Abstract
Peach production in the USA has been in decline in recent decades due to poor fruit quality, reduced consumption and increased cost of production. Productivity and fruit quality can only be enhanced in the orchard through optimizing preharvest factors such as orchard design and training systems. Transition from low-density plantings (LDP) to high-density plantings (HDP) in peach is associated with the availability of reliable size controlling rootstocks. Increased densities must be combined with modern training systems to diffuse vigor and further increase light interception and yields, while optimizing light distribution, fruit quality and cost of production. Several training systems have been tested in peach with various objectives and goals, such as increasing light, water use and labor efficiencies, along with designing canopy architectures to facilitate mechanization and robotics. In general, increased planting densities increase yields, but excessive densities can promote shade, while excessive crop load can deteriorate quality. An ideal peach cropping system should optimize light interception and light distribution to balance maximum yield potential with maximum fruit quality potential. Successful management of high-density peach fruiting wall systems can lead to enhanced and uniform fruit quality, and ensure a sustainable industry.
Highlights
Peach (Prunus persica (L.) Batsch.) is ranked as the 6th most important tree fruit crop in the world
Peach consumption is in decline due to poor fruit quality, threatening the profitability and sustainability of the peach industry
Optimizing management for high fruit quality must be the focus of peach production, as consumers are willing to pay more for a superior product
Summary
Peach (Prunus persica (L.) Batsch.) is ranked as the 6th most important tree fruit crop in the world. Colorado’s increased quality is a result of the climate (warm Agronomy 2021, 11, xdays/cool nights), frequent spring frosts leading to low crop loads and access to local markets, which enables harvesting at the “tree ripe” stage (fruit firmness between 30 and 36 N) [3] This example demonstrates the strong relationship between peach fruit quality and the profitability/sustainability of the peach industry. An ideal training system maintains optimal levels of light interce uniform light distribution and facilitates high yields of high-quality fruit This articl vides a focus on the development and modernization of training systems in peach duction, and how they are being optimized. This article provides a focus on the development and modernization of training systems in peach production, and how they are being optimized
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