New methods reveal oldest known fossil epiphyllous moss: Bryiidites utahensis gen. et sp. nov. (Bryidae)

Premise of the study: Epiphyllous bryophytes are a highly characteristic feature of many humid tropical forest ecosystems. In contrast to the extensive fossil record for the leaves of their host plants, the record is virtually nonexistent for the epiphylls themselves, despite a fossil record for mos...

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Published in:American journal of botany Vol. 100; no. 12; pp. 2450 - 2457
Main Authors: Barclay, Richard S., McElwain, Jennifer C., Duckett, Jeffrey G., van Es, Maarten H., Mostaert, Anika S., Pressel, Silvia, Sageman, Bradley B.
Format: Journal Article
Language:English
Published: United States Botanical Society of America, Inc 01-12-2013
Botanical Society of America
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Summary:Premise of the study: Epiphyllous bryophytes are a highly characteristic feature of many humid tropical forest ecosystems. In contrast to the extensive fossil record for the leaves of their host plants, the record is virtually nonexistent for the epiphylls themselves, despite a fossil record for mosses that begins in the Middle Carboniferous Period, 330 million years ago. Methods: Epifluorescence optical microscopy, scanning electron microscopy, and atomic force microscopy were employed to investigate an intimate association between a newly discovered epiphyllous moss and a Lauraceae plant host from the middle Cretaceous. Key results: We describe the oldest fossil specimen of an epiphyllous moss, Bryiidites utahensis gen. et sp. nov., identified from an individual specimen only 450 μm long, situated on an approximately one millimeter square fossil leaf fragment. The moss epiphyll is exquisitely preserved as germinating spores and short-celled protonemata with transverse and oblique cross-walls closely matching those of extant epiphyllous mosses on the surface of the plant-leaf hosts. Conclusions: The extension of the epiphyll record back to the middle Cretaceous provides fossil evidence for the appearance of epiphyllous mosses during the diversification of flowering plants, at least 95 million years ago. It also provides substantive evidence for a tropical maritime climate in central North America during the middle Cretaceous.
Bibliography:This study was made possible through major financial support from National Science Foundation Grant (EAR‐0643290) to BBS and JCM and a Marie Curie Excellence Grant (MEXT‐CT‐2006‐042531) to JCM. Student grants to RSB for field work came from the Colorado Scientific Society, the Evolving Earth Foundation, The Field Dreams Program at The Field Museum, the Geological Society of America, the Paleontological Society, and the Western Interior Paleontology Society. The AFM equipment used for this work was funded by Science Foundation Ireland (SFI: 07/IN1/B031). Colin Carney helped with field work that produced the fossil material. Ken MY P'ng in the Nanovision Center at Queen Mary University of London was integral during the SEM process. Ian Glasspool is thanked for accessioning and maintaining the Dakota Formation collection at The Field Museum. JCM acknowledges current funding from SFI (11/PI/1103) and the European Research Council (2011‐StG279962). RSB acknowledges current funding from the Peter Buck Fellowship program at the National Museum of Natural History, Smithsonian Institution, Washington, D.C., USA.
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ISSN:0002-9122
1537-2197
DOI:10.3732/ajb.1300209