Authors
Richards, J., Ortega-Hernandez, J.
Abstract
The early Paleozoic saw a dramatic diversification of shelly epibenthic metazoans adapted to suspension and filter-feeding, but the extent to which these radiations affected the evolution of non-biomineralized suspension-feeding taxa is uncertain because these organisms are not typically well represented in the fossil record. Luolishaniids are a highly derived and disparate clade of (typically) armoured lobopodians widely interpreted as having a suspension-feeding ecology based on the presence of five or six anterior pairs of setulose appendages. Luolishaniids are globally widespread and represent the only Cambrian non-biomineralized free living epibenthic bilaterians regarded as having a suspension feeding mode of life, but their proposed ecology only relies on a qualitative interpretation of their functional morphology. Here we test the hypothesis that the setulose appendages of luolishaniids were adapted for a suspension feeding function. Quantitative morphological comparisons reveal a positive and statistically significant relationship between body length and the mesh spacing of the setulose anterior limbs of luolishaniids. This pattern correlates with suspension-feeding scaling in extant aquatic organisms, and suggests that luolishaniids primarily fed on mesoplanktonic seston. We provide quantitative evidence for suspension-feeding in luolishaniids, which represents the first statistically supported example of modern-like predator-prey scaling patterns observed in Cambrian soft-bodied metazoans.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 07 Nov 2025.
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