Year 2022,
Volume: 28 Issue: 3, 481 - 489, 05.09.2022
Derya Erbaş
,
Mehmet Ali Koyuncu
References
- Aghdam M S, Dokhanieh A Y, Hassanpour H & Fard J R (2013). Enhancement of antioxidant capacity of cornelian cherry (Cornus mas) fruit by postharvest calcium treatment. Scientia Horticulturae 161: 160-164.
- Ağlar E, Öztürk B, Güler S K, Karakaya O, Uzun S & Saraçoğlu O (2017). Effect of modified atmosphere packaging and ‘Parka’ treatments on fruit quality characteristics of sweet cherry fruits (Prunus avium L. 0900 Ziraat) during cold storage and shelf life. Scientia Horticulture 222: 162-168.
- Correia S, Schouten R, Silva A P & Gonçalves B (2017). Factors affecting quality and health promoting compounds during growth and postharvest life of sweet cherry (Prunus avium L.). Frontiers in Plant Science 8: 2166.
- Crisosto CH, Crisosto GM & Metheney P (2003). Consumer acceptance of ‘Brooks’ and ‘Bing’ cherries is mainly dependent on fruit SSC and visual skin color. Postharvest Biology and Technology 28: 159–167.
- Diaz-Mula H M, Valero D, Guillén F, Valverde J M, Zapata P J & Serrano M (2017). Postharvest treatment with calcium delayed ripening and enhanced bioactive compounds and antioxidant activity of 'Cristalina' sweet cherry. Acta Horticulturae 1161: 511-514.
- Dong Y, Zhi H & Wang Y (2019). Cooperative effects of pre-harvest calcium and gibberellic acid on tissue calcium content, quality attributes, and in relation to postharvest disorders of late-maturing sweet cherry. Scientia Horticulturae 246: 123-128.
- Göksel Z (2011). Effects of some pre-treatments on storability of sweet cherries. PhD Thesis, Ege University, Turkey.
- Gonçalves B, Silva A P, Moutinho-Pereira J, Bacelar E, Rosa E & Meyer A S (2007). Effect of ripeness and postharvest storage on the evolution of colour and anthocyanins in cherries (Prunus avium L.). Food Chemistry 103: 976-984.
- Kirkby E A & Pilbeam D J (1984). Calcium as a plant nutrient. Plant, Cell and Environment 7: 397-405.
- Koyuncu M A, Erbaş D, Onursal C E, Seçmen T, Güneyli A & Üzümcü S S (2019). Postharvest treatments of salicylic acid, oxalic acid and putrescine influences bioactive compounds and quality of pomegranate during controlled atmosphere storage. Journal of Food Science and Technology 56(1): 350-359.
- Lidster P D, Porritt S W & Tung M A (1978). Texture modification of ’Van’ sweet cherries by postharvest calcium treatments. Journal of the American Society for Horticultural Science 103: 527–530.
- Mahmood M, Anwar F, Abbas M, Boyce M C & Saari N (2012). Compositional variation in sugars and organic acids at different maturity stages in selected small fruits from Pakistan. International Journal of Molecular Sciences 13: 1380-1392.
- Martínez-Romero D, Alburquerque N, Valverde J M, Guillén F, Castillo S, Valero D & Serrano M (2006). Postharvest sweet cherry quality and safety maintenance by aloe vera treatment: A new edible coating. Postharvest Biology and Technology 39(1): 93-100.
- Melgarejo P, Salazar D M & Artes F (2000). Organic acid and sugar composition of harvested pomegranate fruits. European Food Research and Technology 211: 185-190.
- Michailidis M, Karagiannis E, Tanou G, Karamanoli K, Lazaridou A, Matsi T & Molassiotis A (2017). Metabolomic and physico-chemical approach unravel dynamic regulation of calcium in sweet cherry fruit physiology. Plant Physiology and Biochemistry 116: 68-79.
