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Year 2021, Volume: 2 Issue: 2, 425 - 433, 31.12.2021

Abstract

References

  • Akbarpour V, Hemmati K and Sharifani M (2009). Physical and chemical properties of Pomegranate (Punica granatum L.) fruit in maturation stage. American Eurasian Journal of Agriculture Environment and Science, 6(4): 411-416.
  • Al-Maiman S, and Ahmad D (2002). Changes in physical and chemical properties during pomegranate (Punica granatum L.) fruit maturation. Journal of Food Chemistry, 76(4): 437-441.
  • Al-Said FA, Opara LU and Al-Yahyai RA (2009). Physico-chemical and textural quality attributes of pomegranate cultivars (Punica granatum L.) grown in the Sultanate of Oman. Journal of Food Engineering, 90(1): 129-134.
  • Altuntas E, Özgöz E, and Taşer, ÖF (2005). Some physical properties of fenugreek (Trigonella foenum-graceum L.) seeds. Journal of Food Engineering, 71(1): 37-43.
  • Altuntas E, and Mahawar MK (2021). Mass prediction of cherry laurel genotypes based on physical attributes using linear regression models. Journal of Agricultural Faculty of Gaziosmanpasa University. 38(2): 87-94.
  • AOAC (2009). Association of official analytical chemistry. Official methods of analysis. 16th ed. Washington. 1141.
  • Cam M, Hisil Y and Durmaz G (2009). Classification of eight pomegranate juices based on antioxidant capacity measured by four methods. Food Chemistry, 112: 721-726.
  • Cemeroglu B, Artik N and Erbas S (1992). Extraction and composition of pomegranate juice. Fluessiges Obst, 59(6): 335-340.
  • Fadavi A, Barzegar M, Azizi MH and Bayat M (2005). Physicochemical composition of ten pomegranate cultivars (Punica granatum L.) grown in Iran. Food Science Technology International, 11: 113-119.
  • Gonzalez-Molina E, Moreno DA and Garcia-Viguera C (2008). Genotype and harvest time influence the phytochemical quality of fino lemon juice (Citrus lemon L. Burm. f.) for industrial use. Journal of Agricultural and Food Chemistry, 56(5): 1669-1675.
  • Huang D, Ou B, and Prior RL (2005). The Chemistry behind antioxidant capacity assays. Journal of Agricultuiral and Food Chemistry, 53(6): 1841-1856.
  • Kandylis P and Kokkinomagoulos E (2020). Food applications and potential health benefits of pomegranate and its derivatives. Foods, 9(2): 122.
  • Kingsly ARP, Singh DB, Manikantan MR and Jain RK (2006). Moisture dependent physical properties of dried pomegranate seed (Anaradana). Journal of Food Engineering, 75: 492-496.
  • Lansky EP and Newman RA (2007). Punica granatum (pomegranate) and its potential for prevention and treatment of inflammation and cancer. Journal of Ethnopharmacology, 109: 177-206.
  • Mahawar MK, Jalgaonkar K, Kumar M, Meena VS and Bhushan B (2017). Determination of some physical properties of date palm fruits (cv. Khadrawy and Medjool). Acta Agrophysica, 24(2): 217-223.
  • Mahawar MK, Jalgaonkar K, Bibwe B, Kulkarni T, Bhushan B and Meena VS (2018). Optimization of blended Aonla-Guava fruit bar through Response surface methodology. Nutrition and Food Science. 48(4): 621-630.
  • Mahawar MK, Bibwe B, Jalgaonkar K and Ghodki BM (2019). Mass modeling of kinnow mandarin based on some physical attributes. Journal of Food Process Engineering, 42(5).
  • Martinez JJ, Melarejo P, Hernandez F, Salazar DM and Martinez R (2006). Arils characterization of five new pomegranate (Punica granatum L.) varieties. Scientia Horticulturae, 110: 241-246.
  • Martinez JJ, Hernández F, Abdelmajid H, Legua, P, Martínez R, El Amine, A and Melgarejo P (2012). Physico-chemical characterization of six pomegranate cultivars from Morocco: processing and fresh market aptitudes. Scientia Horticulturae, 140: 100-106.
  • Meena VS, Jalgaonkar K, Mahawar MK, Bhushan B, Bhushan B, Kashyup P (2020). Optimization of process variables for preparation of Pomegranate juice fortified aonla candy. Current Science, 118(1): 114-118.
  • Mena P, Gironés-Vilaplana A, Marti N and García-Viguera C (2012). Pomegranate varietal wines: Phytochemical composition and quality parameters. Food Chemistry, 133: 108-115.
  • Mir MM, Umar I, Mir SA, Rehman MU, Rather GH and Banday SA (2012). Quality evaluation of pomegranate crop – a review. International Journal of Agriculture Biology, 14: 658-667.
  • Mohsenin NN (1970). Physical properties of plant and animal materials. Gordon and Breach Science Publishers, New York.
  • Pande G and Akoh CC (2009). Antioxidant capacity and lipid characterization of six Georgia-grown pomegranate cultivars. Journal of Agricultural and Food Chemistry, 57: 9427-9436.
  • Radunic M, Špika MJ, Ban SG, Gadze J, Diáz-Pérez JC and MacLean D (2015). Physical and chemical properties of pomegranate fruit accessions from Croatia. Food Chemistry, 177: 53-60.
  • Rice-Evans CA, Miller NJ and Paganga G (1997). Antioxidant properties of phenolic compounds. Trends in Plant Sciences, 2: 152-159.
  • Riyahi R, Rafiee S, Dalvand MJ and Keyhani A (2011). Some physical characteristics of pomegranate seeds and arios. Journal of Agricultural Technology, 7(6): 1523-1537.
  • Shahkoomahally S, Khadivi A, Brecht JK and Sarkhosh A (2021). Chemical and physical attributes of fruit juice and peel of pomegranate genotypes grown in Florida, USA. Food Chemistry, 342: 128302.
  • Tehranifar A, Zarei M, Nemati Z, Esfandiyari B and Vazifeshenas MR (1997). Investigation of physic-chemical properties and antioxidant activity of twenty Iranian pomegranate (Punica granatum L.). Scientia Horticulturae, 126: 180-185.
  • Wrolstad RE, Durst RW and Lee J (2005). Tracking color and pigment changes in anthocyanin products. Trends in Food Science and Technology, 16: 423-428.
  • Zaouay F and Mars M (2011). Diversity among Tunisian pomegranate (Punica granatum L.) cultivars as assessed by pomological and chemical traits. International Journal of Fruit Science, 11(2):151-166.

