The growth and flowering of Rhodohypoxis baurii (Baker) Nel cultivars depending on rhizome weight

Addai I.K., Scott P., 2011. Influence of bulb sizes at planting on growth and development of the common hyacinth and the lily. Agric. Biol. J. N. Am. 2: 298-314.10.5251/abjna.2011.2.2.298.314Search in Google Scholar

Bezu T., Kassa N., 2014. Planting density and corm size effects on flower yield and quality of cut-freesia (Freesia hybrid) in Ethiopia. J. Appl. Hortic.16: 76-79.10.37855/jah.2014.v16i01.13Search in Google Scholar

Clark G.E., Burge G.K., Morgan E.R., Triggs C.M., 2013. Production of Babiana ringens corms for forcing as a flowering pot plant. Acta Hortic. 1002: 59-66.10.17660/ActaHortic.2013.1002.6Search in Google Scholar

Douglas M.H., Smallfield B.M., Wallace A.R., McGimpsey J.A., 2014. Saffron (Crocus sativus L.): The effect of mother corm size on progeny multiplication, flower and stigma production. Sci. Hortic. 166: 50-58.10.1016/j.scienta.2013.12.007Search in Google Scholar

Duncan G.D., 2003. Rhodohypoxis: carpets of Alpine jewels. Veld Flora. 89: 140-144.10.30770/2572-1852-89.3.140Search in Google Scholar

Duncan G.D., 2013. Geophyte research and production in South Africa. In: Ornamental Geophytes: From Basic Science to Sustainable Production. R. Kamenetsky, H. Okubo (eds), Taylor and Francis Group LLC, Boca Raton: 485-503.Search in Google Scholar

Halevy A.H., 1990. Recent advances in control of flowering and growth habit of geophytes. Acta Hortic. 266: 35-42.10.17660/ActaHortic.1990.266.3Search in Google Scholar

Han S.S., Halevy A.H., Sachs R.M., Reid M.S., 1991. Flowering and corm yield of Brodiaea in response to temperature, photoperiod, corm size, and planting depth. J. Am. Soc. Hortic. Sci. 116: 19-22.10.21273/JASHS.116.1.19Search in Google Scholar

Han S.S., 2001. Flowering of three species of Brodiaea in relation to bulb size and source. Sci. Hortic. 91: 349-355.10.1016/S0304-4238(01)00261-8Search in Google Scholar

Kapczyńska A., 2008. Effect of corm size on the yield of Sparaxis tricolor Ker-Gawl. grown in the field. Zesz. Probl. Post. Nauk Roln. 525: 197-202.Search in Google Scholar

Kapczyńska A., 2014. Effect of bulb size on growth, flowering and bulb formation in lachenalia cultivars. Hortic. Sci. 41: 89-94.10.17221/183/2013-HORTSCISearch in Google Scholar

Kareem A., Khan M.A., Shoib-Ur-Rehman I.A., 2013. Different corm sizes affect performance of Gladiolus grandiflorus cvs. Red Majesty and Early Yellow. Adv. Zool. Bot. 1: 86-91.10.13189/azb.2013.010404Search in Google Scholar

Morales P., Schiappacasse F., Penailillo P., Yanez P., 2009. Effect of bulb weight on the growth and flowering of Herbertia lahue subsp. lahue (Iridaceae) Cienc. Investig. Agrar. 36: 259-266.10.4067/S0718-16202009000200010Search in Google Scholar

Mori G., Sakanishi Y., 1990. Effect of temperature on flowering of Rhodohypoxis baurii var. platypetala Nel. J. Jpn. Soc. Hortic. Sci. 58: 993-998.10.2503/jjshs.58.993Search in Google Scholar

Nordal I., 1998. Hypoxidaceae. In: The Families and Genera of Vascular Plants. Flowering Plants. Monocotyledons. K. Kubitzki (ed.), Volume 3, Springer-Verlag Berlin Heidelberg GmbH, New York: 286-295.10.1007/978-3-662-03533-7_36Search in Google Scholar

Noor-Ul-Amin Khattak A.M., Ahmad I., Ara N., Alam A., Ali M., Ali I., 2013. Corm and cormel size of gladiolus greatly influenced growth and development of subsequent corm production. Pak. J. Bot. 45: 1407-1409.Search in Google Scholar

Pooley E., 1998. A Field Guide to Wild Flowers Kwazulu-Natal and the Eastern Region. Natal Flora Publications Trust, Durban.Search in Google Scholar

Puntieri J.G., Gatica N., Grosfeld J.E., 2014. Flower removal increases rhizome mass in natural populations of Alstroemeria aurea (Alstroemeriaceae). Flora 209: 332-339.10.1016/j.flora.2014.03.008Search in Google Scholar

Salachna P., 2014. Effect of size of on the inflorescences and bulb yield of Ornithogalum saundersiae Bak. grown in an unheated plastic tunnel. Folia Pomeranae Univ. Technol. Stetinensis, Agric. Piscaria Zootech. 312: 153-158.Search in Google Scholar

Shinoda K., Murata N., 2005. The effect of corm weight and low temperature treatment on the flowering of Erythronium Pagoda. Acta Hortic. 673: 495-499.10.17660/ActaHortic.2005.673.65Search in Google Scholar

Singh Y., 2000. Rhodohypoxis, beauty in abundance. Herbertia. 55: 74-80, 86.Search in Google Scholar

Thompson M.F., 1976. Studies in the Hypoxidaceae. I. Vegetative morphology and anatomy. Bothalia. 12: 111-117.10.4102/abc.v12i1.1383Search in Google Scholar

Thompson D.I., Mtshali N.P., Ascough G.D., Erwin J.E., Van Staden J., 2011. Flowering control in Watsonia: Effects of corm size, temperature, photoperiod and irradiance. Sci. Hortic. 129: 493-502.10.1016/j.scienta.2011.04.004Search in Google Scholar

Upfold S.J., Van Staden J., Edwards T.J., 1992. In vitro propagation of Rhodohypoxis baurii. HortScience. 27: 1230.10.21273/HORTSCI.27.11.1230Search in Google Scholar

Watad A.A., Luria G., Borochov A., 1999. Aconitum: Effects of environmental conditions and tuber size on growth, flowering and tuber production. Sci. Hortic. 81: 135-147.10.1016/S0304-4238(99)00002-3Search in Google Scholar

Werger M.J.A., Huber H., 2006. Tuber size variation and organ preformation constrain growth responses of a spring geophyte. Oecologia. 147: 396-405.10.1007/s00442-005-0280-416249894Search in Google Scholar