Abstract
The association of trace fossils and non-biomineralized carapaces has been reported from Cambrian Lagerstätten worldwide, but the abundance, ichnodiversity, taphonomy and ecological significance of such associations have yet to be fully investigated. Two main end-member hypotheses are explored based on the study of a relatively wide variety of trace fossils preserved associated to Tuzoia carapaces from the middle Cambrian Burgess Shale in British Columbia. In the ecological Tuzoia garden hypothesis, the bacterially enriched surface of carapaces provides opportunities for intricate ecologic interactions among trophic levels. In the taphonomic shielding hypothesis, the trace fossil–carapace association results from preferential preservation of traces as controlled by compaction independent of any association in life. In an attempt to better understand the role of the carapace as a medium for preservation of trace fossils and to evaluate the effects of mechanical stress related to burial, a numerical model was developed. Results indicate that the carapace can shield underlying sediment from mechanical stress for a finite time, differentially protecting trace fossils during the initial phase of burial and compaction. However, this taphonomic model alone fails to fully explain relatively high-density assemblages displaying a diversity of structures spatially confined within the perimeter of carapaces or branching patterns recording re-visitation.
Highlights
The presence of trace fossils as a significant component of Burgess Shale-type deposits, better known for their exquisite preservation of soft-bodied animals, is rapidly gaining acceptance
The recent recovery of Small Carbonaceous Fossils (SCFs) from shallow marine siliciclastic deposits has revolutionized our understanding of the Cambrian meiobenthos, providing the oldest records of anostracan branchiopods, copepods and loriciferans, all of them with remarkably modern appearance [11,12]
As we demonstrate in this study, whereas deformational wrinkles of the pliable carapace can mimic simple trace fossils, the fine morphology and complexity of diminutive structures unquestionably indicate biogenicity
Summary
The presence of trace fossils as a significant component of Burgess Shale-type deposits, better known for their exquisite preservation of soft-bodied animals, is rapidly gaining acceptance. Such trace fossils offer a dynamic picture of ecological interactions among organisms and with their environment, representing unquestionable evidence of in situ animal life [1,2,3,4,5,6]. The vast majority of trace fossils associated with carapaces in Burgess Shale-type deposits are small, typically less than 1.5 mm wide, representing the activity of small macrofaunal and meiofaunal elements [3,4]. Meiofaunal components, comprising both permanent and temporary meiofauna (i.e. juvenile macrofauna), play a key role at multiple levels, from engaging in complex interactions with bacteria (both encouraging their proliferation and using them as a food source) to direct energy transfer to higher levels via predation [13]
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