Skip to main content
Uppsala University
  • Admissions
  • Research
  • Collaboration
  • The University
  • Students
  • Alumni
  • Library
Svensk startsida
Log in
  • Student
  • Staff
  • Alumni
Uppsala University
Uppsala University Uppsala University Department of Earth Sciences
Department of Earth Sciences

Palaeobiology

  • Ongoing research
  • Popular scientific presentation
  • About us
  • Publications
Uppsala University Department of Earth ... Research Palaeobiology Publications
Denna sida på svenska
Listen

Palaeobiology

  • Ongoing research
  • Popular scientific presentation
  • About us
  • Publications

Publications

  • Claybourn, T. (2021).

    Biostratigraphy and Systematics of Cambrian Small Shelly Fossils from East Antarctica and South Australia.

    Diss. Download fulltext
  • Claybourn, T., Skovsted, C., Betts, M., holmer, L., Brock, G. (2021).

    Camenellan tommotiids from the Cambrian Series 2 of East Antarctica: Biostratigraphy, palaeobiogeography, and systematics.

    Acta Palaeontologica Polonica, 65 DOI
  • Duan, X., Betts, M., Holmer, L., Chen, Y., Liu, F. et al. (2021).

    Early Cambrian (Stage 4) brachiopods from the Shipai Formation in the Three Gorges area of South China.

    Journal of Paleontology . Epub ahead of print. DOI
  • Duan, X., Liang, Y., Holmer, L., Zhang, Z. (2021).

    First report of acrotretoid brachiopod shell beds in the lower Cambrian (Stage 4) Guanshan Biota of eastern Yunnan, South China.

    Journal of Paleontology, 95(1): 40-55 DOI
  • Hu, Y., Knaust, D., Liang, Y., Holmer, L., Zhang, Z. (2021).

    Burrows filled with faecal pellets from the Cambrian (Stage 4) Guanshan biota of South China and their palaeoecological implications.

    Palaeogeography, Palaeoclimatology, Palaeoecology, 567 DOI
  • Moczydlowska-Vidal, M., Kear, B., Snitting, D., Liu, L., Lazor, P. et al. (2021).

    Ediacaran metazoan fossils with siliceous skeletons from the Digermulen Peninsula of Arctic Norway.

    Journal of Paleontology DOI
  • Peel, J. (2021).

    Trilobite fauna of the Telt Bugt Formation (Cambrian Series 2-Miaolingian Series), western North Greenland (Laurentia).

    Bulletin of the Geological Society of Denmark, . 69: 1-33 DOI
  • Tulej, M., Lukmanov, R., Grimaudo, V., Riedo, A., de Koning, C. et al. (2021).

    Determination of the microscopic mineralogy of inclusion in an amygdaloidal pillow basalt by fs-LIMS.

    Journal of Analytical Atomic Spectrometry, . 36(1): 80-91 DOI
  • Vinn, O., Holmer, L., Wilson, M., 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, . 0(0): 1-6 DOI
  • Wallet, E., Slater, B., Willman, S., Peel, J. (2021).

    Small carbonaceous fossils (SCFs) from North Greenland: new light on metazoan diversity in early Cambrian shelf environments.

    Papers in Palaeontology, n/a(n/a) In press. DOI
  • Zhang, Z., Pour, M., Popov, L., Holmer, L., Chen, F. et al. (2021).

    The oldest Cambrian trilobite - brachiopod association in South China.

    Gondwana Research, . 89: 147-167 DOI
  • Agbaje, O., George, S., Zhang, Z., Brock, G., Holmer, L. (2020).

    Characterization of organophosphatic brachiopod shells: spectroscopic assessment of collagen matrix and biomineral components.

    RSC Advances, 10: 38456-38467 DOI
  • Arvestål, E., Willman, S. (2020).

    Organic-walled microfossils in the Ediacaran of Estonia: Biodiversity on the East European Platform.

    Precambrian Research, 341 DOI
  • Budd, G. (2020).

    Evolution: Mapping Out Early Echinoderms.

    Current Biology, . 30(13): R780-R782 DOI
  • Budd, G., Mann, R. (2020).

    The dynamics of stem and crown groups.

    Science Advances, 6(8) DOI
  • Budd, G., Mann, R. (2020).

    Survival and selection biases in early animal evolution and a source of systematic overestimation in molecular clocks.

    Interface Focus, . 10(4) DOI
  • Claybourn, T., Skovsted, C., Holmer, L., Pan, B., Myrow, P. et al. (2020).

    Brachiopods from the Byrd Group (Cambrian Series 2, Stage 4) Central Transantarctic Mountains, East Antarctica: Biostratigraphy, Phylogeny and Systematics.