- Monsalve-Gonalez A, Barbosa‐Cánovas G V & Cavalieri R P (1993). Mass transfer and textural changes during processing of apples by combined methods. Journal of Food Science 58(5): 1118-1124.
- Mozetič B, Trebše P, Simičič M & Hribar J (2004). Changes of anthocyanins and hydroxycinnamic acids affecting the skin colour during maturation of sweet cherry (Prunus avium L.). Lebensmittel-Wissenschaft und –Technologie 37: 123-128.
- Ranjbar S, Rahemi M & Ramezanian A (2018.) Comparison of nano-calcium and calcium chloride spray on postharvest quality and cell wall enzymes activity in apple cv. Red Delicious. Scientia Horticulturae 240: 57-64.
- Romano G S, Cittadini E D, Pugh B & Schouten R (2006). Sweet cherry quality in the horticultural production chain. Stewart Postharvest Review 6(2): 1-9.
- Saba M K & Sogvar O B (2016). Combination of carboxymethyl cellulose-based coatings with calcium and ascorbic acid impacts in browning and quality of fresh-cut apples. LWT - Food Science and Technology 66: 165–171.
- Sairam R K, Vasanthan B & Arora A (2011). Calcium regulates Gladiolus flower senescence by influencing antioxidative enzymes activity. Acta Physiologiae Plantarum 33: 1897-1904.
- Schick J L & Toivonen P M (2002). Reflective tarps at harvest reduce stem browning and improve fruit quality of cherries during subsequent storage. Postharvest Biology and Technology 25(1): 117-121.
- Serradilla M J, Martín A, Ruiz-Moyano S, Hernández A M, López-Corrales M & Córdoba M G (2012). Physicochemical and sensorial characterisation of four sweet cherry cultivars grown in Jerte Valley (Spain). Food Chemistry 133: 1551-1559.
- Serrano M, Guillén F, Martinez-Romero D, Castillo S & Valero D (2005). Chemical constituents and antioxidant activity of sweet cherry at different ripening stages. Journal of Agricultural and Food Chemistry 53: 2741-2745.
- Thaipong K, Boonprakob U, Crosby K, Cisneros-Zevallos L & Byrne D H (2006). Comparison of ABTS, DPPH, FRAP, and ORAC assays for estimating antioxidant activity from guava fruit extracts. Journal of Food Composition and Analysis 19: 669–675.
- Tsantili E, Rouskas D, Christopoulos M V, Stanidis V, Akrivos J & Papanikolaou D (2007). Effects of two pre-harvest calcium treatments on physiological and quality parameters in ‘Vogue’ cherries during storage. The Journal of Horticultural Science and Biotechnology 82(4): 657-663.
- Vangdal E, Hovland K L, Børve J, Sekse L & Slimestad R (2008). Foliar application of calcium reduces postharvest decay in sweet cherry fruit by various mechanisms. Acta Horticulturae 768: 143-148.
- Wang Y, Xie X & Long L E (2014). The effect of postharvest calcium application in hydro-cooling water on tissue calcium content, biochemical changes, and quality attributes of sweet cherry fruit. Food Chemistry 160: 22-30.
- Watada A E (1982). A high-performance liquid chromatography method for determining ascorbic acid content of fresh fruits and vegetables. HortScience 17(3): 334-335.
- Winkler A & Knoche M (2019). Calcium and the physiology of sweet cherries: A review. Scientia Horticulturae 245: 107-115.
