113 Models for Quantifying Effective Winter Chill on Apple Endodormancy V. Severino, A. Gravina, M. Manzi and M. Arias Facultad de Agronomía, Garzón 780 CP 12900 Uruguay Keywords: Malus domestica, Chilling Unit, Dynamic Model, North Carolina Model, Model for Subtropical Conditions, bud break Abstract Under southern Uruguayan conditions (34°37’SL;56°11’O, 40 m) winter chilling requirements are not always satisfied for the main commercial apple (Malus domestica Borkh) cultivars. The use of chemical rest breaking agents (mineral oils and hydrogen Cyanamid) to compensate these requirements is widely used. Therefore winter chill quantification should be a relevant issue to adjust this technique. To do so, adequate models to represent the advances in the endodormancy process as a function of climatic conditions are necessary. The UTAH and CH models are usually applied, regardless of which species or cultivar is considered. Although these models have the advantage to be widely spread and incorporated to commercial production, there are evidences of the lack of adjustment to the phenologyc behaviour of the main cultivars. This work’s goal was to quantify the occurrence of winter chill during the endodormancy period with six models, in four apple cultivars (‘Red Chief’, ‘Granny Smith’, ‘Royal Gala’ and ‘Fuji’) during 2005 and 2006. The models used were CH, UTAH, UTAH+, Dynamic Model, North Carolina Model and Model for Subtropical Conditions. The beginning of endodormancy release was determined when 50% of leaf fall was reached and the process finished when 50% of one-year-old shoot buds sprouted in a forcing chamber. All model quantifications were based on hourly temperature data, obtained from sensors located in the tree and at the nearest weather station. The greatest temperature amplitude registered at field conditions, compared to weather station conditions, modified up to 2.5 times, the quantifications performed by the same model, being the UTAH model, the most affected by this phenomenon. These results show differences among models and years, consequently, in order to determine the viability of them in southern Uruguayan conditions, a longer evaluating period is needed. INTRODUCTION Under southern Uruguayan conditions (34-35ºSL minimum elevations above sea level), winter chilling requirements are not always fulfilled for the main commercial apple cultivars, like in other regions. This means poor spread or delayed budbreak (Naor et al., 2003; Cook and Jacobs, 2000; Shaltout and Unrath, 1983) and lack of synchronized budbreak with a negative effect on pollination (Halgryn et al., 2001). Winter chilling quantification importance is already known and applied to cultural practices, but outcomes do not always show that. This is explained by the use of models which are not properly adjusted and also because quantification’s start is calendar fixed. Given that chilling efficiency in breaking dormancy starts when its maximum is reached (Arora et al., 2003) which coincides with 50% of leaf fall, and that the presence of leaves reduces up to 60% chilling efficiency (Peereboom Voller, 2004), starting quantification according to a calendar date, could determine that chilling units registered this way, would not be effective (Rageau, 2002). Apple production in Uruguay is nowadays based on cultivars of the ‘Red Delicious’ group, using ‘Granny Smith’ as a pollinator (84% of total production) and new tendencies have incorporated cultivars of the ‘Gala’ and ‘Fuji’ group, and in a smaller proportion ‘Cripps’ Pink’, reaching 14% of total production (MGAP, Encuesta Frutícola, 2006). Proc. 8 th IS on Temperate Zone Fruits in the Tropics and Subtropics Eds.: F.G. Herter et al. Acta Hort. 872, ISHS 2010