Triassic sauropodomorph eggshell might not be soft

NORELL, M A; WIEMANN, J.; MENENDEZ, I.; FABBRI, M.; YU, CONGYU; CLAUDIA MARSICANO; MOORE-NALL, ANITA; VARRICCHIO, DAVID J.; POL, D; ZELENITSKY, DARLA K.

NATURE

NATURE PUBLISHING GROUP

Año: 2022 vol. 610 p. 11 - 13

0028-0836

In the accompanying Comment, Choi et al.1 dispute morphological, histological, geochemical and biomechanical evidence for a soft-shelled egg in Mussaurus2, an Early Jurassic sauropodomorph, based on three main assertions, namely that: (1) the carbonate signal associated with Mussaurus eggshell could represent original biomineral, despite its chemical and petrographic resemblance to the limy sediment matrix; (2) the endogenous N-, O- and S-heterocyclic polymers, which gener- ate the Mussaurus egg morphology and encode the biomineralization signal, might represent sedimentary kerogen (refuted in figure 2a of ref. 2) or graphitic carbon, which cannot possibly form under the pres- sure and temperature conditions in question3; (3) birefringence, which would indicate eggshell calcite, may be obscured in the thin section by organic matter (contra the previous claim suggesting only graphite might be preserved). Choi et al.1 disagree with our analyses of the Mussau- rus eggshell while ignoring the biomechanical evidence and compound maps presented in Norell et al.2 and accepting identical analyses for the Protoceratops eggshell1. Choi et al.1 did not perform new analyses, but scored the Mussaurus eggshell as hard on the basis of comparisons with hard-shelled but unrelated non-dinosaurian eggshell (Aenigmaoolithus) from a dissimilar age, region and volcanic setting4. They re-ran our ancestral state reconstruction without time scaling and obtained an ambiguous 52% probability of hard-shelled eggs in the ancestral dino- saur, in contrast to our inference of an ancestrally soft egg2.