Techniques for Reducing the Abundance of Spring–Summer Flush Shoots in Southern Spanish Orange Orchards

Francisco J Arenas-Arenas,Estefanía Romero-Rodríguez,Aurea Hervalejo,Rocío Calero-Velázquez,Juan M Arjona-López

doi:10.3390/horticulturae7120550

Francisco J Arenas-Arenas, Estefanía Romero-Rodríguez + Show 3 more

Open Access

https://doi.org/10.3390/horticulturae7120550

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Abstract

The Mediterranean Basin is the second highest citrus growing region in the world behind China. Citrus trees are known to produce several flush shoots per year, particularly during the spring–summer season. Farmers endeavor to reduce the growth of summer shoots by means of hand pruning, especially those located at the top of the tree, as most of these shoots become vigorous, nutrient consuming, non-productive, and attractive to several pests. Furthermore, hand pruning substantially increases the costs of citrus orchards production. This research was therefore intended to study new different treatments to control spring–summer flush shoots and thus reduce growers’ investments in citrus production. Six different treatments were applied in two experimental and high density orange orchards over two consecutive years: (1) control; (2) topping (mechanical pruning); (3) dichlorprop-p; (4) triclopyr; (5) topping + dichlorprop-p; and (6) topping + triclopyr. The treatment of dichlorprop-p alone reduced the number of summer young shoots in both years. Moreover, these applications did not negatively affect yield or fruit quality. These mechanical methodologies help citrus growers manage the density of flush shoots and reduce hand labor costs in citrus orchards.

Highlights

Citrus are fruits crops that are widely grown in Mediterranean Basin countries, this region is the second highest citrus producing region worldwide behind China
The auxin treatment of dichlorprop-p reported the lowest statistical response for shoots in both orchards compared with the topping treatment, and with control in the case of Lane Late/CIVAC19, but without statistical differences between orchards, neither in control treatment nor in the treatment of dichlorprop-p
Lane Late/CIVAC19 and Valencia DS/FA517, respectively, without significant differences compared with the topping treatment

Summary

Introduction

Citrus are fruits crops that are widely grown in Mediterranean Basin countries, this region is the second highest citrus producing region worldwide behind China. The human population has grown from 1 billion to more than 7 billion nowadays, and it is expected to exceed 9 billion by 2050 [2]. This circumstance leads to urban expansion and reduction of agricultural land; agricultural production needs to increase in lower cropped areas [3]. Sustainable crop intensification is a positive resource under high density plantation by increasing yield in several fruit crops, such as citrus. High density citrus orchards require an initial high investment, which can be recovered with higher yield and lower costs of mechanical operations [4]

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