A review on the taxonomy study of Prunus subgen. Cerasus (Mill) A. Gray

doi:10.12302/j.issn.1000-2006.202405008

JOURNAL OF NANJING FORESTRY UNIVERSITY ›› 2024, Vol. 48 ›› Issue (3): 46-57.doi: 10.12302/j.issn.1000-2006.202405008

Special Issue: 郑万钧先生诞辰120周年纪念专题

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A review on the taxonomy study of Prunus subgen. Cerasus (Mill) A. Gray

YI Xiangui(), LI Meng, WANG Xianrong^*()

Co-Innovation Center for the Sustainable Forestry in Southern China, College of Life Sciences, Cerasus Research Center, Nanjing Forestry University, 210037 Nanjing, China

Received:2024-05-08 Revised:2024-05-17 Online:2024-05-30 Published:2024-06-14

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Abstract

Abstract:

Reviewed and summarized the research history of the taxonomy of the subgenus Prunus subgen. Cerasus, provided an overview of major classification systems of the subgen. Cerasus. Summarized the advances in experimental taxonomy studies on the subgen. Cerasus, It is found that morphological markers play an important role in the classification of subgen. Cerasus. SSR marker studies can provide evidence for discussions on interspecific and intraspecific relationships within the subgen. Cerasus, DNA sequence markers have made important achievements in the study of subgen. Cerasus classification, essentially clarifying the phylogenetic relationships within the subgen. Cerasus. Integrated the latest data on phylogeny and geographic distribution of the subgen. Cerasus, outlined the main framework of the phylogeny of the subgen. Cerasus, speculation that the origin of this subgenus is from the Himalayan region to southwestern China or the Mediterranean region, summarized the main migration routes of the subgen. Cerasus. By combining literature and specimen data, field surveys and recent research conclusions, a total of 76 species of the subgen. Cerasus (including 11 varieties) were listed in the world species catalog, and statistical analysis was conducted on the main distribution areas and groups of the subgen. Cerasus; proposed classification viewpoints for the P. serrulata complex, P. subhirtella complex, and other controversial groups. A comprehensive analysis of the status of the taxonomy of the subgen. Cerasus, suggesting that more in depth research is needed on the complex and controversial groups within the subgen. Cerasus, as well as resource surveys and classification in the central and western regions; exploring combinations of multiple species, populations, and omics at a large scale is an important direction for the taxonomy research of the subgen. Cerasus.

Key words: Prunus subgen. Cerasus, taxonomy, phylogeny, comples

CLC Number:

S685.99
S79

YI Xiangui, LI Meng, WANG Xianrong. A review on the taxonomy study of Prunus subgen. Cerasus (Mill) A. Gray[J]. JOURNAL OF NANJING FORESTRY UNIVERSITY, 2024, 48(3): 46-57.

Figures/Tables 2

Table 1

Overview on taxonomic history of Subgen. Cerasus"

