RÉSUMÉ
Aims: The study aims to investigate the influence of different IBA concentration on the rooting and subsequent growth of hardwood cuttings of "Pusa Navrang" grapevine.Study Design: The study was performed in RBD design with replicate 5 times.Place and Duration of Study: The study was conducted at Research Farm, College of Horticulture, Mandsaur, during the period November 2020- March 21.Methodology: Polybags size of 5 X 7 inch was used for experiment. After the filling of growing media in poly bags, the hard wood cuttings of Pusa Navrang with uniform size having 4-5 functional bud was taken from one year matured canes from research farm, College of Horticulture, Mandsaur. The diameter of cutting about 0.75 to 1 cm (pencil thickness) were taken and before planting cuttings were treated with IBA solution by quick dip method.Results: The significant result were found for shoot parameter like shoot length, number of nodes per shoot, internodal length, number of buds per shoot, stem diameter, stem fresh weight, stem dry weight. Root Parameters like number of primary and secondary roots, root length, root thickness, whole root volume, fresh weight of root and dry weight of root. Leaf Parameters like number of leaves per plant, fresh weight of leaf, dry weight of leaf, leaf area, leaf area index, specific leaf weight, minimum days taken to emergence of 1st leaf and water content of leaf found in IBA @ 6000 ppm (G3).Conclusion: Among four concentration of growth regulator (IBA), the application of IBA @ 6000 ppm (G3) responded well in terms of rooting and shooting in hard wood cutting of grapes.
RÉSUMÉ
After China, India is the second-largest fruit producer in the world. India produces a wide range of fruits, the most common of which are mango, banana, citrus, guava, grape, pineapple, and apple. In addition to these, a sizable area is dedicated to the cultivation of fruits such peach, pear, almond, walnut, apricot, and strawberry in the temperate group and papaya, sapota, sapota, annona, phalsa, jackfruit, ber, and pomegranate in the tropical and sub-tropical groups. Despite having the second-largest fruit production in the world, the supply of fruits still falls far short of dietary needs. The demand for horticulture produce is on the rise and is predicted to continue to rise as per capita income rises and the population becomes more health conscious, which will lead to a need for more production. However, the production must be affordable while maintaining a high level of quality. The available potential must therefore be utilised in order to sustain progress. The technologies must increase agricultural output, quality, and yield variability while decreasing post-harvest crop losses. Additionally, actions will be required to guarantee the prompt supply of high-quality seed and planting supplies. So, it is anticipated that technology-driven horticulture would solve issues related to complementary and nutritional security, health care, and ultimately economic development.