Olev Vinn Explained
Olev Vinn (January 26, 1971) is an Estonian paleobiologist and paleontologist.[1]
Vinn graduated from the biology class of Tallinn 3. Secondary School in 1989. He studied geology at the University of Tartu from 1989 to 1993. Vinn holds an M.Sc. degree in paleontology and stratigraphy from the University of Tartu in 1995 and a Ph.D. degree in geology from the same university in 2001. He is a senior research fellow in paleontology at the University of Tartu since 2007. He has published more than 200 peer reviewed papers in international scientific journals.[1] [2] Since 2021 he is an editor of the Journal of Paleontology.
Taxonomic studies
Vinn has described new genera and species of brachiopods, cornulitids, microconchids, serpulid polychaetes and trace fossils. He is a specialist of extinct tubicolous fossils. A microconchid species Microconchus vinni is named in honour of his taxonomic studies of tentaculitoid tubeworms.[3]
Biomineralization studies
Vinn has described the majority of the annelid skeletal ultrastructures. Oriented tube structures are present in many serpulid species and cannot be explained by the standard carbonate slurry model. Vinn and his co-authors have hypothesized that oriented structures in serpulid tubes have been secreted in the same way as in mollusc shells, based on their ultrastructural similarity. Vinn and his co-authors proposed alternative ways to explain the calcified secretory granules described by Neff[4] in the lumen of the calcium-secreting glands in serpulids. They proposed that worm actually produces calcium-saturated mucus in the glands. The mucus is then deposited on the tube aperture, where crystallization of the structure is controlled by an organic matrix, as in molluscs. The calcified granules in the glands may only be an artifact of fixation and formed after the death of the worm.[5]
Paleoecology studies
Vinn has studied the evolution of symbiosis in several groups of early invertebrates such as cornulitids, microconchids, bryozoans, brachiopods, crinoids, stromatoporoids, tabulates and rugosans. He has described serpulid faunas of Mesozoic to Recent hydrocarbon seeps.[2] A Late Devonian coral species ?Michelinia vinni is named in honour of his contribution to knowledge of ecology of Palaeozoic bioconstructing organisms.[6] A crinoid species name Hiiumaacrinus vinni recognizes his significant contributions to the Silurian paleontology of Estonia.[7]
Publications
Some of Vinn's more important publications include:
- Vinn . O. . ten Hove . H.A. . Mutvei . H. . Kirsimäe . K. . 2008 . Ultrastructure and mineral composition of serpulid tubes (Polychaeta, Annelida) . Zoological Journal of the Linnean Society . 154 . 4 . 633–650 . 10.1111/j.1096-3642.2008.00421.x. free .
- Vinn . O. . Jäger . M. . Kirsimäe . K. . 2008 . Microscopic evidence of serpulid affinities of the problematic fossil tube "Serpula" etalensis from the Lower Jurassic of Germany . Lethaia . 41 . 4 . 417–421 . 10.1111/j.1502-3931.2008.00093.x.
- Vinn . O . 2009 . Attempted predation on Early Paleozoic cornulitids . Palaeogeography, Palaeoclimatology, Palaeoecology . 273 . 1–2 . 87–91 . 10.1016/j.palaeo.2008.12.004. 2009PPP...273...87V .
- Vinn . O . 2010 . Adaptive strategies in the evolution of encrusting tentaculitoid tubeworms . Palaeogeography, Palaeoclimatology, Palaeoecology . 292 . 1–2 . 211–221 . 10.1016/j.palaeo.2010.03.046. 2010PPP...292..211V .
- Vinn . O. . ten Hove . H.A. . 2011 . Microstructure and formation of the calcareous operculum in Pyrgopolon ctenactis and Spirobranchus giganteus (Annelida, Serpulidae) . Zoomorphology . 130 . 3 . 181–188 . 10.1007/s00435-011-0133-0. 41765489 .
- Vinn, O. and Mõtus, M.-A. 2012. Diverse early endobiotic coral symbiont assemblage from the Katian (Late Ordovician) of Baltica. Palaeogeography, Palaeoclimatology, Palaeoecology 321–322, 137–141.
- Vinn . O . 2013 . On the unique isotropic aragonitic tube microstructure of some serpulids (Polychaeta, Annelida) . Journal of Morphology . 274 . 4 . 478–482 . 10.1002/jmor.20112. 23280721 . 3237209 .
- Vinn . O . 2013 . SEM study of semi-oriented tube microstructures of Serpulidae (Polychaeta, Annelida): implications for the evolution of complex oriented microstructures . Microscopy Research and Technique . 76 . 5 . 453–456 . 10.1002/jemt.22186. 23408686 . 28986837 .
