Back Article

Hartman RD. 1974. Dasheen Mosaic Virus and other phytopathogens eliminated from caladium, taro, and cocoyam by culture of shoot tips. Phytopathology 64:237−40

Murashige T, Skoog F. 1962. A revised medium for rapid growth and bio assays with tobacco tissue cultures. Physiologia Plantarum 15:473−97

Larkin PJ, Scowcroft WR. 1981. Somaclonal variation — a novel source of variability from cell cultures for plant improvement. Theoretical and Applied Genetics 60:197−214

Krishna H, Alizadeh M, Singh D, Singh U, Chauhan N, et al. 2016. Somaclonal variations and their applications in horticultural crops improvement. 3 Biotech 6:54

Chen J, Henny RJ. 2006. Somaclonal variation: an important source for cultivar development of floriculture crops. In Floriculture, Ornamental and Plant Biotechnology, ed. Teixeira da Silva JA. vol. 2. London: Global Science Books. pp 244–53

Chen J, Henny RJ, Chao TC. 2003. Somaclonal variation as a source for cultivar development of ornamental aroids. In Recent Research Development in Plant Science, ed. Pandalai SG. Kerala, India: Research Signpost. pp 31–43.

Henny RJ, Chen J, Norman DJ. 2003. 'Diamond Bay' and 'Emerald Bay' Aglaonema. HortScience 38:1446−47

Henny RJ, Norman DJ, Chen J. 2003. 'Orange Hot' Anthurium. HortScience 38:133−34

Shen X, Chen J, Kane ME, Henny RJ. 2007. Assessment of somaclonal variation in Dieffenbachia plants regenerated through indirect shoot organogenesis. Plant Cell, Tissue and Organ Culture 91:21−27

Chuy Y, Yazawa S. 2001. The variation and the hereditary stability on leaf character of plantlets regenerated from micropropagation in caladium. Journal of the Chinese Society for Horticultural Science 47:5967

Ahmed EU, Hayashi T, Zhu Y, Hosokawa M, Yazawa S. 2002. Lower incidence of variants in Caladium bicolor Ait. plants propagated by culture of explants from younger tissue. Scientia Horticulturae 96:187−94

Ahmed EU, Hayashi T, Yazawa S. 2004. Auxins increase the occurrence of leaf-colour variants in Caladium regenerated from leaf explants. Scientia Horticulturae 100:153−59

Thepsithar C, Thongpukdee A, Chiensil P. 2010. Micropropagation of Caladium bicolor (Ait.) Vent. 'Thep Songsil' and incidence of somaclonal variants. Acta Horticulturae 855:273−80

Alatzas A, Foundouli A. 2006. Distribution of ubiquitinated histone H2A during plant cell differentiation in maize root and dedifferentiation in callus culture. Plant Science 171:481−87

Bairu MW, Aremu AO, Van Staden J. 2011. Somaclonal variation in plants: Causes and detection methods. Plant Growth Regulation 63:147−73

Cai X, Cao Z, Xu S, Deng Z. 2015. Induction, regeneration and characterization of tetraploids and variants in ‘Tapestry’ caladium. Plant Cell, Tissue and Organ Culture 120:689−700

Cao Z, Sui S, Cai X, Yang Q, Deng Z. 2016. Somaclonal variation in ‘Red Flash’ caladium: morphological, cytological and molecular characterization. Plant Cell, Tissue and Organ Culture 126:269−79

Cao Z, Deng Z. 2020. Morphological, cytological and molecular marker analyses of ‘Tapestry’ caladium variants reveal diverse genetic changes and enable association of leaf coloration pattern loci with molecular markers. Plant Cell, Tissue and Organ Culture 143:363−75

Lee M, Phillips RL. 1987. Genomic rearrangements in maize induced by tissue culture. Genome 29:122−28

Lee M, Phillips R. 1988. The chromosomal basis of somaclonal variation. Annual Review of Plant Physiology and Plant Molecular Biology 39:413−37

Ahmed EU, Hayashi T, Yazawa S. 2004. Leaf color stability during plant development as an index of leaf color variation among micropropagated Caladium. HortScience 39:328−32

Thongpukdee A, Thepsithar C, Chiensil P. 2010. Somaclonal variation of Caladium bicolor (Ait.) Vent. 'Jao Ying' after in vitro culture propagation. Acta Horticulturae 855:281−88

Parrish SB, Deng Z. 2022. Discovery and characterization of novel fertile triploids and a new chromosome number in caladium (Caladium × hortulanum). HortScience 57:1078−85

Kane ME, Kauth P, Johnson T. 2011. Culture indexing for bacterial and fungal contaminants. In Plant Tissue Culture, Development, and Biotechnology, eds. Trigiano RN, Gray DJ. Florida, USA: Boca Raton. pp. 239–43.

Leifert C, Waites WM. 1992. Bacterial growth in plant tissue culture media. Journal of Applied Bacteriology 72:460−66

Linsmaier EM, Skoog F. 1965. Organic growth factor requirements of tobacco tissue cultures. Physiologia Plantarum 18:100−27

Deng Z, Harbaugh BK. 2006. 'Garden White'—A large white fancy-leaved caladium for sunny landscapes and large containers. HortScience 41:840−842

Schneider CA, Rasband WS, Eliceiri KW. 2012. NIH Image to ImageJ: 25 years of image analysis. Nature Methods 9:671−75

Doležel J, Greilhuber J, Suda J. 2007. Estimation of nuclear DNA content in plants using flow cytometry. Nature Protocols 2:2233−44

Gong L, Deng Z. 2011. Development and characterization of microsatellite markers for caladiums (Caladium Vent.). Plant Breeding 130:591−95

Cao Z, Sui S, Yang Q, Deng Z. 2017. A single gene controls leaf background color in caladium (Araceae) and is tightly linked to genes for leaf main vein color, spotting and rugosity. Horticulture Research 4:16067

Kubo Y, Furusawa I. 1991. Melanin biosynthesis: prerequisite for successful invasion of the plant host by appressoria of Colletotrichum and Pyricularia. In The fungal spore and disease initiation in plants and animals, eds. Cole GT, Hoch HC. Boston, MA: Springer. pp. 205–18. https://doi.org/10.1007/978-1-4899-2635-7_9

Bowman HM, Polston JE, McGovern RJ. 2018. Diseases of caladium. In Handbook of Florists' Crops Diseases. Handbook of Plant Disease Management, eds. McGovern R, Elmer W. Switzerland: Springer, Cham. pp. 1073–98. https://doi.org/10.1007/978-3-319-39670-5_40

Chen C, Hou X, Zhang H, Wang G, Tian L. 2011. Induction of Anthurium andraeanum "Arizona" tetraploid by colchicine in vitro. Euphytica 181:137−45

Vieira MLC, Santini L, Diniz AL, Munhoz CdF. 2016. Microsatellite markers: what they mean and why they are so useful. Genetics and Molecular Biology 39:312−28