Hitta hit:
T-bana: Universitetet
Frescativägen 40

Ordinarie öppettider:
Tisdag-fredag 11-17
Lördag-söndag 10-18

  • Huvudmeny

Publications Chris Mays

Selected Publications

Mays, C., McLoughlin, S., Frank, T.D., Fielding, C.R., Slater, S.M., Vajda, V., 2021. Lethal microbial blooms delayed freshwater ecosystem recovery following the end-Permian extinction. Nature Communications 12, 5511. https://doi.org/10.1038/s41467-021-25711-3external link

Frank, T.D., Fielding, C.R., Winguth, A.M.E., Savatic, K., Tevyaw, A., Winguth, C., McLoughlin, S., Vajda, V., Mays, C., Nicoll, R., Bocking, M., Crowley, J.L., 2021. Pace, magnitude, and nature of terrestrial climate change through the end Permian extinction in southeastern Gondwana. Geology 49. doi: 10.1130/G48795.1external link

Mays, C., Vajda, V., McLoughlin, S., 2021. Permian–Triassic non-marine algae of Gondwana—distributions, natural affinities and ecological implications. Earth-Science Reviews 212: 102283. doi: 10.1016/j.earscirev.2020.103382external link

Stilwell, J.D., Mays, C., 2020. Lost World of Rēkohu: Ancient ‘Zealandian’ Animals and Plants of the Remote Chatham Islands. Cambridge Scholars Publishing, Newcastle upon Tyne, 293 pp.

Fielding, C.R., Frank, T.D., Tevyaw, A.P., Savatic, K., Vajda, V., McLoughlin, S., Mays, C., Nicoll, R.S., Bocking, M. & Crowley, J.L., 2021. Sedimentology of the continental end-Permian extinction event in the Sydney Basin, eastern Australia. Sedimentology 68, 30-62. https://doi.org/10.1111/sed.12782external link

McLoughlin, S., Mays, C., Vajda, V., Bocking, M., Frank, T.D. & Fielding, C.R., 2020. Dwelling in the dead zone—vertebrate burrows immediately succeeding the end-Permian extinction event in Australia. Palaios 35, 342–357. https://doi.org/10.2110/palo.2020.007external link

Herrera, F., Shi, G., Mays, C., Ichinnorov, N., Takahashi, M., Bevitt, J.J., Herendeen, P.S., Crane, P.R., 2020. Reconstructing Krassilovia mongolica supports recognition of a new and unusual group of Mesozoic conifers. PLOS One, 15. doi: 10.1371/journal.pone.0226779external link

Stilwell, J.D., Langendam, A., Mays, C., Sutherland, L.J.M., Arillo, A., Bickel, D.J., De Silva, W.T., Pentland, A.H., Roghi, G., Price, G.D., Cantrill, D.J., Quinney, A., Peñalver, E., 2020. Amber from the Triassic to Paleogene of Australia and New Zealand as exceptional preservation of poorly known terrestrial ecosystems. Scientific Reports, 10: 5703. doi: 10.1038/s41598-020-62252-zexternal link

Mays, C., Vajda, V., Frank, T.D., Fielding, C.R., Nicoll, R.S., Tevyaw, A.P., McLoughlin, S., 2020. Refined Permian–Triassic floristic timeline reveals early collapse and delayed re-covery of south polar terrestrial ecosystems. GSA Bulletin 132: 1489-1513. https://doi.org /10 .1130 /B35355 .1external link

Vajda, V., McLoughlin, S., Mays, C., Frank, T.D., Fielding, C.R., Tevyaw, A., Lehsten, V., Bocking, M. & Nicoll, R.S., 2020. End-Permian (252 Mya) deforestation, wildfires and flooding—An ancient biotic crisis with lessons for the present. Earth and Planetary Science Letters 529, Article 115875 https://doi.org/10.1016/j.epsl.2019.115875external link

McLoughlin, S., Maksimenko, A. & Mays, C., 2019. A new high-paleolatitude permineralized peat flora from the late Permian of the Sydney Basin, Australia. International Journal of Plant Sciences 180(6): 513–539. DOI: 10.1086/702939external link

