Almond tree training trial
Research aim: To assess radical spacing and training configurations with respect to maximising the reproductive potential per metre of tree row, encompassing a range of new Australian almond genotypes on different rootstocks imparting different degrees of scion vigour.
Video: Dr Micheal Treeby introduces nut tree training research that will take place at the Nut research orchard
Radical tree spacings and training configurations are being trialled for other Prunus crops such as pears and plums.
While the drivers for those trials in those crops are different to the drivers the almond industry contends with, some of the issues that need to be solved or managed are the same — viz. maximising reproductive capacity and managing tree shape — although harvesting methods are likely to be very different. Irrespective of the way nuts are removed from the tree, the industry’s aim to avoid dropping the nuts on the ground will probably necessitate some form of catching system, most likely catcher plates deflecting around tree trunks. Minimising the number of times that those plates may need to be deflected would make detached nut capture more efficient. The goal here then is to try to reconcile the need to maximise yield potential with the need to minimise potential inefficiencies in the nut catching system. The aim is to have the same number of vertical shoots per metre of row to maximise the number of potential fruiting sites, but to vary the number of tree trunks. This means that each vertical shoot may arise from a single tree (i.e. a central leader), or from a horizontally trained shoot. The ability of each rootstock to supply enough water and mineral nutrients will be critical here because demand for water and nutrients will increase as the number of vertical shoots each root system is trying to support increases. It goes without saying that row and tree shape will be maintained by hedging. The natural tendency of each variety to throw new shoots following pruning, and for those shoots to produce spurs or terminal flowers will be important responses.
Two outcomes are sought. Firstly, an assessment of the 2-dimensional fruiting space concept, and what may be required mechanically to remove nuts. Secondly, more insight into the balance between each variety’s natural growth and fruiting habit and the vigour imparted by each rootstock.
This project (RnD4Profit-15-02-011 ‘Advanced production systems for temperate nut crops’) is supported by Horticulture Innovation Australia Limited, through funding from the Australian Government Department of Agriculture and Water Resources as part of its Rural R&D for Profit programme and Agriculture Victoria (Victorian Government), the South Australian Research and Development Institute (SARDI), the Almond Board of Australia (ABA), and New South Wales Department of Primary Industries.