TAPHONOMY OF THE GREATER PHYLLOPOD BED COMMUNITY, BURGESS SHALE

doi:10.2110/palo.2003.P05-070R

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TAPHONOMY OF THE GREATER PHYLLOPOD BED COMMUNITY, BURGESS SHALE

JEAN-BERNARD CARON¹^,2^,1 and DONALD A. JACKSON¹

¹ Department of Zoology, University of Toronto, Toronto, Ontario, M5S 3G5, Canada jcaron{at}rom.on.ca

The degree to which the original community composition of theMiddle Cambrian Burgess Shale was altered through transportand decay and how taphonomic conditions varied through timeand across taxa is poorly understood. To address these issues,variation in fossil preservation was analyzed through a verticalsuccession of 26 bed assemblages, each representing a singleobrution event, within the 7-m-thick Greater Phyllopod Bed ofthe Walcott Quarry. More than 50,000 specimens belonging to158 genera—mostly benthic, monospecific and nonbiomineralized—wereincluded in this analysis. The decay gradient of the polychaeteBurgessochaeta setigera was used as a taphonomic threshold toestimate how far decay had proceeded in each bed assemblage.

Qualitative comparisons of the degree of preservation of 15species, representing an array of different body plans, demonstratethat all bed assemblages contain a mix of articulated and insitu dissociated or completely dissociated organisms interpretedrespectively as census- and time-averaged assemblages. Furthermore:(1) most organisms studied were preserved within their habitatand only slightly disturbed during burial; (2) most decay processestook place prior to burial and resulted in disarticulation oforganisms at the time of burial; (3) the degree of disarticulationwas variable within individuals of the same population and betweenpopulations; and (4) early mineralization of tissues acrossall body plans occurred soon after burial.

Canonical correspondence analysis summarizes the apparent variationsin the amount of preburial decay, or time averaging, acrossspecies, individuals, and bed assemblages. The effect of timeaveraging, however, must have been limited because rarefactioncurves reveal no link between decay and species richness. Thissuggests that decay is not an important community controllingfactor. Overall, our data suggest that transport was trivialand the traditional distinction between a pre- and postslideenvironment is unnecessary. It is likely that all specimenspresent at the time of burial would have been preserved independentof their original tissue composition and degree of preburialdecay.

The presence of extensive sheets of Morania confluens, a putativebenthic cyanobacterium, in most bed assemblages suggests thatit: (1) provided a stable substrate and food source for a numberof benthic metazoans, and (2) played a possible role in thepreservation of nonbiomineralized animals, acting as a barrierin maintaining local anoxic pore-water conditions.

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