Effect of oxalic acid application on Samar Bahisht Chaunsa mango during ripening and postharvest

Razzaq, Kashif; Khan, Ahmad Sattar; Malik, Aman Ullah; Shahid, Muhammad Adnan; Ullah, Sami

doi:10.1016/j.lwt.2015.03.069

Cited by 38 publications

(45 citation statements)

References 27 publications

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“…Our results are in accordance the findings of Zheng et al (2007b, c), Zaharah & Singh (2011a, b) and Razzaq et al (2015) on mangoes, Sayyari et al (2010) on pomegranates and Li et al (2014) on papaya fruits. They claimed that, postharvest application of NO and OA reduced fruit content of SSC and SSC/TA ratio as well as increased TA and AsA as compared to untreated fruits during cold storage.…”

Section: Fruit Juice Contents Of Soluble Solids Content (Ssc) Titratsupporting

confidence: 93%

“…Pre-storage application of OA can suppress postharvest disorders and prolong the storage life of mangoes because of delaying the ripening process (Zheng et al, 2007b, c andZheng et al, 2012). Moreover, postharvest treatment of OA decreased loss of fruit firmness and reduced the activity of exo-PG enzyme beside enhanced the activities of antioxidative enzymes (superoxide dismutase, catalase and peroxidase) (Razzaq et al, 2015). Furthermore, who added that, SSC and SSC/TA ratio were lowered, while, TA and ascorbic acid contents were higher in treated fruits as compared to untreated fruits.…”

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confidence: 99%

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Nitric Oxide, Oxalic Acid and Hydrogen Peroxide Treatments to Reduce Decay and Maintain Postharvest Quality of Valencia Orange Fruits During Cold Storage

Mohamed¹,

El-Khalek²,

El-Mehrat³

et al. 2016

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HE EFFECTIVENESS of postharvest treatments of sodium ………nitroprusside (SNP), oxalic acid (OA) and hydrogen peroxide (H 2 O 2 ) treatments and their combinations on postharvest quality and enzyme activity of 'Valencia' orange fruits were examined after harvest in season 2014 and 2015. The experiment were included the following treatments: distilled water (control), 1 mM SNP, 10 mM OA, 2% H 2 O 2 , 1 mM SNP + 10 mM OA, 1 mM SNP + 2% H 2 O 2 and 10 mM OA + 2% H 2 O 2 for 5 minutes. All treatments were stored at 8±1°C and 85-90% relative humidity (RH) followed by one week as a shelf life at ambient temperature 18-23°C and 55-65% RH for 15 weeks. All postharvst studied maintained postharvest quality of 'Valencia' oranges as compared to untreated fruits (control) during storage. Moreover, combined treatments were more effective than individual treatments. Treated 'Valencia' oranges with 1 mM SNP plus 10 mM OA or 2% H 2 O 2 alleviated decay incidence and reduced weight loss percentage with an increase of marketable fruit percentage. In addition, these applications reduced the activities of polyphenol oxidase (PPO) and pectinase (PE) enzymes, while increased the activity of peroxidase (POX) enzyme. These treatments also decreased loss of firmness, hue angle, lightness values and juice content of fruits. In addition, these applications slowed the increase of soluble solids content (SSC) and SSC/TA ratio as well as decreased loss of titratable acidity (TA) and ascorbic acid contents during cold storage period followed by shelf life. Therefore, the use of postharvest treatments with 1 mM SNP in combination with 10 mM OA or 2% H 2 O 2 have good potential strategy to improve the storability and reduce decay incidence as well as maintain postharvest quality of 'Valencia' oranges during cold storage.

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Section: Fruit Juice Contents Of Soluble Solids Content (Ssc) Titratsupporting

confidence: 93%

mentioning

confidence: 99%

Nitric Oxide, Oxalic Acid and Hydrogen Peroxide Treatments to Reduce Decay and Maintain Postharvest Quality of Valencia Orange Fruits During Cold Storage

Mohamed¹,

El-Khalek²,

El-Mehrat³

et al. 2016

NIDOC-ASRT

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“…(A) show that postharvest softening was delayed by 20 days in both plum cultivars by preharvest OA treatment. The effects of OA on delaying plum softening process, either during on‐tree ripening or during storage, could be attributed to a reduction in the activity of cell wall hydrolytic enzymes, as has been reported for exo‐polygalacturonase (exo‐PG) and pectin methylesterase in OA postharvest‐treated mango and plum fruits, respectively . In addition, the formation of oxalate–pectin as a result of OA treatment, leading to reinforcing wall structure of mesocarp cells and slowing down the softening process, could not be discharged, as has been reported in mango after postharvest OA treatments …”

Section: Resultsmentioning

confidence: 84%

“…There is no available information regarding the effect of preharvest OA treatment on fruit ethylene production, although some evidence exists regarding postharvest treatments. For instance, in ‘Damili’ plums, postharvest dipping treatment with 5 mmol L –1 OA delayed and decreased ethylene production rate with respect to control fruits as well as in banana, mango and peach . Nevertheless, the mechanism involved in this effect remains unclear, although the reduction in ethylene production in OA‐treated fruit may be ascribed to inhibition of 1‐aminocyclopropane‐1‐carboxylate synthase activity, as proposed in OA postharvest‐treated jujube fruit …”

Section: Resultsmentioning

confidence: 99%

“…Accordingly, postharvest OA treatment promoted accumulation of total phenolics in muskmelon, mango, pomegranate and sweet cherry fruit during storage, leading to fruit with higher antioxidant capacity. Moreover, the application of OA treatment to peach trees 15 days before harvest increased bioactive compounds, such as total phenolics and flavonoids, and antioxidant potential in peach fruit at harvest and during cold storage .…”

Section: Resultsmentioning

confidence: 99%

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