A brief discussion on methodology in taxonomy

doi:10.17520/biods.2024541

Abstract

Abstract:

The author has been engaged in taxonomic research for 60 years, from Flora of China to world monographs, and has been recognized both at home and abroad. During this process, the author has realized that a complete and reasonable research method is of vital importance. Taxonomy is a highly comprehensive discipline, involving almost all branches of biology, among which morphology, palynology, cytology, genetics, molecular biology and statistics are indispensable. Taking the research on the genus Paeonia (Paeoniaceae) and the genus Codonopsis (Campanulaceae) and their related groups as examples, the author has applied all the above-mentioned disciplines, emphasizing that field investigation and statistical analysis are indispensable research methods. Only through field investigation can necessary experimental materials be obtained and between the population polymorphism and interspecific differences be distinguished; only through statistical analysis can intraspecific variations and genetic isolation be differentiated. The rise of molecular systematics has brought taxonomy into a brand-new era, and taxonomists must recognize and learn it. My team has applied it in the above two studies and achieved unexpected results. My feeling is that high-level research must be based on complete scientific methods.

Key words: taxonomy, species delimitation, method, field investigation, statistical analysis, molecular phylogeny, Paeonia, Campanulaceae

Hong Deyuan. A brief discussion on methodology in taxonomy[J]. Biodiv Sci, 2025, 33(2): 24541.

Add to citation manager EndNote|Ris|BibTeX

URL: https://www.biodiversity-science.net/EN/10.17520/biods.2024541

https://www.biodiversity-science.net/EN/Y2025/V33/I2/24541

Figures/Tables 4

Fig. 1 Population polymorphism of leaf morphology in Adenophora potaninii Korsh. (Campanulaceae). A. subsp. potaninii; B. subsp. wawreana (Zahlbr.) S. Ge & D.Y. Hong. A & B, respectively showing sampling of a population. a, b, c & d respectively showing leaf morphology of two individuals from one population and leaf morphology of their offspring (Ge & Hong, 1995).

Fig. 2 Population polymorphism of petals in two populations of Paeonia delavayi Franch. in Shangri-la county, Yunnan. A. Hana Village population; B. Wengshui population (Hong et al, 1998).

Fig. 3 Molecular phylogenetic tree constructed from four chloroplast DNA fragments. The tree is annotated with external morphology (presence or absence of floral disc or glands), pollen morphology (long colpus or short colpus), and chromosome number (2n = 14 or 16). The illustration demonstrates the integration of information from four disciplines (external morphology, palynology, cytology, and molecular biology (Wang et al, 2014).

Fig. 4 Standard deviation of 12 populations for Paeonia delavayi Franch.: A. Number of leafy segments; B. Width of leaf segments (Hong et al, 1998; with permission)

