Abstract
Although the Arasbaran region has one of the richest genetic reserves of pomegranate in the world, the scopes of this diversity still remains largely unknown. In this research, we collected 19 different pomegranate ecotypes from the Arasbaran region, and studied them in terms of important morphophysiological and biochemical traits, such as fruit diameter and weight, peel weight, juice content, polyphenol and flavonoid contents, and antioxidant activity. The results showed an extraordinary diversity between ecotypes in the evaluated traits. For instance, phenolic and flavonoid contents varied between 21.5–61.5 mgGAL/L and 6–12.5 mgQE/L, respectively. Highly significant differences among ecotypes were also noticeable in the antioxidant activity with the IC50 ranging between 33.70 and 103.85 µg/mL. Our investigations showed that desirable traits in terms of human nutrition and industrial marketability are spread among different ecotypes, and therefore, one particular ecotype cannot be introduced as the superior one. However, here we present a new method to evaluate pomegranates according to important physiological and biochemical characteristics, facilitating the screening of pomegranates to select superior ecotypes. Our results, in addition to identifying and preserving unique pomegranate genetic resources, can play an important role in expanding breeding programs and sustainable production and cultivation of superior pomegranate cultivars.
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References
Abdolahi N, Soltani A, Mirzaali A, Soltani S, Balakheyli H, Aghaei M (2018) Antibacterial and antioxidant activities and phytochemical properties of Punica granatum flowers in Iran. Iran J Sci Technol Trans A: Sci 42(3):1105–1110
Abigail R, Luisa C, Candy C, Pimentel-González D, Brenda A (2016) Antioxidant activity, antimicrobial and effects in the immune system of plants and fruits extracts. Front Life Sci 9(2):90–98
Adiletta G, Petriccione M, Liguori L, Pizzolongo F, Romano R, Di Matteo M (2018) Study of pomological traits and physico-chemical quality of pomegranate (Punica granatum L.) genotypes grown in Italy. Eur Food Res Technol 244(8):1427–1438
Adwas AA, Elsayed A, Azab A, Quwaydir F (2019) Oxidative stress and antioxidant mechanisms in human body. J Appl Biotechnol Bioeng 6(1):43–47
Akbarpour V, Hemmati K, Sharifani M (2008) Physical and chemical properties of pomegranate (Punica granatum L.) fruit in maturation stage. Am-Eurasian J Agric Environ Sci 6:411–416
Akhtar N, Zafar H, Ahmad N, Hussain K (2019) Nutritional quality evaluation of different varieties of pomegranate under climatic conditions of Faisalabad. Eurasian J Soil Sci (EJSS) 8:184–188
Amir R, Borochov-Neori H, Tian L, Holland D (2019) The biodiversity of different traits of pomegranate fruit peels from a broad collection of diverse cultivars. Sci Hortic 246:842–848
Assadi I, Elfalleh W, Benabderrahim MA, Hannachi H, Chaalen W, Ferchichi A (2019) Nutritional quality and antioxidant capacity of a combination of pomegranate and date juices. Int J Fruit Sci 19(3):300–314
Aviram M, Dornfeld L, Rosenblat M, Volkova N, Kaplan M, Coleman R et al (2000) Pomegranate juice consumption reduces oxidative stress, atherogenic modifications to LDL, and platelet aggregation: studies in humans and in atherosclerotic apolipoprotein E-deficient mice. Am J Clin Nutr 71(5):1062–1076
