The Proterozoic and Earliest Cambrian Trace Fossil Record; Patterns, Problems and Perspectives

doi:10.1093/icb/43.1.219

Integrative and Comparative Biology 2003 43(1):219-228; doi:10.1093/icb/43.1.219
© 2003 by The Society for Integrative and Comparative Biology

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The Proterozoic and Earliest Cambrian Trace Fossil Record; Patterns, Problems and Perspectives¹

Sören Jensen²^,1
¹ Department of Earth Sciences, University of California, Riverside, California 92521

The increase in trace fossil diversity across the Neoproterozoic-Cambrianboundary often is presented in terms of tabulations of ichnogenera.However, a clearer picture of the increase in diversity andcomplexity can be reached by combining trace fossils into broadgroups defined both on morphology and interpretation. This alsofocuses attention on looking for similarites between Neoproterozoicand Cambrian trace fossils. Siliciclastic sediments of the Neoproterozoicpreserve elongate tubular organisms and structures of probablealgal origin, many of which are very similar to trace fossils.Such enigmatic structures include Palaeopascichnus and Yelovichnus,previously thought to be trace fossils in the form of tightmeanders.

A preliminary two or tripartite terminal Neoproterozoic tracefossil zonation can be be recognized. Possibly the earliesttrace fossils are short unbranched forms, probably younger thanabout 560 Ma. Typical Neoproterozoic trace fossils are unbranchedand essentially horizontal forms found associated with diverseassemblages of Ediacaran organisms. In sections younger thanabout 550 Ma a modest increase in trace fossil diversity occurs,including the appearance of rare three-dimensional burrow systems(treptichnids), and traces with a three-lobed lower surfaces.

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Integrative and Comparative Biology

The Proterozoic and Earliest Cambrian Trace Fossil Record; Patterns, Problems and Perspectives1

The Proterozoic and Earliest Cambrian Trace Fossil Record; Patterns, Problems and Perspectives¹