Organism group

Selection of related publications
Vinn, O., Madison, A., Wilson, M. A., Toom, U. 2023. Cornulitid tubeworms and other calcareous tubicolous organisms from the Hirmuse Formation (Katian, Upper Ordovician) of northern Estonia.Journal of Paleontology 97 , 1,38–46. DOI:10.1017/jpa.2022.89
Komarov, V. N., Volkova, E. A., Kachalina, M. D. 2023. O nahodkah kraniid (Brahiopoda) na rakovinah venlokskih rinhonellid na o. Saaremaa (Èstoniâ) [О находках краниид (Брахиопода) на раковинах венлокских ринхонеллид на о. Сааремаа (Эстония)].Bio-i geosobytiâ v istorii Zemli. Ètapnost' èvolûcii i stratigrafičeskaâ korrelâciâ. LXIX sessiâ paleontologičeskogo obŝestva , pp. 62-63.
Tolokonnikova, Z. A., Fedorov, P. V. 2023. Morphological features of Late Ordovician (Sandbian) bryozoans from the basin of Khrevitsa River (north-western Russia) and description of a new species of the genus Prophyllodictya Gorjunova, 1987.Zootaxa 5284 , 2,337-350. DOI:10.11646/zootaxa.5284.2.6
Wisshak, M., Neumann, C., Sanna, G., Nielsen, K., Milàn, J. 2023. Suspected foraminiferan parasitism on a Late Cretaceous echinoid host recorded by the new attachment trace fossil Solichnus aestheticus.Acta Palaeontologica Polonica 68 , 1,13-22. DOI:10.4202/app.01028.2022
Kröger, B., Tinn, O., Rikkinen, J., Jolis, E. M., Butcher, A. R., Toom, U., Hints, O. 2023. Noncalcified dasyclad algae from the Vasalemma Formation, late Sandbian (Late Ordovician) of Estonia.Review of Palaeobotany and Palynology 318 , 104970. DOI:10.1016/j.revpalbo.2023.104970
Ernst, A. 2023. New trepostome bryozoan genus from the Estonian Kukersite.Neues Jahrbuch für Geologie und Paläontologie. Abhandlungen 307 , 3,249-259. DOI:10.1127/njgpa/2023/1124
Ernst, A., Tolokonnikova, Z. 2023. Unusual cystoporate? bryozoan from the Upper Ordovician of Siljan District, Dalarna, central Sweden.GFF 20 , 1,1-10. DOI:10.1080/11035897.2023.2223579
Knaust, D., Dronov, A. V., Toom, U. 2023. Two almost‐forgotten Trypanites ichnospecies names for the most common Palaeozoic macroboring.Papers in Palaeontology 9 , 3,e1491. DOI:10.1002/spp2.1491
Toom, U., Kuva, J., Knaust, D. 2023. Ichnogenus Trypanites in the Ordovician of Estonia (Baltica).Estonian Journal of Earth Sciences 72 , 1,106-109. DOI:10.3176/earth.2023.48
Toom, U., Kröger, B., Knaust, D. 2023. A Balanoglossites-Trypanites ichnofabric from the Upper Ordovician warm-water carbonates of Estonia.Following in the footsteps of Richard Granville Bromley. Abstracts and Field Guide , pp. 38-38.
Knaust, D., Dronov, A., Toom, U. 2023. Two almost forgotten Trypanites ichnospecies names for the most common Palaeozoic macroboring.Bio-i geosobytiâ v istorii Zemli. Ètapnost' èvolûcii i stratigrafičeskaâ korrelâciâ. LXIX sessiâ paleontologičeskogo obŝestva , pp. 59-59.