作者(年份) authors(year)	主要观点与系统简介 range and synopsis of Subgen. Cerasus taxonomy
Tournefort(1700)	最早发表了李属Prunus、梅属Armeniaca Scop.、桃属Persica Mill.、樱属Cerasus Mill.、扁桃属Amygdalus L.和桂樱属Laurocerasus L.共6属的名称
Linnaeus(1753)^[1]	首次确立了李属Prunus L.,范围类似广义李属,发表本属模式种欧洲酸樱桃P. cerasus L.
Miller(1754)^[2]	采用樱属Cerasus Mill. 观点,首次将樱属Cerasus从李属中独立出来,对属特征进行了描述,记录了19个类群,未有正式学名。该分类观点在许多重要樱亚属分类专著中长期采用
Adanson(1763)	采用Cerasus观点,描述了该类群植物的花及果实特征
Miller(1768)	采用Cerasus观点;记录C. vulgaris Mill.(P. cerasus的异名)、C. nigra Mill.(欧洲甜樱桃P. avium L.的异名)、C. hortensis Mill.(欧洲酸樱桃的异名)、C. mahaleb (L.) Mill.圆叶樱桃、C. canadensis Mill. (杏P. armeniaca L.的异名)等5个类群
Weston(1770)	采用Prunus-Cerasus观点;记录了20个名称,包括了部分樱花类及稠李类(北美稠李P. virginiana L.)等,并描述了花被瓣型、果实颜色及香气等主要性状特征
Jussieu(1789)	采用樱属Cerasus观点;范围包括总状花序类的稠李类(Padus Mill.)与桂樱类(Laurocerasus )
Persoon(1807)	采用Prunus观点;并行于桃属与梅属,记载P. mahaleb圆叶樱桃、P. fruticosa Pall.草原樱桃、P. cerasus、P. avium、P. pensylvanica L. F.针叶樱桃、P. incisa Thunb.豆樱等樱亚属植物以及矮李类、稠李与桂樱类等35种
Candolle(1825)	采用Cerasus观点;设置了两个组:Sect.1. Cerasophora;Sect.2. Laurocerasus。其中Sect.1记录了包括部分樱花类的22个类群
Gray(1856)	首次采用Prunus sect. Cerasus观点,等同于如今的樱亚属概念
Bentham与 Hooker (1865)	采用Prunus sect. Cerasus观点;详细的记录了李属各组(桃、杏、李、樱、桂樱)的形态特征与地理分布,认为樱组的类群约有20个种
Hooker(1879)	采用Prunus sect. Cerasus观点;其下设置两类,I类:花叶同放类,记录有P. avium、P. cerasus、P. rufa Wall. Ex Hook.f. 红毛樱桃 P. prostrata Hook.f. (岩樱桃P. prostrata Labill.)、P. tomentosa Thunb.毛樱桃. II类:先叶开放类,记录有P. puddum Hook.、P. jacquemontii Hook.F.(阿富汗樱桃)
Focke(1888)	采用Prunus Untergatt. Cerasus的处理方式;记录了P. avium、P. cerasus、P. puddum、 P. mahaleb与P. tomentosa,并附了欧洲酸樱桃的花与果墨线图
Greene(1905)	采用Cerasus观点;发表了美国西部樱属10个新种学名,8个学名后都被处理为苦樱桃P. emarginata (Douglas ex Hook.) Eaton的异名,而C. parvifolia Greene则为冬樱 P. × parvifolia (Matsum.) Koehne的异名
Schneider(1906)	采用Subgen. Cerasus的观点;下设3个组:Sect. a. Microcerasus;Sect. b. Pseudocerasus;Sect. c. Eucerasus。其中Sect.b. Pseudocerasus下记录有高盆樱桃P. cerasoides Maxim、丁字樱桃P. apetala (Siebold & Zucc.) Franch. & Sav. 、P. herincquiana (Lavallée) Mouill. 与P. miqueliana Maxim.(均为江户彼岸P. itosakura Siebold的异名)、樱桃P. pseudocerasus Lindl.、山樱花P. serrulata Lindl.等;Sect. c. Eucerasus下记录有P. fruticosa、P. cerasus、P. avium、P. mahaleb、P. emarginata、P. pennsylvanica、黑樱桃P. maximowiczii Rupr.等樱亚属植物
Koehne(1912)^[4]	采用Subgen.Cerasus观点;其下分为2个Grex: Grex I. Typocerasus(典型樱群系)与Grex Ⅱ. Microcerasus(矮生樱群系);Grex.I下共设4个组Sect.、15个亚组Subsect.和11个系Ser.。2个Greges(Grex.的复数,位于亚属与组之间的分类等级名词)的范围和现今的樱亚属和矮生樱亚属相似。Grex I. Typocerasus的框架与物种记录及处理如下所示。Sect.I. Cremastosepalum:[(Subsect.1. Mahaleb:Ser.1. Eumahaleb, Ser.2. Paramahaleb;中国无记录); (Subsect.2. Eucerasus:中国无记录);(Subsect.3. Phyllomahaleb:Ser.1. Aphanadenium:P. pulchella Koehne(P. maximowiczii的异名);Ser.2. Macradenium: 锥腺樱桃P. conadenia Koehne、雕核樱桃P. pleiocerasus Koehne、盘腺樱桃P. discadenia Koehne、四川樱桃P. szechuanica Batalin); (Subsect.4. Phyllocerasus:康定樱桃P. tatsienensis Batalin (P. pilosiuscula Koehne / P. litigiosa Koehne)、多毛樱桃P. polytricha Koehne、微毛樱桃P. clarofolia C.K.Schneid. (P. variabilis Koehne/P. rehderiana Koehne / P. venusta Koehne));(Subsect.5. Pseudomahaleb:云南樱桃P. yunnanensis Franch. (P. macgregoriana Koehne)、蒙自樱桃P. henryi (C.K.Schneid.) Koehne、P. neglecta Koehne(未处理));(Subsect.6. Lobopetatum:(Ser.1. Heterocalyx:崖樱桃P. scopulorum Koehne/ P. involucrata Koehne(樱P. pseudocerasus的异名)、P. glabra (Pamp.) Koehne (P. conradinae Koehne华中樱桃的异名)、长毛樱桃P. hirtipes Hemsl.、浙闽樱桃P. schneideriana Koehne、西南樱桃P. duclouxii Koehne (P. yunnanensis的异名)、P. ampla Koehne(未处理)、P. malifolia Koehne (P. cyclamina Koehne,襄阳山樱桃的异名);(Ser.2. Cyclaminium:P. cyclamina、P. rufoides Koehne、P. plurinervis Koehne (未处理)、P. hirtifolia Koehne (P. yunnanensis的异名)。Sect.2. Pseudocerasus:[Subsect.7. Hypadenium:中国无记录];[Subsect.8. Sargentiella:山樱花P. pseudocerasus、P. serrulata(异名P. wildeniana Koehne)、P. tenuiflora Koehne (P. leveilleana Koehne霞樱的异名)、P. concinna Koehne (P. veitchii Koehne维氏樱桃的异名)、P. twymaniana Koehne (P. conradinae Koehne的异名)];[Subsect.9. Conradinia:P. sprengeri Pamp.