Graft is the personal gain or Vakratunda Foundation, Akluj. Prunus species, incompatibility is a problem in cherry, almond and, especially, apricot, than in peach or plum (Table 1) (Lang and Ophardt, 2000). Graft incompatibility can express itself over various time-frames, from poor success soon after grafting to the dieback of grafted plants several years after planting in the field. Plants would normally be rogued and discarded. There are many reasons to do this. This delayed dieback may simply be the appearance of incompatibility symptoms that have been progressing, unobserved, since shortly after the grafting was performed. Compatibility mode, software mechanism in which a software emulates an older version of software Incompatibility Definition Incompatibility refers to interactions between two or more substances which lead to changes in chemical, physical, therapeutic properties of the pharmaceutical dosage form. Backward compatibility, in which newer devices can understand data generated by older devices; Compatibility card, an expansion card for hardware emulation of another device; Compatibility layer, components that allow for non-native support of components . Graft survival rates for ABOi grafts are almost similar to ABO-compatible grafts, with 1-year graft survival rate of 95% and 5-year graft survival rate of 91%. Therapeutic incompatibility 2. A colloquial term referring to the unlawful acquisition of public money through questionable and improper transactions with public officials. Types of Incompatibility 1. Computing. Doing so will generate new ideas to try so that future Lean grafts will be more genetically compatible with the classical management rootstock. 3. Graft incompatibility can induce undergrowth or overgrowth of the scion, which can lead to decreased levels of water and nutrients flowing through the graft union, causing the plant to wilt (Davis et al., 2008). With perhaps some isolated specimen trees of value, if the incompatibility is discovered before the tree die or break off at the union, a bridge graft could be done with a mutually compatible rootstock. Physical incompatibility 3. Lean graft incompatibility is an important subject that every dedicated member of the Lean community needs to learn. Two types of incompatibility are recognized: so called translocated graft incompatibility and localized graft incompatibility (Herrero, 1951; Mosse, 1962). Graft incompatibility is occasionally experienced between scions and rootstocks, leading to decline in tree growth and eventual tree death. The odd growth on this tree is a fine example of what is called graft incompatibility. Incompatible graft combinations show weakness of the graft interface and breakage of the rootstock/scion union, which are typical symptoms of the localized type of incompatibility [5, 6,9]. 65,67,68 Major risk factors that lead to lower 5-year graft survival rates include acute AMR within the first 3 months (84% with early AMR episode vs 95% without). Graft failure can be caused by factors such as: Poor formation of the graft union due to problems with anatomical mismatching (when the rootstock and scion tissue is not lined up properly), poor grafting technique, adverse weather conditions and poor hygiene; Mechanical damage to the graft union; Graft incompatibility Graft incompatibility. Many trees and some shrubs are grafted or budded – in other words the roots of a different cultivar are used to grow the desired top. Graft. Grafting compatibility is based on certain criteria and timing: The compatibility of a graft is defined when a close genetic relationship between the scion and the rootstock make the successful union. Correcting incompatible combination: This is not a practical, cost-effective way to correct large scale planting of incompatible grafting partners. This problem may be exacerbated by infection with plant viruses and phytoplasms.