Effect of calcium chloride and thyme essential oils application on some postharvest characteristics of strawberry fruit cv. Selva
Subject Areas :
Agroecology Journal
Masoume Jannati
1
,
Vahid Abdossi
2
,
Masoud Mashhadi Akbar Boujar
3
1 -
2 -
3 -
Received: 2014-05-26
Accepted : 2014-09-15
Published : 2014-07-23
Keywords:
postharvest,
Essential oils,
glitathione Reductase,
poly phenol oxidase,
T. kotschyanus o T. vulgaris,
Abstract :
Strawberry fruit is popular with customers all over the world, and many factors causing the less of the early and reduce its storage life. In this study, the effect of the concentrations 0- 100- 200- 300 µl/l of T. vulgaris and T. kotschyanus and CaCl2 solution concentrations 0- 100- 200- 300 mg/L was tested on some characteristics of postharvest strawberry fruit. Traits include the amount of TSS, ascorbic acid, anthocyanin, soluble sugars, activity of PPO and GR enzyme. The results showed that 300µl/L of T. vulgaris compared to other treatments of TSS, ascorbic acid, anthocyanin, soluble sugars have significant effects on the level of 5%, and concentration of 200 µl/l T. kotschyanus compared to the other treatments reduced activity of PPO enzyme and increased of activity of GR enzyme and had a significant effect on the level of 5%. Concentration of 300 µl/l T. vulgaris compared with the other concentrations improve the traits measured. Since different active ingredients and essential oils due to its antifungal properties to reduce corruption and increase the storage life of the strawberry crop. The result can increase the shelf life of fruits compared to control fruits.
References:
Asada K (2000) The water- water Cycle as Alternativephoton and Electron. Pilosophical Transection of The Royal Society of Land Bulletin 355:1413-1419.
Atress, Amal SH, El-Mogy MM, Aboul-Anean HE, Alsanius BW (2010) Improving strawberry Fruit Storability by Edible Coating as a Carrier of Thymol or Calcium Chloride. Journal of Horticultural Science & Ornamental Plants 2(3): 88-97.
Blokhina o, Virolainen e, Fagerstedt KV (2003) Antioxidats, Oxidative Damage and Oxygen Deprivation Stress. Areview Annales Botany 91:179-194.
Basirt M (1997) Effect of Harvest and Postharvest Calcium Chloride Treatment and Quality of Life of the Pear Fruit Storage cv. Shahmive. MSc Thesis, Tarbiat Modarres University, Tehran, Iran. [in Persian with English abstract].
Behnamian M, Masiha S (2002) Strawberry. Publications of Sotoode: Tabriz. Iran.
Fatemi S, Jafarpour M, Eghbalsaeid Sh (2011) Study of the Effect of Thymus vulgaris and Hot Water Treatment on Storage Life of Orange (Citrus siensis cv. Valencia). Journal of Medicinal Plants Research 6(6): 968-971.
Fulai L, Chictan R, Mathias NAD (2000) Effect on Carbohydrate Concentration in soybean leaves and early reproductive development. Field Crops Research 86: 1-3.
Garcia JM, Herrera S, Morilla A (1996) Effect of Postharvest Dips in Calcium Chloride on Strawberry. Journal of Agriculture and Food Chemistry 49: 30-33.
Hosein Zade E (2010) Effect of salicylic acid and calcium Salts and essential oils of rose and disease control Botrytis cinerea on the quality of cut flowers in the full house cv. M.Sc. Thesis, Islamic Azad University of Science and Research Branch of Tehran. Iran. [Persian with English abstract].
Jalili Marandi R, Hassani A, Ghosta Y, Abdollahi A, Pirzad AR, Sefidgon F (2011) Improving postharvest quality of table grape cv. Rishbaba using Thymus kotschyanus and Carum copticum essential oils. Journal of Food Safety 31(1): 132-139.
Lako J, Trennery VC (2007) Phytochemical selection falvonoles, carotenoides and the antioxidant properties of a wide of Fijian fruit and other readily available foods. Food Chemistry 101:1727-1774.
Manoranjan K, Mishram DB (1976) Catalase and proxidase and polyphenol oxidase activity during rice leaf senescence. Plant Biochem Enz 57: 315-319.
Mittler R, Vanderauwera S, Gollry M, Breusegem FV (2004) Reactive oxygen gene network of plant. Transition of Plant Science 9: 490-498.
Nisperos-Carriedo MO, Buslig BS, Shaw PE (1992) Simulataneous detection of dehydroascorbic, ascorbic, and some organic acids in fruits and vegetable by HPLC. Journal of Agricultural Food & Chemistry 40: 1127-1130.
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