(P. clarofolia的异名)、P. conradinae Koehne (P. helenae Koehne)、P. saltuum Koehne / P. pauciflora Bunge (P. pseudocerasus的异名)];[Subsect.10. Serrula:P. majestica Koehne (P. cerasoides的异名)、细齿樱桃P. serrula Franch.];[Subsect.11. Puddum:P. cerasoides];[Subsect.12. Microcalymma:P. herincquiana (Lavallée) Mouill.(P. itosakura的异名)] ;[Subsect.13. Ceraseidos:(Ser.1. Phyllopodium: 刺毛樱桃P. setulosa Batalin、P. phyllopoda Koehne(未处理)、灰毛叶樱桃P. canescens Bois、P. veitchii);(Ser.2. Droserina:P. giraldiana C.K.Schneid. (未处理)]、P. droseracea Koehne (P. trichostoma的异名);(Ser.3. Oxyodon:P. trichostoma Koehne (P. latidentata Koehne / P. glyptocarya Koehne / P. pleuroptera Koehne / P. podadenia Koehne / P. lobulata Koehne)、P. oxyodonta Koehne(未处理)、P. micromeloides Koehne(未处理)、托叶樱桃P. stipulacea Koehne、P. zappeyana Koehne(P. veitchii的异名);(Ser. 4. Euceraseidos: P. caudata Franch.尖尾樱桃);Ser.5. Amblyodon: P. gracilifolia Koehne (P. setulosa异名)、P. rossiana Koehne(未处理)]。发表了共计63个典型樱亚属学名,包括35个中国产新种;该分类系统对樱亚属的后续研究影响深远
Wilson(1916)^[6]	采用Prunus观点;对日本樱花资源(种及品种)进行了整理,记录P. maximowiczii、P. pseudocerasus、P × subhirtella Miq. (含种下等级)、东京樱花P. × yedoensis Matsum.、钟花樱桃P. campanulata Maxim.、P. incisa、高岭樱桃P. nipponica Matsum.、P. serrulata(含众多种下等级)、P. × lannesiana (Carrière) E.H.Wilson/ P. sieboldii(含种下等级)、丁字樱桃(含种下等级)P. apetala (Siebold & Zucc.) Franch. & Sav.;许多品种类群被处理为种或种下等级
陈嵘(1937)^[7]	采用Subgen. Cerasus观点;记录34种(含种下等级),并对各类群进行了详细描述。其下设5个类群(Group),包括1个矮李类群Microcerasus(郁李类);以及Cerasus、Eucerasus、Phyllomahaleb、Pseudocerasus等典型樱亚属类群;记录樱亚属植物34种。该书代表我国学者对樱亚属分类学研究的开始
Rehder(1951)^[8]	采用Subgen. Cerasus观点;对Koehne部分Subsect.进行了重新整理,其下设立了7个组: Sect.1. Microcerasus; Sect.2. Pseudocerasus; Sect.3. Lobopetalum; Sect.4. Eucerasus; Sect.5. Mahalebs; Sect.6. Phyllocerasus; Sect.7. Phyllomahaleb
刘慎谔(1959)	采用Subgen. Cerasus观点;记录东北地区樱花类物种9种(含种下等级)
Shishkin等 (1971)^[9]	采用Subgen. Cerasus观点;借鉴了Jussieu与Koehne的处理观点,下设2亚属,其中亚属1含3个组。Subgen.1. Typocerasus:Section1. Mahaleb,Section2. Psedocerasus,Section 3. Hypadenium;而 Subgen.2. Microcerasus为矮李与桃类群
郑万钧(1985)^[10]	采用樱亚属Subgen. Cerasus的观点,其下无更小的分类单位;记录49种(含7个变种),其中樱花类37种(含5变种)。该专著最全面地记录了我国樱亚属植物,为后期《中国植物志》等的樱亚属分类处理奠定了重要基础
俞德浚和李朝銮 (1986)^[11]	采用Cerasus Miller观点,在《中国植物志》中,下设2亚属即典型樱亚属Subgen.I. Cerasus与矮生樱亚属Subgen.II. Microcerasus;共记录樱属植物55种(含10个变种)。其中典型樱亚属Subgen.I. Cerasus下设9个组: Sect.1. Phyllomahaleb总状组, Sect.2. Phyllocerasus伞形组, Sect.3. Cerasus芽鳞组, Sect.4. Lobepetalum裂瓣组, Sect.5. Pseudocerasus小苞组, Sect.6. Mahaleb圆叶组, Sect.7. Seraseidos重齿组, Sect.8. Serrula细齿组, Sect.9. Sargentilla黑果组,共记录典型樱亚属植48种(含种下等级)
川崎哲也(1994)^[12] 大场秀章等(2007)^[13]	采用Cerasus Miller观点,参考Wilson收录日本樱花共计15种及16个种下等级;记录了9个野生杂交种。许多品种类群被处理为种或种下等级
王贤荣 (1996/2014)^[14-15]	采用Cerasus观点,借鉴Koehne与俞德俊等系统,整理记录樱属植物48种及10变种。其中典型樱亚属I.Subgen. Cerasus下设2组12系。相较于俞德俊处理观点,新成立了芒齿系Ser.10. Setolae X. R. Wang et C. B.Shang和展萼系Ser.7. Pseudocerasoides X. R. Wang et C. B.Shang,重新组合了红果系Ser. Conradinia (Koehne) X. R. Wang et C. B.Shang;记录典型樱亚属植物 48种(含8个变种)
Iwatsuki等(2001)^[16]	采用Cerasus Miller观点;在Flora of Japan中下设两个亚属3个组,其中典型樱亚属下设3个组。Subgen.Ⅱ. Cerasus:Sect.1. Cerasus,Sect.2. Phyllomahaleb,Sect.3. Sargentilla;共记录24种(含10个种下等级),另记录自然杂交类群13种;人工栽培9种;许多品种类群按种或种下等级处理,野生类群约10种
Li等(2003)^[17]	采用Cerasus Miller观点;将所有樱属植物分为两大类(单芽类与3芽类),其下无其他更小分类等级处理。共记录樱属植物54种(含9个变种),其中单芽类44种(含6个变种)。部分类群进行了处理:将崖樱桃C. scopulorum (Koehne) T.T.Yu & C.L.Li归入C. pseudocerasus (Lindl.) Loudon ;将C. duclouxii (Koehne) T.T.Yu & C.L.Li归入C. yunnanensis (Franch.) T.T.Yu & C.L.Li;将泰山野樱花C. serrulata var. taishanensis Yi Zhang et C. D. Shi归入C. serrulata (Lindl.) Loudon;将红花高盆樱桃C. cerasoides var. rubea (Ingram) T. T. Yu & C. L. Li并入高盆樱桃C. cerasoides (Buchanan-Hamilton ex D. Don) S. Y. Sokolov;将P. rufa var. trichantha (Koehne) H.Hara与P. imanishii Kitam.组合至毛瓣藏樱C. trichantha (Koehne) C. L. Li & S.Y. Jiang;收录西藏樱桃C. yaoiana W. L. Zheng;未收录红毛樱桃P. rufa 与海南樱桃P. hainanensis (G.A.Fu & Y.S.Lin) W.C.Chen

