4.7 Article

Pre- and post-harvest γ-aminobutyric acid application in relation to fruit quality and physiological disorder development in 'Honeycrisp' apples

期刊

SCIENTIA HORTICULTURAE
卷 289, 期 -, 页码 -

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ELSEVIER
DOI: 10.1016/j.scienta.2021.110431

关键词

Apple; Malus domestica Borkh; gamma-aminobutyric acid; calcium chloride; fruit quality; physiological disorders

资金

  1. USDA National Institute of Food and Agriculture, Hatch project [1017924, NE-1836]

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The study showed that spraying GABA on apple fruit may inhibit the development of soft scald to a certain extent. However, the results also indicated that GABA had opposite effects on bitter pit incidence. Therefore, further research is needed to better understand the effects of GABA on apple fruit metabolism.
gamma-Aminobutyric acid (GABA) can accumulate in apple fruit in response to stress, but little is known about the responses of fruit to GABA treatments. The hypothesis that GABA would inhibit physiological disorder development in 'Floneycrisp' apples has been tested in a three-year study. In 2015, 'Floneycrisp' apple trees were sprayed with 40 mM GABA 2 and 4 weeks before harvest, and harvested fruit stored at 0.5 degrees C, a chilling injury-inducing temperature, or 3 degrees C, for 4 months. In 2016, the same GABA concentration was sprayed on trees at 1 and 2 weeks before harvest and fruit stored at 0.5 degrees C for 5 months. In the 2017 season, trees were sprayed with 40 mM GABA and 0.12% CaCl2 , either alone or in combination, at 1, 2, and 3 weeks before harvest. Postharvest treatments were also applied by dipping fruit in 100 mM GABA and/or 2% CaCl2 at harvest. Fruit were stored in air at 3 degrees C after 1 week of conditioning at 10 degrees C, or at 0.5 degrees C continuously for 5 months. In the first two years, GABA field treatments had little effect on harvest indices, but inhibited soft scald development depending on spray timing. In year 3, GABA provided no benefit, either alone or in combination with CaCl2 . Bitter pit incidence was increased by the GABA/CaCl2 combination in fruit from one orchard block, but at times decreased in fruit from a second orchard block. Treatment of fruit by dipping with GABA after harvest decreased soft scald, bitter pit or senescent breakdown incidence in one orchard block, and in combination with CaCl2 inhibited bitter pit to the same extent as CaCl2 alone. Further research is warranted to better understand the effects of GABA on apple fruit metabolism.

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