Chromosome numbers of Araliaceae in Korea
Byung Yun Sun, Chul Hwan Kim, Woong Young Soh
Korean J. Pl. Taxon. 1988;18(4):291-296.   Published online 1988 Dec 30     DOI:
Citations to this article as recorded by Crossref logo
Pre-labelled oligo probe-FISH karyotype analyses of four Araliaceae species using rDNA and telomeric repeat
Hui Chao Zhou, Remnyl Joyce Pellerin, Nomar Espinosa Waminal, Tae-Jin Yang, Hyun Hee Kim
Genes & Genomics.2019; 41(7): 839.     CrossRef
Phylogenetic Relationship of Araliaceae in Korea by Seed Morphological Characteristics
Geon-Rae Kim, Hae-Ran Kim, Hyung-Soon Choi, Jin-Gyu Han, Soo-Young Kim, Chan-Soo Kim
Journal of Wetlands Research.2015; 17(2): 139.     CrossRef
Chromosomal evolution in Araliaceae and close relatives
Tingshuang Yi, Porter P. Lowry, Gregory M. Plunkett, Jun Wen
TAXON.2004; 53(4): 987.     CrossRef
Phylogenetic utility and evidence for multiple copies of Granule­Bound Starch Synthase I (GBSSI) in Araliaceae
Anthony Mitchell, Jun Wen
TAXON.2004; 53(1): 29.     CrossRef
Morphological Analysis on the Kalopanax pictus (Araliaceae) of Korean Populations
Journal of Life Science.2004; 14(3): 400.     CrossRef
Genetic diversity and population structure ofKalopanax pictus (Araliaceae)
Sang Duk Jung, Hong Wook Huh, Jung Hee Hong, Joo Soo Choi, Hyun Sik Chun, Kyoug Hwan Bang, Man Kyu Huh
Journal of Plant Biology.2003; 46(4): 255.     CrossRef
Polyploid speciation inHedera (Araliaceae): Phylogenetic and biogeographic insights based on chromosome counts and ITS sequences
Pablo Vargas, Hugh A. McAllister, Cynthia Morton, Stephen L. Jury, Mike J. Wilkinson
Plant Systematics and Evolution.1999; 219(3-4): 165.     CrossRef
Phylogenetic relationships ofPseudopanax species (Araliaceae) inferred from parsimony analysis of rDNA sequence data and morphology
A. D. Mitchell, S. J. Wagstaff
Plant Systematics and Evolution.1997; 208(3-4): 121.     CrossRef