Table 1

Table 2

The list of Subgen. Cerasus species"

种名species	分布主要区域 distribution	种名species	分布主要区域distribution
1.P. apetala丁字樱桃	日本(本州东部)	39.P. paludosa 景宁晚樱	中国浙江
2.P. avium 欧洲甜樱桃	欧州西部;亚洲西部等	40.P. patentipila 散毛樱桃	中国西南部
3.P. campanulata 钟花樱桃	中国东南部	41.P. pensylvanica 针叶樱桃	美国;加拿大
4.P. campanulata var. wuyiensis 武夷红樱	中国东南部	42.P. pleiocerasus 雕核樱桃	中国西南部
5.P. canescens 灰毛叶樱桃	中国中西部	43.P. polytricha 多毛樱桃	中国西部
6.P. caudata 尖尾樱桃	中国西南部	44.P. pseudocerasus 樱桃	中国广布
7.P. cerasoides 高盆樱桃	中国西南部;尼泊尔;不丹等	45.P. pusilliflora 细花樱桃	中国西南部
8.P. cerasoides var. rubea 红花高盆樱桃	中国西南部、缅甸	46.P. rufa 红毛樱桃	中国西南部;尼泊尔;不丹等
9.P. clarofolia 微毛樱桃	中国中西部至东部	47.P. rufoides尾叶樱桃	中国中东部
10.P. conadenia 锥腺樱桃	中国西南部	48.P. rufoides var. abbreviata 短梗尾叶樱桃	中国中东部
11.P. conradinae 华中樱桃	中国中东部	49.P. rufoides var. longistyla 长柱尾叶樱桃	中国东南部
12.P. conradinae var. quanzhouensis 全州樱桃	中国广西	50.P. sargentii大山樱	日本
13.P. crataegifolia 山楂叶樱桃	中国西南部	51.P. schneideriana 浙闽樱桃	中国浙江与福建
14.P. cyclamina 襄阳山樱	中国中西部	52.P. scopulorum 崖樱桃	中国西部、西南部
15.P. cyclamina var. biflora 双花山樱桃	中国中西部	53.P. serrula 细齿樱桃	中国西南部、缅甸
16.P. discoidea 迎春樱桃	中国东南部	54.P. serrulata 山樱花	中国广布;朝鲜半岛
17.P. dolichadenia 长腺樱桃	中国西部	55.P. serrulata var. huanggangensis黄岗山樱花	中国福建与江西
18.P. emarginata 苦樱桃	美国;加拿大	56.P. serrulata var. lannesiana 晚樱	中国;日本
19.P. fengyangshanica凤阳山樱桃	中国浙江	57.P. takasagomontana 山白樱	中国台湾
20.P. fructicosa 草原樱桃	中国;欧洲;西亚;俄罗斯等	58.P. takesimensis竹岛樱桃	中国西部
21.P. harae 黄毛樱桃	不丹	59.P. setulosa 刺毛樱桃	中国西部
22.P. hirtipes长毛樱桃	中国江西	60.P. singalilaensis 辛加利拉樱桃	印度;尼泊尔
23.P. hefengensis 鹤峰樱桃	中国湖北	61.P. stechuaniana 四川樱桃	中国西部
24.P. henryi 蒙自樱桃	中国西南部;缅甸	62.P. stipulacea 托叶樱桃	中国西部
25.P. himalaica 喜马拉雅樱桃	尼泊尔、印度	63.P. takesimensis 竹岛樱	日本
26.P. incisa 豆樱	日本	64.P. taplejungnica 塔普勒琼樱桃	尼泊尔
27.P. itosakura 江户彼岸	日本;朝鲜半岛	65.P. tatsienensis 康定樱桃	中国西部
28.P. itosakura var. ascendens 野生早樱	中国中东部	66.P. tongmuensis 桐木樱桃	中国福建与江西
29.P. itosakura var. taiwaniana 雾社樱桃	中国台湾	67.P. topkegolensis 托可戈拉樱桃	尼泊尔
30.P. jamasakura 红山樱	韩国;日本	68.P. transarisanensis 阿里山樱	中国台湾
31.P. jingningensis 沼生矮樱	中国浙江	69.P. trichantha 毛瓣藏樱	中国西南部;印度;尼泊尔
32.P. kumanoensis 熊野樱桃	日本	70.P. trichostoma 川西樱桃	中国西部与西南部;缅甸
33.P. leveilleana 霞樱	朝鲜半岛;日本	71.P. vulgaris 欧洲酸樱桃	欧洲;西亚
34.P. mahaleb 圆叶樱桃	欧洲;高加索地区等	72.P. yaoiana 姚氏樱桃	中国西南部
35.P. matuurai 太平山樱花	中国台湾	73.P. yedoensis 东京樱花	韩国;日本
36.P. maximowiczii 黑樱桃	中国台湾	74.P. yunnanensis 云南樱桃	中国西南部
37.P. mugus 偃樱桃	中国西南部;缅甸	75.P. yunnanensis var. polybotrys 多花云南樱桃	中国西南部
38.P. nipponica 高岭樱	日本;俄罗斯	76.P. xueluoensis 雪落樱桃	中国中东部

