), Reviews in Mineralogy and Geochemistry 54: 115–149.
• Fahrni, J., Pawlowski, J., Richardson, S., Debenay, J.-P., and Zaninetti, L. 1997. Actin suggests Miliammina fusca (Brady) is related to porcellaneous rather than to agglutinated foraminifera. Micropaleontology 43: 211–214.
• Fuchs, W. 1973. Ein Beitrag zur kenntnis der Jura-”Globigerinen” und verwandter Formen an Hand polnischen Materials des Callovien und Oxfordien. Verhandlungen der Geologischen Bundesanstalt 3: 445–489.
• Fuchs, W. 1975. Zur Stammesgeschichte der Planktonforaminiferen und verwandter Formen im Mesozoikum. Jahrbuch der Geologischen Bundesanstalt, Wien 118: 193–246.
• Gedl, P. and Kaim, A. 2012. An introduction to the palaeoenvironmental reconstruction of the Bathonian (Middle Jurassic) ore-bearing clays at Gnaszyn, Kraków-Silesia Homocline, Poland. Acta Geologica Polonica 62: 267–280.
• Görög, Á. and Werneli, R. 2003. Palaeobiogeography of the Middle Jurassic protoglobigerinids (Foraminifera). Eclogae Geologicae Helvetiae 96: 237–248.
• Grønlund, H. and Hansen, H.J. 1976. Scanning electron microscopy of some recent and fossil nodosariid foraminifera. Bulletin of the Geological Society of Denmark 25: 121–134.
• Guilbault, J.-P. and Patterson, R.T. 1998. Rudoloculina hooperi, a new miliolid with an agglutinated outer surface from the northeastern Pacific Ocean. Journal of Foraminiferal Research 28: 306–311.
• Habura, A., Goldstein, S.T., Parfrey, L.W., and Bowser, S.S. 2006. Phylogeny and Ultrastructure of Miliammina fusca: Evidence for Secondary Loss of Calcification in a Miliolid Foraminifer. Journal of Eukaryotic Microbiology 53: 204–210.
• Haig, D.W. 2002. Guidebook for Post-conference Excursion: Perth to Shark Bay 10–17 February 2002: Forams 2002, International Symposium on Foraminifera. 120 pp. The University of Western Australia, Perth.
• Hart, M.B., Hylton, M.D., Oxford, M.J., Price, G.D., Hudson, W., and Smart, C.W. 2003. The search for the origin of the planktic Foraminifera. Journal of the Geological Society, London 160: 341–343.
• Hemleben, C.H., Anderson, O.R., Berthold, W., and Spindler, M., 1986. Calcification and chamber formation in Foraminifera- a brief overview. In: B.S.C. Leadbeater and R. Riding (eds.), Biomineralization in Lower Plants and Animals. Systematics Association Special Volume 30: 237–249.
• Hillebrandt, A. von 2010. Aragonitic Foraminifera (Robertinina) from the Triassic–Jurassic Boundary Interval of the Northern Calcareous Alps. Earth Sciences Frontiers, Special Issue 17: 70–72.
• Hillebrandt, A. von 2012. Are the Late Triassic to Early Jurassic aragonitic Oberhauserellidae (Robertinina) the ancestors of planktonic Foraminifera? Neues Jahrbuch Geologie Paläontologie Abhandlungen 266: 199–215.
• Hohenegger, J. 2009. Functional shell geometry of symbiont-bearing benthic Foraminifera. Journal of Coral Reef Studies 11: 81–89.
• Hohenegger, J. 2018. Foraminiferal growth and test development. Earth- Science Reviews 185: 140–162.
• Holzmann, M. and Pawlowski, J. 2017. An updated classification of rotaliid foraminifera based on ribosomal DNA phylogeny. Marine Micropaleontology 132: 18–34.
• Hottinger, L., Halicz, E., and Reiss, Z. 1993. Recent Foraminiferida from the Gulf of Aqaba, Red Sea. Dela SAZU, Ljubljana 33: 1–179.
• Kaminski, M.A. 2004. The year 2000 classification of the agglutinated Foraminifera. In: M. Bubík and M.A. Kaminski (eds.), Proceedings of the Sixth International Workshop on Agglutinated Foraminifera: Grzybowski Foundation Special Publication 8: 237–255.
• Krasheninnikov, V.A. [Krašeninnikov, V.A.] 1956. Test microstructure of some Cenozoic foraminiers and methodology and observations in polarized light [in Russian]. Akademiâ Nauk SSSR, Voprosy Mikropaleontologii 1: 37–48.
