Document Type : Research Article

Authors

1 University of Zanjan

2 University of Zabol

Abstract

The effects of coatingtreatments (waxand plasticbags) combined with methylsalicylate on the fruit quality and chilling injury of Moro blood orange were studied during storage. Treated fruits were kept in storage for 80 days at 5 oC and 90-95% relative humidity. Some characteristics such as pulp and skin total phenolics, antioxidant capacity, total anthocyanin, lipid peroxidation, and the chilling injure index were assessed at 0, 20, 40, 60, 80 days after storage. Total phenolics in the skin and pulp were reduced during storage. Peel Total phenol of wax coating treatment with methyl salicylate (0.26 mg) had the lowest reduction after 80 days storage. Pulp total phenolic of fruits in pair plastic bag fruits (0.25 mg) had minimal changes during storage. Coating combined with methyl salicylate to retain moisture and delay the aging process reduced chilling injury. Generally, the amount of pulp total anthocyanins and antioxidant capacity increased during storage. The antioxidant capacity of the wax coating fruits, pair plastic bag fruits and pair plastic bag fruits combined with methyl salicylate was 42.98, 37.46 and 37.42, respectively. Wax combined with methyl salicylate (0.18 mM) and pair plastic bag fruits (0.17 mM) has the lowest lipid peroxidation during storage. Individual plastic bag with methyl salicylate (44.54%) had the least amount and methyl salicylate (77.41%) had most ion leakage. The best treatments were individual fruit packing combined with methyl salicylate and wax coating combined with methyl salicylate that reduced the incidence of fruit chilling injury to one percent. Ion leakage, lipid peroxidation and chilling injury increased during cold storage. Treated fruit with wax combined with methyl salicylate and individually and pair packed fruit combined with methyl salicylate had the best visual fruit quality. Combined treatments had more effects than individual treatments alone.

