Syn vivo encrustation of Porambonites Pander, 1830 n(Brachiopoda) by craniid brachiopods in the Late Ordovician of Estonia

Vinn, Olev; Isakar, Mare; Almansour, Mansour I.; Farraj, Saleh Al; Hedeny, Magdy El

doi:10.24425/agp.2024.150012

Powiadomienia systemowe

Sesja wygasła!

Artykuł - szczegóły

Tytuł artykułu

Syn vivo encrustation of Porambonites Pander, 1830 n(Brachiopoda) by craniid brachiopods in the Late Ordovician of Estonia

Autorzy

Vinn Olev , Isakar Mare , Almansour Mansour I. , Farraj Saleh Al , Hedeny Magdy El

Treść / Zawartość

Pełne teksty:

Pobierz

Identyfikatory

DOI

10.24425/agp.2024.150012

Warianty tytułu

Języki publikacji

Abstrakty

Two new brachiopod–brachiopod symbiotic overgrowths have been discovered from the Kukruse Regional Stage (Sandbian, Ordovician) of Estonia. Both the Philhedra rivulosa–Porambonites sp. and the Petrocrania sp.–Porambonites sp. overgrowths were beneficial to the encrusting craniid and might have been slightly harmful to the host brachiopod. The craniids could have been facultative kleptoparasites. Our data show that craniids significantly preferred the smooth shells of Porambonites sp. over the coarsely ribbed shells of Platystrophia sp. and the moderately ribbed shells of Cyrtonotella sp. and Glossorthis sp. This suggests that, at least against craniids, having strong ribs could have been a successful antifouling strategy.

Słowa kluczowe

symbiosis brachiopods epibionts encrustation sandbian Baltica

symbioza ramienionogi epibionty inkrustacja sandb Bałtyk

Wydawca

Faculty of Geology of the University of Warsaw
Komitet Nauk Geologicznych PAN

Czasopismo

Acta Geologica Polonica

Rocznik

2024

Tom

Vol. 74, no. 3

Strony

art. no. e19

Opis fizyczny

Bibliogr. 50 poz., rys., tab.

Twórcy

autor

Vinn Olev

olev.vinn@ut.ee

Department of Geology, University of Tartu, Ravila 14A, 50411 Tartu, Estonia

autor

Isakar Mare

mare.isakar@ut.ee

Natural History Museum, University of Tartu, Vanemuise 46, 51003 Tartu, Estonia

autor

Almansour Mansour I.