    Papers in Palaeontology Epub ahead of print. DOI
  • Claybourn, T., Skovsted, C., Holmer, L., Pan, B., Myrow, P. et al. (2020).

    Brachiopods from the Byrd Group (Cambrian Series 2, Stage 4) Central Transantarctic Mountains, East Antarctica: biostratigraphy, phylogeny and systematics.

    Papers in Palaeontology, 63(n/a): 1-35 DOI
  • Davies, N., Shillito, A., Slater, B., Liu, A., McMahon, W. (2020).

    Evolutionary synchrony of Earth's biosphere and sedimentary-stratigraphic record.

    Earth-Science Reviews, 201 DOI
  • Geyer, G., Peel, J. (2020).

    Elrathia hensonensisnomen novum, new replacement name for Elrathia groenlandica Geyer and Peel, 2017 (Trilobita, Ptychopariacea).

    Journal of Paleontology, . 94(5): 1007-1007 DOI
  • Han, Y., Ryu, K., Jimenez, B., Kim, J., Lee, H. et al. (2020).

    Muscular Development in Urechis unicinctus (Echiura, Annelida).

    International Journal of Molecular Sciences, . 21(7) DOI
  • Heingård, M., Janssen, R. (2020).

    The forkhead box containing transcription factor FoxB is a potential component of dorsal-ventral body axis formation in the spider Parasteatoda tepidariorum.

    Development, Genes and Evolution, . 230(2): 65-73 DOI
  • Henderiks, J., Bartol, M., Pige, N., Karatsolis, B., Lougheed, B. (2020).

    Shifts in Phytoplankton Composition and Stepwise Climate Change During the Middle Miocene.

    Paleoceanography and Paleoclimatology, . 35(8) DOI
  • Holmer, L., Blodgett, R., Liang, Y., Zhang, Z. (2020).

    The Early Devonian (Emsian) acrotretid microbrachiopod Opsiconidion minor Popov, 1981, from the Alaska/Yukon Territory border and Novaya Zemlya.

    Estonian journal of earth sciences, . 69(3): 143-153 DOI
  • Holmer, L., Popov, L., Ghobadi Pour, M., Klishevich, I., Liang, Y. et al. (2020).

    Linguliform brachiopods from the Cambrian (Guzhangian) Karpinsk Formation of Novaya Zemlya.

    Papers in Palaeontology DOI
  • Hoyal Cuthill, J., Guttenberg, N., Budd, G. (2020).

    Impacts of speciation and extinction measured by an evolutionary decay clock.

    Nature, . 588(7839): 636-641 DOI
  • Ivarsson, M., Drake, H., Neubeck, A., Sallstedt, T., Bengtson, S. et al. (2020).

    The fossil record of igneous rock.

    Earth-Science Reviews, . 210 DOI
  • Janssen, R. (2020).

    The embryonic expression pattern of a second, hitherto unrecognized, paralog of the pair-rule gene sloppy-paired in the beetle Tribolium castaneum.

    Development, Genes and Evolution, . 230(3): 247-256 DOI
  • Janssen, R., Budd, G. (2020).

    Expression of the zinc finger transcription factor Sp6-9 in the velvet worm Euperipatoides kanangrensis suggests a conserved role in appendage development in Panarthropoda.

    Development, Genes and Evolution, . 230(3): 239-245 DOI
  • Karatsolis, B. (2020).

    Latest Miocene – Early Pliocene Paleoclimate and Phytoplankton Productivity.

    lic.-avh.
  • Karatsolis, B., De Vleeschouwer, D., Groeneveld, J., Christensen, B., Henderiks, J. (2020).

    The late Miocene to early Pliocene “Humid Interval” on the NW Australian shelf: disentangling climate forcing from regional basin evolution.

    Paleoceanography and Paleoclimatology, . 35(9) DOI
  • Kesidis, G. (2020).

    The Evolutionary Significance of Cambrian Ecdysozoan Trace Fossils.

    Diss. Download fulltext
  • Liang, Y., Holmer, L., Hu, Y., Zhang, Z. (2020).

    First report of brachiopods with soft parts from the Lower Cambrian Latham Shale (Series 2, Stage 4), California.

    Science Bulletin, 65(18): 1543-1546 DOI
  • Liang, Y., Holmer, L., Skovsted, C., Duan, X., Zhang, Z. (2020).

    Shell structure, ornamentation and affinity of the problematic early Cambrian brachiopod Heliomedusa orienta.

    Lethaia DOI
  • Lougheed, B. (2020).

    SEAMUS (v1.20): a Δ14C-enabled, single-specimen sediment accumulation simulator.

