Introduction Mango is a commerciall

Introduction
Mango is a commercially important fruit crop of india with a production of 12.54 million tonnes from 2.02 million hectares of cultivation area. It exhibits wide variations in flowering and fruiting habits due to varietal differences and diversity in agro-climatic conditions. However,availability of most of the commercial important mango varieties in markets is restricted to april-june due to short crop period and strong dependency of flowering on environment. The short period during good yielding years considerably impacts mango profitability due to price drop. One strategy to deal such problems that showed some success in Philippines and Thailand is chemical manipulation of reproductive development for achieving off-season mango production
Mangi induces flowering under tropical conditions during the month of October-December due to its strong dependency on cool winter temperature and the age of the flowering shoots (Davenport,2000). The physiological mechanism underlying mango flowering suggested occurrence of constantly synthesizing florigenic promoter in leaves that moves to buds via phloem along with sugars,during cold floral inductive conditions to facilitate floral induction in growing shoots .kulkarni (1988) suggested that the florugenic promoter of mango is graft transmissible accross the cultivars. Thus success in chemical manipulations of flowering lies in altering tge effects of environmental conditions particularly of low temperature required for flowering inductions.
Plant growth retardants induced manipulation in physiological activity has been considered important determinant of productivity enhancement in a number of fruit croos. Among the chemicals suggested paclobutrazol is considered as one of important plant growth retandant which restricts vegetative growth and induce flowering in many fruit species including mango. Many investigators have reported beneficial effects of paclobutrazol in induction flowering in different mango cultivars. Inhibition in gibberellin activity following a check in the conversion if ent-kaurene to ent-kauronoic acid in the gibberellin biosynthetic pathway has been attributed as the possible primary mechanism by which paclobutrazol restricts the vegetative growth and promotes flowering. Considering that plant growth and development are not only regulated by the cellular levels of one particular phytohormone,and mutual interactions among phytohormones are well documented,the floral promotory responses of paclobutrazol could also be dependent by its effects on hormones other than giberellins. There are enough evidences to show that the isoprenoid pathway associated with gibberellin biosynthesis also regulates partially the biosynthesis of other vital phytohormones such as abscisic acid (ABA) and cytokinins. In the present investigation, we studied the effects of paclobutrazol on C:N ratio, leaf water potential,ABA,cytokinins and giberellins at different durations of shoot growth during inductive periods with an objective to elucidate their role on mango flowering.