Fielding, C. R., Frank, T. D., McLoughlin, S., Vajda, V., Mays, C.,Tevyaw, A. P., Winguth, A., Winguth, C., Nicoll, R. S., Bocking, M. & James L. Crowley, J. L., 2019. Age and pattern of the southern high-latitude continental end-Permian extinction constrained by multiproxy analysis. Nature Communications 10: 385, https://doi.org/10.1038/s41467-018-07934-zexternal link

Mays, C. and Cantrill, D., 2018. Protodammara reimatamoriori, a new species of conifer (Cupressaceae) from the Upper Cretaceous Tupuangi Formation, Chatham Islands, Zealandia. Alcheringa. Journal websiteexternal link

Mays, C., Bevitt, J. and Stilwell, J., 2017. Pushing the limits of neutron tomography in palaeontology: Three-dimensional modelling of in situ resin within fossil plants. Palaeontologia Electronica, Vol. 20, no 3.57A: 1-12. Journal websiteexternal link

Mays, C., Cantrill, D. J. and Bevitt. J. J., 2017. Polar wildfires and conifer serotiny during the Cretaceous global hothouse. Geology. https:// doi .org /10 .1130 /G39453 .1external link

Mays, C., Cantrill, D.J., Stilwell, J.D. & Bevitt, J.J., 2017. Neutron tomography of Austrosequoia novaezeelandiae comb. nov. (Late Cretaceous, Chatham Islands, New Zealand): implications for Sequoioideae phylogeny and biogeography. Journal of Systematic Palaeontology, DOI: 10.1080/14772019.2017.1314898.

Stilwell, J.D., Vitacca, J.J. & Mays, C., 2016. South polar greenhouse insects (Arthropoda: Insecta: Coleoptera) from the mid-Cretaceous Tupuangi Formation, Chatham Islands, eastern Zealandia. Alcheringa, 40: 502–508.

Mays, C., 2015. A Late Cretaceous (Cenomanian–Turonian) South Polar palynoflora from the Chatham Islands, New Zealand. Association of Australasian Palaeontologists, Canberra, 92 pp.

Mays, C., Steinthorsdottir, M. & Stilwell, J.D., 2015. Climatic implications of Ginkgoites waarrensis Douglas emend. from the south polar Tupuangi flora, Late Cretaceous (Cenomanian), Chatham Islands. Palaeogeography, Palaeoclimatology, Palaeoecology, 438: 308–326.

Mays, C., Tosolini, A.-M.P., Cantrill, D.J. & Stilwell, J.D., 2015b. Late Cretaceous (Cenomanian–Turonian) macroflora from the Chatham Islands, New Zealand: bryophytes, lycophytes and pteridophytes. Gondwana Research, 27: 1042–1060.

Chen, K., Stilwell, J.D. & Mays, C., 2015. Palaeoenvironmental reconstruction of Livingston Island, Antarctic Peninsula in the Early Cretaceous: Interpretations from Walker Bay erratics. Alcheringa, 39: 465–476.

Quinney, A., Mays, C., Stilwell, J.D., Zelenitsky, D.K. & Therrien, F., 2015. The range of bioinclusions and pseudoinclusions preserved in a new Turonian (~90 Ma) amber deposit from southern Australia, PLOS One, 10, e0121307.

Sorrentino, L., Stilwell, J.D. & Mays, C., 2014. A model of tephra dispersal from an early Palaeogene shallow submarine Surtseyan-style eruption(s), the Red Bluff Tuff Formation, Chatham Island, New Zealand. Sedimentary Geology, 300: 86–102.

Mays, C. & Stilwell, J.D., 2013. Pollen and spore biostratigraphy of the mid-Cretaceous Tupuangi Formation, Chatham Islands, New Zealand. Review of Palaeobotany and Palynology, 192: 79–102.

Mays C. & Stilwell J.D., 2012. Judging an acritarch by its cover: the taxonomic implications of Introvertocystis rangiaotea gen. et sp. nov. from the Late Cretaceous (Cenomanian–Turonian) of the Chatham Islands, New Zealand. Palynology, 36: 180–190.