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http://dx.doi.org/10.5010/JPB.2021.48.4.236

Ecogeographical variations of the vegetative and floral traits of Lilium amabile Palibian  

Nguyen, Viet Yen (Department of Horticulture, Kangwon National University)
Rai, Rameshwar (Department of Horticulture, Kangwon National University)
Kim, Jong-Hwa (Department of Horticulture, Kangwon National University)
Kim, Ji-Young (Department of Horticulture, Kangwon National University)
Na, Jong-Kuk (Department of Controlled Agriculture, Kangwon National University)
Publication Information
Journal of Plant Biotechnology / v.48, no.4, 2021 , pp. 236-245 More about this Journal
Abstract
This study aimed to characterize the morphological variations in the vegetative and floral traits of 73 wild Lilium amabile plants from six habitats in Korea. It was observed that L. amabile is distributed nationwide at any altitude from 300 m (Mt Mangdaeam) to 1550 m (Mt Halla). The majority of the natural habitats of L. amabile were found on mountain slopes, and some were found in rugged mountain regions. The down-facing flowers of this species not only had many blotches but also dense trichomes, and the flowering time was found to be from mid-June to mid-July. ANOVA revealed significant variations in vegetative and floral traits among the six habitats, indicating that the environment has substantial influences on the various growth parameters of L. amabile, such as plant height; number of leaves, bracts, papillae, and flowers; leaf angle; and lengths of the anther, longest blotch, and nectary of the petiole. In addition, the vegetative and floral traits were found closely correlated with each other under the direct impact of the environment. These findings will facilitate to find the appropriate environmental conditions for the conservation and development of L. amabile population as future lily-breeding materials.
Keywords
Population diversity; Morphological traits; Floral traits; Ecogeographical habitats; Lilium amabile;
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  • Reference
1 Matthews V (2007) The International Lily Register and Checklist. RHS London. 4th Edition
2 Chung MY, Lopez-Pujol J, Chung JM, Kim KJ, Park SJ, and Chung MG (2015). Polyploidy in Lilium lancifolium: evidence of autotriploidy and no niche divergence between diploid and triploid cytotypes in their native ranges. Flora 213:57-68. doi: 10.1016/j.flora.2015.04.002   DOI
3 Chung T (1965) Illustrated encyclopedia of Fauna & Flora of Korea. Vol. 5. Tracheophyta. Genus Chrysosplenium. Ministry of Education. Seoul. pp. 497-483
4 De Jong P (1974) Some notes on the evolution of lilies. Lily Yearbook, vol 27, pp. 23-28
5 Ellison AM, Buckley HL, Miller TE, Gotelli NJ (2004) Morphological variation in Sarracenia purpurea (Sarraceniaceae): geographic, environmental, and taxonomic correlates. Am J Bot. 91(11):1930-1935   DOI
6 Badri M, Ilahi H, Huguet T, Aouani ME (2007). Quantitative and molecular genetic variation in sympatric populations of Medicago laciniata and M. truncatula (Fabaceae): relationships with ecogeographical geographical factors. Genet. Res. 89:107-122   DOI
7 Badri M, Bouhaouel I, Arraouadi S, Tammalli W, Huguet T, Aouani ME (2016) Variation in tolerance among Tunisian populations of Medicago truncatula. Plant Genetic Resources: Characterization and Utilization, 14:41-49   DOI
8 Burton GW and Devane EW (1953) Estimating heritability in tall fascue from replicated clonal material. Agron. J. 45:478-481   DOI