Physicochemical Characterization of Selected Pomegranate (Punica granatum L.) Cultivars

Year 2021, Volume: 2 Issue: 2, 425 - 433, 31.12.2021

Abstract

The physical and chemical characteristics of five pomegranate cultivars (Mridula, Ganesh, White muscut, G-137 and Jalor seedless) were examined in the present investigation. Physical properties of different cultivars were determined such as major diameter (85.05 to 91.62 mm), intermediate diameter (76.85 to 87.83 mm), minor diameter (79.86 to 90.01 mm), sphericity (0.903 to 0.937), fruit weight (294.4 to 404.14 g), fruit volume (289 to 387 mL), number of arils per fruit, weight of 100 arils were evaluated and analysed for the varietal difference. In addition, properties such as peel moisture content (68.72 to 74.15% w.b.), aril moisture content (78.25 to 81.82% w.b.), peel ash content (0.81 to 1.51%), aril ash content (0.29 to 0.53%), juice pH (3.47 to 3.96), total soluble solids (11.60 to 13.00 °Brix), titratable acidity (0.42 to 0.58%), total phenolic content, juice yield per fruit (104 to 186 mL) juice turbidity (142.20 to 364.50 NTU) and textural properties, like fruit compressive strength/firmness of arils (23.09 to 34.54 N), cutting strength of peel (84.33 to 111.35 N) and aril skin puncture force (0.28 to 0.38 N) were also investigated. Overall results suggested that the measured physico-chemical properties were quite different by the cultivar differences.

