[1] Bell AD, Bryan A. Plant Form: An Illustrated Guide to Flowering Plant Morphology. Portland, OR, USA: Timber Press, 2008: 20-35 [2] 方伟, 刘恩德. 经典植物分类学的发展与iFlora. 植物分类与资源学报, 2012, 34(6): 532-538 [Fang W, Liu E-D. The development of classical plant taxonomy and iFlora. Plant Diversity and Resources, 2012, 34(6): 532-538] [3] Heredia UL, Carabana MV, Cordoba M, et al. Variation components in leaf morphology of recruits of two hybridising oaks [Q. petraea (Matt.) Liebl. and Q. pyrenaica Willd.] at small spatial scale. European Journal of Forest Research, 2009, 128: 543-554 [4] Hubert F, Grimm GW, Jousselin E, et al. Multiple nuclear genes stabilize the phylogenetic backbone of the genus Quercus. Systematics and Biodiversity, 2014, 12: 405-423 [5] 徐文铎, 何兴元, 陈玮, 等. 沈阳城市森林主要树种叶片形态生态特征与生长规律. 应用生态学报, 2006, 17(11): 1999-2005 [Xu W-D, He X-Y, Chen W, et al. Morphological-ecological characters and growth patterns of main tree species leaves in urban forest of Shenyang. Chinese Journal of Applied Ecology, 2006, 17(11): 1999-2005] [6] 白明, 杨星科. 几何形态测量法在生物形态学研究中的应用. 昆虫知识, 2007, 44(1): 143-147 [Bai M, Yang X-K. Application of geometric morphometrics in biological researches. Chinese Bulletin of Entomology, 2007, 44(1): 143-147] [7] MacLeod N, Forey PL. Morphology, Shape, and Phylogenetics. London: CRC Press, 2002: 1-7 [8] Adams DC, Rohlf FJ, Slice DE, et al. Geometric morphometrics: Ten years of progress following the ‘revolution'. Italian Journal of Zoology, 2004, 71: 5-16 [9] Mitteroecker P, Gunz P. Advances in geometric morphometrics. Evolutionary Biology, 2009, 36: 235-247 [10] Silva MFS, Andrade IM, Mayo SJ. Geometric morphometrics of leaf blade shape in Montrichardia linifera (Araceae) populations from the Rio Parnaíba Delta, northeast Brazil. Botanical Journal of the Linnean Society, 2012, 170: 554-572 [11] Viscosi V, Lepais O, Gerber S, et al. Leaf morphological analyses in four European oak species (Quercus) and their hybrids: A comparison of traditional and geometric morphometric methods. Giornale Botanico Ita-liano, 2009, 143: 564-574 [12] Liu Y, Li YJ, Song J, et al. Geometric morphometric analyses of leaf shapes in two sympatric Chinese oaks: Quercus dentata Thunberg and Quercus aliena Blume (Fagaceae). Annals of Forest Science, 2018, 75: 1-12 [13] Jiang XL, Hipp AL, Deng M, et al. East Asian origins of European holly oaks (Quercus section Ilex Loudon) via the Tibet-Himalaya. Journal of Biogeography, 2019, 46: 2203-2214 [14] 邱丽氚, 柳涛, 常虹, 等. 中国壳斗科植物空间多样性格局研究. 植物科学学报, 2017, 35(2): 234-242 [Qiu L-C, Liu T, Chang H, et al. Study on the spatial diversity patterns of Fagaceae in China. Plant Science Journal, 2017, 35(2): 234-242] [15] Yang J, Guo YF, Chen XD, et al. Framework phylo-geny, evolution and complex diversification of Chinese oaks. Plants, 2020, 9: 1024 [16] Denk T, Grimm GW, Manos PS, et al. An Updated Infrageneric Classification of the Oaks: Review of Previous Taxonomic Schemes and Synthesis of Evolutionary Patterns. New York: Springer, 2017: 23-25 [17] Deng M, Hipp AL, Song YG, et al. Leaf epidermal features of Quercus subgenus Cyclobalanopsis (Fagaceae) and their systematic significance. Botanical Journal of the Linnean Society, 2014, 176: 224-259 [18] 陈焕镛, 黄成就. 中国植物志. 北京: 科学出版社, 1998: 213-263 [Chen H-Y, Huang C-J. Flora of China. Beijing: Science Press, 1998: 213-263] [19] Huang CC, Chang YT, Bartholomew B. Flora of China. Beijing: Science Press; St. Louis: Missouri Botanical Garden Press, 1999: 380-400 [20] 彭焱松, 陈丽, 李建强. 中国栎属植物的数量分类研究. 武汉植物学研究, 2007, 25(2): 149-157 [Peng Y-S, Chen L, Li J-Q. Study on numerical taxonomy of Quercus L. (Fagaceae) in China. Journal of Wuhan Botanical Research, 2007, 25(2): 149-157] [21] Song YG, Deng M, Hipp AL, et al. Leaf morphological evidence of natural hybridization between two oak species (Quercus austrocochinchinensis and Q. kerrii) and its implications for conservation management. European Journal of Forest Research, 2015, 134: 139-151 [22] 刘媛, 吕佳, 宋佳, 等. 基于几何形态测量学的植物鉴定方法. 植物科学学报, 2017, 35(6): 894-899 [Liu Y, Lyu J, Song J, et al. Plant species delimitation method based on geometric morphometrics. Plant Science Journal, 2017, 35(6): 894-899] [23] Viscosi V. Geometric morphometrics and leaf phenotypic plasticity: Assessing fluctuating asymmetry and allometry in European white oaks (Quercus). Botanical Journal of the Linnean Society, 2015, 192: 335-348 [24] Klingenberg CP, Monteiro LR. Distances and directions in multidimensional shape spaces: Implications for morphometric applications. Systematic Biology, 2005, 54: 678-688 [25] Klingenberg CP, Barluenga M, Meyer A. Shape analysis of symmetric structures: Quantifying variation among individuals and asymmetry. Evolution, 2002, 56: 1909-1920 [26] Kanno M, Yokoyama J, Suyama Y, et al. Geographical distribution of two haplotypes of chloroplast DNA in four oak species (Quercus) in Japan. Journal of Plant Research, 2004, 117: 311-317 [27] Ponton S, Dupouey JL, Dreyer E. Leaf morphology as species indicator in seedlings of Quercus robur L. and Q. petraea (Matt.) Liebl.: Modulation by irradiance and growth flush. Annals of Forest Science, 2004, 61: 73-80 [28] 李雁瓷, 付乃峰, 孙加芝, 等. 秋海棠(Begonia grandis)的种内表型多样性. 植物研究, 2021 [Li Y-C, Fu N-F, Sun J-Z, et al. Intraspecific phenotypic diversity in Begonia grandis. Bulletin of Botanical Research, 2021] [29] Christin S, Hervet E, Lecomte N. Applications for deep learning in ecology. Methods in Ecology and Evolution, 2019, 10: 1632-1644 |