Fruit Position, Light Exposure and Fruit Surface Temperature Affect Colour Expression in a Dark-Red Apple Cultivar

Horticulturae Pub Date : 2024-07-09 DOI:10.3390/horticulturae10070725

M. Peavey, Alessio Scalisi, M. S. Islam, I. Goodwin

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Abstract

This study aimed to evaluate the effects of fruit position, light exposure and fruit surface temperature (FST) on apple fruit colour development and fruit quality at harvest, including sunburn damage severity. This was achieved by undertaking two experiments in a high-density planting of the dark-red apple ANABP 01 in Tatura, Australia. In the 2020–2021 growing season an experiment was conducted to draw relationships between fruit position and fruit quality parameters. Here, sample fruit position and level of light exposure were respectively determined using a static LiDAR system and a portable quantum photosynthetically active radiation (PAR) sensor. At harvest the sample fruit were analysed for percentage red colour coverage, objective colour parameters (L*, a*, b*, hue angle and chroma), sunburn damage, fruit diameter (FD), soluble solids concentration (SSC), flesh firmness (FF) and starch pattern index (SPI). A second experiment was conducted in the 2021–2022 growing season and focused on how fruit shading, light exposure and the removal of ultraviolet (UV) radiation affected the FST, colour development and harvest fruit quality. Five treatments were distributed among sample fruit: fully shaded with aluminium umbrellas, shaded for one month and then exposed to sunlight until harvest, exposed for one month and then shaded until harvest, covered with a longpass UV filter and a control treatment. The development of colour in this dark-red apple cultivar was highly responsive to aspects of fruit position, and the intensity and quality of light exposure. The best-coloured fruit were exposed to higher quantities of PAR, exposed to both PAR and UV radiation simultaneously and located higher in the tree canopy. Fruit that were fully exposed to PAR and achieved better colour development also displayed higher FST and sunburn damage severity.

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果实位置、光照和果实表面温度影响深红色苹果栽培品种的颜色表达

本研究旨在评估果实位置、光照和果实表面温度（FST）对苹果果实颜色发展和收获时果实质量（包括日灼伤害严重程度）的影响。为此，在澳大利亚塔图拉对高密度种植的深红色苹果 ANABP 01 进行了两次试验。在 2020-2021 年生长季，进行了一项实验，以得出果实位置与果实质量参数之间的关系。在此，使用静态激光雷达系统和便携式量子光合有效辐射（PAR）传感器分别测定了样品果实的位置和光照水平。采收时，对样品果实的红色覆盖率、客观颜色参数（L*、a*、b*、色调角和色度）、日灼损伤、果实直径（FD）、可溶性固形物浓度（SSC）、果肉紧实度（FF）和淀粉形态指数（SPI）进行分析。第二项实验在 2021-2022 年生长季进行，主要研究果实遮光、光照和紫外线辐射的去除如何影响果实的可溶性固形物浓度、颜色发展和采收果实的质量。在样本果实中分布了五种处理方法：用铝制遮阳伞完全遮光、遮光一个月后暴露在阳光下直至采收、暴露一个月后遮光直至采收、覆盖长通紫外线滤光器和对照处理。这种深红色苹果栽培品种的着色与果实的位置、光照强度和质量密切相关。着色最好的果实受到的 PAR 量较高，同时受到 PAR 和紫外线辐射，并且位于树冠的较高位置。完全暴露在 PAR 下的果实着色更好，同时 FST 和晒伤的严重程度也更高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Horticulturae

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