Keywords

1- بوطالبی ع.، بهروزنام ب. و پشنگه ز. 1391. اثر اسید سالیسیلیک در القای مقاومت به سرمازدگی. کنترل پوسیدگی و حفظ کیفیت میوه لیمو شیرین (Citrus limetta). مجله علوم باغبانی ایرن 43: 216-211.
2- اثنی عشری‏ م. و زکایی خسرو شاهی م. 1387. پلی آمین‌ها و علوم باغبانی‏. انتشارات دانشگاه بوعلی سینا. همدان.
3- اثنی عشری م. و زکایی خسروشاهی م. 1387. فیزیولوژِی و تکنولوژی پس از برداشت. انتشارات دانشگاه بوعلی سینا. همدان.
4- دولت‏آبادیان آ، مدرس ثانوی ع. و اعتمادی ف. 1387. اثر پیش تیمار اسید سالیسیلیک بر جوانه‏زنی بذر aestivumTriticum در شرایط تنش. مجله زیست‏شناسی ایران 21:11-4.
5- زارعی ح.، شریفانی م.، رضوی ا.، و مقصودلو ی‏.1384. بررسی اثر تیمارهای فیزیکی و شیمیایی بر عمر انباری پرتقال تاپسون. مجله علوم کشاورزی و منابع طبیعی12: 45-37.
6- سیاری م.، بابالار م.، و کلانتری س. 1390. تأثیر کاربرد اسید سالیسیلیک بر افزایش مقاومت به سرمازدگی. ظرفیت آنتی‏اکسیدانی و کیفیت انار رقم رباب فارس طی سرد انباری. مجله علوم باغبانی ایران 42: 347-339.
7- شجاع آ.، قاسم‏نژاد م.، و مرتضوی س. 1390. تغییرات ظرفیت آنتی‏اکسیدانی و کیفیت پس‏ از‏ برداشت میوه پرتقال‏های تامسون‏ ناول و خونی طی انبارداری. مجله علوم باغبانی 25: 155-147.
8- صفی‏زاده م.، و راحمی م. 1379. مقایسه نوع انبار و پیچیدن در کاهش وزن میوه پرتقال. مجله علوم و فنون باغبانی ایران 1:82-71.
9- عدولی ب.، و گلعین ب. 1390. داشت مرکبات، انتشارات نوین پویا، تنکابن
10- عشورنژاد م.، و قاسم نژاد م. 1391. اثر بسته‏بندی با فیلم و انبارداری سرد برکیفیت نگهداری و عمر انبارمانی میوه ازگیل ژاپنی (Eriobotrya japonica). مجله علوم تغذیه و صنایع غذایی ایران 7:102-95.
11- فتاحی‏مقدم ج.، حمیداوغلی ی.، فتوحی‏قزوینی ر.، قاسم‏نژاد م.، و بخشی د. 1390. ارزیابی خصوصیات فیزیک‏وشیمیایی و آنتی‏اکسیدانی پوست برخی ارقام تجاری مرکبات. نشریه علوم باغبانی 25: 217-211.
12- فتوحی‏قزوینی ر.، و فتاحی مقدم ج. 1389. پرورش مرکبات در ایران. دانشگاه گیلان. رشت.
13- قاسم‏نژاد م.، بابالار م.، و مستوفی ی. 1387. اثر جاسمونات و متیل‏سالیسیلات در کاهش سرمازدگی و پوسیدگی میوه‏های گریپ‏فروت مارش و پرتقال تامسون تولید شده در شمال و جنوب کشور. مجله علوم کشاورزی ایران 39: 79-71.
14- میردهقان س. 1388. تأثیر ژل آلوئه‏ورا و بسته‏بندی با پلاستیک‏های نانو بر کیفیت قسمت خوراکی میوه انار. ششمین کنگره علوم باغبانی ایران.
15- Alferez F., and Jacqueline K.B. 2004. Postharvest peel pitting at non-chilling temperatures ingrapefruit is promoted by changes from low tohigh relative humidity during storage. Postharvest Biology and Technology, 32: 79–87.
16- Alferez F. 2005. Low relative humidity at harvest and before storage at high humidity influence the severity of postharvest peel pitting in citrus. Horticultural Science, 130(2):225–231.
17- Azzareollo E., Mugnai S., and Pandolfi C. 2009. Comparing image (fractal analysis) and electrochemical (impedance spectroscopy and electrolyte leakage) techniques for the assessment of the freezing tolerance in olive. Trees, 23:159–167.
18- Ben- Yehoshua Sh., Peretz J., Moran R., Lavie B., and Kim J.J. 2001. Reducing the incidence of superficial flavedonecrosis (noxan) of ‘Shamouti’ oranges (Citrus sinensis, Osbeck). Postharvest Biology and Technology, 22:19 – 27.
19- Chen J.Y., Wen P.F., Kong W.F., Pan Q.H., Zhan J.C., Li J.M., Wan S.B., and Huang W.D. 2006. Effect of salicylic acid on phenylpropanoids and phenylalanine ammonia-lyase in harvested grape berries. Postharvest Biology and Technology, 40: 64-72.
20- Chien P.J., Sheu F., and Lin H.R. 2007. Coating citrus (Murcotttangor) fruit with low molecular weight chitosan increases postharvest quality and shelf life. Food Chemistry, 100:1160–1164.
21- Ding C.K., Wang C.Y., Gross K.C., and Smith D.L. 2001. Reduction of chilling injury and transcript accumulation of heat shock proteins in tomato fruit by methyl jasmonate and methyl salicylate. Plant Science, 161: 1153–1159.
22- Ding C.K., Wang C.Y., Gross K.C., and Smith D.L. 2002. Jasmonate and salicylate induce the expression of pathogenesis-related-protein genes and increase resistance to chilling injury in tomato fruit. Planta, 214: 895–901.
23- Fung R.W., Wang C.Y., Smith D.L., Gross K.C., and Tian M. 2004. MeSA and MeJA increase steady–state transcript levels of alternative oxidase and resistance against chilling injury in sweet peppers, Plant science. 166: 711-719.
24- Hagenmaier R., and Goodner K. 2002. Storage of ‘Marsh’ grapefruit and ‘Valencia’ oranges with different coatings. Proceedings of the Florida State Horticultural Society, 115: 303– 308.
25- Han J., Tian S.P., Meng X.H., and Ding Z.H. 2006. Response of physiologic metabolism and cell structures in mango fruits to exogenous methyl salicylate under low temperature stress. PhysiologiaPlantarum, 128: 125–133.
26- Hana J., Tian S., Menga X., and Ding Z. 2006. Response of pHysiologic Meabolism and cell structures in mango fruit to exogenous Methyl salicylate under low-temperature stress. PhysiologiaPlantarum, 128: 125–133.
