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Determination of Phenolic, Flavonoid Content and Antioxidant Activity of Oil Rose Products

Year 2024, Volume: 41 Issue: 2, 74 - 81, 29.06.2024
https://doi.org/10.16882/hortis.1502851

Abstract

Rose and rose products are used as raw materials in many sectors including cosmetics, food and medicine. The Rosa damascena Mill. rose genotype, which is intensively cultivated in the Isparta region of Türkiye, is an important export product. The flower of the plant is main source of raw materials for rose oil, herbal teas and cosmetic products due to its high essential oil and polyphenols contents. In this study, Rosa damascena, Rosa centifolia, Rosa alba L., Rosa alba ‘Semiplena’ genotypes were grown in Yalova, which is an alternative region in terms of agro-climatic conditions from Isparta and its surroundings where rose oil cultivation is carried out in Türkiye. Within the scope of the study, total phenolic matter, total antioxidant activity (DPPH and CUPRAC) and total flavonoid contents of flowers (whole flowers), rose water and wastewater of the genotypes were determined. It is important to identify alternative rose genotypes to R. damascena in Türkiye and their potential for cultivation under different climatic conditions. The highest phenolic content (4115 mg gallic acid equivalent GAE 100 g-1) and DPPH antioxidant activity (4893 mg trolox equivalent TE 100 g-1) values were obtained in R. damascena genotype at the first harvest period. The highest CUPRAC antioxidant activity (34237 mg TE 100 g-1) values were obtained in R. centifolia genotype at the first harvest period. In the second harvest period, the highest phenolic content, DPPH antioxidant activity and CUPRAC antioxidant activity values were determined in R. centifolia genotype. Antioxidant activity, phenolic and flavonoid contents of dried rose flowers were higher than in rose water and wastewater. Rose petals were found to have the potential to be used as an important antioxidant source, while total phenolic matter and antioxidant activity values were found to be low in rose water and wastewater. The harvest period was found to be major factor in oil rose flowers, which can be an important polyphenol source.

