S
Stephen McLoughlin
Researcher at Swedish Museum of Natural History
Publications - 144
Citations - 5591
Stephen McLoughlin is an academic researcher from Swedish Museum of Natural History. The author has contributed to research in topics: Permian & Gondwana. The author has an hindex of 40, co-authored 134 publications receiving 4845 citations. Previous affiliations of Stephen McLoughlin include University of Tasmania & Queensland University of Technology.
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Intraspecific variation of taeniate bisaccate pollen within permian glossopterid sporangia, from the Prince Charles Mountains, Antarctica
TL;DR: The in situ pollen grains are variable in most qualitative and quantitative features used for taxonomic discrimination of dispersed taeniate bisaccate pollen, and this may lead to unreliable estimates of Late Permian floristic diversity if an overly restrictive species delimitation scheme is used.
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Which name(s) should be used for Araucaria‐like fossil wood?—Results of a poll
TL;DR: A poll was conducted amongst fossil wood anatomists in order to canvass current and preferred usage and it was found that the community is divided, with about one-fifth recommending retention of the well-known Araucarioxylon, whereas the majority of others advocated use of the legitimate Agathoxylon.
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Trichomes on the leaves of Anomozamites villosus sp. nov. (Bennettitales) from the Daohugou beds (Middle Jurassic), Inner Mongolia, China: Mechanical defence against herbivorous arthropods
TL;DR: The abaxial leaf surfaces of Anomozamites villosus sp.
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Fern spore diversity and abundance in Australia during the Cretaceous
TL;DR: The Australian and North American diversity data for free-sporing plants, gymnosperms and angiosperms are broadly similar, however, Schizaeaceae and Gleicheniaceae display different trends during the mid-Cretaceous, increasing in diversity in the Australian palynofloras, but decreasing in North America.
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Animal–plant interactions in a Middle Permian permineralised peat of the Bainmedart Coal Measures, Prince Charles Mountains, Antarctica
TL;DR: Findings indicate that herbivory by invertebrates in the high-latitude Permian forest-mire ecosystems of Antarctica was more intense and diverse than previous studies have reported, and affected all parts of the Glossopteris plant, together with components of associated herbaceous taxa.