References 25

[1]	APG IV (2016) An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG IV. Botanical Journal of the Linnean Society, 181, 1-20.
[2]	CBOL Plant Working Groups (2009) A DNA barcode for land plants. Proceedings of the National Academy of Sciences, USA, 106, 12794-12797.
[3]	Chase MW, Soltis DE, Olmstead RG, Morgan D, Les DH, Mishler BD, Duvall MR, Price RA, Hills HG, Qiu Y-L, Kron KA, Rettig JH, Conti E, Palmer JD, Manhart JR, Sytsma KJ, Michaels HJ, Kress WJ, Karol KG, Clark WD, Hedren M, Gaut BS, Jansen RK, Kim KJ, Wimpee CF, Smith JF, Furnier GR, Strauss SH, Xiang QY, Plunkett GM, Soltis PS, Swensen SM, Williams SE, Gadek PA, Quinn CJ, Eguiarte LE, Golenberg E, Learn GH, Graham SW, Barrett SCH, Dayanandan S, Albert VA (1993) Phylogenetics of seed plants: An analysis of nucleotide sequences from the plastid gene rbcL. Annals of the Missouri Botanical Garden, 80, 528-580.
[4]	Fang WP (1958) Notes on Chinese paeonies. Acta Phytotaxonomica Sinica, 7, 297-323, Pl. LXI-LXIII. (in Chinese and in English)
	[ 方文培 (1958) 中国芍药属的研究. 植物分类学报, 7, 297-323, Pl. LXI-LXIII.]
[5]	Ge S, Hong DY (1995) Biosystematic studies on Adenophora potaninii Korsh. complex (Campanulaceae). III. Genetic variation and taxonomic value of morphological characters. Acta Phytotaxonomica Sinica, 33, 433-443. (in Chinese with English abstract)
	[ 葛颂, 洪德元 (1995) 泡沙参复合体(桔梗科)的物种生物学研究. Ⅲ. 性状的遗传变异及其分类价值. 植物分类学报, 33, 433-443.]
[6]	Haw SG (2001) Paeonia delavayi, a variable species. The New Plantsman, 8, 251-253.
[7]	Hong DY (1984) Echinocodon Hong, a new genus of Campanulaceae and its systematic position. Acta Phytotaxonomica Sinica, 22, 181-184. (in Chinese with English abstract)
	[ 洪德元 (1984) 刺萼参属——桔梗科一新属及其系统位置. 植物分类学报, 22, 181-184.]
[8]	Hong DY (1997) Paeonia (Paeoniaceae) in Xizang (Tibet). Novon, 7, 156-161.
[9]	Hong DY (2010) Peonies of the World:Taxonomy and Phytogeography. Royal Botanical Garden, Kew Publishing, London & Missouri Botanical Garden Press, St. Louis.
[10]	Hong DY (2011) Paeonia rotundiloba (D. Y. Hong) D. Y. Hong: A new status in tree peonies (Paeoniaceae). Journal of Systematics and Evolution, 49, 464-467.
[11]	Hong DY (2015) A Monograph of Codonopsis and Allied Genera (Campanulaceae). Elsevier, Amsterdam.
[12]	Hong DY (2016) Biodiversity pursuits need a scientific and operative species concept. Biodiversity Science, 24, 979-999. (in Chinese with English abstract)
	[ 洪德元 (2016) 生物多样性事业需要科学、可操作的物种概念. 生物多样性, 24, 979-999.] DOI
[13]	Hong DY (2021) Peonies of the World III:Phylogeny and Evolution. Royal Botanical Gardens, Kew Publishing, London & Missouri Botanical Garden Press, St. Louis.
[14]	Hong DY, Pan KY (2012) Pollen morphology of the Platycodonoid group (Campanulaceae s. str.) and its systematic implications. Journal of Integrative Plant Biology, 54, 773-789.
[15]	Hong DY, Pan KY (1998) The restoration of the genus Cyclocodon (Campanulaceae) and its evidence from pollen and seed-coat. Journal of Systematics and Evolution, 36, 106-110.
[16]	Hong DY, Pan KY, Yu H (1998) Taxonomy of the Paeonia delavayi complex (Paeoniaceae). Annals of the Missouri Botanical Garden, 85, 554-564.
[17]	Jansen RK, Palmer JD (1987) A chloroplast DNA inversion marks an ancient evolutionary split in the sunflower family (Asteraceae). Proceedings of the National Academy of Sciences, USA, 84, 5818-5822.
[18]	Lammers TG (1998) Campanulaceae.In: Flora Taiwan (Vol. 4) (ed. Huang TC), pp. 775-802 Editorial Committee of the Flora of Taiwan, Department of Botany, Taiwan University, Taipei.
[19]	Lammers TG (2007) Campanulaceae. In: The Families and Genera of Vascular Plants Flowering Plants (Vol. 8): Eudicots, Asterales (ed. Kubitzki K), pp. 26-56. Springer, Berlin.
[20]	Li DZ (2018) A Dictionary of the Families and Genera of Chinese Vascular Plants. Science Press, Beijing. (in Chinese)
	[ 李德铢 (2018) 中国维管植物科属词典. 科学出版社, 北京.]
[21]	Mabberley D (2008/2017) Mabberley’s Plant-book: A Portable Dictionary of Plants, Their Classification and Uses. Cambridge University Press, Cambridge, UK.
[22]	Pan KY (1979) Paeonia. In: Flora Reipublicae Polularies Sinicae, Tomus 27 (ed. Delectis Florae Reipublicae Popularis Sinicae Agendae Academicae Sinicae Edita), pp. 37-59. Science Press. Beijing. (in Chinese)
	[ 潘开玉 (1979) 芍药属. 见: 中国植物志, 第二十七卷 (中国科学院中国植物志编辑委员会), 37-59页. 科学出版社, 北京.]
[23]	Saunders AP, Stebbins GL (1938) Cytogenetic studies in Paeonia I. The compatibility of the species and the appearance of the hybrids. Genetics, 23, 65-82. DOI PMID
[24]	Stern FC (1946) A Study of the Genus Paeonia. The Royal Horticultural Society, London.
[25]	Wang Q, Ma XT, Hong DY (2014) Phylogenetic analyses reveal three new genera of the Campanulaceae. Journal of Systematics and Evolution, 52, 541-550. DOI