References

  • Akbarpour V, Hemmati K and Sharifani M (2009). Physical and chemical properties of Pomegranate (Punica granatum L.) fruit in maturation stage. American Eurasian Journal of Agriculture Environment and Science, 6(4): 411-416.
  • Al-Maiman S, and Ahmad D (2002). Changes in physical and chemical properties during pomegranate (Punica granatum L.) fruit maturation. Journal of Food Chemistry, 76(4): 437-441.
  • Al-Said FA, Opara LU and Al-Yahyai RA (2009). Physico-chemical and textural quality attributes of pomegranate cultivars (Punica granatum L.) grown in the Sultanate of Oman. Journal of Food Engineering, 90(1): 129-134.
  • Altuntas E, Özgöz E, and Taşer, ÖF (2005). Some physical properties of fenugreek (Trigonella foenum-graceum L.) seeds. Journal of Food Engineering, 71(1): 37-43.
  • Altuntas E, and Mahawar MK (2021). Mass prediction of cherry laurel genotypes based on physical attributes using linear regression models. Journal of Agricultural Faculty of Gaziosmanpasa University. 38(2): 87-94.
  • AOAC (2009). Association of official analytical chemistry. Official methods of analysis. 16th ed. Washington. 1141.
  • Cam M, Hisil Y and Durmaz G (2009). Classification of eight pomegranate juices based on antioxidant capacity measured by four methods. Food Chemistry, 112: 721-726.
  • Cemeroglu B, Artik N and Erbas S (1992). Extraction and composition of pomegranate juice. Fluessiges Obst, 59(6): 335-340.
  • Fadavi A, Barzegar M, Azizi MH and Bayat M (2005). Physicochemical composition of ten pomegranate cultivars (Punica granatum L.) grown in Iran. Food Science Technology International, 11: 113-119.
  • Gonzalez-Molina E, Moreno DA and Garcia-Viguera C (2008). Genotype and harvest time influence the phytochemical quality of fino lemon juice (Citrus lemon L. Burm. f.) for industrial use. Journal of Agricultural and Food Chemistry, 56(5): 1669-1675.
  • Huang D, Ou B, and Prior RL (2005). The Chemistry behind antioxidant capacity assays. Journal of Agricultuiral and Food Chemistry, 53(6): 1841-1856.
  • Kandylis P and Kokkinomagoulos E (2020). Food applications and potential health benefits of pomegranate and its derivatives. Foods, 9(2): 122.
  • Kingsly ARP, Singh DB, Manikantan MR and Jain RK (2006). Moisture dependent physical properties of dried pomegranate seed (Anaradana). Journal of Food Engineering, 75: 492-496.
  • Lansky EP and Newman RA (2007). Punica granatum (pomegranate) and its potential for prevention and treatment of inflammation and cancer. Journal of Ethnopharmacology, 109: 177-206.
  • Mahawar MK, Jalgaonkar K, Kumar M, Meena VS and Bhushan B (2017). Determination of some physical properties of date palm fruits (cv. Khadrawy and Medjool). Acta Agrophysica, 24(2): 217-223.
  • Mahawar MK, Jalgaonkar K, Bibwe B, Kulkarni T, Bhushan B and Meena VS (2018). Optimization of blended Aonla-Guava fruit bar through Response surface methodology. Nutrition and Food Science. 48(4): 621-630.
  • Mahawar MK, Bibwe B, Jalgaonkar K and Ghodki BM (2019). Mass modeling of kinnow mandarin based on some physical attributes. Journal of Food Process Engineering, 42(5).
  • Martinez JJ, Melarejo P, Hernandez F, Salazar DM and Martinez R (2006). Arils characterization of five new pomegranate (Punica granatum L.) varieties. Scientia Horticulturae, 110: 241-246.