    Geoscientific Model Development, 13(1): 155-168 DOI
  • Metcalfe, B., Lougheed, B., Waelbroeck, C., Roche, D. (2020).

    A proxy modelling approach to assess the potential of extracting ENSO signal from tropical Pacific planktonic foraminifera.

    Climate of the Past, . 16(3): 885-910 DOI
  • Missiaen, L., Wacker, L., Lougheed, B., Skinner, L., Hajdas, I. et al. (2020).

    Radiocarbon Dating of Small-Sized Foraminifer Samples: Insights into Marine sediment Mixing.

    Radiocarbon, . 62(2): 313-333 DOI
  • Mus, M., Moczydlowska, M., Knoll, A. (2020).

    Morphologically diverse vase-shaped microfossils from the Russoya Member, Elbobreen Formation, in Spitsbergen.

    Precambrian Research, 350 DOI
  • Neubeck, A., Broman, C., Ivarsson, M., Holm, N., Whitehouse, M. et al. (2020).

    Isotopic Signatures of Carbon in the 'Los Pobres' Graphite Mine, Ronda, Spain.

    Journal of Petrology, . 61(4) DOI
  • Neubeck, A., Freund, F. (2020).

    Sulfur Chemistry May Have Paved the Way for Evolution of Antioxidants.

    Astrobiology, 20(5): 670-675 DOI
  • Palacios, T., Högström, A., Ebbestad, J., Agić, H., Höyberget, M. et al. (2020).

    Acritarchs from the Duolbagaisa Formation (Cambrian Series 2, Miaolingian) on the Digermulen Peninsula, Finnmark, Arctic Norway: towards a high-resolution Cambrian chronostratigraphy.

    Geological Magazine, . 157(12): 2051-2066 DOI
  • Pan, B., Skovsted, C., Brock, G., Topper, T., Holmer, L. et al. (2020).

    Early Cambrian organophosphatic brachiopods from the Xinji Formation, at Shuiyu section, Shanxi Province, North China.

    Palaeoworld, 29(3): 512-533 DOI
  • Peel, J. (2020).

    The oldest palaeoloricate mollusc (Cambrian Series 2, Stage 4; North Greenland) and its bearing on aculiferan evolution.

    Bulletin of Geosciences, . 95(2): 127-144 DOI
  • Peel, J. (2020).

    Polypleuraspis (Arthropoda, Trilobita) from the middle Cambrian (Miaolingian Series) around Kane Basin (Nunavut and Greenland).

    Canadian journal of earth sciences (Print), . 57(1): 16-24 DOI
  • Peel, J. (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
  • Peel, J. (2020).

    Middle Cambrian trilobites (Miaolingian, Ehmaniella Biozone) from the Telt Bugt Formation of Daugaard-Jensen Land, western North Greenland.

    Bulletin of the Geological Society of Denmark, . 68: 1-14 DOI
  • Peel, J. (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
  • Peel, J. (2020).

    Biogenic and abiogenic injuries in a Carboniferous Bellerophon (Gastropoda) from the Isle of Man, United Kingdom.

    GFF, . 142(1): 81-86 DOI
  • Peel, J., Willman, S., Hageman, S. (2020).

    The oldest hyolithids (Cambrian Series 2, Montezuman Stage) from the Iapetan margin of Laurentia.

    Journal of Paleontology, . 94(4): 616-623 DOI
  • Peel, J., Willman, S., Schack Pedersen, S. (2020).

    Unusual preservation of an Ordovician (Floian) arthropod from Peary Land, North Greenland (Laurentia).

    Palaeontologische Zeitschrift, 94(1): 41-51 DOI

List of all publications in DiVA

Print

Contact us

Contact information
People
Study Counsellors

Press contact
University Library

You can also find us on:
Facebook - Uppsala universitetYoutube - Uppsala universitet

Visit us

Geocentrum
Address
Villavägen 16
752 36 Uppsala
Opening hours
Weekdays 08.00-16.30

Campus Gotland
Address
Cramérgatan 3
621 57 Visby
Opening hours
Weekdays 07.30-17.00

Shortcuts

Geophysics
Air- Water and Landscape Sciences
Mineralogy, Petrology and Tectonics
Natural Resources and Sustainable Development
Palaeobiology
Wind Energy Campus Gotland

Student services
Jobs and Vacancies
Studentportalen
Medarbetarportalen
Internal website

© Uppsala University Tel.: +46 18 471 00 00 P.O. Box 256, SE-751 05 Uppsala, SWEDEN
Registration number: 202100-2932 VAT number: SE202100293201 PIC: 999985029 Registrar About this website Privacy policy Editor: Graham E Budd

Uppsala University uses cookies to make your website experience as good as possible. Read more about cookies.