Table 2

References 81

[1]	LINNAEUS C. Species plantarum. Vol.I[M]. Holmiæ (Stockholm): Impensis Laurentii Salvii, 1753: 473.
[2]	MILLER P. Gardeners dictionary[M]. 4th ed. London, 1754: 307-314.
[3]	GRAY A. Manual of the botany of the northern United States[M]. 2nd ed. New York: George P Putnam & Co, 1856.DOI: 10.5962/bhl.title.50405.
[4]	KOEHNE E. Plantae wilsonianae. Part 1[M]. Cambridge: The University Press, 1912: 59, 226-273.
[5]	伊贤贵. 山樱花种群变异及亲缘地理学研究[D]. 南京: 南京林业大学, 2018.DOI:10.27242/d.cnki.gnjlu.2018.000005.
	YI X G. The variation and phylogeography of Cerasus serrulata Mill.populations[D]. Nanjing: Nanjing Forestry University, 2018.
[6]	WILSON E H. The Cherries of Japan. No.7[M]. Massachusetts: Arnold Arboretum Publication, 1916.
[7]	陈嵘. 中国树木分类学[M]. 北京: 科学出版社, 1937: 473-481.
	CHEN R. Tree Taxonomy in China[M]. Beijing: Science Press, 1937: 473-481.
[8]	REHDER A. Manual of cultivated trees & shrubs[M]. 2nd ed. Massachusetts: Aronold Abroretum Publication, 1951: 466-477.
[9]	SHISHKIN B K, YUZEPCHUK S V. Flora of U.S.S.R. Volume XI[M]. Jerusalem: Israel Program for Scientific Translations, 1971.
[10]	郑万钧. 中国树木志:第二卷[M]. 北京: 中国林业出版社, 1985.
[11]	俞德浚, 李朝銮. 中国植物志:38卷[M]. 北京: 科学出版社, 1986: 41-87.
	YU D J, LI C L. Flora reipublicae popularis sincae. Vol. 38[M]. Beijing: Science Press, 1986: 41-87.
[12]	川崎哲也. 日本の桜[M]. 东京: 山と渓谷社, 1994.
	KAWASAKI T. Flowering cherries of Japan[M]. Tokyo: Tokyo: Yama-Kei Publisher Co. ltd., 1994.
[13]	大场秀章, 川崎哲也, 田中秀明. 新日本の樱[M]. 东京: 山と溪谷社, 2007.
	OHBA H, KAWASAKI T, TANAKA H. Flowering cherries of Japan[M]. New edition. Tokyo: Yama-Kei Publisher Co.ltd., 2007.
[14]	王贤荣. 国产樱属分类学研究[D]. 南京: 南京林业大学, 1997.
	WANG X R. Taxonomic study on Sakura from China[D]. Nanjing: Nanjing Forestry University, 1997.
[15]	王贤荣. 中国樱花品种图志[M]. 北京: 科学出版社, 2014:19-23.
	WANG X R. An illustrated monograph of cherry cultivars in China[M]. Beijing: Science Press, 2014:19-23.
[16]	IWATSUKI K, BOUFFORD D E, OHBA H. Flora of Japan: Vol. IIb[M]. Tokyo: Kodansha, 2001.
[17]	LI C L, BRUCE B. Flora of China: 9[M]. Beijing: Science Press, Missouri: Missouri Botanical Garden Press, 2003: 404-420.
[18]	CHANG K S, CHANG C S, PARK T Y, et al. Reconsideration of the Prunus serrulata complex (Rosaceae) and related taxa in eastern Asia[J]. Bot J Linn Soc, 2007, 154(1):35-54.DOI: 10.1111/j.1095-8339.2007.00631.x.
[19]	王贤荣, 谢春平, 伊贤贵, 等. 不同居群野生早樱形态变异研究[J]. 植物研究, 2007, 27(6):746-752.
	WANG X R, XIE C P, YI X G, et al. Study on the morphological variations of Cerasus subhirtella var.ascendens in different populations[J]. Bull Bot Res, 2007, 27(6):746-752.DOI: 10.3969/j.issn.1673-5102.2007.06.018.
[20]	南程慧. 迎春樱居群变异与繁殖生物学研究[D]. 南京: 南京林业大学, 2012.
	NAN C H. Study on population variation and reproductive biology of Cerasus discoidea Yü et Li[D]. Nanjing: Nanjing Forestry University, 2012.
[21]	伊贤贵. 武夷山樱属资源调查及开发利用研究[D]. 南京: 南京林业大学, 2007.
	YI X G. Studies on investigation and exploitation of the resources of Cerasus Mill.in Wuyi Mountain[D]. Nanjing: Nanjing Forestry University, 2007.
[22]	朱弘. 尾叶樱桃(Cerasus dielsiana)系统分类地位与种群生物地理学研究[D]. 南京: 南京林业大学, 2020.
	ZHU H. Phylogenetic position and population biogeography of Cerasus dielsiana(Rosaceae)[D]. Nanjing: Nanjing Forestry University, 2020.DOI: 10.27242/d.cnki.gnjlu.2020.000023.
[23]	王贤荣, 向其柏. 樱属植物叶腺体形态研究及其在分类中的意义[J]. 南京林业大学学报, 1997, 21(4):63-67.
	WANG X R, XIANG Q B. Morphological study on leaf glands of Sakura and its significance in classification[J]. J Nanjing For Univ, 1997, 21(4):63-67. DOI: 10.3969/j.jssn.1000-2006.1997.04.013.
[24]	王伏雄. 中国植物花粉形态[M]. 2版. 北京: 科学出版社, 1995.
	WANG F X. Pollen flora of China.[M]. 2nd ed. Beijing: Science Press, 1995.
[25]	蓝盛银, 徐珍秀. 植物花粉剥离观察扫描电镜图解[M]. 北京: 科学出版社, 1996.
	LAN S Y, XU Z X. Observation of pollen morphology of plants using scanning electron microscopy[M]. Beijing: Science Press, 1996.DOI: 10.3969/j.jssn.1000-2006.1998.04.012.
[26]	王贤荣, 向其柏. 樱属植物分类订正[J]. 南京林业大学学报, 1998, 22(4):60-62.