Borochov-Neori H, Judeinstein S, Tripler E, Harari M, Greenberg A, Shomer I, et al (2009) Seasonal and cultivar variations in antioxidant and sensory quality of pomegranate (Punica granatum L.) fruit. J Food Compos Anal 22(3):189–195
Boscaiu M, Sánchez M, Bautista I, Donat P, Lidón A, Llinares J et al (2010) Phenolic compounds as stress markers in plants from gypsum habitats. Bull Univ Agric Sci Vet Med Cluj-Napoca 67:1843–5394
Brand-Williams W, Cuvelier ME, Berset C (1995) Use of a free radical method to evaluate antioxidant activity. LWT Food Sci Technol 28(1):25–30
Çalışkan O, Bayazıt S (2013) Morpho-pomological and chemical diversity of pomegranate accessions grown in eastern mediterranean region of Turkey. J Agric Sci Technol 15:1449–1460
Cam M, Hisil Y, Durmaz G (2009) Characterisation of pomegranate juices from ten cultivars grown in Turkey. Int J Food Prop 12(2):388–395
Çam M, Hisil Y, Durmaz G (2009) Classification of eight pomegranate juices based on antioxidant capacity measured by four methods. Food Chem 112(3):721–726
Carreño J, Pérez Z, Pérez E, Gisela P, Araujo K (2015) Evaluación fisicoquímica y fitoquímica de granada (Punica granatum L.). Revista Tecnocientífica URU 8:2343–6360
Coppo E, Marchese A (2014) Antibacterial activity of polyphenols. Curr Pharm Biotechnol 15(4):380–390
Crozier A, Jaganath IB, Clifford MN (2009) Dietary phenolics: chemistry, bioavailability and effects on health. Nat Prod Rep 26(8):1001–1043
Derakhshan Z, Ferrante M, Tadi M, Ansari F, Heydari A, Hosseini MS et al (2018) Antioxidant activity and total phenolic content of ethanolic extract of pomegranate peels, juice and seeds. Food Chem Toxicol 114:108–111
Díaz-Mula HM, Tomás-Barberán FA, García-Villalba R (2019) Pomegranate fruit and juice (cv. Mollar), rich in ellagitannins and anthocyanins, also provide a significant content of a wide range of proanthocyanidins. J Agric Food Chem 67(33):9160–9167
Drogoudi PD, Tsipouridis C, Michailidis Z (2005) Physical and chemical characteristics of pomegranates. HortScience 40(5):1200–1203
Dukre TP, Sangale SS, Shelke AK (2022) Pharmacological uses of Socotran pomegranate. World J Pharm Res 11(13):103–110
El Kar C, Ferchichi A, Attia F, Bouajila J (2011) Pomegranate (Punica granatum) juices: chemical composition, micronutrient cations, and antioxidant capacity. J Food Sci 76(6):795–800
El-Majzoub N, Soweid A (2014) Rectal impaction by pomegranate seeds. Ann Saudi Med 34(6):555
Fadavi A, Barzegar M, Azizi M, Bayat M (2005) Note. Physicochemical composition of ten pomegranate cultivars (Punica granatum L.) grown in Iran. Food Sci Technol Int 11(2):113–119
Ferrara G, Giancaspro A, Mazzeo A, Giove SL, Matarrese AMS, Pacucci C et al (2014) Characterization of pomegranate (Punica granatum L.) genotypes collected in Puglia region, Southeastern Italy. Sci Hortic 178:70–78
Gil MI, Tomás-Barberán FA, Hess-Pierce B, Holcroft DM, Kader AA (2000) Antioxidant activity of pomegranate juice and its relationship with phenolic composition and processing. J Agric Food Chem 48(10):4581–4589
Glazer I, Masaphy S, Marciano P, Bar-Ilan I, Holland D, Kerem Z et al (2012) Partial identification of antifungal compounds from Punica granatum peel extracts. J Agric Food Chem 60(19):4841–4848
Gómez-Caravaca AM, Verardo V, Toselli M, Segura-Carretero A, Fernández-Gutiérrez A, Caboni MF (2013) Determination of the major phenolic compounds in pomegranate juices by HPLC−DAD−ESI-MS. J Agric Food Chem 61(22):5328–5337
