Biodiv Sci ›› 2025, Vol. 33 ›› Issue (2): 24541. DOI: 10.17520/biods.2024541 cstr: 32101.14.biods.2024541
Received:
2024-12-06
Accepted:
2025-02-21
Online:
2025-02-20
Published:
2025-03-25
Contact:
*E-mail: Hong Deyuan. A brief discussion on methodology in taxonomy[J]. Biodiv Sci, 2025, 33(2): 24541.
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)
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