	WANG X R, XIANG Q B. Notes on some species of the genus Cerasus Miq[J]. J Nanjing For Univ, 1998, 22(4):60-62. DOI:10.3969/j.jssn.1000-2006.1998.04.012.
[27]	周丽华, 韦仲新, 吴征镒. 国产蔷薇科苹果亚科的花粉形态[J]. 云南植物研究, 2000, 22(1):47-52,121-123.
	ZHOU L H, WEI Z X, WU Z Y. Pollen morphology of maloideae of China (Rosaceae)[J]. Acta Bot Yunnanica, 2000, 22(1):47-52,121-123.DOI: 10.3969/j.issn.2095-0845.1999.04.008.
[28]	雷海清. 樱属花粉形态研究[J]. 亚热带植物科学, 2001, 30(4):14-17.
	LEI H Q. A study on pollen morphology of Cerasus[J]. Subtrop Plant Sci, 2001, 30(4):14-17.DOI: 10.3969/j.issn.1009-7791.2001.04.004.
[29]	WANG X R, SHANG C B. Cerasus hefengensis (Rosaceae), a new species from SW Hubei, China[J]. Annales Botanici Fennici, 2007, 44: 151-152.
[30]	WANG X R, YI X G, XIE C P. Cerasus campanulata var. wuyiensis,a new variety of Rosaceae in Wuyi Mountain[J]. Acta Bot Yunnanica, 2007(6):616.
[31]	NAN C H, WANG X R, TANG G G, et al. Cerasus Xueluoensis(Rosaceae),a new species from China[J]. Ann Bot Fenn, 2013, 50(1/2):79-82.DOI: 10.5735/085.050.0114.
[32]	ZANG D K. Cerasus laoshanensis (Rosaceae),a new species from Shandong,China[J]. Ann Bot Fenn, 2017, 54(1/2/3):135-137.DOI: 10.5735/085.054.0321.
[33]	许元科, 赵昌高, 严邦祥, 等. 浙江樱属新种:沼生矮樱[J]. 浙江林业科技, 2012, 32(4):81-83.
	XU Y K, ZHAO C G, YAN B X, et al. A new species of Cerasus Mill.from Zhejiang Province[J]. J Zhejiang For Sci Technol, 2012, 32(4):81-83.DOI: 10.3969/j.issn.1001-3776.2012.04.020.
[34]	刘日林, 张方钢, 陈伟杰, 等. 浙江蔷薇科李亚科植物新资料[J]. 杭州师范大学学报(自然科学版), 2017, 16(5):518-521.
	LIU R L, ZHANG F G, CHEN W J, et al. Noteworthy plants in prunoideae of Rosaceae from Zhejiang[J]. J Hangzhou Norm Univ (Nat Sci Ed), 2017, 16(5):518-521.DOI: 10.3969/j.issn.1674-232X.2017.05.012.
[35]	KATSUKI T. A new species, Cerasus kumanoensis from the southern Kii Peninsula, Japan[J]. Acta Phytotax Geobot, 2018, 69(2):119-133. DOI:10.18942/APG.201801.
[36]	OGINUMA K. Karyomorphological studies on Prunus in Japan[J]. Journal of Science of the Hiroshima University, Series B, Division 2 (botany), 1987, 21: 1-66.
[37]	MOWREY B D, WERNER D J. Phylogenetic relationships among species of Prunus as inferred by isozyme markers[J]. Theor Appl Genet, 1990, 80(1):129-133.DOI: 10.1007/BF00224026.
[38]	GRANGER A R, CLARKE G R, JACKSON J F. Sweet cherry cultivar identification by leaf isozyme polymorphism[J]. Theor Appl Genet, 1993, 86(4):458-464.DOI: 10.1007/BF00838561.
[39]	周春玲, 陈芳, 苗积广, 等. 青岛市19个樱花品种的酯酶同工酶鉴定[J]. 西北林学院学报, 2008, 23(3):40-43.
	ZHOU C L, CHEN F, MIAO J G, et al. Identification of 19 Cerasus cultivars on esterase isozyme in Qingdao[J]. J Northwest For Univ, 2008, 23(3):40-43.
[40]	顾宇, 史港影, 李祯, 等. 樱属植物核型参数及种间亲缘关系分析[J]. 南京林业大学学报(自然科学版), 2014, 38(S1):25-29.
	GU Y, SHI G Y, LI Z, et al. Karyotype parameters and interspecific relationship analysis of Sakura[J]. J Nanjing For Univ (Nat Sci Ed), 2014, 38(S1):25-29.
[41]	李祯, 伊贤贵, 顾宇, 等. 山樱花基因组大小的测定[J]. 南京林业大学学报(自然科学版), 2014, 38(S1):17-19.
	LI Z, YI X G, GU Y, et al. Determination of genome size of Prunus mume[J]. J Nanjing For Univ (Nat Sci Ed), 2014, 38(S1):17-19.DOI: 10.3969/j.issn.1000-2006.2014.S1.004.
[42]	DIRLEWANGER E, COSSON P, TAVAUD M, et al. Development of microsatellite markers in peach[Prunus persica (L.) Batsch]and their use in genetic diversity analysis in peach and sweet cherry (Prunus avium L.)[J]. Theor Appl Genet, 2002, 105(1):127-138.DOI: 10.1007/s00122-002-0867-7.
[43]	ARANZANA M, CARBÓ J, ARÚS P. Microsatellite variability in peach[Prunus persica (L.) Batsch]:cultivar identification,marker mutation,pedigree inferences and population structure[J]. Theor Appl Genet, 2003, 106(8):1341-1352.DOI: 10.1007/s00122-002-1128-5.
[44]	CANLI F A. Development of a second generation genetic linkage map for sour cherry using SSR markers[J]. Pak J Biol Sci, 2004, 7(10):1676-1683.DOI: 10.3923/pjbs.2004.1676.1683.
[45]	KACAR Y L Z A, IEZZONI A, CETINER S. Sweet cherry cultivar identification by using SSR markers[J]. J Biol Sci, 2005, 5(5):616-619.DOI: 10.3923/jbs.2005.616.619.