Hajimahmoodi M, Oveisi M, Sadeghi N, Jannat B, Hadjibabaie M, Farahani E et al (2008) Antioxidant properties of peel and pulp hydro extract in ten Persian pomegranate cultivars. Pak J Biol Sci PJBS 11(12):1600–1604
Harel-Beja R, Sherman A, Rubinstein M, Bar-Ya’akov R, Trainin IT et al (2015) A novel genetic map of pomegranate based on transcript markers enriched with QTLs for fruit quality traits. Tree Genet Genomes 11:1–18
Hazrati S, Mollaei S, Rabbi Angourani H, Hosseini SJ, Sedaghat M, Nicola S (2020) How do essential oil composition and phenolic acid profile of Heracleum persicum fluctuate at different phenological stages? Food Sci Nutr 8(11):6192–6206
Hernández Escarcega G, Sánchez-Chávez E, Pérez Álvarez S, Soto Caballero M, Soto Parra JM, Flores-Córdova MA, et al (2020) Determination of antioxidant phenolic, nutritional quality and volatiles in pomegranates (Punica granatum L.) cultivated in Mexico. Int J Food Prop 23(1):979–991
Hmid I, Elothmani D, Hanine H, Oukabli A, Mehinagic E (2017) Comparative study of phenolic compounds and their antioxidant attributes of eighteen pomegranate (Punica granatum L.) cultivars grown in Morocco. Arab J Chem 10:S2675–S2684
Holland D, Hatib K, Bar-Ya’akov I (2009) Pomegranate: botany, horticulture, breeding. Hortic Rev 35:127–191
Hoseini S, Rashidi L, Homapour M (2019) Investigation of polyphenolic compounds and antioxidant properties of black peel pomegranate Juice cultivar (Punica granatum) in Saveh. Iran J Nutr Sci Food Technol 14(1):99–108
Irina I, Mohamed G (2012) Biological activities and effects of food processing on flavonoids as phenolic antioxidants. Adv Appl Biotechnol 101–124
Jebur AB, El-Sayed RA, Abdel-Daim MM, El-Demerdash FM (2023) Punica granatum (pomegranate) peel extract pre-treatment alleviates fenpropathrin-induced testicular injury via suppression of oxidative stress and inflammation in adult male rats. Toxics 11(6):504
Jubany-Marí T, Munné-Bosch S, Alegre L (2010) Redox regulation of water stress responses in field-grown plants. Role of hydrogen peroxide and ascorbate. Plant Physiol Biochem 48(5):351–358
Karaaslan M, İZol G (2014) Physicochemical properties of Zivzik and Gorumlu pomegranates. Harran Tarım Ve Gıda Bilimleri Dergisi 18:1–15
Kurutas EB (2016) The importance of antioxidants which play the role in cellular response against oxidative/nitrosative stress: current state. Nutr J 5(1):71
Lampakis D, Skenderidis P, Leontopoulos S (2021) Technologies and extraction methods of polyphenolic compounds derived from pomegranate (Punica granatum) peels. A mini review. Processes 9(2):236
Li X, Wasila H, Liu L, Yuan T, Gao Z, Zhao B et al (2015) Physicochemical characteristics, polyphenol compositions and antioxidant potential of pomegranate juices from 10 Chinese cultivars and the environmental factors analysis. Food Chem 175:575–584
Mazandarani M, Khojamli Z, Bayat H, Daneshvar A (2010) The investigation of secondary metabolites content of Punica granatum L. in two natural regions of Golestan province, North of Iran
Melgarejo-Sánchez P, Martínez JJ, Legua P, Martínez R, Hernández F, Melgarejo P (2015) Quality, antioxidant activity and total phenols of six Spanish pomegranates clones. Sci Hortic 182:65–72
Mena P, García-Viguera C, Navarro-Rico J, Moreno DA, Bartual J, Saura D, et al (2011) Phytochemical characterisation for industrial use of pomegranate (Punica granatum L.) cultivars grown in Spain. J Sci Food Agric 91(10):1893–1906
Mir MM, Jhon AQ, Khan FU (2007) Studies on physical and chemical characteristics of pomegranate cultivars in Kashmir valley. J Hortic Sci 2(2):139–142