College of Science, King Saud University, Kingdom of Saudi Arabia

autor

Farraj Saleh Al

alfarraj@ksu.edu.sa

College of Science, King Saud University, Kingdom of Saudi Arabia

autor

Hedeny Magdy El

magdy.elhedeny@alexu.edu.eg

Geology Department, Faculty of Science, Alexandria University, Egypt

Bibliografia

1. Alexander, R.R. and Scharpf, C.D. 1990. Epizoans on late Ordovician brachiopods from Southeastern Indiana. Historical Biology, 4, 179–202.
2. Alvarez, F. and Taylor, P.D. 1987. Epizoan ecology and interactions in the Devonian of Spain. Palaeogeography, Palaeoclimatology, Palaeoecology, 61, 17–31.
3. Baird, G.C., Brett, C.E. and Frey R.C. 1989. Hitchhiking epizoans on orthoconic cephalopods: preliminary review of the evidence and its implications. Senckenbergiana Lethaea, 69, 439–465.
4. Barclay, K.M., Schneider, C.L. and Leighton, L.R. 2015. Mapping sclerobiosis: a new method for interpreting the distribution, biological implications, and paleoenvironmental significance of sclerobionts on biotic hosts. Paleobiology, 41, 592–609.
5. Bauert, H., and Nõlvak, J. 2014. Stop A9: Põhja-Kiviõli kukersite open-pit mine. In: Bauert, H., Hints, O., Meidla, T. and Männik, P. (Eds), 4th Annual Meeting of IGCP 591, Estonia, 10–19 June 2014. Abstracts and Field Guide, 161–166. University of Tartu; Tartu.
6. Brandt, D.S. 1996. Epizoans on Flexicalymene (Trilobita) and implications for trilobite paleoecology. Journal of Paleontology, 70, 442–449.
7. Brett, C.E. 1988. Paleoecology and evolution of marine hard substrate communities: an overview. Palaios, 3, 374–378.
8. Brett, C.E., Smrecak, T., Hubbard, K.P. and Walker, S. 2012. Marine sclerobiofacies: encrusting and endolithic communities on shells through time and space. In: Talent, J.A. (Ed.), Earth and Life. International Year of Planet Earth, 129–157. Springer; Dordrecht.
9. Conrad, T.A. 1838. Report on the Palaeontological Department of the Survey (New York). New York State Geological Survey, Annual Report, 2, 107–119.
10. De Baets, K., Huntley, J.W., Scarponi, D., Klompmaker, A.A. and Skawina, A. 2021. Phanerozoic parasitism and marine metazoan diversity: dilution versus amplification. Philosophical Transactions of the Royal Society B: Biological Sciences, 376 (1837), 20200366.
11. De Bary, A. 1879. Die Erscheinung der Symbiose. Vortrag auf der Versammlung der Naturforschung und Ärtze zu Cassel, 1–30. K.J. Trübner; Strasbourg.
12. Foerste, A.F. 1924. Upper Ordovician faunas of Ontario and Que bec. Geological Survey of Canada Memoir, 138 (121), 1–99.
13. Freeman Peters, G.T., Schneider, C.L. and Leighton, L.R. 2024. Comparison of sclerobiont communities between three brachiopod host species from the Upper Ordovician Fairview Formation, Eastern USA. Lethaia, 57 (1), 2.
14. Galle, A. and Parsley, R.L. 2005. Epibiont relationships on hyolithids demonstrated by Ordovician trepostomes (Bryozoa) and Devonian tabulates (Anthozoa). Bulletin of Geosciences, 80, 125–138.
15. Hall, J. 1847. Descriptions of the organic remains of the Lower Division of the New York System. Palaeontology of New York, 1, 1–338.
16. Hall, J. 1866. Descriptions of some new species of Crinoidea and other fossils from the Lower Silurian strata of the age of the Hudson River Group and Trenton Limestone, 17 pp. Privately printed and distributed.
17. Hoel, O.A. 2007. Cementing strophomenide brachiopods from the Silurian of Gotland (Sweden): morphology and life habits. Geobios, 40, 589–608.
18. Holmer, L.E., Popov, L.E., Ghobadi Pour, M., Claybourn, T., Zhang, Z., Brock, G.A. and Zhang Z. 2018. Evolutionary significance of a middle Cambrian (Series 3) in situ occurrence of the pedunculate rhynchonelliform brachiopod Nisusia sulcata. Lethaia, 51, 424–432.
19. Hou, X., Bergström, J., Wang, H., Feng, X. and Chen, J. 1999. The Chengjiang Fauna – exceptionally well-preserved animals from 530 million years ago, 170 pp. Yunnan Science and Technology Press; Kunming.
20. King, W. 1850. Monograph of the Permian fossils of England. Palaeontographical Society of London, 3, 1–258.
21. Koken, E.F.R. 1889. Ueber die Entwickelung der Gastropoden vom Cambrium bis zur Trias. Neues Jahrbuch für Mineralogie, Geologie und Paläeontologie, 6, 305–484.
22. Kutorga, S.S. 1846. Ueber das silurische und devonische Schichten-System von Gatschina. Russisch-Kaiserliche Mineralogische Gesellschaft zu St. Petersbourg, Verhandlungen, 1845–46, 85–139.
23. LaBarbera, M. 1984. Feeding currents and particle capture mechanisms in suspension feeding animals. American Zoologist, 24, 71–84.
24. Lescinsky, H.L. 1996. Early brachiopod associates: epibionts on Middle Ordovician brachiopods. In: Copper, P. (Ed.). Brachiopods, 169–173. Taylor and Francis; London.