Vinn, O., Alkahtane, A. A., El-Hedeny, M., Al Farraj, S., Isakar, M., Toom, U. 2023. Tentaculitids from the Silurian of Estonia.Neues Jahrbuch für Geologie und Paläontologie. Abhandlungen 309 , 2,161-168. DOI:10.1127/njgpa/2023/1157
Vinn, O., Holmer, L. E., Wilson, M. A. 2023. Evolution of brachiopod symbiosis in the early Paleozoic.Historical Biology , 1-21. DOI:10.1080/08912963.2023.2212368
Paiste, T., Männik, P., Meidla, T. 2023. Emended Sandbian (Ordovician) conodont biostratigraphy in Baltoscandia and a new species of Amorphognathus.Geological Magazine 160 , 3,411-427. DOI:10.1017/S0016756822001005
Hints, O., Tonarová, P. 2023. A diverse Hirnantian scolecodont assemblage from northern Estonia and resilience of polychaetes to the end-Ordovician mass extinction.Estonian Journal of Earth Sciences 72 , 1,46-49. DOI:10.3176/earth.2023.20
Nõlvak, J., Liang, Y., Hints, O. 2023. Latest Ordovician age of the Spinachitina fragilis Chitinozoan Biozone in Baltoscandia.Estonian Journal of Earth Sciences 72 , 1,82-85. DOI:10.3176/earth.2023.51
Männik, P., Nõlvak, J. 2023. Boundary between the Porkuni and Juuru regional stages in the Neitla section, Estonia.Estonian Journal of Earth Sciences 72 , 1,66-69. DOI:10.3176/earth.2023.52
Ernst, A. 2023. Ordovician Bryozoa of Estonia.Estonian Journal of Earth Sciences 72 , 1,127-127. DOI:10.3176/earth.2023.04
Kröger, B., Ernst, A., Penny, A., Nakrem, H. A., Toom, U. 2023. Diversity and spatial turnover of bryozoan assemblages in the reefs of the Vasalemma Formation (Late Ordovician), Estonia.Estonian Journal of Earth Sciences 72 , 1,137-137. DOI:10.3176/earth.2023.47
Hints, O., Ainsaar, L., Lepland, A., Liiv, M., Männik, P., Meidla, T., Nõlvak, J., Radzevičius, S. 2023. Paired carbon isotope chemostratigraphy across the Ordovician–Silurian boundary in central East Baltic: Regional and global signatures.Palaeogeography, Palaeoclimatology, Palaeoecology 624 , 1-17. DOI:10.1016/j.palaeo.2023.111640
Vinn, O., Alkahtane, A. A., El Hedeny, M., Al Farraj, S., Toom, U. 2023. Earliest styliolinids from the Wenlock of Saaremaa Island (Estonia): paleoecological and evolutionary implications.Palaeoworld , DOI:10.1016/j.palwor.2023.09.004
Plax, D. P., Newman, M. J. 2023. Formal description of Valentinaspis profundus gen. et sp. nov., a placoderm fish and zone fossil from the Emsian of Belarus and Estonia.New Mexico Museum of Natural History & Science Bulletin 94 , 525-532.
Burrow, C. J., Märss, T. 2022. Neotypes for some upper Silurian acanthodian taxa from the Baltic Sea Region and the Welsh Borderland.Estonian Journal of Earth Sciences 71 , 1,17-24. DOI:10.3176/earth.2022.02
Ernst, A. 2022. Bryozoan fauna from the Kunda Stage (Darriwilian, Middle Ordovician) of Estonia and NW Russia.Bulletin of Geosciences 97 , 1,33–68. DOI:10.3140/bull.geosci.1843
Zatoń, M., Vinn, O., Toom, U., Słowiński, J. 2022. New encrusting tentaculitoids from the Silurian of Estonia and taxonomic status of Anticalyptraea Quenstedt, 1867.GFF 144 , 2,111-117. DOI:10.1080/11035897.2022.2042378
Nõlvak, J., Liang, Y., Hints, O. 2022. Early and early Middle Ordovician chitinozoans from the Baldone drill core, central Latvia.Estonian Journal of Earth Sciences 71 , 1,25-43. DOI:10.3176/earth.2022.03