Mirdehghan SH, Rahemi M (2007) Seasonal changes of mineral nutrients and phenolics in pomegranate (Punica granatum L.) fruit. Sci Hortic 111(2):120–127
Mirjalili S (2015) A review on biochemical constituents and medicinal properties of pomegranate (Punica granatum L.). J Med Plants 14(56):1–22
Mo Y, Ma J, Gao W, Zhang L, Li J, Li J, et al (2022) Pomegranate peel as a source of bioactive compounds: a mini review on their physiological functions. Front Nutr 9
Mollaei S, Hazrati S, Lotfizadeh V, Dastan D, Asgharian P (2020) Phytochemical variation and biological activities of Zosima absinthifolia during various stages of growth. Int J Food Prop 23(1):1556–1567
Mousavinejad G, Emam-Djomeh Z, Rezaei K, Khodaparast MHH (2009) Identification and quantification of phenolic compounds and their effects on antioxidant activity in pomegranate juices of eight Iranian cultivars. Food Chem 115(4):1274–1278
Nimse SB, Pal D (2015) Free radicals, natural antioxidants, and their reaction mechanisms. RSC Adv 5(35):27986–28006
Noda Y, Kaneyuki T, Mori A, Packer L (2002) Antioxidant activities of pomegranate fruit extract and its anthocyanidins: delphinidin, cyanidin, and pelargonidin. J Agric Food Chem 50(1):166–171
Ofosu FK, Daliri EB-M, Elahi F, Chelliah R, Lee B-H, Oh D-H (2020) New insights on the use of polyphenols as natural preservatives and their emerging safety concerns. Front Sustain Food Syst 4:525810
Okatan V, Gozlekci S (2015) Genotype selection for physico-chemical fruit traits in pomegranate (Punica granatum L.) in Turkey. Acta Sci Pol Hortorum Cultus 14:123–132
Ophir R, Sherman A, Rubinstein M, Eshed R, Sharabi Schwager M, Harel-Beja R et al (2014) Single-nucleotide polymorphism markers from de-novo assembly of the pomegranate transcriptome reveal germplasm genetic diversity. PLoS ONE 9(2):e88998
Ozgen M, Durgaç C, Serçe S, Kaya C (2008) Chemical and antioxidant properties of pomegranate cultivars grown in the Mediterranean region of Turkey. Food Chem 111(3):703–706
Parvizi H, Sepaskhah AR, Ahmadi SH (2016) Physiological and growth responses of pomegranate tree (Punica granatum L. cv. Rabab) under partial root zone drying and deficit irrigation regimes. Agric Water Manag 163:146–158
Poyrazoğlu E, Gökmen V, Artιk N (2002) Organic acids and phenolic compounds in pomegranates (Punica granatum L.) grown in Turkey. J Food Compos Anal 15(5):567–75
Rozenberg O, Howell A, Aviram M (2006) Pomegranate juice sugar fraction reduces macrophage oxidative state, whereas white grape juice sugar fraction increases it. Atherosclerosis 188(1):68–76
Ruiz JM, Romero L (2001) Bioactivity of the phenolic compounds in higher plants. In: Atta ur R (ed) Studies in natural products chemistry, vol 25. Elsevier; pp 651–81
Šamec D, Karalija E, Šola I, Vujčić Bok V, Salopek-Sondi B (2021) The role of polyphenols in abiotic stress response: the influence of molecular structure. Plants (Basel) 10(1):118
Saparbekova AA, Kantureyeva GO, Kudasova DE, Konarbayeva ZK, Latif AS (2023) Potential of phenolic compounds from pomegranate (Punica granatum L.) by-product with significant antioxidant and therapeutic effects: a narrative review. Saudi J Biol Sci 30(2):103553
Sayago-Ayerdi S, García-Martínez DL, Ramírez-Castillo AC, Ramírez-Concepción HR, Viuda-Martos M (2021) Tropical fruits and their co-products as bioactive compounds and their health effects: a review. Foods 10(8):1952
