Abstract

Pre-harvest application of prohydrojasmon (PDJ) or abscisic acid (ABA) induces the red color in fruits that were exposed to sunlight at the orchard. In this large-scale work, we evaluated the effect of two different pruning techniques of ‘Kent’ mango orchards, one leading to opening the orchard canopy to expose as much fruit as possible to sunlight, while the second pruning leads to square-shaped trees and subsequently reduces the amount of sunlight reaching the fruit. These two pruning methods were combined with preharvest spraying with prohydrojasmon (PDJ) or abscisic acid (ABA) using two different types of sprayers, i.e., regular and air-jet sprayer. Pruning the canopy of the orchards to open and closed trees exposed 80% or 30% of fruits to sunlight, respectively. Both of the application with air-jet and regular sprayers effectively covered the fruit without causing fruit detachment and damage to yield. Both the phytohormones (PDJ and ABA) application treatments induced red blush skin, red intensity, anthocyanin, and flavonoids, particularly in fruit grown outside the tree canopy in both open and closed trees. PDJ and ABA treatments exhibited marginally reduced acidity than the untreated control, while the brix was not affected much by any of the treatments. Besides these, exposure to sunlight and PDJ treatment also reduced postharvest decay and increased chlorophyll degradation and yellowing in comparison to the controls. This study promoted applicative evidence about the positive effects of exposure to sunlight, prohydrojasmon (PDJ), and abscisic acid (ABA) on red color development without compromising the mango fruit’s quality.

Highlights

  • The mango (Mangifera indica L.) is one of the most popular fruits in the world because of its attractive red to yellow color, taste, and nutritional properties [1]

  • The application of either PDJ or abscisic acid (ABA) resulted in full coverage of fruit

  • It did not lead to damage application of either or ABAMango resulted in full coverage fruit.PDJ

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Summary

Introduction

The mango (Mangifera indica L.) is one of the most popular fruits in the world because of its attractive red to yellow color, taste, and nutritional properties [1]. Most mango cultivars change color from green to yellow. Red-blushed mango skin color plays a vital role in fruit marketability and consumer acceptance [2]. Several breeding programs focus on developing enhanced red-colored cultivars with improved flavor [3]. Several factors influence the accumulation of anthocyanins and carotenoid pigments, including light, temperature, sugars, mineral, nutrition, and the impact of plant hormones. Orchard management practices such as bagging, pruning, and fertilization can strongly impact on fruit color pigmentation [4]. Anthocyanins are the most diverse group of plant pigments and derived from

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