Standardization of Different IBA Concentrations on Stenting Method of Propagation in Plum Cultivars Under Polyhouse Conditions
Keywords:
Stenting, Pixy Plum, Direct Rooting and Grafting, Polyhouse Conditions.Abstract
This study was conducted during 2015-16 with the objective to reduce nursery production duration of plum under polyhouse conditions in mid-hill areas of HP. Non-rooted cuttings of Pixy plum having graftable thickness were collected from the mother stools in December and then kept in moist sand for two months in a pit. In the last week of January 2016, scion woods of three cultivars of plum namely; Santa Rosa, Mariposa and Frontier were grafted on to the non-rooted cuttings of Pixy plum. The grafts were then treated with different concentrations of IBA and planted in a well prepared nursery beds under ordinary tunnel type polyhouse. Stentlings (grafted stocks) started sprouting after 12 to 15 days of grafting and grafting success was recorded as high as 90.19% with the production of saleable plants up to 94.19% in cultivar Mariposa treated with IBA at 5000 ppm. The other growth parameters such as stentling height, number of laterals per stentlings, root number and root length were observed higher in cultivar Frontier. This method of plant propagation reduced the nursery production duration of plum from two years to one year with satisfactory results with respect to bud take success and production of percent saleable plants in polyhouse under mid-hill conditions of HP.Downloads
Downloads
Published
How to Cite
Issue
Section
References
Gill JaspreetKaur, Harminder Singh, A Thakur and Jawandha SK. 2014. Studies on simultaneous grafting and rooting of peach Flordaguard rootstock. HortFlora Research Spectrum 3 (3): 259-262.
Hartmann Hhudson T, Kester Dale E, Davies Fred T (Jr.) and Geneve Robert L. 2009.Plant propagation principles and practices.7thEdn. PHI Learning Pvt. Ltd. New Delhi-110001.pp 411-448.
Izadi Zeinab and Hossein Zarei. 2014. Evaluation of propagation of Chinese hibiscus (Hibiscus rosasinensis) through stenting method in response to different IBA concentrations and rootstocks. American Journal of Plant Sciences 5: 1836-1841. http://www.scirp.org/journal/ajps. http://dx.doi.org/10.4236/ajps. 2014.513197
Karimi HR and Nowrozy M. 2017. Effect of rootstock and scion on graft success and vegetative parameters of pomegranate. ScientiaHorticulturae 214: 280-287.
Kroin Joel. 2015. Propagation of roses: stentingsimultaneously cutting and grafting. Hortus USA file:///C:/Users/horti/Downloads/xKroin_Propagation_of_Roses_by_Stenting_2015. pdf.
Markovski Aleksandar, Melpomena Popovska and Viktor Gjamovski. 2015. Investigation of the possibility for production of some stone fruit rootstocks by rooting cuttings. Acta Agriculturae Serbica 39 : 75-831.
Megre Dace, Uldis Kondratoviès and Kristine Dokane. 2007. Simultaneous graft union and adventitious root formation during vegetative propagation in elepidote rhododendrons. ActaUniversitatisLatviensis Biology 723: 155-162.
Negi ND and Upadhyay SK. 2016. Stenting-a new method of propagation for cherry and pear under polyhouse conditions. Indian Journal of Horticulture 73 (2): 296-299.
Oguz Dolgun, Adnan Yildirim, Mehmet Polat, Fatma Yildirim and Atilla Akin. 2009. Apple graft formation in relation to growth rate features of rootstocks. African Journal of Agricultural Research 4 (5): 530-534.
Membership form
Guidelines to the Contributors