A long-forgotten 'dinosaur' bone from a museum cabinet, uncovered to be a Japan's iconic extinct mammal, Paleoparadoxia (Desmostylia, Mammalia).

Here, we report a new 'discovery' of a desmostylian fossil in the geological collection at a national university in Japan. This fossil was unearthed over 60 years ago and donated to the university. Owing to the original hand-written note kept with the fossil in combination with interview investigation, we were able to reach two equally possible fossil sites in the town of Tsuchiyu Onsen, Fukushima. Through the interviews, we learned that the fossil was discovered during construction of a debris flow barrier and that it was recognized as a 'dinosaur' bone among the locals and displayed in the Village Hall before/until the town experienced a fire disaster in 1954. As scientific findings, the fossil was identified to be a right femur of Paleoparadoxia (Desmostylia), which shows well-preserved muscle scars on the surface. The age was estimated to be 15.9 Ma or younger in zircon-dating. This study shows an excellent case that historical and scientific significances could be extracted from long-forgotten uncatalogued specimens as long as the original information is retained with the specimens.

Molecular phylogeny of acantharian and polycystine radiolarians based on ribosomal DNA sequences, and some comparisons with data from the fossil record.

Polycystines (spumellarians, nassellarians, and collodarians), phaeodarians, and acantharians are marine planktonic protists that have been conventionally and collectively called "radiolaria". Recent molecular phylogenetic studies revealed radiolarian polyphyly with phaeodarians being a separate offshoot. Collodarians and nassellarians are also shown to form a monophyletic group, but other aspects of radiolarian phylogeny, such as interrelations among polycystines and acantharians, remained uncertain. Here, we present molecular phylogenetic analyses including new ribosomal RNA sequences from ten spumellarians and nine nassellarians, based on Bayesian and maximum-likelihood methods. Results indicate that the Polycystinea is a paraphyletic group, with Bayesian analysis suggesting that spumellarians form a clade with acantharians. The heliozoan-like protist Sticholonche appears as a sister to the spumellarian clade. The nassellarian Eucyrtidium is located outside the clade including the other nassellarians and collodarians. The mineralogy of the test of extant radiolarians and the tree topology obtained in this work suggest that acantharians and spumellarians evolved from an ancestor with a siliceous skeleton. Collodarians and nassellarians form a well-supported clade and one might infer from the fossil record that they may have diverged between the Jurassic and the Eocene.