Baarli, B. G. 2022. The smooth, spire-bearing brachiopods after the terminal Ordovician extinction through lower Llandovery in the central Oslo region, Norway.Journal of Paleontology 96 , 1,81-111. DOI:10.1017/jpa.2021.72
Hints, L., Pärnaste, H., Männik, P., Reich, M., Rozhnov, S. 2022. Development of faunal diversity during the late Llandovery–early Wenlock in the easternmost part of the Baltic Palaeobasin – implications for the Ireviken Event.Estonian Journal of Earth Sciences 71 , 2,89-110. DOI:10.3176/earth.2022.07
Aubrechtová, M., Korn, D. 2022. Taxonomy and ontogeny of the Lituitida (Cephalopoda) from Orthoceratite Limestone erratics (Middle Ordovician).European Journal of Taxonomy 799 , 1-108. DOI:10.5852/ejt.2022.799.1681
Slater, B. J., Bohlin, M. S. 2022. Animal origins: The record from organic microfossils.Earth-Science Reviews 232 , 104107. DOI:10.1016/j.earscirev.2022.104107
Melnikova, L. M., Mirantsev, G. V., Terentiev, S. S., Anekeeva, G. A. 2022. Ostracods of the Gryazno Formation (Upper Ordovician, Sandbian Stage and Idavere Regional Stage) in the West of Leningrad Region.Paleontological Journal 56 , 5,510-525. DOI:10.1134/S0031030122050082
Ivanov, A. 2022. New ptyctodontid placoderm from the Famennian (Upper Devonian) of European Russia.Biological Communications 67 , 4,247–252. DOI:10.21638/spbu03.2022.401
Vinn, O., Wilson, M. A., Madison, A., Toom, U. 2022. Small cornulitids from the Upper Ordovician (Katian) of Estonia.Palaeoworld , DOI:10.1016/j.palwor.2022.12.005
Matysik, M., Stachacz, M., Knaust, D., Whitehouse, M. J. 2022. Geochemistry, ichnology, and sedimentology of omission levels in Middle Triassic (Muschelkalk) platform carbonates of the Germanic Basin (southern Poland).Palaeogeography, Palaeoclimatology, Palaeoecology 585 , 110732. DOI:10.1016/j.palaeo.2021.110732
Suárez Andrés, J. L., Sendino, C., Wilson, M. A. 2022. Caupokeras badalloi, a new ichnospecies of impedichnia from the Lower Devonian of Spain. Palaeoecological significance.Historical Biology 34 , 1,62-66. DOI:10.1080/08912963.2021.1893716
Vinn, O., Wilson, M. A., Holmer, L. E., Ernst, A., Tinn, O., Toom, U. 2022. Diverse endobiotic symbiont fauna from the late Katian (Late Ordovician) of Estonia.Palaeontologia Electronica 25 , 3,1-13. DOI:10.26879/1232
Märss, T., Wilson, M. V., Viljus, M. 2022. Endolymphatic structures in headshields of the osteostracan genus Tremataspis (Agnatha) from the Silurian of Estonia.Estonian Journal of Earth Sciences 71 , 3,135-156. DOI:10.3176/earth.2022.10
Sheffield, S. L., Lam, A. R., Phillips, S. F., Deline, B. 2022. Morphological Dynamics and Response Following the Dispersal of Ordovician–Silurian Diploporan Echinoderms to Laurentia.Contributions from the Museum of Paleontology, University of Michigan 34 , 9,123-140. DOI:10.7302/4375
Vinn, O., Ernst, A., Wilson, M. A., Toom, U. 2022. Symbiosis in trepostome bryozoans from the Sandbian (Late Ordovician) of Estonia.Historical Biology 34 , 6,1029-1038. DOI:10.1080/08912963.2021.1959579
Zapalski, M. K., Vinn, O., Toom, U., Ernst, A., Wilson, M. A. 2022. Bryozoan–cnidarian mutualism triggered a new strategy for greater resource exploitation as early as the Late Silurian.Scientific Reports 12 , number: 15556. DOI:10.1038/s41598-022-19955-2
