Abstract
China took great efforts to reforestation, even turned the long-term forest loss into a net gain, but this cannot hide the loss of species diversity due to destruction of primary forests, habitat loss, invasion of alien species, and over exploitation. Here we provide such a case by recording a dying tree species of Lauraceae from the evergreen forests of SE Yunnan of China and adjoining Vietnam. We made field collections and observations for four consecutive years from 2009 to 2012. Phylogenetic analyses were conducted based on a combined dataset from nrITS and plastid trnL-trnF region, rpl16 intron, and psbA-trnH spacer. The results indicate that the Asiatic Beilschmiedia and Syndiclis are reciprocally monophyletic with Endiandra as a sister group, and both morphology and molecular phylogeny clearly suggest that the new species belongs to Beilschmiedia. Thus Beilschmiedia turbinata Bing Liu et Y. Yang is illustrated and described as new to science, color plates, line drawings, distribution map and comparison with related species are provided. This new species is similar to B. yunnanensis in the small and ferruginous-brown tomentose terminal buds, elliptic to oblong-lanceolate and alternate or subopposite leaves bearing the fine veinlet reticulation, but differs from the latter by the smaller flowers, the eglandular stamens of the third whorl, and the large turbinate furfuraceous fruits.
Highlights
Global biodiversity loss is a serious problem due to habitat loss, overexploitation, biological invasion, pollution, and global climate change according to the Millennium Ecosystem Assessment [1], and it is the case in China as well
Beilschmiedia yunnanensis Hu is close to the new species in morphology, and the two species were compared in detail
The result indicates that Syndiclis and Beilschmiedia are reciprocally monophyletic with the monophyletic Endiandra as outgroup, and Beilschmiedia turbinata clearly belongs to Beilschmiedia, though the position of the species is not well resolved within the genus (Fig. 4)
Summary
Global biodiversity loss is a serious problem due to habitat loss, overexploitation, biological invasion, pollution, and global climate change according to the Millennium Ecosystem Assessment [1], and it is the case in China as well. To determine the generic ascription of our new species, we sampled twelve species of Asiatic Beilschmiedia, two Endiandra, and four Syndiclis, which is the most extensive sampling of the Beilschmiedia group far, no DNA analysis has been applied in Lauraceae to determine the taxonomic ascription of newly described species far. Both nuclear ribosomal ITS and chloroplast DNA fragments (trnL-trnF, rpl and psbA-trnH) were sequenced. This phylogenetic study is helpful to determine the taxonomic position of the newly recorded species in addition to morphological evidence
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