[46]	沈志军. 基于微卫星标记的核果类果树亲缘关系研究[D]. 南京: 南京农业大学, 2003.
	SHEN Z J. Genetic relationship of peach,plum,apricot,mume and cherry based on microsatellite markers[D]. Nanjing: Nanjing Agricultural University, 2003.
[47]	李苗苗. 樱亚属植物分子亲缘地理及中国樱桃自然居群遗传多样性研究[D]. 西安: 西北大学, 2009.
	LI M M. Phylogeography of Prunus subgenus Cerasus and genetic diversity of P. pseudocerasus[D]. Xi’an: Northwest University, 2009.
[48]	张琼. 樱属观赏品种资源调查及部分种与品种SSR分析[D]. 南京: 南京林业大学, 2013.
	ZHANG Q. Study on the cultivar resources investigation of flowering cherry (Cerasus) in China and analysis of particle specises and cultivars using SSR markers[D]. Nanjing: Nanjing Forestry University, 2013.
[49]	朱淑霞. 基于形态学和SSR分子标记的樱属品种指纹图谱构建[D]. 南京: 南京林业大学, 2020.
	ZHU S X. Fingerprinting of Cerasus cultivars based on morphology and SSR molecular markers[D]. Nanjing: Nanjing Forestry University, 2020.
[50]	孙泽硕, 蒋冬月, 柳新红, 等. 基于SSR标记的42份樱花品种的聚类分析及DNA指纹图谱构建[J]. 园艺学报, 2023, 50(3):657-668.
	SUN Z S, JIANG D Y, LIU X H, et al. Cluster analysis and construction of DNA fingerprinting of 42 oriental cultivars of flowering cherry based on SSR markers[J]. Acta Hortic Sin, 2023, 50(3):657-668.DOI: 10.16420/j.issn.0513-353x.2021-1057.
[51]	LEE S, WEN J. A phylogenetic analysis of Prunus and the Amygdaloideae (Rosaceae) using ITS sequences of nuclear ribosomal DNA[J]. Am J Bot, 2001, 88(1):150-160.
[52]	刘艳玲, 徐立铭, 程中平. 基于ITS序列探讨核果类果树桃、李、杏、梅、樱的系统发育关系[J]. 园艺学报, 2007, 34(1):23-28.
	LIU Y L, XU L M, CHENG Z P. Phylogenetic analysis of stone fruits such as peach,plum,apricot,mume and cherry based on ITS sequences[J]. Acta Hortic Sin, 2007, 34(1):23-28.DOI: 10.16420/j.issn.0513-353x.2007.01.005.
[53]	SHAW J, SMALL R. Addressing the “Hardest puzzle in American pomology” phylogeny of Prunus sect. Prunocerasus (Rosaceae) based on seven noncoding chloroplast DNA regions[J]. AM J BOT, 2004, 91(6): 985-996.
[54]	BORTIRI E, OH S H, JIANG J G, et al. Phylogeny and systematics of Prunus (Rosaceae) as determined by sequence analysis of ITS and the chloroplast trnL-trnF spacer DNA[J]. Systematic Botany, 2001, 26(4): 797-807. DOI: 10.1043/0363-6445-26.4.797.
[55]	BORTIRI E, OH S H, GAO F Y, et al. The phylogenetic utility of nucleotide sequences of sorbitol 6-phosphate dehydrogenase in Prunus (Rosaceae)[J]. Am J Bot, 2002, 89(10):1697-1708.DOI: 10.3732/ajb.89.10.1697.
[56]	SHI S, LI J L, SUN J H, et al. Phylogeny and classification of Prunus sensulato (Rosaceae)[J]. J Integr Plant Biol, 2013, 55(11):1069-1079.DOI: 10.1111/jipb.12095.
[57]	石硕. 蔷薇科李属樱亚属的系统学研究[D]. 北京: 中国科学院大学, 2013.
	SHI S. Systematic study on subgenus Prunus of Rosaceae[D]. Beijing: University of Chinese Academy of Sciences, 2013.
[58]	CHEN Z L, CHEN W J, CHEN H, et al. Prunus pananensis (Rosaceae),a new species from Pan’an of central Zhejiang,China[J]. PLoS One, 2013, 8(1):e54030.DOI: 10.1371/journal.pone.0054030.
[59]	叶立新, 鲁益飞, 王桦, 等. 凤阳山樱桃:浙江樱属(蔷薇科)一新种[J]. 杭州师范大学学报(自然科学版), 2017, 16(1):19-24.
	YE L X, LU Y F, WANG H, et al. Cerasus Fengyangshanica(Rosaceae),a new species from Zhejiang[J]. J Hangzhou Norm Univ (Nat Sci Ed), 2017, 16(1):19-24.DOI: 10.3969/j.issn.1674-232X.2017.01.006.
[60]	ZHANG X S, JIANG Z L, YUSUPOV Z, et al. Prunus sunhangii:a new species of Prunus from central China[J]. Plant Divers, 2019, 41(1):19-25.DOI: 10.1016/j.pld.2019.01.003.
[61]	LIANG S H, QIN B, HUANG Y H, et al. Prunus quanzhouensis:A newly discovered species of Prunus subgen.Cerasus (Rosaceae) from northeastern Guangxi,China[J]. Phytotaxa, 2023, 622(4):252-259.DOI: 10.11646/phytotaxa.622.4.2.
[62]	YI X, DONG J, CHEN J, et al. Molecular and morphological evidence support a new species of Rosaceae Prunus subg.Cerasus from Wuyishan National Park,southeast China[J]. PhytoKeys, 2024, 237:269-279.DOI: 10.3897/phytokeys.237.115098.
[63]	LI M, SONG Y F, SYLVESTER S P, et al. Comparative analysis of the complete plastid genomes in Prunus subgenus Cerasus (Rosaceae):molecular structures and phylogenetic relationships[J]. PLoS One, 2022, 17(4):e0266535.DOI: 10.1371/journal.pone.0266535.