Zapalski, M. K., Król, J. J., Halamski, A. T., Wrzołek, T., Rakociński, M., Baird, A. H. 2022. Coralliths of tabulate corals from the Devonian of the Holy Cross Mountains (Poland).Palaeogeography, Palaeoclimatology, Palaeoecology 585 , 110745. DOI:10.1016/j.palaeo.2021.110745
Vinn, O., Wilson, M. A., Madison, A., Kazantseva, E., Toom, U. 2022. First symbiotic association between hederelloids and rugose corals (latest Silurian of Saaremaa, Estonia).Palaios 37 , 7,368-373. DOI:10.2110/palo.2022.005
Jeon, J., Vinn, O., Liang, K., Zapalski, M. K., Toom, U., Kershaw, S. 2022. Stromatoporoid-coral/tubeworm intergrowths in the lowermost Silurian Varbola Formation of Estonia: first evidence of competitive interaction.Lethaia 55 , 2,1-13. DOI:10.18261/let.55.2.4
Du, M., Nõlvak, J., Tan, J., Gao, S., Wang, W. 2022. Melanosclerites from the Late Ordovician to earliest Silurian of Estonia and their palaeogeographical implications.Palynology 46 , 3,1-16. DOI:10.1080/01916122.2021.2012538
Paiste, T., Männik, P., Meidla, T. 2022. Sandbian (Late Ordovician) conodonts in Estonia: distribution and biostratigraphy.GFF , 1-15. DOI:10.1080/11035897.2021.2020333
Thompson, J. R., Cotton, L. J., Candela, Y., Kutscher, M., Reich, M., Bottjer, D. J. 2022. The Ordovician diversification of sea urchins: systematics of the Bothriocidaroida (Echinodermata: Echinoidea).Journal of Systematic Palaeontology 19 , 20,1395-1448. DOI:10.1080/14772019.2022.2042408
Semenov, N. K., Terentyev, S. S., Mirantsev, G. V., Rozhnov, S. V. 2021. A New Hybocrinid Genus (Echinodermata, Crinoidea) from the Middle Ordovician of Ladoga Glint on the Volkhov River.Paleontological Journal 55 , 1,54-63. DOI:10.1134/S0031030121010123
Knaust, D. 2021. Rosselichnidae ifam. nov.: burrows with concentric, spiral or eccentric lamination.Papers in Palaeontology 7 , 4,1847-1875. DOI:10.1002/spp2.1367
Devaere, L., Skovsted, C. B. 2021. The youngest known tommotiid: Lapworthella bornholmiensis (Poulsen, 1942) from Cambrian Stage 4 to Guzhangian (Miaolingian) strata of Bornholm and southern Sweden.GFF 143 , 2-3,151-167. DOI:10.1080/11035897.2021.1913761
Skovsted, C. B., Topper, T. P., McLoughlin, S., Johansson, O., Liu, F., Vajda, V. 2021. First discovery of Small Shelly Fossils and new occurrences of brachiopods and trilobites from the early Cambrian (Stage 4) of the Swedish Caledonides, Lapland.GFF 143 , 2-3,134-150. DOI:10.1080/11035897.2021.1895303
Rasmussen, J. A., Eriksson, M. E., Lindskog, A. 2021. Middle Ordovician Drepanoistodus (Vertebrata, Conodonta) from Baltica, with description of three new species.European Journal of Taxonomy 774 , 106–134. DOI:10.5852/ejt.2021.774.1533
Golubkova, E. Y., Bobrovskiy, I. M., Kushim, E. A., Plotkina, Y. V. 2021. Fossil Organisms of the Redkino Regional Stage of the Upper Vendian of the Northwestern Russian Platform (Leningrad Region).Paleontological Journal 55 , 5,579-587. DOI:10.1134/S0031030121050051
Baarli, B. G. 2021. Plectatrypinae and other ribbed atrypides succeeding the end Ordovician extinction event, Central Oslo Region, Norway.Journal of Paleontology 95 , 1,75-105. DOI:10.1017/jpa.2020.69
Ivantsov, A., Zakrevskaya, M. 2021. Dickinsonia: mobile and adhered.Geological Magazine , 1-16. DOI:10.1017/S0016756821000194
