Late Miocene Leaves and Endocarps of Choerospondias (Anacardiaceae) from Zhejiang, Eastern China: Implications for Paleogeography and Paleoclimate

Xiao, Liang; Wu, Zeling; Guo, Liyan; Li, Xiangchuan; Ji, Deshuang; Xia, Xiaoyuan; Wang, Jianan; Liang, Jiaqi; Sun, Nian X.

doi:10.3390/biology11101399

Cited by 6 publications

(6 citation statements)

References 56 publications

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“…Therefore, we had to consider all the traits. For the above reasons, the numerical taxonomy results are not entirely consistent with traditional taxonomy results, as also revealed in previous studies (Xin et al, 2019a;Xiao et al, 2020;Wang et al, 2022). Nevertheless, for this study, we believe that the significance or necessity of cluster analysis is that the consistency it shows with traditional taxonomy provides evidence for the validity of traditional taxonomy in quantitative analysis.…”

Section: Analysis Of Some Genera and Species Mixed In The Clustering ...contrasting

confidence: 59%

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Numerical taxonomy and genus-species identification of Czekanowskiales in China based on machine learning

Zhang,

Xin,

Yang

et al. 2024

Palaeontol Electron

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Czekanowskiales were the main component of the global Mesozoic flora and were sensitive to changes in the climate and environment during that period. However, accurate identification of Czekanowskiales fossils is difficult due to the similarities in some macroscopic and cuticular patterns among different genera and species. In the present study, a dataset of macroscopic and cuticular traits was collated based on the Czekanowskiales fossils from China. This study focused on the numerical taxonomy and identification of Czekanowskiales at the generic and species levels using cluster analysis, trait selection, and supervised learning methods for machine learning. Our results show that the studied 35 species can be clustered into three major groups, as consistent in a great extent with traditional taxonomic methods. Macroscopic traits are more important for the identification at the generic level, while cuticular traits are more valuable for the identification at the species level. The classification and regression tree as well as logistic regression algorithms demonstrated superior performance in the genus and species identification, and the inclusion of cuticular traits could significantly improve the accuracy of identification. This study provides quantitative analytical evidence for the taxonomy of Czekanowskiales fossils.

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Section: Analysis Of Some Genera and Species Mixed In The Clustering ...contrasting

confidence: 59%

“…However, most related studies have been dedicated to individual genera and species, with relatively limited emphasis on systematic and taxonomic concerns. Additionally, only a few studies have incorporated quantitative identification (Xin et al, 2019a;Xiao et al, 2020;Wang et al, 2022).…”

Section: Introductionmentioning

confidence: 99%

Numerical taxonomy and genus-species identification of Czekanowskiales in China based on machine learning

Zhang,

Xin,

Yang

et al. 2024

Palaeontol Electron

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“…Toupi flora Shengxian Flora TABLE 5. The taxonomic composition of the Toupi flora and Shengxian flora (macro fossil in genera level); data after Ding, 2011;He, 2019;He and Wang, 2021;Xiao et al, 2022, and this study.…”

Section: Toupi Flora Shengxian Floramentioning

confidence: 81%

Leaf trait data of two Miocene floras from eastern China and its palaeoclimate implications

Roth‐Nebelsick²,

Sun

2023

Palaeontol Electron

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The study of Neogene palaeoclimate supports our understanding of effects and consequences of current climate changes. However, many aspects and details of Miocene climate development are still unclear. Fossil leaves are a valuable and rich source of palaeoclimate proxy data. In this contribution, two Miocene leaf assemblages from eastern China, the Toupi flora and the Shengxian flora, were studied with respect to palaeoclimate and leaf economics. Whereas the Shengxian flora is dated to the lower Tortonian, the Toupi flora dates to approximately the border between Burdigalian and Langhian. For palaeoclimate, Climate Leaf Analysis Multivariate Program (CLAMP) was applied. In addition, Leaf Mass per Area (LMA), an essential leaf trait strongly correlated to leaf longevity, was included and was calculated morphometrically. For both sites, the data indicated a principally warm and humid climate, with Mean Annual Temperature (MAT) values between 13 and 17 °C. Also, the LMA indicates evergreen vegetation for both sites, consistent with the identified fossils and palaeoclimate. For Shengxian, however, this study concludes there was a lower temperature in the cooler season. This might possibly indicate a stronger temperature seasonality for this site due to slight climate cooling and East Asian monsoon intensification from the middle to late Miocene.

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“…Additionally, the Shengxian Formation flora yielded abundant broadleaved angiospermous plants and a few ferns exhibiting different growth habits, e.g., arborescent Quercus L. ( Jia et al., 2015 ), Ormosia Jacks ( Li et al., 2021 ), Choerospondias Burtt et Hill ( Xiao et al., 2022 ) and Liquidambar L. ( Xiao et al., 2011 ), liana Diploclisia Miers ( Jia et al., 2020 ) and Smilax L. ( Ding et al., 2011 ), shrubby Ilex L. ( Li et al., 2010 ), aquatic Salvinia Seg. and Trapa L. ( Li and Guo, 1982 ).…”

Section: Discussionmentioning

confidence: 99%

Late Miocene Leaves and Endocarps of Choerospondias (Anacardiaceae) from Zhejiang, Eastern China: Implications for Paleogeography and Paleoclimate

Cited by 6 publications

References 56 publications

Numerical taxonomy and genus-species identification of Czekanowskiales in China based on machine learning

Numerical taxonomy and genus-species identification of Czekanowskiales in China based on machine learning

Leaf trait data of two Miocene floras from eastern China and its palaeoclimate implications

A novel seed cone of Pinus from the Miocene of coastal Southeast China indicates kinship with Southeast Asian pines

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