TY - JOUR
T1 - Late Pleistocene hares of the Japanese archipelago
T2 - Paleobiogeographic implication at the Last Glacial Maximum
AU - Sawaura, Ryohei
AU - Sawada, Junmei
AU - Sato, Takao
AU - Suzuki, Toshihiko
AU - Sasaki, Keiichi
N1 - Funding Information:
We wish to express our gratitude to the late Prof. Yoshito Abe (Keio University), who gave us the opportunity to study materials from the Shitsukari‐Abe cave. We also thank Dr. Masaru Kato (Hokkaido University) and Dr. Shin‐ichiro Kawada (National Museum of Nature and Science), who facilitated our access to extant specimens. Our use of micro‐CT was facilitated by Prof. Yasuyuki Sasano, Dr. Yoshinaka Shimizu, and Mr. Masaki Morikawa (Tohoku University). Meanwhile, Prof. Yoshinari Kawamura (Aichi University of Education) and Dr. Ai Kawamura (Osaka City University) provided valuable advice essential to the completion of this study. We would also like to express our gratitude to Prof. Hiroyuki Ichikawa (Tohoku University), Prof. Takashi Nara (Niigata University of Health and Welfare), and Prof. Takehiko Watanabe (Keio University) for their continued support of our research. Finally, we would like to acknowledge the numerous helpful comments provided by Maxime Pelletier and two anonymous reviewers. This work was supported by JSPS KAKENHI Grants 16H03106 and 25284152 (head researcher: Takao Sato), 21320147 (head researcher: Yoshito Abe), and 16J02713 (head researcher: Ryohei Sawaura), as well as DIARE funds for doctoral course students (recipient: Ryohei Sawaura).
Publisher Copyright:
Copyright © 2018 John Wiley & Sons, Ltd.
PY - 2018/3/1
Y1 - 2018/3/1
N2 - The Tsugaru Strait is often referred to as Blakiston's Line in biogeography. Although this strait is thought to have become narrower during the Last Glacial Maximum, it did not close completely to form a land bridge. Sea-level drawdown associated with cooling nevertheless weakened the influence of the Tsugaru Strait as a barrier to faunal migration. The currently accepted hypothesis is that only some large and highly mobile ungulates were able to migrate to Honshu over this strait to the exclusion of small mammals. However, this remains problematic as very few fossils corroborate this idea, and quantitative identification methods for use with tiny fragments of teeth have not been developed. In this study, we determine which of the species Lepus timidus (now distributed on Hokkaido and to the north) and Lepus brachyurus (now mainly distributed on Honshu, Shikoku, and Kyushu) can accurately be identified within a sample of Late Pleistocene Lepus sp. fossils recently unearthed from the Shitsukari-Abe cave to the immediate south of the Tsugaru Strait. This is because we are unable to exclude the possibility that these fossils are referable to L. timidus on the basis of site location alone. Thus, utilising images of mandibular third premolar teeth obtained via microcomputed tomography scanning, we report (a) linear measurements, (b) a survey of the frequency of appearance of nonmetric traits, and (c) principal component analysis using landmark methods. The results show that fossil representatives of the genus Lepus can be differentiated from extant L. timidus and closely resemble L. brachyurus. Considering the past allopatric distribution of the 2 species suggested by other studies as well as fossil records around the Tsugaru Strait, this result corroborates the existing hypothesis that only large and highly mobile ungulates were able to navigate the Tsugaru Strait.
AB - The Tsugaru Strait is often referred to as Blakiston's Line in biogeography. Although this strait is thought to have become narrower during the Last Glacial Maximum, it did not close completely to form a land bridge. Sea-level drawdown associated with cooling nevertheless weakened the influence of the Tsugaru Strait as a barrier to faunal migration. The currently accepted hypothesis is that only some large and highly mobile ungulates were able to migrate to Honshu over this strait to the exclusion of small mammals. However, this remains problematic as very few fossils corroborate this idea, and quantitative identification methods for use with tiny fragments of teeth have not been developed. In this study, we determine which of the species Lepus timidus (now distributed on Hokkaido and to the north) and Lepus brachyurus (now mainly distributed on Honshu, Shikoku, and Kyushu) can accurately be identified within a sample of Late Pleistocene Lepus sp. fossils recently unearthed from the Shitsukari-Abe cave to the immediate south of the Tsugaru Strait. This is because we are unable to exclude the possibility that these fossils are referable to L. timidus on the basis of site location alone. Thus, utilising images of mandibular third premolar teeth obtained via microcomputed tomography scanning, we report (a) linear measurements, (b) a survey of the frequency of appearance of nonmetric traits, and (c) principal component analysis using landmark methods. The results show that fossil representatives of the genus Lepus can be differentiated from extant L. timidus and closely resemble L. brachyurus. Considering the past allopatric distribution of the 2 species suggested by other studies as well as fossil records around the Tsugaru Strait, this result corroborates the existing hypothesis that only large and highly mobile ungulates were able to navigate the Tsugaru Strait.
KW - Blakiston's Line
KW - Paleolithic site
KW - genus Lepus
KW - geometric morphometrics
KW - mandibular third premolar
KW - microcomputed tomography
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U2 - 10.1002/oa.2645
DO - 10.1002/oa.2645
M3 - Article
AN - SCOPUS:85043452581
SN - 1047-482X
VL - 28
SP - 179
EP - 187
JO - International Journal of Osteoarchaeology
JF - International Journal of Osteoarchaeology
IS - 2
ER -