ナノティラヌス化石でTレックス進化史が再構築（Nanotyrannus Confirmed: Dueling Dinosaurs Fossil Rewrites the Story of T. rex）

2025-10-30 ノースカロライナ州立大学（NC State）

A pack of Nanotyrannus brazenly attacks a juvenile T. rex. Illustration by Anthony Hutchings.

＜関連情報＞

• https://news.ncsu.edu/2025/10/nanotyrannus-confirmed-dueling-dinosaurs-fossil-rewrites-the-story-of-t-rex/
• https://www.nature.com/articles/s41586-025-09801-6

ナノティラヌスとティラノサウルスは白亜紀末期に共存していた Nanotyrannus and Tyrannosaurus coexisted at the close of the Cretaceous

Lindsay E. Zanno & James G. Napoli
Nature  Published:30 October 2025
DOI:https://doi.org/10.1038/s41586-025-09801-6

Abstract

Tyrannosaurus rex ranks among the most comprehensively studied extinct vertebrates¹ and a model system for dinosaur paleobiology¹. As one of the last surviving non-avian dinosaurs, Tyrannosaurus is a crucial datum for assessing terrestrial biodiversity, ecosystem structure, and biogeographic exchange immediately preceding the end-Cretaceous mass extinction —one of Earth’s greatest biological catastrophes. Paleobiological studies of Tyrannosaurus, including ontogenetic niche partitioning^2-4, feeding, locomotor biomechanics,^5,6and life history^7-9 have drawn upon an expanding skeletal sample comprising multiple hypothesized growth stages—and yet the Tyrannosaurus hypodigm remains controversial^10-13. A key outstanding question relates to specimens considered to exemplify immature Tyrannosaurus^1,14-19, which have been argued to represent the distinct taxon Nanotyrannus^11,13,20,21. Here, we describe an exceptionally well-preserved, near somatically mature tyrannosaur skeleton (NCSM 40000) from the Hell Creek Formation that shares autapomorphies with the holotype specimen of N. lancensis. We couple comparative anatomy, longitudinal growth models, observations on ontogenetic character invariance, and a novel phylogenetic dataset to test the validity of Nanotyrannus, demonstrating conclusively that this taxon is distinguishable from Tyrannosaurus, sits outside Tyrannosauridae, and unexpectedly contains two species—N. lancensis and N. lethaeus, sp. nov. Our results prompt a re-evaluation of dozens of existing hypotheses based on currently indefensible ontogenetic trajectories. Finally, we document at least two co-occurring, ecomorphologically distinct genera in the Maastrichtian of North America, demonstrating that tyrannosauroid alpha diversity was thriving within one million years of the end-Cretaceous extinction.