Ivantsov, A. Yu., Zakrevskaya, M. A. 2021. Trilobozoa, Precambrian Tri-Radial Organisms.Paleontological Journal 55 , 7,727-741. DOI:10.1134/S0031030121070066
Rozhnov, S. V. 2021. Two Coils in the Morphology of Myelodactylids (Crinoidea, Disparida): the Morphogenetic Basis of Their Formation and Adaptation Potential.Paleontological Journal 55 , 9,993-1012. DOI:10.1134/S0031030121090124
Vinn, O., Wilson, M. A. 2021. Evolutionary History of Colonial Organisms as Hosts and Parasites.The Evolution and Fossil Record of Parasitism , pp. 99-119. DOI:10.1007/978-3-030-52233-9_4
Maletz, J., Ahlberg, P. 2021. Dapingian to lower Darriwilian (Middle Ordovician) graptolite biostratigraphy and correlation of the Krapperup drill core, Scania, Sweden.GFF 143 , 1,16-39. DOI:10.1080/11035897.2020.1822439
Koromyslova, A. V., Fedorov, P. V. 2021. The oldest bifoliate cystoporate and two other bryozoan taxa from the Dapingian (Middle Ordovician) of north-western Russia.Journal of Paleontology 95 , 1,24-39. DOI:10.1017/jpa.2020.73
Baarli, B. G. 2021. Survival and recovery atrypid fauna following the terminal Ordovician extinction, the Atrypinae: central Oslo Region, Norway.Historical Biology 33 , 3,403-440. DOI:10.1080/08912963.2019.1620228
Stachacz, M., Knaust, D., Matysik, M. 2021. Middle Triassic bivalve traces from central Europe (Muschelkalk, Anisian): overlooked burrows of a common ichnofabric.Paläontologische Zeitschrift 96 , 175-196. DOI:10.1007/s12542-021-00583-6
Grytsenko, V. 2021. Some new ichnospecies stored in the Geological Department of the National Museum of Natural History, NAS of Ukraine.Geo&Bio 20 , 29-35. DOI:10.15407/gb2004
Kazantseva, E. S. 2021. Pseudocolonies of Silurian Rugoses Microplasma schmidti Dybowski from Estonia: Morphology and Origin.Paleontological Journal 55 , 5,469-476. DOI:10.1134/S0031030121050075
Kröger, B., Vinn, O., Toom, U., Corfe, I. J., Kuva, J., Zatoń, M. 2021. On the enigma of Palaenigma wrangeli (Schmidt), a conulariid with a partly non-mineralized skeleton.PeerJ 9 , e12374. DOI:/10.7717/peerj.12374
Paul, C. R. C., Toom, U. 2021. The diploporite blastozoan Glyptosphaerites (Echinodermata: Blastozoa) and the origin of diplopores.Estonian Journal of Earth Sciences 70 , 4,224-239. DOI:10.3176/EARTH.2021.15
Bremer, O., Qu, Q., Sanchez, S., Märss, T., Fernandez, V., Blom, H. 2021. The emergence of a complex pore‐canal system in the dermal skeleton of Tremataspis (Osteostraci).Journal of Morphology 282 , 8,1141-1157. DOI:10.1002/jmor.21359
Vinn, O., Ernst, A., Wilson, M. A., Toom, U. 2021. Symbiosis of cornulitids with the cystoporate bryozoan Fistulipora in the Pridoli of Saaremaa, Estonia.Lethaia 54 , 1,90-95. DOI:10.1111/let.12385
Cole, S. R., Ausich, W. I., Wilson, M. A. 2021. A Hirnantian holdover from the Late Ordovician mass extinction: phylogeny and biogeography of a new anthracocrinid crinoid from Estonia.Papers in Palaeontology 7 , 2,1195-1204. DOI:10.1002/spp2.1345
Paul, C. R. C., Toom, U. 2021. Cystoblastus and the origin of the Hemicosmitoida (Echinodermata: Blastozoa).Estonian Journal of Earth Sciences 70 , 3,165-181. DOI:10.3176/earth.2021.13