Effect of Preharvest Calcium Chloride Treatment on Some Quality Characteristics and Bioactive Compounds of Sweet Cherry Cultivars
Year 2022,
Volume: 28 Issue: 3, 481 - 489, 05.09.2022
Derya Erbaş
,
Mehmet Ali Koyuncu
Abstract
The effects of preharvest calcium chloride (CaCl2) treatment on some quality characteristics and bioactive compounds of sweet cherry fruit (Prunus avium L. cvs. 0900 Ziraat, Sweetheart and Merton Late) were investigated. The CaCl2 (1%) solution was sprayed to the cherry trees at 21 and 35 days after full bloom stage. The trees served as control were treated with distilled water at the same days. CaCl2 treatment remarkably suppressed the respiration rate and increased titratable acidity and fruit firmness of cherries. Treated fruit had more attractive skin colour with higher h° and L* values compared to control. The individual soluble sugars and total sugar contents of CaCl2 treated cherries were lower than those of control fruit. The accumulation of ascorbic acid, stem chlorophyll, total phenolics and anthocyanin contents of fruit were delayed by CaCl2 treatment in all varieties. The antioxidant activities of all treated varieties were lower than those of control fruit. Based on these results, it can be set forth that preharvest CaCl2 treatment suppressed ripening processes including respiration rate and maintained firmness and titratable acidity of cherries by maintaining cell integrity in all varieties during the fruit development period.
References
- Aghdam M S, Dokhanieh A Y, Hassanpour H & Fard J R (2013). Enhancement of antioxidant capacity of cornelian cherry (Cornus mas) fruit by postharvest calcium treatment. Scientia Horticulturae 161: 160-164.
- Ağlar E, Öztürk B, Güler S K, Karakaya O, Uzun S & Saraçoğlu O (2017). Effect of modified atmosphere packaging and ‘Parka’ treatments on fruit quality characteristics of sweet cherry fruits (Prunus avium L. 0900 Ziraat) during cold storage and shelf life. Scientia Horticulture 222: 162-168.
- Correia S, Schouten R, Silva A P & Gonçalves B (2017). Factors affecting quality and health promoting compounds during growth and postharvest life of sweet cherry (Prunus avium L.). Frontiers in Plant Science 8: 2166.
- Crisosto CH, Crisosto GM & Metheney P (2003). Consumer acceptance of ‘Brooks’ and ‘Bing’ cherries is mainly dependent on fruit SSC and visual skin color. Postharvest Biology and Technology 28: 159–167.
- Diaz-Mula H M, Valero D, Guillén F, Valverde J M, Zapata P J & Serrano M (2017). Postharvest treatment with calcium delayed ripening and enhanced bioactive compounds and antioxidant activity of 'Cristalina' sweet cherry. Acta Horticulturae 1161: 511-514.
- Dong Y, Zhi H & Wang Y (2019). Cooperative effects of pre-harvest calcium and gibberellic acid on tissue calcium content, quality attributes, and in relation to postharvest disorders of late-maturing sweet cherry. Scientia Horticulturae 246: 123-128.
- Göksel Z (2011). Effects of some pre-treatments on storability of sweet cherries. PhD Thesis, Ege University, Turkey.
- Gonçalves B, Silva A P, Moutinho-Pereira J, Bacelar E, Rosa E & Meyer A S (2007). Effect of ripeness and postharvest storage on the evolution of colour and anthocyanins in cherries (Prunus avium L.). Food Chemistry 103: 976-984.
- Kirkby E A & Pilbeam D J (1984). Calcium as a plant nutrient. Plant, Cell and Environment 7: 397-405.
- Koyuncu M A, Erbaş D, Onursal C E, Seçmen T, Güneyli A & Üzümcü S S (2019). Postharvest treatments of salicylic acid, oxalic acid and putrescine influences bioactive compounds and quality of pomegranate during controlled atmosphere storage. Journal of Food Science and Technology 56(1): 350-359.
- Lidster P D, Porritt S W & Tung M A (1978). Texture modification of ’Van’ sweet cherries by postharvest calcium treatments. Journal of the American Society for Horticultural Science 103: 527–530.
- Mahmood M, Anwar F, Abbas M, Boyce M C & Saari N (2012). Compositional variation in sugars and organic acids at different maturity stages in selected small fruits from Pakistan. International Journal of Molecular Sciences 13: 1380-1392.
- Martínez-Romero D, Alburquerque N, Valverde J M, Guillén F, Castillo S, Valero D & Serrano M (2006). Postharvest sweet cherry quality and safety maintenance by aloe vera treatment: A new edible coating. Postharvest Biology and Technology 39(1): 93-100.