References

  • Abdel-Hameed, E.S.S., Bazaid, S.A., & Sabra, A.N.A. (2015). Total phenolic, in vitro antioxidant activity and safety assessment (acute, sub-chronic and chronic toxicity) of industrial taif rose water by-product in mice. Der Pharmacia Lettre, 7:251-259.
  • Alizadeh, Z., & Fattahi, M. (2021). Essential oil, total phenolic, flavonoids, anthocyanins, carotenoids and antioxidant activity of cultivated Damask Rose (Rosa damascena) from Iran: With chemotyping approach concerning morphology and composition. Scientia Horticulturae, 288:110341.
  • Apak, R., Güçlü, K., Özyürek, M., & Karademir, S.E. (2004). Novel total antioxidant capacity index for dietary polyphenols and vitamins C and E, using their cupric ion reducing capability in the presence of neocuproine: CUPRAC method. Journal of Agricultural Food Chemistry, 52(26):7970-7981.
  • Baydar, H. (2006). Oil-bearing rose (Rosa damascena Mill.) cultivation and rose oil industry in Turkey. Euro Cosmetics, 14(6):13.
  • Baydar, N.G., & Baydar, H. (2013). Phenolic contents, antiradical activity and antioxidant capacity of oil-bearing rose (Rosa damascena Mill.) extracts. Industrial Crops and Products, 41:375-380.
  • Baydar, H. (2016). Tıbbi ve Aromatik Bitkiler Bilimi ve Teknolojisi Süleyman Demirel Üniversitesi Ders Kitabı (in Turkish).
  • Baydar, H., & Baydar, N.G. (2017). Essential oils and phenolic compounds, antiradical and antioxidant activities of distillation products in oil-bearing rose (Rosa damascena Mill.). Journal of Agricultural Sciences, 23(1):1-9.
  • Choi, J.K., Lee, Y.B., Lee, K.H., Im, H.C., Kim, Y.B., Choi, E.K., & Kim, C.H. (2015). Extraction conditions for phenolic compounds with antioxidant activities from white rose petals. Journal of Applied Biological Chemistry, 58(2):117-124.
  • Georgiev, E., & Stoyanova, A. (2006). Handbook of the specialists in aroma industry. Bulgarian National Association of Essential Oils, Perfumery and Cosmetics, Plovdiv.
  • Gudin, S. (2000). Rose: genetics and breeding. Plant Breeding Reviews, 17:159-189.
  • Karadeniz, F., Burdurlu, H.S., Koca, N., & Soyer, Y. (2005). Antioxidant activity of selected fruits and vegetables grown in Turkey. Turkish Journal of Agriculture and Forestry, 29(4):297-303.
  • Khurshid, H., Sabir, S.M., Awan, S.I., Abbas, S.R., & Irshad, M. (2018). Antioxidant activities of aqueous extracts from nine different rose cultivars. International Journal of Food Studies, 7(2):64-75.
  • Kovacheva, N., Rusanov, K., & Atanassov, I. (2010) Industrial cultivation of oil bearing rose and rose oil production in Bulgaria during 21st century, directions and challenges. Biotechnology & Biotechnological Equipment, 24:1793-1798.
  • Kumar, R., Sharma, S., Sood, S., & Agnihotri, V.K. 2013. Agro-nomic interventions for the improvement of essential oilcontent and composition of damask rose (Rosa damascene Mill.) under western Himalayas. Industrial Crops and Products, 48:71-77.
  • Li, L., Ham, H., Sung, J., Kim, I., Jeongand, H., & Lee, J. (2014). Antioxidant activities of methanolic extracts from four different rose cultivars. Journal of Food and Nutrition Research, 2(2):69-73.
  • Liu, W.Y., Chen, L.Y., Huang, Y.Y., Fu, L., Song, L.Y., Wang, Y.Y., & Bi, Y.F. (2020). Antioxidation and active constituent’s analysis of flower residue of Rosa damascena. Chinese Herbal Medicines, 12(3):336-341.
  • Moein, M., Etemadfard, H., & Zarshenas, M.M. (2016). Investigation of different Damask rose (Rosa damascena Mill.) oil samples from traditional markets in Fars (Iran); focusing on the extraction method. Trends in Pharmaceutical Sciences, 2(1):51-58.
  • Mohsen, E., Younis, I.Y., & Farag, M.A. (2020). Metabolites profiling of Egyptian Rosa damascena Mill. flowers as analyzed via ultra-high-performance liquid chromatography-mass spectrometry and solid-phase microextraction gas chromatography-mass spectrometry in relation to its anti-collagenase skin effect. Industrial Crops and Products, 155:112818.
  • Nowak, R., & Gawlik-Dziki, U. (2007). Polyphenols of Rosa L. leaves extracts and their radical scavenging activity. Zeitschrift für Naturforschung C, 62(1-2):32-38
  • Rusanov, K., Kovacheva, N., Rusanova., M., & Atanassov, I. (2012). Low variability of flower volatiles of Rosa damascena Mill. plants from rose plantations along the Rose Valley, Bulgaria. Industrial Crops and Products, 37:6-10.
  • Safia, A., Aamir, Z., Iqbal, A., Rafi, S., & Zafar, M. (2019). Assessment of rose water and evaluation of antioxidant and anti-inflammatory properties of a rose water based cream formulation. International Journal of Pharmacology and Clinical Research, 11:43-48.
  • Shameh, S., Alirezalu, A., Hosseini, B., & Maleki, R. (2019). Fruit phytochemical composition and color parameters of 21 accessions of five Rosa species grown in North West Iran. Journal of the Science of Food and Agriculture, 99(13):5740-5751.
  • 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 fruits extracts. Journal of Food Composition and Analysis, 19:669-675.
  • Vinokur, Y., Rodov, V., Reznick, N., Goldman, G., Horev, B., Umiel, N., & Friedman, H. 2006. Rose petal tea as an antioxidant-rich beverage: Cultivar effects. Journal of Food Science, 71(1):542-547.
Year 2024, Volume: 41 Issue: 2, 74 - 81, 29.06.2024
https://doi.org/10.16882/hortis.1502851