Seeram NP, Aviram M, Zhang Y, Henning SM, Feng L, Dreher M et al (2008) Comparison of antioxidant potency of commonly consumed polyphenol-rich beverages in the United States. J Agric Food Chem 56(4):1415–1422
Shahsavari S, Noormohammadi Z, Sheidai M, Farahani F, Vazifeshenas M (2021) A new insight to the phytochemical and morphological diversity in commercial pomegranate (Punica granatum) cultivars. Nova Biologica Reperta 7(4):442–452
Shams Ardekani MR, Hajimahmoodi M, Oveisi MR, Sadeghi N, Jannat B, Ranjbar AM, et al (2011) Comparative antioxidant activity and total flavonoid content of Persian pomegranate (Punica granatum L.) cultivars. Iran J Pharm Res 10(3):519–524
Sharma N (2014) Free radicals, antioxidants and disease. Biol Med 6(3):1
Shaygannia E, Bahmani M, Zamanzad B, Rafieian-Kopaei M (2016) A review study on Punica granatum L. J Evid-Based Complement Alternat Med 21(3):221–227
Singh B, Singh JP, Kaur A, Singh N (2018) Phenolic compounds as beneficial phytochemicals in pomegranate (Punica granatum L.) peel: a review. Food Chem 261:75–86
Sun W, Shahrajabian MH (2023) Therapeutic potential of phenolic compounds in medicinal plants-natural health products for human health. Molecules 28(4):1845
Tehranifar A, Zarei M, Nemati Z, Esfandiyari B, Vazifeshenas MR (2010) Investigation of physico-chemical properties and antioxidant activity of twenty Iranian pomegranate (Punica granatum L.) cultivars. Sci Hortic 126(2):180–185
Tehranifar A, Zarei M, Esfandiyari B, Nemati Z (2014) Study of physical properties, phenolics compounds and antioxidant activity of thirty different Iranian cultivars of pomegranates peels. J Hortic Sci 28(3):312–318
Tugcu B, Nacaroglu SA, Gedikbasi A, Uhri M, Acar N, Ozdemir H (2017) Protective effect of pomegranate juice on retinal oxidative stress in streptozotocin-induced diabetic rats. Int J Ophthalmol 10(11):1662
Verma N, Mohanty A, Lal A (2010) Pomegranate genetic resources and germplasm conservation: a review. Fruit Veg Cereal Sci Biotech 4(2):120–125
Wu S, Tian L (2017) Diverse phytochemicals and bioactivities in the ancient fruit and modern functional food pomegranate (Punica granatum). Molecules 22(10):1606
Zeynalova A, Novruzov E (2017) Origin, taxonomy and systematics of pomegranate. In: Proceedings of the Institute of Botany, Azerbaijan National Academy of Sciences, vol 37
Zhang Y, Cai P, Cheng G, Zhang Y (2022) A brief review of phenolic compounds identified from plants: their extraction, analysis, and biological activity. Nat Prod Commun 17(1):1934578X211069721
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The authors acknowledge the Azarbaijan Shahid Madani University for financial support of this work.
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This work was financially supported by the Azarbaijan Shahid Madani University.
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Z.D and M.A conceptualized the work. Z.D performed experiments. M.A supervised the work. S.M co-supervised the work. Z.D and M.A wrote the main manuscript text and M.A prepared the figures. All authors reviewed the manuscript.
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Dehghanian, Z., Ahmadabadi, M. & Mollaei, S. Impressive arrays of morphophysiological and biochemical diversity of pomegranates in Arasbaran; a hidden pomegranate paradise. Genet Resour Crop Evol (2024). https://doi.org/10.1007/s10722-024-01971-y
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DOI: https://doi.org/10.1007/s10722-024-01971-y