25. Lindström, G. 1861. Bidrag till kännedomen om Gotlands brachiopoder. Öfversikt af Kungliga Vetenskapsakademiens Förhandlingar Stockholm, 17, 337–382.
26. Ma, J., Taylor, P.D. and Buttler, C.J. 2021. Sclerobionts associated with Orbiramus from the Early Ordovician of Hubei, China, the oldest known trepostome bryozoan. Lethaia, 54, 443–456.
27. Martin, B.D. and Schwab, E. 2013. Current usage of symbiosis and associated terminology. International Journal of Biology, 5, 32–45.
28. Mõtus, M.A. and Hints, O. 2007. 10 th International Symposium on Fossil Cnidaria and Porifera. Excursion B2: Lower Paleozoic geology and corals of Estonia. Excursion Guidebook, 62 pp. Institute of Geology at Tallinn University of Technology; Tallinn.
29. Musabelliu, S. and Zatoń, M. 2018. Patterns of cornulitid encrustation on the Late Devonian brachiopod shells from Russia. Proceedings of the Geologists’ Association, 129 (2), 227–234.
30. Nestor, H. and Einasto, R. 1997. Ordovician and Silurian carbonate sedimentation basin. In: Raukas, A. and Teedumäe, A. (Eds), Geology and mineral resources of Estonia, 192–204. Estonian Academy Publishers; Tallinn.
31. Noetling, F. 1883. Beitrag zur systematischen Stellung des Genus Porambonites Pander. Zeitschrift der Deutschen Geologischen Gesellschaft, 35 (2), 355–381.
32. Öpik, A. 1930. Brachiopoda Protremata der estländischen ordovizischen Kukruse-Stufe. Tartu Ülikooli Geoloogia Instituudi Toimetused, 20, 1–261.
33. Pander, G.H. 1830. Beiträge zur Geographynosie des Russichen Reiches, 165 pp. K. Kray; St Petersburg.
34. Raymond, P.E. 1911. A preliminary list of the fauna of the Allegheny and Conemaugh series in western Pennsylvania, Report. Pennsylvannia Topographical and Geological Survey Committee, 7, 83–98.
35. Retzius A.J. 1781. Crania oder Todtenkopfs-Muschel. Schriften der Berlinischen Gesellschaft Naturforschender Freunde, 2, 66–76.
36. Richards, P.R. 1972. Autecology of Richmondian brachiopods (Late Ordovician of Indiana and Ohio). Journal of Paleontology, 46, 386–405.
37. Rong, J.Y. 1974. Cambrian brachiopods. In: Nanjing Institute of Geology, Academia Sinica (Ed.), Handbook of Palaeontology and Stratigraphy of Southwest China, 113–114. Sciences Press; Beijing. [In Chinese]
38. Schneider, C.L. 2013. Epibiosis across the Late Devonian biotic crisis: a review. Proceedings of the Geologists’ Association, 124, 893–909.
39. Schuchert, Ch. and Cooper, G.A. 1932. Brachiopod genera of the suborders Orthoidea and Pentameroidea. Memoirs of the Peabody Museum of Natural History, 4(1), 1–270.
40. Taylor, P.D. and Wilson, M.A. 2002. A new terminology for marine organisms inhabiting hard substrates. Palaios, 17, 522–525.
41. Taylor, W.L. and Brett, C.E. 1996. Taphonomy and paleoecology of echinoderm Lagerstätten from the Silurian (Wenlockian) Rochester Shale. Palaios, 11, 118–140.
42. Toom, U., Vinn, O. and Hints, O. 2019. Ordovician and Silurian ichnofossils from carbonate facies in Estonia: a collectionbased review. Palaeoworld, 28, 123–144.
43. Torsvik, T.H. and Cocks, L.R.M. 2013. New global palaeogeographical reconstructions for the early Palaeozoic and their generation. Geological Society Memoirs, London, 38, 5–24.
44. Vinn, O. 2017. Early symbiotic interactions in the Cambrian. Palaios, 32, 231–237.
45. Vinn, O., Holmer, L.E. and Wilson, M.A. 2023. Evolution of brachiopod symbiosis in the early Paleozoic. Historical Biology, 36, 1274–1294.
46. Zapalski, M. 2005. Paleoecology of Auloporida: an example from the Devonian of the Holy Cross Mts., Poland. Geobios, 38, 677–683.
47. Zatoń, M. and Borszcz, T. 2012. Encrustation patterns on postextinction early Famennian (Late Devonian) brachiopods from Russia. Historical Biology, 25, 1–12.
48. Zatoń, M., Nawrot, R., Jakubowicz, M., Ernst, A., Rakociński, M., Berkowski, B. and Belka, Z. 2022. Middle Devonian brachiopod-hosted sclerobiont assemblage from the northern shelf of Gondwana (Mader Basin, Morocco): Diversity, colonization patterns and relation to coeval palaeocommunities. Palaeogeography, Palaeoclimatology, Palaeoecology, 594, 110947.
49. Zhang, Z., Han, J., Wang, Y., Emig, C.C. and Shu, D. 2010. Epibionts on the lingulate brachiopod Diandongia from the early Cambrian Chengjiang Lagerstätte, South China. Proceedings of the Royal Society, Series B, 277, 175–181.
50. Zhang, Z., Strotz, L.C., Topper, T.P., Chen, F., Chen, Y., Liang, Y., Zhang, Z., Skovsted, C.B. and Brock, G.A. 2020. An encrusting kleptoparasite-host interaction from the early Cambrian. Nature Communications, 11, 2625.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa nr POPUL/SP/0154/2024/02 w ramach programu "Społeczna odpowiedzialność nauki II" - moduł: Popularyzacja nauki (2026).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-2352cda7-27ff-4234-bdfd-9150fa64e655