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Main Authors: Laing, Brittany A., Mángano, M. Gabriela, Buatois, Luis A., Brock, Glenn A., Gougeon, Romain, Vestrum, Zoe, Strotz, Luke C., Koens, Lyndon
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.02940
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author Laing, Brittany A.
Mángano, M. Gabriela
Buatois, Luis A.
Brock, Glenn A.
Gougeon, Romain
Vestrum, Zoe
Strotz, Luke C.
Koens, Lyndon
author_facet Laing, Brittany A.
Mángano, M. Gabriela
Buatois, Luis A.
Brock, Glenn A.
Gougeon, Romain
Vestrum, Zoe
Strotz, Luke C.
Koens, Lyndon
contents Evaluating the timing and trajectory of sensory system innovations is crucial for understanding the increase in phylogenetic, behavioural, and ecological diversity during the Ediacaran-Cambrian transition. Elucidation of sensory adaptations has relied on either body-fossil evidence based on anatomical features or qualitative descriptions of trace-fossil morphology, leaving a gap in the record of sensory system innovations between the development of basic sensory capacities and that of more advanced sensory organs and brains. Here, we examine fossil movement trajectories of Ediacaran and Cambrian grazers for the presence of autocorrelation. Our analysis reveals a lack of temporal correlation in the studied Ediacaran trajectories and its presence in both analysed Cambrian trajectories, indicating time-tuned behaviours were in place by the early Cambrian. These results support the Cambrian Information Revolution hypothesis and indicates that increases in cognitive complexity and behavioural strategies were yet another important evolutionary innovation that occurred during the Ediacaran Cambrian transition.
format Preprint
id arxiv_https___arxiv_org_abs_2509_02940
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Remember when? Deciphering Ediacaran-Cambrian Metazoan behaviour and temporal memory using fossil movement paths
Laing, Brittany A.
Mángano, M. Gabriela
Buatois, Luis A.
Brock, Glenn A.
Gougeon, Romain
Vestrum, Zoe
Strotz, Luke C.
Koens, Lyndon
Biological Physics
Populations and Evolution
Quantitative Methods
Evaluating the timing and trajectory of sensory system innovations is crucial for understanding the increase in phylogenetic, behavioural, and ecological diversity during the Ediacaran-Cambrian transition. Elucidation of sensory adaptations has relied on either body-fossil evidence based on anatomical features or qualitative descriptions of trace-fossil morphology, leaving a gap in the record of sensory system innovations between the development of basic sensory capacities and that of more advanced sensory organs and brains. Here, we examine fossil movement trajectories of Ediacaran and Cambrian grazers for the presence of autocorrelation. Our analysis reveals a lack of temporal correlation in the studied Ediacaran trajectories and its presence in both analysed Cambrian trajectories, indicating time-tuned behaviours were in place by the early Cambrian. These results support the Cambrian Information Revolution hypothesis and indicates that increases in cognitive complexity and behavioural strategies were yet another important evolutionary innovation that occurred during the Ediacaran Cambrian transition.
title Remember when? Deciphering Ediacaran-Cambrian Metazoan behaviour and temporal memory using fossil movement paths
topic Biological Physics
Populations and Evolution
Quantitative Methods
url https://arxiv.org/abs/2509.02940