Abe, H. and Hasegawa, M. (2008) Impact of volcanic activity on a
plant-pollinator module in an island ecosystem: the example of the
association of Camellia japonica and Zosterops japonica. Ecol.
Res., 23: 141-150.
Abe, H., Miura, H. and Motonaga, Y. (2020) Quantitative classification
of Camellia japonica and Camellia rusticana (Theaceae) based on
leaf and flower morphology. Plant Divers., 43(3): 216-224.
Abe, H., Ueno, S., Tsumura, Y. and Hasegawa, M. (2011) Expanded
home range of pollinator birds facilitates greater pollen flow of
Camellia japonica in a forest heavily damaged by volcanic activity.
In Single-Pollen Genotyping, edited by Isagi, Y. and Suyama, Y.
Springer, Tokyo, pp. 47-62.
Chang, H.T. (1998) Theaceae (1) Theoideae 1. Camellia. In Flora
Reipublicae Popularis Sinicae, 49, Sci. Press, Beijing, pp. 3-195.
Cheng, L., Li, M., Han, Q., Qiao, Z., Hao, Y., Balbuena, T.S. and Zhao,
Y. (2022) Phylogenomics resolves the phylogeny of Theaceae by
using low-copy and multi-copy nuclear gene makers and uncovers
a fast radiation event contributing to tea plants diversity. Biology,
11: 1007. DOI: 10.3390/biology11071007
Faegri, K. and van der Pijl, L. (1979) The Principles of Pollination
Ecology. Pergamon Press, Oxford.
Huang, H., Tong, Y., Zhang, Q.J. and Gao, L.Z. (2013) Genome
size variation among and within Camellia species by using flow
cytometric analysis. PLoS ONE, 8(5): e64981.
Ishizawa, S. (1988) Life history of Stewartia pseudocamellia. In
Newton Spec. Issue: World Plants, 1, Kyodo Printing Co., Ltd. pp.
28-55. (in Japanese)
Ishizawa, S. (2005) Tree form, external morphology and fruiting of
Stewartia pseudocamellia (Part 2: trees that bloom in spring).
Planta, 99: 22-32. (in Japanese)
Iwatsuki, K., Bouford, D. E. and Ohba, H. (eds.) (2006) Flora of
Japan, vol. IIa, Kodansha, Tokyo.
Ming, T. and Zhang, W. (1995) The evolution and distribution of
genus Camellia. Acta Bot. Yunnanica, 18(1): 1-13.
Ming, T. and Bartholomew, B. (2007) Theaceae. In Flora of China,
edited by Wu, Z. and Raven, P. Sci. Press, Beijing, pp. 366-478.
Ming, T.L. (1999) A systematic synopsis of the genus Camellia. Acta
Bot. Yunnanica, 21: 149-159.
R Core Team. (2015) R: A language and environment for statistical
computing. R Found. Stat. Comput., Vienna, Austria. https://www.
R-project.org/
Rao, M., Steinbauer, M.J., Xiang, X., Zhang, M., Mi, X., Zhang, J.,
Ma, K. and Svenning, J.C. (2018) Environmental and evolutionary
drivers of diversity patterns in the tea family (Theaceae s.s.) across
China. Ecol. Evol., 8(2): 11298-11311. DOI: 10.1002/ece3.3819
Sealy, J.R. (1958) A revision of the genus Camellia. Royal Hort. Soc.,
London.
Shengyuan, Q., Chen, K., Zhang, W., Xiang, X., Zuo, Z., Guo, C.,
Zhao, Y., Li, L.-F., Wang, Y., Song, Z., Yang, J., Yang, X., Zhang,
J., Jin, W., Wen, Q., et al. (2023) Phylogenomic insights into
H. ABE
the reticulate evolution of Camellia sect. Paracamellia Sealy
(Theaceae). J. Syst. Evol., 61(3): 237-251. DOI: 10.1111/jse.12948
Sun, S.G., Huang, Z.H., Chen, Z.B. and Huang, S.Q. (2017) Nectar
properties and the role of sunbirds as pollinators of the goldenflowered tea (Camellia petelotii). Am. J. Bot., 104(3): 468-476.
Sun, X. and Wang, P. (2005) How old is the Asian monsoon system?—
Palaeobotanical records from China. Palaeogeogr. Palaeoclimatol.
Palaeoecol., 222(3-4): 181-222.
Vijayan, K., Zhang, W.-J. and Tsou, C.-H. (2009) Molecular taxonomy
of Camellia (Theaceae) inferred from nrITS sequences. Am. J.
Bot., 96(7): 1348-1360.
Wu, Q., Tong, W., Zhao, H., Ge, R., Li, R., Huang, J., Li, F., Wang, Y.,
Mallano, A.I., Deng, W., Wang, W., Wan, X., Zhang, Z. and Xia,
E. (2022) Comparative transcriptomic analysis unveils the deep
phylogeny and secondary metabolite evolution of 116 Camellia
plants. Plant J., 111(2): 406-421. DOI: 10.1111/tpj.15799
Yan, Y., Davis, C.C., Dimitrov, D., Wang, Z., Rahbek, C. and
Borregaard, M.K. (2021) Phytogeographic history of the tea family
inferred through high-resolution phylogeny and fossils. Syst. Biol.,
70(6): 1256-1271. DOI: 10.1093/sysbio/syab042
Yang, L.Q., Hu, H.Y., Xie, C., Lai, S.P., Yang, M., He, X.J. and Zhou,
S.D. (2016) Molecular phylogeny, biogeography, and ecological
niche modelling of Cardiocrinum (Liliaceae): insights into the
evolutionary history of endemic genera distributed across the SinoJapanese floristic region. Ann. Bot., 119: 59-72.
Comparison of Flower Morphology in Genus Camellia
Yumoto, T. (1988) Pollination systems in the cool temperate mixed
coniferous and broad-leaved forest zone of Yakushima Island.
Ecol. Res., 3(2): 117-129.
Zan, T., He, Y.T., Zhang, M., Yonezawa, T., Ma, H., Zhao, Q.M., Kuo,
W.Y., Zhang, W.J. and Huang, C.H. (2023) Phylogenomic analyses
of Camellia support reticulate evolution among major clades. Mol.
Phylogenet. Evol., 182: 107744.
Zhang, F., Li, W., Gao, C.W., Zhang, D. and Gao, L.Z. (2019)
Deciphering tea tree chloroplast and mitochondrial genomes
of Camellia sinensis var. assamica. Sci. Rep., 9(1): 209. DOI:
10.1038/s41597-019-0201-8
Zhang, Q., Zhao, L., Folk, R.A., Zhao, J.L., Zamora, N.A., Yang, S.X.,
Soltis, D.E., Soltis, P.S., Gao, L.M., Peng, H. and Yu, X.Q. (2022)
Phylotranscriptomics of Theaceae: generic-level relationships,
reticulation, and whole-genome duplication. Ann. Bot., 129: 457471. DOI: 10.1093/aob/mcac007
Zhang, W., Kan, S.L., Zhao, H., Li, Z.Y. and Wang, X.Q. (2014)
Molecular phylogeny of tribe Theeae (Theaceae s.s.) and its
implications for generic delimitation. PLoS ONE, 9(5): e98133.
DOI: 10.1371/journal.pone.0098133
Zhao, D.W., Hodkinson, T.R. and Parnell, J.A.N. (2022) Phylogenetics
of global Camellia (Theaceae) based on three nuclear regions and
its implications for systematics and evolutionary history. J. Syst.
Evol., DOI: 10.1111/jse.12837
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