Abstract

References

  • Abdel-Hameed, E.S.S., Bazaid, S.A., & Sabra, A.N.A. (2015). Total phenolic, in vitro antioxidant activity and safety assessment (acute, sub-chronic and chronic toxicity) of industrial taif rose water by-product in mice. Der Pharmacia Lettre, 7:251-259.
  • Alizadeh, Z., & Fattahi, M. (2021). Essential oil, total phenolic, flavonoids, anthocyanins, carotenoids and antioxidant activity of cultivated Damask Rose (Rosa damascena) from Iran: With chemotyping approach concerning morphology and composition. Scientia Horticulturae, 288:110341.
  • Apak, R., Güçlü, K., Özyürek, M., & Karademir, S.E. (2004). Novel total antioxidant capacity index for dietary polyphenols and vitamins C and E, using their cupric ion reducing capability in the presence of neocuproine: CUPRAC method. Journal of Agricultural Food Chemistry, 52(26):7970-7981.
  • Baydar, H. (2006). Oil-bearing rose (Rosa damascena Mill.) cultivation and rose oil industry in Turkey. Euro Cosmetics, 14(6):13.
  • Baydar, N.G., & Baydar, H. (2013). Phenolic contents, antiradical activity and antioxidant capacity of oil-bearing rose (Rosa damascena Mill.) extracts. Industrial Crops and Products, 41:375-380.
  • Baydar, H. (2016). Tıbbi ve Aromatik Bitkiler Bilimi ve Teknolojisi Süleyman Demirel Üniversitesi Ders Kitabı (in Turkish).
  • Baydar, H., & Baydar, N.G. (2017). Essential oils and phenolic compounds, antiradical and antioxidant activities of distillation products in oil-bearing rose (Rosa damascena Mill.). Journal of Agricultural Sciences, 23(1):1-9.
  • Choi, J.K., Lee, Y.B., Lee, K.H., Im, H.C., Kim, Y.B., Choi, E.K., & Kim, C.H. (2015). Extraction conditions for phenolic compounds with antioxidant activities from white rose petals. Journal of Applied Biological Chemistry, 58(2):117-124.
  • Georgiev, E., & Stoyanova, A. (2006). Handbook of the specialists in aroma industry. Bulgarian National Association of Essential Oils, Perfumery and Cosmetics, Plovdiv.
  • Gudin, S. (2000). Rose: genetics and breeding. Plant Breeding Reviews, 17:159-189.
  • Karadeniz, F., Burdurlu, H.S., Koca, N., & Soyer, Y. (2005). Antioxidant activity of selected fruits and vegetables grown in Turkey. Turkish Journal of Agriculture and Forestry, 29(4):297-303.
  • Khurshid, H., Sabir, S.M., Awan, S.I., Abbas, S.R., & Irshad, M. (2018). Antioxidant activities of aqueous extracts from nine different rose cultivars. International Journal of Food Studies, 7(2):64-75.
  • Kovacheva, N., Rusanov, K., & Atanassov, I. (2010) Industrial cultivation of oil bearing rose and rose oil production in Bulgaria during 21st century, directions and challenges. Biotechnology & Biotechnological Equipment, 24:1793-1798.
  • Kumar, R., Sharma, S., Sood, S., & Agnihotri, V.K. 2013. Agro-nomic interventions for the improvement of essential oilcontent and composition of damask rose (Rosa damascene Mill.) under western Himalayas. Industrial Crops and Products, 48:71-77.
  • Li, L., Ham, H., Sung, J., Kim, I., Jeongand, H., & Lee, J. (2014). Antioxidant activities of methanolic extracts from four different rose cultivars. Journal of Food and Nutrition Research, 2(2):69-73.
  • Liu, W.Y., Chen, L.Y., Huang, Y.Y., Fu, L., Song, L.Y., Wang, Y.Y., & Bi, Y.F. (2020). Antioxidation and active constituent’s analysis of flower residue of Rosa damascena. Chinese Herbal Medicines, 12(3):336-341.
  • Moein, M., Etemadfard, H., & Zarshenas, M.M. (2016). Investigation of different Damask rose (Rosa damascena Mill.) oil samples from traditional markets in Fars (Iran); focusing on the extraction method. Trends in Pharmaceutical Sciences, 2(1):51-58.
  • Mohsen, E., Younis, I.Y., & Farag, M.A. (2020). Metabolites profiling of Egyptian Rosa damascena Mill. flowers as analyzed via ultra-high-performance liquid chromatography-mass spectrometry and solid-phase microextraction gas chromatography-mass spectrometry in relation to its anti-collagenase skin effect. Industrial Crops and Products, 155:112818.
  • Nowak, R., & Gawlik-Dziki, U. (2007). Polyphenols of Rosa L. leaves extracts and their radical scavenging activity. Zeitschrift für Naturforschung C, 62(1-2):32-38
  • Rusanov, K., Kovacheva, N., Rusanova., M., & Atanassov, I. (2012). Low variability of flower volatiles of Rosa damascena Mill. plants from rose plantations along the Rose Valley, Bulgaria. Industrial Crops and Products, 37:6-10.
  • Safia, A., Aamir, Z., Iqbal, A., Rafi, S., & Zafar, M. (2019). Assessment of rose water and evaluation of antioxidant and anti-inflammatory properties of a rose water based cream formulation. International Journal of Pharmacology and Clinical Research, 11:43-48.
  • Shameh, S., Alirezalu, A., Hosseini, B., & Maleki, R. (2019). Fruit phytochemical composition and color parameters of 21 accessions of five Rosa species grown in North West Iran. Journal of the Science of Food and Agriculture, 99(13):5740-5751.
  • 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 fruits extracts. Journal of Food Composition and Analysis, 19:669-675.
  • Vinokur, Y., Rodov, V., Reznick, N., Goldman, G., Horev, B., Umiel, N., & Friedman, H. 2006. Rose petal tea as an antioxidant-rich beverage: Cultivar effects. Journal of Food Science, 71(1):542-547.
There are 24 citations in total.