Vinn, O., Ernst, A., Wilson, M., Toom, U. 2021. Intergrowth of bryozoans with other invertebrates in the Late Pridoli of Saaremaa, Estonia.Annales Societatis Geologorum Poloniae 91 , 2,101-111. DOI:10.14241/asgp.2021.04
Vinn, O., Holmer, L. E., Wilson, M. A., Isakar, M., Toom, U. 2021. Possible drill holes and pseudoborings in obolid shells from the Cambrian/Ordovician boundary beds of Estonia and the uppermost Cambrian of NW Russia.Historical Biology 33 , 12,3579–3584. DOI:10.1080/08912963.2021.1878355
Vinn, O., Eyzenga, J. 2021. When did spines appear in cornulitids – a new spiny Cornulites from the Upper Ordovician of Baltica.Neues Jahrbuch für Geologie und Paläontologie. Abhandlungen 299 , 1,99-105. DOI:10.1127/njgpa/2021/0957
Ebbestad, J. O. R., Kolata, D. R., Isakar, M. 2021. New onychochilid mollusks from the Middle and Upper Ordovician of Baltica and Laurentia.Journal of Paleontology 95 , 1,106-122. DOI:10.1017/jpa.2020.81
Wang, W., Liang, Y., Lyu, Q., Hints, O., Chen, S., Nõlvak, J. 2021. Chitinozoans with “skirt”: Ultrastructure and palaeoecological implications of carina in Cyathochitina Eisenack, 1955.Palaeogeography, Palaeoclimatology, Palaeoecology 570 , 110348. DOI:10.1016/j.palaeo.2021.110348
Hints, O., Nõlvak, J., Liang, Y. 2021. Possible metazoan egg fossils from the Darriwilian (Middle Ordovician) of Baltoscandia.Estonian Journal of Earth Sciences 70 , 4,240-252. DOI:10.3176/earth.2021.16
Leshchinskiy, S. V., Kuzmin, Y. V., Boudin, M., Amon, L. 2021. Holes in the spinous processes of woolly mammoth vertebrae: spatial and temporal distribution, and the causes of pathology formation.Journal of Quaternary Science 36 , 7,1254-1267. DOI:10.1002/jqs.3360
Loydell, D. K., Walasek, N. 2020. Two new species of graptolite from the Telychian (upper Llandovery, Silurian) of Kallholn, Dalarna, Sweden.GFF 142 , 2,154-157. DOI:10.1080/11035897.2019.1686419
Peel, J. S. 2020. Muscle scars, mode of life and systematics of Pollicina (Mollusca) from the Ordovician of Baltica.Estonian Journal of Earth Sciences 69 , 1,20-36. DOI:10.3176/earth.2020.02
Ausich, W. I., Wilson, M. A., Tinn, O. 2020. Kalana Lagerstätte crinoids: Early Silurian (Llandovery) of central Estonia.Journal of Paleontology 94 , 1,131-144. DOI:10.1017/jpa.2019.27
Peel, J. S. 2020. The Dala thumb: shell morphology and failed predation in Pollicina cyathina (Gastropoda) from the Ordovician of Dalarna, Sweden.GFF 142 , 2,139-146. DOI:10.1080/11035897.2020.1728374
Maletz, J., Ahlberg, P., Lundberg, F. 2020. Ordovician graptolite biostratigraphy of the Röstånga-2 drill core (Scania, southern Sweden).GFF 142 , 3,206-222. DOI:10.1080/11035897.2020.1739743
Vinn, O., Toom, U. 2020. New cornulitid from the Ohesaare Formation (late Přidoli) of Saaremaa, Estonia.Neues Jahrbuch für Geologie und Paläontologie. Abhandlungen 298/1 , 67-73. DOI:10.1127/njgpa/2020/0934
Heřmanová, Z., Bruthansová, J., Holcová, K., Mikuláš, R., Kočová Veselská, M., Kočí, T., Dudák, J., Vohník, M. 2020. Benefits and limits of x-ray micro-computed tomography for visualization of colonization and bioerosion of shelled organisms.Palaeontologia Electronica , 23.2.23A. DOI:10.26879/1048
Aubrechtová, M., Meidla, T. 2020. Lituitid cephalopods from the upper Darriwilian and basal Sandbian (Middle–Upper Ordovician) of Estonia.GFF 142 , 4,267-296. DOI:10.1080/11035897.2020.1762723
