Fossil leaves of Berhamniphyllum (Rhamnaceae) from Markam, Tibet and their biogeographic implications

A new occurrence of buckthorn fossil leaves is reported from the upper Eocene strata of Markam Basin, southeastern Tibet, China. The leaf margin is either entire or slightly sinuous. Secondary veins are regularly spaced, forming eucamptodromous venation. These secondaries exist as straight lines fro...

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Published in:Science China Earth Sciences
Main Authors: Zhou, Z., Wang, T., Huang, J., Liu, J., Deng, W., Li, S., Deng, C., Su, T.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2020
Subjects:
Bering Land Bridge
North Atlantic
Online Access:https://eprints.lancs.ac.uk/id/eprint/148013/
https://doi.org/10.1007/s11430-019-9477-8
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spelling ftulancaster:oai:eprints.lancs.ac.uk:148013 2023-08-27T04:08:44+02:00 Fossil leaves of Berhamniphyllum (Rhamnaceae) from Markam, Tibet and their biogeographic implications Zhou, Z. Wang, T. Huang, J. Liu, J. Deng, W. Li, S. Deng, C. Su, T. 2020-02-01 https://eprints.lancs.ac.uk/id/eprint/148013/ https://doi.org/10.1007/s11430-019-9477-8 unknown Zhou, Z. and Wang, T. and Huang, J. and Liu, J. and Deng, W. and Li, S. and Deng, C. and Su, T. (2020) Fossil leaves of Berhamniphyllum (Rhamnaceae) from Markam, Tibet and their biogeographic implications. Science China Earth Sciences, 63 (2). pp. 224-234. ISSN 1674-7313 Journal Article PeerReviewed 2020 ftulancaster https://doi.org/10.1007/s11430-019-9477-8 2023-08-03T22:38:48Z A new occurrence of buckthorn fossil leaves is reported from the upper Eocene strata of Markam Basin, southeastern Tibet, China. The leaf margin is either entire or slightly sinuous. Secondary veins are regularly spaced, forming eucamptodromous venation. These secondaries exist as straight lines from midvein to near margin and then arch abruptly upward and enter into a margin vein. The tertiary veins are densely spaced and parallel, and are percurrent to secondary veins. This leaf architecture conforms with Berhamniphyllum Jones and Dilcher, an extinct fossil genus reported from America. Our fossils are characterized by their dense secondaries, with secondary veins on the upper half portion of the blade accounting for over 40% of all secondaries. A new species, Berhamniphyllum junrongiae Z. K. Zhou, T. X. Wang et J. Huang sp. nov., is proposed. Further analysis shows that confident assignment among Rhamnidium, Berchemia, and Karwinskia cannot be made based on leaf characters alone. Berhamniphyllum might represent an extinct common ancestor of these genera. In this study, several fossil Berchemia from Yunnan and Shandong are emended and reassigned to Berhamniphyllum. A new complex, namely the Berchemia Complex, is proposed based on morphology, molecular evidence, and the fossil record. This complex contains the fossil leaves of Rhamnidium, Karwinskia, Berchemia, and Berhamniphyllum. The historical biogeography of the Berchemia Complex is also discussed in this paper. This complex might have originated in the late Cretaceous in Colombia, South America, and dispersed to North America via Central America during the Eocene. Subsequently, the complex moved from North America to East Asia via the Bering Land Bridge no later than the late Eocene. Besides, the complex migrated from North America to Europe via the North Atlantic Land Bridge and then migrated further to Africa. In East Asia, it first appeared in Markam on the Qinghai-Tibetan Plateau, and then dispersed to other regions of Asia. Article in Journal/Newspaper Bering Land Bridge North Atlantic Lancaster University: Lancaster Eprints Science China Earth Sciences 63 2 224 234
institution Open Polar
collection Lancaster University: Lancaster Eprints
op_collection_id ftulancaster