Details

Primary Language English
Subjects Agricultural Engineering (Other)
Journal Section Araştırma Makalesi
Authors

Seda Kayahan This is me 0000-0003-1300-4396

Fatih Gülbağ 0000-0002-6504-4325

Yalçın Kaya 0000-0001-8148-7153

Hasret Altunkanat 0000-0003-3742-7342

Early Pub Date June 27, 2024
Publication Date June 29, 2024
Submission Date January 10, 2024
Acceptance Date June 20, 2024
Published in Issue Year 2024 Volume: 41 Issue: 2

Cite

APA Kayahan, S., Gülbağ, F., Kaya, Y., Altunkanat, H. (2024). Determination of Phenolic, Flavonoid Content and Antioxidant Activity of Oil Rose Products. Horticultural Studies, 41(2), 74-81. https://doi.org/10.16882/hortis.1502851
AMA Kayahan S, Gülbağ F, Kaya Y, Altunkanat H. Determination of Phenolic, Flavonoid Content and Antioxidant Activity of Oil Rose Products. HortiS. June 2024;41(2):74-81. doi:10.16882/hortis.1502851
Chicago Kayahan, Seda, Fatih Gülbağ, Yalçın Kaya, and Hasret Altunkanat. “Determination of Phenolic, Flavonoid Content and Antioxidant Activity of Oil Rose Products”. Horticultural Studies 41, no. 2 (June 2024): 74-81. https://doi.org/10.16882/hortis.1502851.
EndNote Kayahan S, Gülbağ F, Kaya Y, Altunkanat H (June 1, 2024) Determination of Phenolic, Flavonoid Content and Antioxidant Activity of Oil Rose Products. Horticultural Studies 41 2 74–81.
IEEE S. Kayahan, F. Gülbağ, Y. Kaya, and H. Altunkanat, “Determination of Phenolic, Flavonoid Content and Antioxidant Activity of Oil Rose Products”, HortiS, vol. 41, no. 2, pp. 74–81, 2024, doi: 10.16882/hortis.1502851.
ISNAD Kayahan, Seda et al. “Determination of Phenolic, Flavonoid Content and Antioxidant Activity of Oil Rose Products”. Horticultural Studies 41/2 (June 2024), 74-81. https://doi.org/10.16882/hortis.1502851.
JAMA Kayahan S, Gülbağ F, Kaya Y, Altunkanat H. Determination of Phenolic, Flavonoid Content and Antioxidant Activity of Oil Rose Products. HortiS. 2024;41:74–81.
MLA Kayahan, Seda et al. “Determination of Phenolic, Flavonoid Content and Antioxidant Activity of Oil Rose Products”. Horticultural Studies, vol. 41, no. 2, 2024, pp. 74-81, doi:10.16882/hortis.1502851.
Vancouver Kayahan S, Gülbağ F, Kaya Y, Altunkanat H. Determination of Phenolic, Flavonoid Content and Antioxidant Activity of Oil Rose Products. HortiS. 2024;41(2):74-81.