[1] |
Bao-Xia Du, Ming-Zhen Zhang, Jing Zhang, Ai-Jing Li, Shao-Hua Lin, Guo-Rong Ma, and Jian-Guo Hui.
Herbaceous eudicot Fairlingtonia from the Lower Cretaceous of Jiuquan Basin, Northwest China and its radiation in Laurasia
[J]. J Syst Evol, 2023, 61(6): 1065-1078.
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[2] |
Chao‐Qiang Zhang, Yi‐Wei Tang, De‐Feng Tian, Yan‐Yan Huang, Guang‐Hui Yang, Peng Nan, Yu‐Guo Wang, Ling‐Feng Li, Zhi‐Ping Song, Ji Yang, Yang Zhong, and Wen‐Ju Zhang.
Extremely high diversity and endemism of chlorotypes in Wikstroemia monnula Hance (Thymelaeaceae) shed light on the effects of habitat heterogeneity on intraspecific differentiation in southeast China
[J]. J Syst Evol, 2023, 61(2): 399-413.
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[3] |
Cédric Del Rio, Teng-Xiang Wang, Shu-Feng Li, Lin-Bo Jia, Pei-Rong Chen, Robert A. Spicer, Fei-Xiang Wu, Zhe-Kun Zhou, and Tao Su.
Fruits of Firmiana and Craigia (Malvaceae) from the Eocene of the Central Tibetan Plateau with emphasis on biogeographic history
[J]. J Syst Evol, 2022, 60(6): 1440-1452.
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[4] |
Xiao-Yan Liu, Steven R. Manchester, Andrew C. Rozefelds, Cheng Quan, and Jian-Hua Jin.
First fossil fruits of Elaeocarpus (Elaeocarpaceae) in East Asia: Implications for phytogeography and paleoecology
[J]. J Syst Evol, 2022, 60(2): 456-471.
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[5] |
Cédric Del Rio, Jian Huang, Gregory W. Stull, Rémi Allemand, Zhe-Kun Zhou, and Tao Su.
First macrofossil record of Icacinaceae in East Asia (early Oligocene, Wenshan Basin) and its ecological implications
[J]. J Syst Evol, 2022, 60(2): 445-455.
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[6] |
Xiao-Yan Liu, Yong-Dong Wang, Li Wang, Ning Zhou, Li-Qin Li, and Jian-Hua Jin.
Fossil pinnae, sporangia, and spores of Osmunda from the Eocene of South China and their implications for biogeography and paleoecology
[J]. J Syst Evol, 2022, 60(1): 220-234.
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[7] |
Sheng-Lan Xu, Tatiana M. Kodrul, Yan Wu, Natalia P. Maslova, and Jian-Hua Jin.
Early Oligocene fruits and leaves of Burretiodendron (Malvaceae s.l.) from South China
[J]. J Syst Evol, 2021, 59(5): 1100-1110.
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[8] |
Dan Xie, Bo Liu, Li-Na Zhao, Tirtha Raj Pandey, Hui-Yuan Liu, Zhang-Jian Shan, and Hai-Ning Qin.
Diversity of higher plants in China
[J]. J Syst Evol, 2021, 59(5): 1111-1123.
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[9] |
Julian R. Starr, Pedro Jiménez-Mejías, Alexandre R. Zuntini, Étienne Léveillé-Bourret, Ilias Semmouri, Muthama Muasya, William J. Baker, Grace E. Brewer, Niroshini Epitawalage, Isabel Fairlie, Félix Forest, Izai A. B. Sabino Kikuchi, Lisa Pokorny, and Isabel Larridon.
Targeted sequencing supports morphology and embryo features in resolving the classification of Cyperaceae tribe Fuireneae s.l.
[J]. J Syst Evol, 2021, 59(4): 809-832.
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[10] |
Tamara Villaverde, Enrique Maguilla, Modesto Luceño, and Andrew L. Hipp.
Assessing the sensitivity of divergence time estimates to locus sampling, calibration points, and model priors in a RAD-seq phylogeny of Carex section Schoenoxiphium
[J]. J Syst Evol, 2021, 59(4): 687-697.
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[11] |
Global Carex Group, Eric H. Roalson, Pedro Jiménez-Mejías, Andrew L. Hipp, Carmen Benítez-Benítez, Leo P. Bruederle, Kyong-Sook Chung, Marcial Escudero, Bruce A. Ford, Kerry Ford, Sebastian Gebauer, Berit Gehrke, Marlene Hahn, Muhammad Qasim Hayat, Mathias H. Hoffmann, Xiao-Feng Jin, Sangtae Kim, Isabel Larridon, Étienne Léveillé-Bourret, Yi- Fei Lu, Modesto Luceño, Enrique Maguilla, Jose Ignacio Márquez-Corro, Santiago Martín-Bravo, Tomomi Masaki, Mónica Míguez, Robert F. C. Naczi, Anton A. Reznicek, Daniel Spalink, Julian R. Starr, Uzma, Tamara Villaverde, Marcia J. Waterway, Karen L. Wilson, and Shu-Ren Zhang.
A framework infrageneric classification of Carex (Cyperaceae) and its organizing principles
[J]. J Syst Evol, 2021, 59(4): 726-762.
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[12] |
Jocelyn E. Pender, Andrew L. Hipp, Marlene Hahn, and Julian R. Starr.
Trait evolution rates shape continental patterns of species richness in North America's most diverse angiosperm genus (Carex, Cyperaceae)
[J]. J Syst Evol, 2021, 59(4): 763-775.
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[13] |
Malene Nygaard, Petri Kemppainen, James D. M. Speed, Reidar Elven, Kjell Ivar Flatberg, Leif P. Galten, Narjes Yousefi, Heidi Solstad, and Mika Bendiksby.
Combining population genomics and ecological niche modeling to assess taxon limits between Carex jemtlandica and C. lepidocarpa
[J]. J Syst Evol, 2021, 59(4): 627-641.
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[14] |
Isabel Larridon, Alexandre R. Zuntini, Étienne Léveillé-Bourret, Russell L. Barrett, Julian R. Starr, A. Muthama Muasya, Tamara Villaverde, Kenneth Bauters, Grace E. Brewer, Jeremy J. Bruhl, Suzana M. Costa, Tammy L. Elliott, Niroshini Epitawalage, Marcial Escudero, Isabel Fairlie, Paul Goetghebeur, Andrew L. Hipp, Pedro Jiménez-Mejías, Izai A.B. Sabino Kikuchi, Modesto Luceño, José Ignacio Márquez-Corro, Santiago Martín-Bravo, Olivier Maurin, Lisa Pokorny, Eric H. Roalson, Ilias Semmouri, David A. Simpson, Daniel Spalink, W. Wayt Thomas, Karen L. Wilson, Martin Xanthos, Félix Forest, and William J. Baker.
A new classification of Cyperaceae (Poales) supported by phylogenomic data
[J]. J Syst Evol, 2021, 59(4): 852-895.
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[15] |
Yi-Fei Lu, Xiao-Feng Jin, Hiroshi Ikeda, Okihito Yano, Carmen Benítez-Benítez, Wei-Jie Chen, Yong-Di Liu, Pedro Jiménez-Mejías, and Ming-Jian Yu.
Revisiting of Carex sect. Confertiflorae s.l. (Cyperaceae): New data from molecular and morphological evidence and first insights on Carex biogeography in East Asia
[J]. J Syst Evol, 2021, 59(4): 668-686.
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