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Early Pennsylvanian Lagerstätte reveals a diverse ecosystem on a subhumid, alluvial fan

Author

Listed:
  • Richard J. Knecht

    (Harvard University, Cambridge
    Harvard University, Cambridge)

  • Jacob S. Benner

    (University of Tennessee Knoxville)

  • Anshuman Swain

    (Harvard University, Cambridge
    Harvard University, Cambridge
    National Museum of Natural History)

  • Lauren Azevedo-Schmidt

    (University of California, Davis)

  • Christopher J. Cleal

    (Tyndall Avenue)

  • Conrad C. Labandeira

    (National Museum of Natural History
    University of Maryland
    Capital Normal University)

  • Michael S. Engel

    (American Museum of Natural History
    Universidad Nacional Mayor de San Marcos
    Universidad Nacional Mayor de San Marcos, Av. Arenales 1256 Jesús María)

  • Jason A. Dunlop

    (Invalidenstraße 43)

  • Paul A. Selden

    (University of Kansas
    Natural History Museum)

  • Cortland F. Eble

    (University of Kentucky)

  • Mark D. Renczkowski

    (Harvard University, Cambridge)

  • Dillon A. Wheeler

    (Tulane University)

  • Mataeus M. Funderburk

    (North Carolina State University)

  • Steve L. Emma

    (241 Huxley Ave.)

  • Andrew H. Knoll

    (Harvard University, Cambridge)

  • Naomi E. Pierce

    (Harvard University, Cambridge
    Harvard University, Cambridge)

Abstract

Much of what we know about terrestrial life during the Carboniferous Period comes from Middle Pennsylvanian (~315–307 Mya) Coal Measures deposited in low-lying wetland environments1–5. We know relatively little about terrestrial ecosystems from the Early Pennsylvanian, which was a critical interval for the diversification of insects, arachnids, tetrapods, and seed plants6–10. Here we report a diverse Early Pennsylvanian trace and body fossil Lagerstätte (~320–318 Mya) from the Wamsutta Formation of eastern North America, distinct from coal-bearing deposits, preserved in clastic substrates within basin margin conglomerates. The exceptionally preserved trace fossils and body fossils document a range of vertebrates, invertebrates and plant taxa (n = 131), with 83 distinct foliage morphotypes. Plant-insect interactions include what may be the earliest evidence of insect oviposition. This site expands our knowledge of early terrestrial ecosystems and organismal interactions and provides ground truth for future phylogenetic reconstructions of key plant, arthropod, and vertebrate groups.

Suggested Citation

  • Richard J. Knecht & Jacob S. Benner & Anshuman Swain & Lauren Azevedo-Schmidt & Christopher J. Cleal & Conrad C. Labandeira & Michael S. Engel & Jason A. Dunlop & Paul A. Selden & Cortland F. Eble & M, 2024. "Early Pennsylvanian Lagerstätte reveals a diverse ecosystem on a subhumid, alluvial fan," Nature Communications, Nature, vol. 15(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-52181-0
    DOI: 10.1038/s41467-024-52181-0
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