- Melgarejo P, Salazar D M & Artes F (2000). Organic acid and sugar composition of harvested pomegranate fruits. European Food Research and Technology 211: 185-190.
- Michailidis M, Karagiannis E, Tanou G, Karamanoli K, Lazaridou A, Matsi T & Molassiotis A (2017). Metabolomic and physico-chemical approach unravel dynamic regulation of calcium in sweet cherry fruit physiology. Plant Physiology and Biochemistry 116: 68-79.
- Monsalve-Gonalez A, Barbosa‐Cánovas G V & Cavalieri R P (1993). Mass transfer and textural changes during processing of apples by combined methods. Journal of Food Science 58(5): 1118-1124.
- Mozetič B, Trebše P, Simičič M & Hribar J (2004). Changes of anthocyanins and hydroxycinnamic acids affecting the skin colour during maturation of sweet cherry (Prunus avium L.). Lebensmittel-Wissenschaft und –Technologie 37: 123-128.
- Ranjbar S, Rahemi M & Ramezanian A (2018.) Comparison of nano-calcium and calcium chloride spray on postharvest quality and cell wall enzymes activity in apple cv. Red Delicious. Scientia Horticulturae 240: 57-64.
- Romano G S, Cittadini E D, Pugh B & Schouten R (2006). Sweet cherry quality in the horticultural production chain. Stewart Postharvest Review 6(2): 1-9.
- Saba M K & Sogvar O B (2016). Combination of carboxymethyl cellulose-based coatings with calcium and ascorbic acid impacts in browning and quality of fresh-cut apples. LWT - Food Science and Technology 66: 165–171.
- Sairam R K, Vasanthan B & Arora A (2011). Calcium regulates Gladiolus flower senescence by influencing antioxidative enzymes activity. Acta Physiologiae Plantarum 33: 1897-1904.
- Schick J L & Toivonen P M (2002). Reflective tarps at harvest reduce stem browning and improve fruit quality of cherries during subsequent storage. Postharvest Biology and Technology 25(1): 117-121.
- Serradilla M J, Martín A, Ruiz-Moyano S, Hernández A M, López-Corrales M & Córdoba M G (2012). Physicochemical and sensorial characterisation of four sweet cherry cultivars grown in Jerte Valley (Spain). Food Chemistry 133: 1551-1559.
- Serrano M, Guillén F, Martinez-Romero D, Castillo S & Valero D (2005). Chemical constituents and antioxidant activity of sweet cherry at different ripening stages. Journal of Agricultural and Food Chemistry 53: 2741-2745.
- Thaipong K, Boonprakob U, Crosby K, Cisneros-Zevallos L & Byrne D H (2006). Comparison of ABTS, DPPH, FRAP, and ORAC assays for estimating antioxidant activity from guava fruit extracts. Journal of Food Composition and Analysis 19: 669–675.
- Tsantili E, Rouskas D, Christopoulos M V, Stanidis V, Akrivos J & Papanikolaou D (2007). Effects of two pre-harvest calcium treatments on physiological and quality parameters in ‘Vogue’ cherries during storage. The Journal of Horticultural Science and Biotechnology 82(4): 657-663.
- Vangdal E, Hovland K L, Børve J, Sekse L & Slimestad R (2008). Foliar application of calcium reduces postharvest decay in sweet cherry fruit by various mechanisms. Acta Horticulturae 768: 143-148.
- Wang Y, Xie X & Long L E (2014). The effect of postharvest calcium application in hydro-cooling water on tissue calcium content, biochemical changes, and quality attributes of sweet cherry fruit. Food Chemistry 160: 22-30.
- Watada A E (1982). A high-performance liquid chromatography method for determining ascorbic acid content of fresh fruits and vegetables. HortScience 17(3): 334-335.
- Winkler A & Knoche M (2019). Calcium and the physiology of sweet cherries: A review. Scientia Horticulturae 245: 107-115.