  • Martinez JJ, Hernández F, Abdelmajid H, Legua, P, Martínez R, El Amine, A and Melgarejo P (2012). Physico-chemical characterization of six pomegranate cultivars from Morocco: processing and fresh market aptitudes. Scientia Horticulturae, 140: 100-106.
  • Meena VS, Jalgaonkar K, Mahawar MK, Bhushan B, Bhushan B, Kashyup P (2020). Optimization of process variables for preparation of Pomegranate juice fortified aonla candy. Current Science, 118(1): 114-118.
  • Mena P, Gironés-Vilaplana A, Marti N and García-Viguera C (2012). Pomegranate varietal wines: Phytochemical composition and quality parameters. Food Chemistry, 133: 108-115.
  • Mir MM, Umar I, Mir SA, Rehman MU, Rather GH and Banday SA (2012). Quality evaluation of pomegranate crop – a review. International Journal of Agriculture Biology, 14: 658-667.
  • Mohsenin NN (1970). Physical properties of plant and animal materials. Gordon and Breach Science Publishers, New York.
  • Pande G and Akoh CC (2009). Antioxidant capacity and lipid characterization of six Georgia-grown pomegranate cultivars. Journal of Agricultural and Food Chemistry, 57: 9427-9436.
  • Radunic M, Špika MJ, Ban SG, Gadze J, Diáz-Pérez JC and MacLean D (2015). Physical and chemical properties of pomegranate fruit accessions from Croatia. Food Chemistry, 177: 53-60.
  • Rice-Evans CA, Miller NJ and Paganga G (1997). Antioxidant properties of phenolic compounds. Trends in Plant Sciences, 2: 152-159.
  • Riyahi R, Rafiee S, Dalvand MJ and Keyhani A (2011). Some physical characteristics of pomegranate seeds and arios. Journal of Agricultural Technology, 7(6): 1523-1537.
  • Shahkoomahally S, Khadivi A, Brecht JK and Sarkhosh A (2021). Chemical and physical attributes of fruit juice and peel of pomegranate genotypes grown in Florida, USA. Food Chemistry, 342: 128302.
  • Tehranifar A, Zarei M, Nemati Z, Esfandiyari B and Vazifeshenas MR (1997). Investigation of physic-chemical properties and antioxidant activity of twenty Iranian pomegranate (Punica granatum L.). Scientia Horticulturae, 126: 180-185.
  • Wrolstad RE, Durst RW and Lee J (2005). Tracking color and pigment changes in anthocyanin products. Trends in Food Science and Technology, 16: 423-428.
  • Zaouay F and Mars M (2011). Diversity among Tunisian pomegranate (Punica granatum L.) cultivars as assessed by pomological and chemical traits. International Journal of Fruit Science, 11(2):151-166.
There are 31 citations in total.

Details

Primary Language English
Subjects Agricultural Engineering
Journal Section Research Articles
Authors

Vijay Singh Meena This is me 0000-0001-6853-8948

Bhushan Bibwe This is me 0000-0002-2043-2471

Bharat Bhushan This is me 0000-0001-9244-209X

Kirti Jalgaonkar 0000-0001-9347-806X

Manoj Mahawar 0000-0001-6802-252X

Publication Date December 31, 2021
Submission Date October 8, 2021
Acceptance Date December 6, 2021
Published in Issue Year 2021 Volume: 2 Issue: 2

Cite

APA Meena, V. S., Bibwe, B., Bhushan, B., Jalgaonkar, K., et al. (2021). Physicochemical Characterization of Selected Pomegranate (Punica granatum L.) Cultivars. Turkish Journal of Agricultural Engineering Research, 2(2), 425-433.

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