[64]	DONG J J, YI X G, WANG X R, et al. Population variation and phylogeography of cherry blossom (Prunus conradinae) in China[J]. Plants, 2024, 13(7):974.DOI: 10.3390/plants13070974.
[65]	SHEN X, ZONG W J, LI Y G, et al. Evolution of cherries (Prunus subgenus Cerasus) based on chloroplast genomes[J]. Int J Mol Sci, 2023, 24(21):15612.DOI: 10.3390/ijms242115612.
[66]	SONG Y F, ZHANG C, IDREES M, et al. Molecular phylogenetics and biogeography reveal the origin of cherries (Prunus subg. Cerasus,Rosaceae)[J]. Bot J Linn Soc, 2024, 204(4):304-315.DOI: 10.1093/botlinnean/boad060.
[67]	SHIRASAWA K, ISUZUGAWA K, IKENAGA M, et al. The genome sequence of sweet cherry (Prunus avium) for use in genomics-assisted breeding[J]. DNA Res, 2017, 24(5):499-508.DOI: 10.1093/dnares/dsx020.
[68]	BAEK S, CHOI K, KIM G B, et al. Draft genome sequence of wild Prunus yedoensis reveals massive inter-specific hybridization between sympatric flowering cherries[J]. Genome Biol, 2018, 19(1):127.DOI: 10.1186/s13059-018-1497-y.
[69]	SHIRASAWA K, ESUMI T, HIRAKAWA H, et al. Phased genome sequence of an interspecific hybrid flowering cherry,‘Somei-Yoshino’ (Cerasus × yedoensis)[J]. DNA Res, 2019, 26(5):379-389.DOI: 10.1093/dnares/dsz016.
[70]	YI X G, YU X Q, CHEN J, et al. The genome of Chinese flowering cherry (Cerasus serrulata) provides new insights into Cerasus species[J]. Hortic Res, 2020, 7:165.DOI: 10.1038/s41438-020-00382-1.
[71]	NIE C R, ZHANG Y J, ZHANG X Q, et al. Genome assembly,resequencing and genome-wide association analyses provide novel insights into the origin,evolution and flower colour variations of flowering cherry[J]. Plant J, 2023, 114(3):519-533.DOI: 10.1111/tpj.16151.
[72]	JIANG D Y, LI X K, LI Y G, et al. Chromosome-level assembly of flowering cherry (Prunus campanulata) provides insight into anthocyanin accumulation[J]. Genes, 2023, 14(2):389.DOI: 10.3390/genes14020389.
[73]	柳新红, 孙中帅, 蒋冬月, 等. 我国樱花产业主要问题的思考[J]. 浙江林业科技, 2018, 38(6):77-82.
	LIU X H, SUN Z S, JIANG D Y, et al. About challenges of flowering cherry industry in China[J]. J Zhejiang For Sci Technol, 2018, 38(6):77-82.DOI: 10.3969/j.issn.1001-3776.2018.06.014.
[74]	孙中帅, 陈超, 黄升, 等. 樱亚属野生种资源分布及分类研究[J]. 浙江林业科技, 2022, 42(5):66-75.
	SUN Z S, CHEN C, HUANG S, et al. Distribution of wild Prunus subg.Cerasus and inquiry into taxonomy[J]. J Zhejiang For Sci Technol, 2022, 42(5):66-75.DOI: 10.3969/j.issn.1001-3776.2022.05.009.
[75]	FU C L, XIE C P, IDREES M, et al. The species richness-environment relationship for cherries (Prunus subgenus Cerasus) across the Northern Hemisphere[J]. Forests, 2023, 14(2):193.DOI: 10.3390/f14020193.
[76]	LINDLEY J. Transactions of the Horticultural Society of London(volume VII)[M]. London: M. Bulmer & Co, 1830.
[77]	KOIDZUMI G. Notes on Japanese Rosaceae[J]. Bot. Mag. (Tokyo), 1911, 25: 184-188.
[78]	吴保欢. 基于形态性状的中国李属樱亚属系统分类研究[D]. 广州: 华南农业大学, 2016.
	WU B H. Taxonomy revision and phylogenetic study based on numerical tax-onomy on Prunus L.subgenus Cerasus (Mill.) A.gray in China[D]. Guangzhou: South China Agricultural University, 2016.
[79]	WU B H, LIU C Y, POTTER D, et al. Taxonomic reconsideration of Prunus veitchii (Rosaceae)[J]. PhytoKeys, 2019, 115:59-71.DOI: 10.3897/phytokeys.115.29219.
[80]	张毅, 史传铎. 山东樱属一新变种:泰山野樱花[J]. 植物分类学报, 1999, 37(1):87.
	ZHANG Y, SHI C D. A new variety of sakura from Shandong: wild sakura Taishan[J]. J Syst Evol, 1999, 37(1):87.
[81]	KATSUKI T, IKETANI H. Nomenclature of Tokyo cherry (Cerasus × yedoensis ‘Somei-yoshino’,Rosaceae) and allied interspecific hybrids based on recent advances in population genetics[J]. Taxon, 2016, 65(6):1415-1419.DOI: 10.12705/656.13.

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A review on the taxonomy study of Prunus subgen. Cerasus (Mill) A. Gray

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