Preliminary results of pedestrian trainning systems for cherry production in the Río Negro and Neuquen Valleys
DOI:
https://doi.org/10.31285/AGRO.25.397Keywords:
yield, central axis, KGB, UFO, LapinsAbstract
The need for increasing fruit industry competitiveness makes evaluation of production technology essential to reduce costs and to obtain fruit quality. The Kym Green Bush (KGB) system does not need support (lower cost of installation), plant vigor is controlled by dividing the axis into several temporary vertical ones, allowing the use of a wide range of rootstocks. The UFO (Upright Fruiting Offshoots) system shares the concepts of the KGB but has a supporting structure (posts, wires). The objective of this study was to evaluate the behavior of Lapins grafted onto sl64 and Pontaleb rootstocks, trained in the KGB, UFO and Central Axis (CA) systems. The trial was planted in 2014 at a distance of 2.5m × 4m (KGB and UFO) and at 2m × 4m (CA). Tree cultural practices were applied, and trunk cross sectional area, number of branches per tree, yield and fruit quality (size, soluble solids, titratable acidity, firmness and color) were measured. The KGB system was the easiest to implement and it gave the more vigorous plants in both combinations; the SL64 rootstock being more vigorous than Pontaleb. The KGB and UFO systems reduced winter pruning wages by 74 and 48%, respectively. Moreover, the Lapins/Pontaleb combination was more productive in all training systems. The KGB training system also allowed harvesting and pruning without the use of ladders.
Downloads
References
Ampatzidis YG, Whiting MD. Training system affects sweet cherry harvest efficiency. HortScience. 2013;48:547-55.
INTA. [Reportes meteorológicos anuales on Internet]. Buenos Aires: INTA; 2020 [cited 2020 Dec 28]. Available from: https://bit.ly/2WNZuJr.
Long L, Lang G, Musacchi S, Whiting M. Cherry training systems. Oregon: Oregon State University; 2015. 63p.
Raffo MD, Ponce A, Sozzi G, Vicente A, Stortz C. Compositional changes in `Bartlett´ pears (Pyrus comunnis, L.) cell wall polisaccharides as affected by sunlight conditions. J Agric Food Chem. 2011;59:12155-62.
Stanley J, Scofield C, Marshall R, Tustin DS. Early canopy development and production precocity in new orchard system designs for cherry. Acta Hortic. 2018;(1228):45-50.
Tapia CJ. Nuevas tendencias en sistemas de conducción en cerezos. Santiago de Chile: RedAgrícola; 2016. 96p.
Published
How to Cite
Issue
Section
Article metrics | |
---|---|
Abstract views | |
Galley vies | |
PDF Views | |
HTML views | |
Other views |