- Vinn . O . 2013 . Occurrence, formation and function of organic sheets in the mineral tube structures of Serpulidae (Polychaeta, Annelida) . PLOS ONE . 8 . 10. e75330 . 10.1371/journal.pone.0075330 . 24116035 . 3792063 . 2013PLoSO...875330V. free .
- Vinn . O. . Kupriyanova . E.K. . Kiel . S. . 2013 . Serpulids (Annelida, Polychaeta) at Cretaceous to modern hydrocarbon seeps: ecologic and evolutionary patterns . Palaeogeography, Palaeoclimatology, Palaeoecology . 390 . 35–41 . 10.1016/j.palaeo.2012.08.003 . 2013PPP...390...35V.
- Vinn . O. . Mõtus . M.-A. . 2014 . Endobiotic rugosan symbionts in stromatoporoids from the Sheinwoodian (Silurian) of Baltica . PLOS ONE . 9 . 2. e90197 . 10.1371/journal.pone.0090197 . 24587277 . 3934990 . 2014PLoSO...990197V. free .
- Kupriyanova . E.K. . Vinn . O. . Taylor . P.D. . Schopf . J.W. . Kudryavtsev . A. . Bailey-Brock . J. . 2014 . Serpulids living deep: calcareous tubeworms beyond the abyss . Deep-Sea Research Part I . 90 . 91–104 . 10.1016/j.dsr.2014.04.006 . 2014DSRI...90...91K.
- Vinn . O. . Wilson . M.A. . Mõtus . M.-A. . 2014 . The earliest giant Osprioneides borings from the Sandbian (Late Ordovician) of Estonia . PLOS ONE . 9 . 6. e99455 . 10.1371/journal.pone.0099455 . 24901511 . 4047083 . 2014PLoSO...999455V. free .
- Vinn . O. . Wilson . M.A. . Toom . U. . 2014 . Earliest rhynchonelliform brachiopod parasite from the Late Ordovician of northern Estonia (Baltica) . Palaeogeography, Palaeoclimatology, Palaeoecology . 411 . 42–45 . 10.1016/j.palaeo.2014.06.028 . 2014PPP...411...42V.
- Vinn . O. . Wilson . M.A. . Mõtus . M.-A. . Toom . U. . 2014 . The earliest bryozoan parasite: Middle Ordovician (Darriwilian) of Osmussaar Island, Estonia . Palaeogeography, Palaeoclimatology, Palaeoecology . 414 . 129–132 . 10.1016/j.palaeo.2014.08.021 . 2014PPP...414..129V.
- Chan . V. . Vinn . O. . Li . C. . Lu . X. . Kudryavtsev . A.B. . Schopf . J.W. . Shih . K. . Zhang . T. . Thiyagarajan . V. . 2015 . Evidence of compositional and ultrastructural shifts during the development of calcareous tubes in the biofouling tubeworm, Hydroides elegans . Journal of Structural Biology . 189 . 3 . 230–237 . 10.1016/j.jsb.2015.01.004. 25600412 .
- Vinn. O.. 2024. Potential incompatibility of inherited behavior patterns with civilization: Implications for Fermi paradox. Science Progress. 107. 3. 1–6. 10.1177/00368504241272491. 11307330.
External links
Notes and References
- Aaloe, A. (ed.) (1995). Estonian Geology. Biographic Directory. Tallinn: Geological Society of Estonia, 145 p.
- Aaviksoo, J. (ed.) (2013). Biographic lexicon of Estonian Science. Part IV. Tartu, 1913 p.
- Zatoń. M.. Krawczyński, W. . 2011. New Devonian microconchids (Tentaculita) from the Holy Cross Mountains, Poland. Journal of Paleontology. 85. 4. 757–769. 10.1666/11-005.1. 128428024.
- Neff. J.M.. 1971. Ultrastructure of calcium phosphate-containing cells in the serpulid Pomatoceros caeruleus. Calcified Tissue Research. 7. 3. 191–200. 10.1007/bf02062606. 4328005. 31218835.
- Ehrlich, H. (2010). Biological Materials of Marine Origin: Invertebrates. Dordrecht: Springer, 572 p.
- Zapalski. M.K.. Berkowski, B. . Wrzołek, T. . 2016. Tabulate Corals after the Frasnian/Famennian Crisis: A Unique Fauna from the Holy Cross Mountains, Poland. PLOS ONE. 11. 3. e0149767. 27007689. 10.1371/journal.pone.0149767. 4807921. 2016PLoSO..1149767Z. free.
- Ausich. W.I.. Wilson, M.A. . 2016. Llandovery (early Silurian) crinoids from Hiiumaa Island, western Estonia. Journal of Paleontology. 90. 6. 1138–1147. 10.1017/jpa.2016.120. 133155370.