Control of spoilage in table grapes

Lichter, Amnon; Gabler, F. Mlikota; Smilanick, Joseph L.

doi:10.2212/spr.2006.6.1

Cited by 18 publications

(9 citation statements)

References 54 publications

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“…The control of this fungus is particularly important during refrigerated storage, as it also develops at low temperatures (−0.5 • C) and spreads rapidly through the berry clusters [2][3][4].Sulfur dioxide (SO 2 ) is the main fungicide treatment used to retard the growth of this fungus in refrigerated chambers, and the purpose of its use is to inhibit fungus development and to allow the storage and transport of table grapes for long periods of time [5]. There are two main concepts for packaging grapes in prolonged storage: packing with SO 2 pads and fumigation of refrigeration chambers by repeated application of this gas [6,7]. Despite its effectiveness, there are restrictions for the fumigation of SO 2 , as this may compromise fruit flavor, cause damage to the berries, and result in excessive sulfite residues [8].Thus, the use of SO 2 -generating pads was developed because they provide good and efficient control and lower risk than fumigation.…”

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confidence: 99%

Postharvest Techniques to Prevent the Incidence of Botrytis Mold of ‘BRS Vitoria’ Seedless Grape under Cold Storage

et al. 2018

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BRS Vitoria' (Vitis spp.) is a novel hybrid seedless table grape recommended for cultivation in tropical and subtropical areas, especially for overseas export. The main postharvest disease of this cultivar is botrytis or gray mold (Botrytis cinerea), which occurs even under low temperatures in cold chambers. Sulfur dioxide (SO 2 ) release pads have been used to control this disease under cold storage, but some grape cultivars are sensitive to certain levels of this compound. The objective of this work was to evaluate different types of SO 2 generator pads in order to prevent the incidence of gray mold of 'BRS Vitoria' seedless grape, as well to avoid other grape injuries during cold storage. Grape bunches were harvested when fully ripened (16 • Brix) from a commercial field trained on overhead trellis and located at Marialva, state of Parana (PR) (South Brazil). Grapes were packed into carton boxes and subjected to the following SO 2 pad treatments (Uvasys ® , Cape Town, South Africa) in a cold chamber (2 • C): (a) control; (b) SO 2 slow release pad; (c) SO 2 dual release pad; (d) SO 2 dual release-fast reduced pad; (e) SO 2 slow release pad with grapes inoculated with B. cinerea; (f) SO 2 dual release pad with grapes inoculated with B. cinerea; and (g) SO 2 dual release-fast reduced pad with grapes inoculated with B. cinerea. After a 50-day cold chamber period, the grape boxes were kept for 7 days at room temperature at 25 • C. A randomized design was used with seven treatments and four replications, with five bunches per plot. The incidence of gray mold on grapes was evaluated after the 50-day cold storage and after the 7-days-at-room-temperature periods, as well other grape physicochemical variables, such as shattered berries, stem browning, bunch mass, bunch mass loss, skin color, soluble solids (SS), titratable acidity (TA), and SS/TA. The dual release pads were more efficient in preventing the incidence of gray mold and mass loss in 'BRS Vitoria' seedless grapes than the slow release pads in both storage periods. The incidence of shattered berries was lower when any type SO 2 pad was used during cold storage, and no effects were observed on stem browning, firmness, or berry skin color of 'BRS Vitoria' grapes.Horticulturae 2018, 4, 17 2 of 11 excellent flavor and firmness, this cultivar is a good option not only for the internal market, but also for export [1]. Therefore, it is necessary to develop techniques that allow postharvest conservation of this grape in cold storage for long periods.The fungus Botrytis cinerea, which causes gray mold, is considered one of the most damaging postharvest pathogens to the quality of table grapes during storage and transport over long distances. The control of this fungus is particularly important during refrigerated storage, as it also develops at low temperatures (−0.5 • C) and spreads rapidly through the berry clusters [2][3][4].Sulfur dioxide (SO 2 ) is the main fungicide treatment used to retard the growth of this fungus in refrigerated chambers, and the purpose of i...

