利用化石和现存的花粉和果实资料揭示活化石属红杜鹃(Styracaceae)的古生物地理历史。

Christa-Charlotte Hofmann, Wan-Yi Zhao
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引用次数: 0

摘要

背景:在始新世至上新世较温暖时期,从欧洲的果实和花粉化石中发现了残存的红杜鹃属(Styracaceae),其种类主要分布在东亚的暖温带至热带气候中。为了推断现存种与化石的亲缘关系最密切,本文比较了6个现存种的花粉和果实形态的新数据,以及另外的花粉化石和先前描述的果实化石的新数据。结果:化石花粉和果实的形态类似于现存种R. indochinense、R. kwantungense、R. macrocarpum和R. microcarpum的形态混合物,这表明这些现存分类群和化石欧洲分类群代表了一个古老的欧亚谱系,而现存的R. kweichowense和R. truongsonense的花粉和果实形态与化石和其他现存物种有很大的不同,可以认为是独立进化的。结论:红杜鹃花的古生物地理历史表明,其欧洲谱系的化石成员在古新世-始新世极热期(PETM)、早始新世极热期(EECO)和中中新世极热期(MMTM)等气候最佳时期最为突出。然而,在上新世期间,气候变得更冷、更不潮湿,该属在欧洲灭绝,但向东迁移,最有可能是在灭绝之前沿着特提斯海的两次分散事件中。在喜马拉雅山脉东南部,微卡彭r.m ocarpum的避难出现表明前者是最西端的垫脚石之一,而分布更偏东的大卡彭r.m ocarpum和光tungense类群可能在中新世之前就已经向东迁移了。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Unravelling the palaeobiogeographical history of the living fossil genus Rehderodendron (Styracaceae) with fossil and extant pollen and fruit data.

Unravelling the palaeobiogeographical history of the living fossil genus Rehderodendron (Styracaceae) with fossil and extant pollen and fruit data.

Unravelling the palaeobiogeographical history of the living fossil genus Rehderodendron (Styracaceae) with fossil and extant pollen and fruit data.

Unravelling the palaeobiogeographical history of the living fossil genus Rehderodendron (Styracaceae) with fossil and extant pollen and fruit data.

Background: The relict genus Rehderodendron (Styracaceae), the species of which are restricted to mostly warm temperate to tropical climate in East Asia today, is known from fossil fruits and pollen in Europe during warmer periods from the lower Eocene to Pliocene. To infer which extant species are most closely related to the fossils, new data of pollen and fruit morphologiesy of six extant species, and additional new data of fossil pollen and previously described fossil fruits of Rehderodendron, are compared.

Results: Both fossil pollen and fruits resemble a morphological mixture of the extant species R. indochinense, R. kwantungense, R. macrocarpum, and R. microcarpum, thus implying that these extant taxa and the fossil European taxa represent an old Eurasian lineage, whereas the pollen and fruit morphology of the extant R. kweichowense and R. truongsonense differ considerably from the fossils and other extant species investigated, and are considered to have evolved independently.

Conclusions: The palaeobiogeographical history of Rehderodendron reveals that its fossil members of the European lineage were most prominent during climatic optima such as the Palaeocene-Eocene Thermal Maximum (PETM), Early Eocene Climate Optimum (EECO) and Middle Miocene Thermal Maximum (MMTM). However, when during the Pliocene the climate changed to colder and less humid conditions, the genus went extinct in Europe but migrated eastwards, most likely in two dispersal events along the Tethys Sea prior to extinction. One of the former most westerly stepping stones is suggested by the refugial occurrence of R. microcarpum in the southeastern Himalaya, whereas R. macrocarpum and R. kwangtungense, the taxa distributed more to the east, might have migrated eastwards already before the Miocene.

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