9 Criddle RS, Church JN, Smith BN, Hansen LD (2003) Fundamental Causes of the Global Patterns of Species Range and Richness1. Russian Journal of Plant Physiology 50, 192-199   DOI
10 Du YP, He HB, Wang ZX, Wei C, Li S, Jia GX (2014) Investigation and evaluation of the genus Lilium resources native to China. Genet Resour Crop Evol 61:395-412   DOI
11 Johnson HW, Robinson HF, Comstock RE (1955) Estimates of genetic and environmental variability in soybeans. Agronomy Journal. 47(7):314-318   DOI
12 Haw SG (1986) The lilies of China. B.T. Batsford Ltd., London
13 Dhiman MR, Moudgil S, Prakash C, Kumar R, and Kumar S (2015) Biodiversity in Lilium: A Review. International Journal of Horticulture. 8(8):83-97
14 Eriksson O (1996) Regional dynamics of plants: a review of evidence for remnant, source-sink and metapopulations. Oikos 77:248-258   DOI
15 Gao YD, Gao XF (2016) "Accommodating Nomocharis in Lilium (LIliaceae)," Phytotaxa. 277(2):205-210   DOI
16 Jeong JH, Kim KS, and Hong YP (1991). Distribution of Korean native lilies and environmental conditions of their native habitats. J. Kor. Soc. Hort. Sci. 32:270-277
17 Kim T (2008) Wild flowers and resources plants in Korea. 1-5, Seoul: SNU press
18 Kim YS, Lee WB (1990a) A study of morphological characters on the genus Lilium L. in Korea. Korean Journal of Plant Taxonomy. 20(3):165-178   DOI
19 Kim YS, Lee WB (1990b) A study of anatomical characters on the genus Lilium L. in Korea," Korean Journal of Plant Taxonomy, vol. 20(3):179-189   DOI
20 Morgan KK, Hicks J, Spitze K, Latta L, Pfrender ME, Weaver CS et al (2001). Patterns of genetic architecture for life-history traits and molecular markers in a subdivided species. Evolution 55:1753-1761   DOI
21 Lee T (1980) Illustrated flora of Korea. Hyangmunsa, Seoul.
22 Lucidos JGB, Kwang R, Younis A, Kim CK, Hwang YJ, Son BG and Lim KB (2013) Different day and night temperatures responses in Lilium hansonii in relation to growth and flower development. Hort Environ Biotech. 54:405-411   DOI
23 Sivasubramanian S, Menon M (1973) Heterosis and inbreeding depression in rice. Madras Agric. J. 60(7):1139-1140
24 Nguyen TX, Kim BR, Park DR, Kim YK, Nguyen VY, Na JK, Kim NS, Kim JH (2019) Karyotype and B chromosome variation in Lilium amabile Palibin. Genes & genomics. 41(6):647-655   DOI
25 Lee C (2003) Coloured flora of Korea 1-2, Seoul: Hyangmunsa.
26 Lighty RW (1969) The lilies of Korea. In: The lily yearbook, RHS, London. 31:31-39
27 Lim KB (2013) Korean species lilies (Lilium tsingtauense). Lilies and related plants. RHS. 87-92
28 Grasotti A, Gimelli F (2011) Bulb and cut flower production in the genus Lilium: current status and the future. Acta Hortic 900:21-42   DOI
29 Synge PM (1980) Lilies, London: B.T. Batsford
30 McRae E (1998) Lily species., In Lilies, Timber Press, Portland, Ore.USA, pp. 319-330
31 Singh RK and Choudhary BD (1979), Biometrical methods in quantitative genetic analysis, New Delhi: Kalyani Publisher
32 Wilson EH (1925) The lilies of Eastern Asia. Dulau & Co. Ltd, London. pp 110
33 Song JT, Jeong HB, Kim BW, Jin HS (1989) The Sauras of Korean resourses plants, Seoul. Ilheung Co. pp. 512-513
34 Spitze K (1993) Population-Structure in Daphnia obtusa - Quantitative genetic and allozymic variation. Genetics, 135(2):367-374   DOI
35 Van Tuyl JM, Arens P (2011) Lilium breeding history of the mordern cultivar assortment. Acta Horticult 900:223-230   DOI
36 Lee SI, Nguyen TX, Kim JH, Kim NS (2019) Cytological variations and long terminal repeat (LTR) retrotransposon diversities among diploids and B-chromosome aneuploids in Lilium amabile Palibin. Genes & genomics. 41(8):941-950   DOI