Respiratory medium and circulatory anatomy constrain size evolution in marine macrofauna

Noel Heim, Saket Bakshi, Loc Buu, Stephanie Chen, Shannon Heh, Ashli Jain, Christopher Noll, Ameya Patkar, Noah Rizk, Sriram Sundararajan, Isabella Villante, Matthew Knope & Jonathan Payne
The typical marine animal has increased in biovolume by more than two orders of magnitude since the beginning of the Cambrian, but the causes of this trend remain unknown. We test the hypothesis that the efficiency of intra-organism oxygen delivery is a major constraint on body size evolution in marine animals. To test this hypothesis, we compiled a dataset comprising 13,723 marine animal genera spanning the Phanerozoic. We coded each genus according to its respiratory...
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These counts follow the COUNTER Code of Practice, meaning that Internet robots and repeats within a certain time frame are excluded.
What does this mean?