27- Hodges D., Mark J., De Long M., Charles F., Forney R., and Prange K. 1999. Improving the thiobarbituric acid-reactive-substances assay for estimating lipid peroxidation in plant tissues containing anthocyanin and other interfering compounds. Planta, 207: 604±611.
28- Hu Q., Fang Y., Yang Y., and Ma N. 2011. Effect of nanocomposite-based packaging on postharvest quality of ethylene treated kiwifruit during and storage. Food research international, 44:1589-1596.
29- KalantariKh M., and Oloumi H. 2005. Study the effects of cdcl2 on lipid peroxida antioxidant compounds content in brassic. Science and technology, 29, no. A1.
30- Klimezak I., and Malecka M. 2006. Effect of storage on the content of polyphenols, vitamin C and the antioxidant activity of orange juices. Food Composition and Analysis, 20: 313-322.
31- Lee H.S., and Coa T. 1999. Vitamin C in frozen, fresh squeezed, unpasteurized, polyethylene-bottled orange juice astorage study. Food Chemistry, 65: 165-168.
32- LoScalzo R., Innoccari T., Summa C., Morelli R., and Rapisarda P. 2004. Effect of thermal treatment on antioxidant and antiradical activity of blood orange juice. Food Chemistry, 85: 41-47.
33- McCollum T.G., and McDonald R.E. 1991. Electrolyte leakage, respiration and ethylene production as indices of chilling injury in grapefruit. Scientia Horticulturae, 26: 1191-1192.
34- McHugh, T.H. and J.M. Krochta. 1994. Permeability properties of edible films. In Edible Filmsmand Coatings to Improve Food Quality. J.M. Krochta, E. Baldwin and M.O. Nisperos-Carriedo (eds), Technomic Publishing Co., Lancaster, PA
35- Meyers K.J., Watkins C.B., Pritts M.P., and Liu R.H. 2003.Antioxidant and antiproliferative activities of strawberries. Agricultural and Food Chemistry, 51: 6887-6892.
36- Paolo R., and Marisol L.B. 2008. Effect of cold storage on vitamin C, phenolics and antioxidant activity of five orange genotypes (Citrus sinensis (L.) Osbeck). Postharvest Biology and Technology, 49: 348-354.
37- Porat R., Batia W., Lea C., Avinoam D., and Nehemia A. 2004. Reduction of postharvest rind disorders in citrus fruitby modified atmosphere packaging. Postharvest Biology and Technology, 33: 35–43.
38- Porat R., Pavoncello D., Peretz J., Ben-Yehoshua S., and Lurie S. 2000. Effects of various heat treatments on the induction ofcold tolerance and on the postharvest qualities of ‘Star Ruby’ grapefruit. Postharvest Biology and Technology, 18: 159–165.
39- Rapisarda P., Bianco M.L., Pannuzzo p., and Timpanaro N. 2008.Effect of cold storage on vitamin C, phenolics and antioxidant activityof five orange genotypes [Citrus sinensis (L.) Osbeck]. Postharvest Biology and Technology, 49: 348–354.
40- Sayyari M., Bablar M., and Kalantari S. 2011.Vapour treatments with Methyl salicylate or Methyl gasmonate alleviated chilling injury and enhanced antioxidant potential during postharvest storage of pomegranates. food chemistry, 124: 964-970.
41- Shafiee M., Taghavi T.S., and Babalar M. 2010. Addition of salicylic acid to nutrient solution combined with postharvest treatments (hot water, salicylic acid, and calcium dipping) improved postharvest fruit quality of strawberry. ScientiaHorticulturae, 124: 40–45.
42- Soleimani Aghdam M. 2011. Methylsalicylate affects the quality of Hayward kiwifruts during storage at low- temperature, Agricultural Science, 3( 2).
43- Tavarini S., Remorini D., and Massai R. 2007. Antioxidant capacity, ascorbic acid, total phenols and carotenoids change during harvest and after storage of Hayward kiwifruit. Food Chemistry, 107:282-288.
44- Tomas-Barberan F.A., Gil M.I., Cremin P., Waterhouse A.L., Hess-Pierce B., Kader A.A. 2001. HPLC–DAD-ESIMS analysis of phenolic compounds in nectarines, peaches, and plums. Food Chemistry, 49: 4748–4760.
45- Wang L., Chen S., Kong W., Li, S., and Archbold D. 2006. Salicylic acid pretreatment alleviates chilling injury and affects the antioxidant system and heat shock proteins of peaches during cold storage. Postharvest Biology and Technology, 41: 244-251.
46- Wrolstad R.E. 1976. Color and pigment analysis in fruit products. Station Bull. 621.Agric. Exp.Sta.Oregon Sta. University. Corvallis, OR, USA.
47- Zhang C., and Tian, S. 2009. Crucial contribution ofmembrane lipids’ unsaturation to acquisition of chilling-tolerance in peach fruit stored. Food Chemistry, 115: 405–411.
48- Zisheng L., Chen C. and Xie J. 2011. Effect of salicylic acid treatment on alleviating postharvest chilling injury of ‘Qingnai’ plum fruit. Postharvest Biology and Technology, 62: 115–120.
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