• Loeblich, A.R. Jr and Tappan, H. 1964. Treatise on Invertebrate Paleontology, Part C: Protista 2, Sarcodina, chiefly “Thecamoebians” and Foraminiferida. 900 pp. Geological Society of America, Boulder and University of Kanzas Press, Lawrence.
• Loeblich, A.R. Jr and Tappan, H. 1984. Suprageneric classification of the Foraminiferida (Protozoa). Micropaleontology 30: 1–70.
• Loeblich, A.R. Jr. and Tappan, H. 1987. Foraminiferal Genera and their Classification. 970 pp. Van Nostrand Reinhold, New York.
• Loeblich, A.R. Jr and Tappan, H. 1992. Present status of foraminiferal classification. In: Y. Takayanagi and T. Saito (eds.), Studies in Benthic Foraminifera. Proceedings of the Fourth Symposium on Benthic Foraminifera, Sendai, 1990, 93–102. Tokai University Press, Tokyo.
• Majewski, W. 2005. Benthic foraminiferal communities: distribution and ecology in Admiralty Bay, King George Island, West Antarctica. Polish Polar Research 6: 59–214.
• Matyja, B.A. and Wierzbowski, A. 2006. Field Trip B1. Biostratigraphical framework from Bajocian to Oxfordian. Stop B1.7. Gnaszyn clay pit (Middle Bathonian–lowermost Upper Bathonian). In: A. Wierzbowski, R. Aubrecht, J. Golonka, J. Gutowski, M. Krobicki, B.A. Matyja, G. Pieńkowski, and A. Uchman (eds.), 7th International Congress on the Jurassic System, 6–18 September 2006, Kraków, Poland. Jurassic of Poland and adjacent Slovakian Carpathians. Field Trip Guidebook, 154–155. Polish Geological Institute, Warszawa.
• Mikhalevich, V.I. 1980. Systematics and evolution of the Foraminifera in view of new data on their cytology and ultrastructure. Trudy Zoologičeskogo Instituta, AN SSSR 94: 42–61.
• Mikhalevich, V.I. 1992. Makrosistema foraminifer. 43 pp. Ph.D. Thesis, Zoologičeskij institut Rossojskoj akademii nauk, St. Petersburg.
• Mikhalevich, V.I. 2009. Taxonomic position of the superorder Fusulinoida Fursenko in the Foraminifera system. Paleontological Journal 43: 117–128.
• Mikhalevich, V.I. 2000. The phylum Foraminifera d’Orbigny, 1826—foraminifers. In: A.F. Alimova, (ed.), Protista: Manual on Zoology, 533– 623. Nauka, St. Petersburg.
• Mikhalevich, V.I. 2013. New insight into the systematics and evolution of the foraminifera. Micropaleontology 59: 493–527.
• Mikhalevich, V.I. [Mihalevič, V.I.], Rodionova, M.K., and Sinjakova, G.N. [Sinâkova, G.N.] 1986. The wall ultrastructure of the two agglutinated foraminiferal genera with the quinqueloculine type of the shell [in Russian]. Trudy Zoologičeskogo Instituta, AN USSR 144: 66–71.
• Nakajima, K., Suzuki, M., Nagai, Y., Izumida, K., Oaki, Y., Toyofuku, T., Bijma, J., Nehrke, G., Raitzsch, M., Kenichiro Tani, K. and Imai, H. 2017. Hierarchical textures on aragonitic shells of the hyaline radial foraminifer Hoeglundina elegans. CrystEngComm 19: 7191–7196.
• Parker, J.H. 2017. Ultrastructure of the test wall in modern porcelaneous foraminifera: Implications for the classification of the Miliolida. Journal of Foraminiferal Research 47: 136–174.
• Parker, J.E., Thompson, S.P., Lennie, A.R., Potter, J., and Tang, C.C. 2010. A study of the aragonite-calcite transformation using Raman spectroscopy, synchrotron powder diffraction and scanning electron microscopy. CrystEngComm 12: 1590–1599.
• Pawlowski, J. 2000. Introduction to the molecular systematics of foraminifera. Micropaleontology 46 (Supplement 1): 1–12.
• Pawlowski, J., Holzmann, M., and Debeney, J.-P. 2014. Molecular phylogeny of Carterina spiculotesta and related species from New Caledonia. Journal of Foraminiferal Research 44: 434–439.