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Postharvest Techniques to Prevent the Incidence of Botrytis Mold of ‘BRS Vitoria’ Seedless Grape under Cold Storage

et al. 2018

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“…In this study, those results were extended to the control of gray mold by demonstrating that volatile compounds emitted by EHA, DADS and DTS resulted in a significant reduction in the incidence of gray mold on table grape clusters (Table 3, Figure 1). EHA and sulphur compounds were more effective in reducing gray mold at low temperatures (4 °C) ( Figure 1A), a relevant fact for the purpose of this research since B. cinerea develops vigorously at low temperatures (-0.5 °C) (Lichter et al, 2006) and spreads easily throughout grape clusters during transportation and cold storage (Crisosto et al, 2012). The effect of allicin on the incidence of gray mold showed a contrasting result at both temperatures, showed a similar effect on the control (p≤0.05) at 25 °C, as well as a similar effect on the more effective treatment (EHA) (P≤0.05) at 4 °C.…”

Section: Discussionmentioning

confidence: 90%

“…However, in this research, DATS volatiles were better than allicin in controlling gray mold, since DATS delayed the onset of the disease by 12 days at 4 °C and 8 days at 25 °C (Table 3), and only EHA controlled the disease during 14 days at both temperatures (Table 3). EHA effectiveness is attributed to its content of sulphur compounds (allicin, DADS and DATS) Fully Bilingual reviSta mexicana de fitoPatología mexican Journal of PhytoPathology gris, fue mejor cuando se evaluó a bajas temperatura (4 °C) (Figura 1A), siendo de particular relevancia para el objetivo de este estudio, ya que B. cinerea, se desarrolla vigorosamente a bajas temperaturas (-0.5 °C) (Lichter et al, 2006), dispersándose con facilidad sobre la uva de mesa durante el transporte y almacenamiento en frío (Crisosto et al, 2012). El efecto de la alicina sobre la incidencia de la pudrición gris, mostró un resultado opuesto en las dos temperaturas evaluadas, presentando un efecto similar al control (p≤0.05) a 25 °C y un efecto similar al tratamiento más efectivo (EHA) (P≤0.05) a 4 °C.…”

Section: Discussionunclassified

“…Development of gray mold on table grapes affects their market value and also causes them to be rejected upon being inspected at the borders of importing countries. Temperature and moisture conditions during transportation and/or cold storage favor the development of B. cinerea, because during these stages berries achieve their maximum sugar concentration allowing the fungus to grow vigorously and spread easily among grape clusters (Lichter et al, 2006). In northwestern Mexico, 90% of table grape production is exported to markets in the United States, Europe and Asia.…”

Section: Botrytis Cinereamentioning

confidence: 99%

“…El desarrollo de la pudrición gris durante la etapa de comercialización de la uva de mesa, afecta el valor de la fruta en el mercado, y es motivo de rechazo en el momento de revisión en las fronteras de los países importadores. Las condiciones de temperatura y humedad durante el transporte y/o almacenamiento en frío, favorecen el desarrollo de B. cinerea, ya que durante estas etapas la fruta alcanza su máxima concentración de azúcar, permitiendo que el hongo crezca vigorosamente, propagándose con facilidad entre los racimos de uva (Lichter et al, 2006). En el Noroeste de México el compounds applied in their volatile form opens the possibility to use them as an alternative to the traditional fungicides for controlling post-harvest diseases.…”

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Reducción en la incidencia de la pudrición gris en uva de mesa por el efecto de volátiles de un extracto de ajo

Campa-Siqueiros

Vallejo-Cohen

Corrales-Maldonado

et al. 2017

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Resumen. La pudrición gris en racimos de uva causada por Botrytis cinerea, es la enfermedad que más afectan al mercado de la uva de mesa. Su control es mediante almohadillas liberadoras de dióxido de azufre (SO 2 ) y fungicidas sistémicos, actualmente en revisión regulatoria. En este trabajo se planteó evaluar en forma volátil un extracto de ajo (EHA), alicina, dialildisulfuro (DADS) y dialiltrisulfuro (DATS), sobre la incidencia de pudrición gris en racimos de uva variedad Flame seedless. Los tratamientos fueron impregnados en celulosa, que permitió la liberación de los compuestos sobre Abstract. Gray mold in grape clusters caused byBotrytis cinerea, is one of the diseases that most affect the table grape market. To control this disease sulphur dioxide releasing pads (SO 2 ) and systemic fungicides are used, currently in regulatory review. In this work, it was proposed to use an extract of garlic (EHA), allicin, dialyldisulfide (DADS) and dialyltrisulfide (DATS) in volatile form to evaluate the incidence of gray mold on clusters of table grapes of the Flame seedless variety. Treatments were impregnated with cellulose, which allowed the release of the volatile compounds on clusters of grape inoculated with 1x10 6 spores of B. cinerea/mL. The results showed that the volatile emitted by allicin and DADS had a lower effect than that of EHA and DATS. Those compounds similarly inhibited (P≤0.05) disease development in clusters of grape for 14 days at 4 and 25 °C, showing increased effectiveness at low temperature (4 °C). This is a result of particular relevance in the problematic of this disease that occurs during grape cold storage. The effectiveness of garlic-derived

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