TY - JOUR AU - Carvalho, Leonardo Bianco de PY - 2017/06/13 Y2 - 2024/03/29 TI - Breaking apple dormancy using thidiazuron and air temperature effect on herbicide efficiency for ryegrass control JF - Revista de Ciências Agroveterinárias JA - Rev. Ciênc. Agrovet. VL - 16 IS - 2 SE - Nota Editorial DO - 10.5965/223811711622017080 UR - https://revistas.udesc.br/index.php/agroveterinaria/article/view/223811711622017080 SP - 80-80 AB - Thidiazuron can be used to promote sprouting induction in apples, found DE MARTIN et al. (2017). Authors concluded that the application of thidiazuron on ‘Daiane’ apples with a concentration of 125 and 250 mg L-1, added to mineral oil (3.5%), is a viable alternative to break gem dormancy with no negative impact on fruit production. The use of chemicals to break gem dormancy in apples is important if winter temperatures are not sufficiently low for dormancy overlapping (FRANCESCATTO 2014). The most common chemical used is hydrogen cyanamide, but it can be toxic for humans, especially for the applicators (HAWERROTH et al. 2010). Thus, this study reveals a less toxic alternative to break gem dormancy in ‘Daiane’ apples, guaranteeing similar production to the most commonly used chemical.<br />The air temperature at the moment of herbicide spraying affects the efficiency of the chemical control of Italian ryegrass, found PEREIRA et al. (2017). Authors concluded that many grass killers are more efficient if application occurs at 20-22 oC. In addition, applications under temperatures of 30-34 oC are negatively affected, reducing the chemical control of ryegrass; moreover, the response can also be different among biotypes. Herbicide effect depends on many factors, including plant physiology, environmental conditions, application conditions etc., and those factors also influence each other (CARVALHO 2013). Air temperature (an environmental condition) can affect, for example, both plant physiology and herbicide properties. As herbicide absorption (also translocation and metabolism) is fundamental to herbicide action in plants, any factor affecting the movement of a plant killer into plant cells influences the chemical toxic action. Thus, the interaction among those factors is difficult to measure, so that any information on isolated effects is fundamental to establish efficient weed control programs. ER -