Mergl, M. 2020. Dendritic microborings in brachiopod shells from the Silurian of the Barrandian area, Czech Republic.Bulletin of Geosciences , 319-332. DOI:10.3140/bull.geosci.1793
Knaust, D. 2020. Rhizocorallites Müller, 1955 from the Triassic and Jurassic of Germany: burrow, coprolite, or cololite?.Paläontologische Zeitschrift 94 , 4,769-785. DOI:10.1007/s12542-019-00506-6
Vallon, L. H., Milàn, J., Rindsberg, A. K., Madsen, H., Rasmussen, J. A. 2020. Cutting-edge technology: burrows lined with sponge bioclasts from the Upper Cretaceous of Denmark.Ichnos 27 , 3,317-325. DOI:10.1080/10420940.2020.1744581
Ausich, W. I., Wilson, M. A., Toom, U. 2020. Early Silurian recovery of Baltica crinoids following the end-Ordovician extinctions (Llandovery, Estonia).Journal of Paleontology 94 , 3,521-530. DOI:10.1017/jpa.2019.89
Vinn, O., Ernst, A., Wilson, M. A., Toom, U. 2020. Symbiosis of rugose corals with the cystoporate bryozoan Fistulipora prhidolensis in the Pridoli (Latest Siluriuan) of Saaremaa, Estonia.Palaios 35 , 6,237-244. DOI:10.2110/palo.2020.019
Toom, U., Vinn, O., Isakar, M., Madison, A., Hints, O. 2020. Small faecal pellets in Ordovician shelly fossils from Estonia, Baltoscandia.Estonian Journal of Earth Sciences 69 , 1,1-19. DOI:10.3176/earth.2020.01
Paul, C. R. C., Hotchkiss, F. H. C. 2020. Origin and significance of Lovén's Law in echinoderms.Journal of Paleontology 94 , 6,1089-1102. DOI:10.1017/jpa.2020.31
Lebedev, O. A., Ivanov, A. O., Linkevich, V. V. 2020. Chondrichthyan spines from the Famennian (Upper Devonian) of Russia.Acta Geologica Polonica 70 , 3,339–362. DOI:10.24425/agp.2020.132255
Knaust, D. 2020. Sulcolithos variabilis igen. et isp. nov.: grooves on firm and hard bedding surfaces.Paläontologische Zeitschrift 94 , 1,195-206. DOI:10.1007/s12542-019-00464-z
Balthasar, U., Jin, J., Hints, L., Cusack, M. 2020. Brachiopod shell thickness links environment and evolution.Palaeontology 63 , 1,171-183. DOI:10.1111/pala.12450
Bremer, O., Jarochowska, E., Märss, T. 2020. Vertebrate remains and conodonts in the upper Silurian Hamra and Sundre formations of Gotland, Sweden.GFF 142 , 1,52-80. DOI:10.1080/11035897.2019.1655790
Gubanov, A. P., Ebbestad, J. O. R., Männik, P., Bogolepova, O. K. 2020. New data on the problematic mollusc Jinonicella from the early Silurian of east Siberia.GFF 142 , 2,147-153. DOI:10.1080/11035897.2019.1708451
Paiste, T., Männik, P., Nõlvak, J., Meidla, T. 2020. The lower boundary of the Haljala Regional Stage (Sandbian, Upper Ordovician) in Estonia.Estonian Journal of Earth Sciences 69 , 2,76-90. DOI:10.3176/earth.2020.05
Tinn, O., Vinn, O., Ainsaar, L. 2020. The enigmatic cnidarian Martsaphyton moxi gen. et sp. nov. from the Darriwilian (Middle Ordovician) of Estonia.Estonian Journal of Earth Sciences 69 , 4,223-232. DOI:10.3176/earth.2020.12
Meidla, T., Truuver, K., Tinn, O., Ainsaar, L. 2020. Ostracods of the Ordovician–Silurian boundary beds: Jūrmala core (Latvia) and its implications for Baltic stratigraphy.Estonian Journal of Earth Sciences 69 , 4,233-247. DOI:10.3176/earth.2020.20

Map shows only the first 1000 localities

Organism groupBiota
Ichnofossil groupIchnofossils
Organism groupIncertae sedis (fossils)