• Pawlowski, J., Holzmann, M., and Tyszka, J. 2013. New supraordinal classification of Foraminifera: molecules meet morphology. Marine Micropaleontology 100: 1–10.
• Reiss, Z. and Schneidermann, N. 1969. Ultramicrostructure of Hoeglundina. Micropaleontology 15: 135–144.
• Rigaud, S. and Blau, J. 2016. New robertinid foraminifers from the Early Jurassic of Adnet, Austria and their evolutionary importance. Acta Palaeontologica Polonica 61: 721–734.
• Rigaud, S. and Martini, R. 2016. Agglutinated or porcelaneous tests: where to draw the line? Journal of Foraminiferal Research 46: 333–344.
• Rigaud, S., Martini, R., and Vachard, D. 2015. Early evolution and new classification of Robertinida (Foraminifera). Journal of Foraminiferal Research 45: 3–28.
• Rigaud, S., Vachard, D., Schlagintweit, F., and Martini, R. 2016. New lineage of Triassic aragonitic Foraminifera and reassessment of the class Nodosariata. Journal of Systematic Palaeontology 14: 919–938.
• Roberts, S. and Murray, J.W. 1995. Characterization of cement mineralogy in agglutinated foraminifera (Protista) by Raman spectroscopy. Journal of the Geological Society, London 152: 7–9.
• Schweizer, M., Pawlowski, J., Kouwenhoven, T.J., Guiard, J., and Van der Zwaan, B. 2008. Molecular phylogeny of Rotaliida (Foraminifera) based on complete small subunit rDNA sequences. Marine Micropaleontology 66: 233–246.
• Sen Gupta, B.K. 2003. Modern Foraminifera. 371 pp. Kluwer Academic Publishers, New York.
• Simmons, M.D., Boudagher-Fadel, M.K., Banner, F.T., and Whittaker, J.E. 1997. The Jurassic Favusellacea, the earliest Globigerina. In: M.K. Boudagher-Fadel, F.T. Banner, and J.E. Whittaker (eds.), The Early Evolutionary History of Planktonic Foraminifera, 17–53. British Micropaleontological Society Publication Series, Chapman & Hall, London.
• Smoleń, J. 2012. Faunal dynamics of foraminiferal assemblages in the Bathonian (Middle Jurassic) ore-bearing clays at Gnaszyn, Kraków-Silesia Homocline, Poland. Acta Geologica Polonica 62: 403–441.
• Tappan, H. and Loeblich, A.R. Jr 1988. Foraminiferal evolution, diversification, and extinction. Journal of Paleontology 62: 695–714.
• Taylor, P.D., Kudryavtsev, A.B., and Schopf, J.W. 2008. Calcite and aragonite distributions in the skeletons of bimineralic bryozoans as revealed by Raman spectroscopy. Invertebrate Biology 127: 87–97.
• Ter Kuile, B., Erez, J., and Padan, E. 1989. Mechanisms for the uptake of inorganic carbon by two species of symbiont-bearing foraminifera. Marine Biology 103: 241–251.
• Toyofuku, T., Kitazato, H., Kawahata, H., Tsuchiya, M., and Nohara, M. 2000. Evaluation of Mg/Ca thermometry in foraminifera: Comparison of experimental results and measurements in nature. Paleoceanography 15: 456–464.
• Towe, K.M. and Cifelli, R. 1967. Wall ultrastructure in the calcareous foraminifera: crystallographic aspects and a model for calcification. Journal of Paleontology 41: 742–762.
• Ujiié, Y., Kimoto, K., and Pawlowski, J. 2008. Molecular evidence for an independent origin of modern triserial planktonic foraminifera from benthic ancestor. Marine Micropaleontology 69: 334–340.
• Urmos, J., Sharma, S.K., and Mackenzie, F.T. 1991. Characterization of some biogenic carbonates with Raman spectroscopy. American Mineralogist 76: 641–646.
• Werneli, R. 1988. Les protoglobigérines (foraminifères) du Toarcien at de l’Aalénien du Domuz Dag (Taurus Occidental, Turquie). Eclogae Geologicae Helvetiae 81: 661–668.
• Wood, A. 1949. The structure of the wall of the test in Foraminifera; its value in classification. Quarterly Journal of the Geological Society London 104: 229–255.

Identyfikatory

DOI

10.4202/app.00564.2018