Abstract
The occurrence of dinosaur pathologic eggs in the Late Cretaceous of Europe is well known, but their origin remains unclear. Here we expose the results of a detailed sampling of the conspicuous fossil record of Late Cretaceous titanosaurian eggs (oogenus Megaloolithius) from several southwestern Europe basins. After examining more than 450 samples, we observed a remarkable and statistically supported occurrence of multiple pathologic eggs in a relatively short stratigraphic range at the end of the early Maastrichtian, circa 71-70 Ma. All pathologic specimens exhibit multi-layered eggshell condition, a characteristic related to dystocia, or egg retention within the female uterus for an abnormal prolonged period of time. After exploring various scenarios, the occurrence of pathologic eggs is strongly correlated with an intense dinosaur faunal replacement that occurred during the early Maastrichtian in the Ibero-Armorican Island. Given that inter-species competiveness is proved to produce major affects in ecological communities, our results suggest that pathologies in the eggs of European titanosaurians could be a consequence of an increase in reproductive stress triggered by direct ecological competition between different dinosaurs. Thus, the present study provides a new perspective of how dinosaurs might have been affected by ecological/environmental disturbance.
Highlights
The fossil record offers several examples of pathologic oological remains, especially in dinosaurs[9,10,11,12,13,14], but very few convincing hypotheses are proposed to explain their origin
The relatively short stratigraphic range of pathologic eggshell occurrences in the southwestern European basins suggest that they were produced as a consequence of a very particular event that mainly affected titanosaurian sauropods
Hypothesis 1, pathologic eggs result from an increase of reproductive stress by environmental changes
Summary
The fossil record offers several examples of pathologic oological remains, especially in dinosaurs[9,10,11,12,13,14], but very few convincing hypotheses are proposed to explain their origin In this regard, the Upper Cretaceous formations of southwestern Europe offer an exceptional continuous record of pathologic megaloolithid egg[14,15,16,17] (but see[18]; Fig. 1, Supplementary Information), an egg type attributed to titanosaurian sauropods[19,20,21]. We provide substantial evidence that abnormal eggs were the consequence of an intense ecological perturbation
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