language unknown
description A new occurrence of buckthorn fossil leaves is reported from the upper Eocene strata of Markam Basin, southeastern Tibet, China. The leaf margin is either entire or slightly sinuous. Secondary veins are regularly spaced, forming eucamptodromous venation. These secondaries exist as straight lines from midvein to near margin and then arch abruptly upward and enter into a margin vein. The tertiary veins are densely spaced and parallel, and are percurrent to secondary veins. This leaf architecture conforms with Berhamniphyllum Jones and Dilcher, an extinct fossil genus reported from America. Our fossils are characterized by their dense secondaries, with secondary veins on the upper half portion of the blade accounting for over 40% of all secondaries. A new species, Berhamniphyllum junrongiae Z. K. Zhou, T. X. Wang et J. Huang sp. nov., is proposed. Further analysis shows that confident assignment among Rhamnidium, Berchemia, and Karwinskia cannot be made based on leaf characters alone. Berhamniphyllum might represent an extinct common ancestor of these genera. In this study, several fossil Berchemia from Yunnan and Shandong are emended and reassigned to Berhamniphyllum. A new complex, namely the Berchemia Complex, is proposed based on morphology, molecular evidence, and the fossil record. This complex contains the fossil leaves of Rhamnidium, Karwinskia, Berchemia, and Berhamniphyllum. The historical biogeography of the Berchemia Complex is also discussed in this paper. This complex might have originated in the late Cretaceous in Colombia, South America, and dispersed to North America via Central America during the Eocene. Subsequently, the complex moved from North America to East Asia via the Bering Land Bridge no later than the late Eocene. Besides, the complex migrated from North America to Europe via the North Atlantic Land Bridge and then migrated further to Africa. In East Asia, it first appeared in Markam on the Qinghai-Tibetan Plateau, and then dispersed to other regions of Asia.
format Article in Journal/Newspaper
author Zhou, Z.
Wang, T.
Huang, J.
Liu, J.
Deng, W.
Li, S.
Deng, C.
Su, T.
spellingShingle Zhou, Z.
Wang, T.
Huang, J.
Liu, J.
Deng, W.
Li, S.
Deng, C.
Su, T.
Fossil leaves of Berhamniphyllum (Rhamnaceae) from Markam, Tibet and their biogeographic implications
author_facet Zhou, Z.
Wang, T.
Huang, J.
Liu, J.
Deng, W.
Li, S.
Deng, C.
Su, T.
author_sort Zhou, Z.
title Fossil leaves of Berhamniphyllum (Rhamnaceae) from Markam, Tibet and their biogeographic implications
title_short Fossil leaves of Berhamniphyllum (Rhamnaceae) from Markam, Tibet and their biogeographic implications
title_full Fossil leaves of Berhamniphyllum (Rhamnaceae) from Markam, Tibet and their biogeographic implications
title_fullStr Fossil leaves of Berhamniphyllum (Rhamnaceae) from Markam, Tibet and their biogeographic implications
title_full_unstemmed Fossil leaves of Berhamniphyllum (Rhamnaceae) from Markam, Tibet and their biogeographic implications
title_sort fossil leaves of berhamniphyllum (rhamnaceae) from markam, tibet and their biogeographic implications
publishDate 2020
url https://eprints.lancs.ac.uk/id/eprint/148013/
https://doi.org/10.1007/s11430-019-9477-8
genre Bering Land Bridge
North Atlantic
genre_facet Bering Land Bridge
North Atlantic
op_relation Zhou, Z. and Wang, T. and Huang, J. and Liu, J. and Deng, W. and Li, S. and Deng, C. and Su, T. (2020) Fossil leaves of Berhamniphyllum (Rhamnaceae) from Markam, Tibet and their biogeographic implications. Science China Earth Sciences, 63 (2). pp. 224-234. ISSN 1674-7313
op_doi https://doi.org/10.1007/s11430-019-9477-8
container_title Science China Earth Sciences
container_volume 63
container_issue 2
container_start_page 224
op_container_end_page 234
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