QUALITATIVE AND QUANTITATIVE PHYTOCHEMICAL ANALYSIS AND ANTIOXIDANT ACTIVITIES OF ARECA CATECHU NUT HUSK

Authors

  • Nurul Akmalina Sapaat School of Chemistry and Environment, Faculty of Applied Sciences
  • Asiah Abdullah School of Chemistry and Environment, Faculty of Applied Sciences
  • Sheikh Ahmad Izaddin Sheikh Mohd Ghazali School of Chemistry and Environment, Faculty of Applied Sciences
  • Nurazira Mohd Nor School of Chemistry and Environment, Faculty of Applied Sciences

Keywords:

Areca catechu, areca nut husk, phytochemical, antioxidant

Abstract

Areca cathechu nut also locally known as ‘pinang’ contains countless nutritional and functional
components with different bioactivities. The areca nut is covered by fruit shell of husk that contains a
lot of fibre. However, its husk was often thrown away and discarded as a waste. Thus, this study
attempts to analyse antioxidant capacity of areca nut husk. The areca nut husk was extracted using three
types of solvent of different polarity including n-hexane, ethyl acetate and ethanol. Qualitative
phytochemical screening was carried out to determine the phytochemical constituents present in the
extracts. The antioxidant capacity of areca nut husk was then evaluated quantitatively by determining
total phenolic content and DPPH assay, respectively. Ethanolic extract revealed the presence of
alkaloid, steroids, terpenoids, tannins, saponins, glycoside, flavonoid and phenol. Folin-Ciocalteu
method was used to quantify the total phenolic content in the extracts using a calibration curve of gallic
acid. Total phenolic content of ethanolic extract (558.33 mg GAE/g) was found higher than that of ethyl
acetate and n-hexane extracts which were 436.48 mg GAE/g and 290 mg GAE/g, respectively. The
ethanolic extract exhibited higher DPPH radical scavenging activity compared to ethyl acetate and nhexane extracts with 72.14% ± 0.17 percentage of inhibition and IC50 value of 118.33 ± 0.51. The results
obtained from this study revealed the potential of this underutilized areca nut husk as promising natural
antioxidant.

References

Alam, M. N., Bristi, N. J. and Rafiquzzaman, M. (2013). Review on in vivo and in vitro methods evaluation of

antioxidant activity. Saudi Pharmaceutical Journal 21: 143–152.

Bhandare, A. M., Kshirsagar, A. D., Vyawahare, N. S., Hadambar, A. A. and Thorve, V. S. (2010). Potential

analgesic, anti-inflammatory and antioxidant activities of hydroalcoholic extract of Areca catechu L. nut. Food

and Chemical Toxicology 48: 3412–3417.

Boulekbache-Makhlouf, L., Slimani, S., and Madani, K. (2013). Total phenolic content, antioxidant and

antibacterial activities of fruits of Eucalyptus globulus cultivated in Algeria. Industrial Crops and Products 41:

–89.

Diem, Q., Elisa, A., and Tran-nguyen, P. L. (2013). Effect of extraction solvent on total phenol content, total

flavonoid content, and antioxidant activity of Limnophila aromatica. Journal of Food and Drug Analysis, 22(3),

–302.

Farhat, M. B., Landoulsi, A., and Chaouch-Hamada, R., (2013). Characterization and quantification of phenolic

compounds and antioxidant properties of Salvia species growing in different habitats. Industrial Crops and

Products, 904–914.

Ghasemzadeh, A., Jaafar, H. Z. and Rahmat, A. (2011). Effects of solvent type on phenolics and flavonoids

content and antioxidant activities in two varieties of young ginger (Zingiber officinale Roscoe) extracts. Journal

of Medicinal Plants Research, 5(7), 1147–1154.

Hamsar, M. N., Ismail, S., Mordi, M. N., Ramanathan, S., and Mansor, S. M. (2011). Antioxidant activity and the

effect of different parts of areca catechu extracts on Glutathione-S-Transferase activity in vitro. Free Radicals

and Antioxidants 1 (1): 28–33.

Hartwig, V. G., Brumovsky, L. A., Fretes, R. M., and Boado, L. S. (2012). A novel procedure to measure the

antioxidant capacity of yerba maté extracts. Ciência e Tecnologia de Aliment, Campinas 32 (1): 126–133.

Hu, X., Wu, L., Du, M., and Wang, L., (2022). Eco-friendly synthesis of size-controlled silver nanoparticles by

using Areca catechu nut aqueous extract and investigation of their potent antioxidant and anti-bacterial activities.

Arabian Journal of Chemistry 15 (103763): 1–15.

Jadid, N., Hidayati, D., Hartanti, S. R., Arraniry, B. A., Rachman, R. Y., and Wikanta, W. (2017) Antioxidant

activities of different solvent extracts of Piper retrofractum Vahl. using DPPH assay. Proceeding of International

Biology Conference, AIP Conference Proceeding 1854, 020019.

Rajamani, R., Arts, K., and Kuppusamy, K. S., (2016). Preliminary phytochemical screening of aqueous extract

of betel nut and betel leaves. International Journal of Biosciences and Nanosciences, 3(1), 14–18.

Rao M.U., Razak, A.M. and Khamsah, S. P., (2016). Phytochemical screening, total flavonoid and phenolic

content assays of various solvent extracts of tepal of musa paradisiaca. Malaysian Journal of Analytical Sciences,

(5), 1181–1190.

Riaz, T., Abbasi, M. A., Aziz-Ur-Rehman, Shahzadi, T., Ajaib, M., and Khan, K. M., (2012). Phytochemical

screening, free radical scavenging, antioxidant activity and phenolic content of Dodonaea viscosa. Journal of the

Serbian Chemical Society, 77(1), 1–17.

Ruegas-Ramón M., Figueroa-Espinoza, M. C. and Durand, E. (2017). Application of deep eutectic solvent (DES)

for phenolic compounds extraction: Overview, challenges, and opportunities. Journal of Agricultural and Food

Chemistry 65 (18): 3591–3601.

Sarikurkcu, C., Sahinler, S.S., Ceylan, O. and Tepe, B. (2020). Onosma pulchra: phytochemical composition,

antioxidant, skin-whitening and anti-diabetic activity. Industrial Crops and Products 154, 112632.

Shen, X., Chen, W., Zheng, Y., Lei, X., Tang, M., Wang, H., and Song, F., (2017). Chemical composition,

antibacterial and antioxidant activities of hydrosols from different parts of Areca catechu L . and Cocos nucifera

L . Industrial Crops and Products, 96, 110–119.

Suchinina, T. V., Shestakova, T. S., Petrichenko, V. M. and Novikova, V. V. (2011). Solvent polarity effect on

the composition of biologically active substances, UV spectral characteristics, and antibacterial activity of

Euphrasia brevipila herb extracts. Pharmaceutical Chemistry Journal 44: 683–686.

Subramani, B. S., Shihari, S., Manu, B., Babunarayan, K. S., (2019). Evaluation of pyrolyzed areca husk as a

potential adsorbent for the removal. Journal of Environmental Management, 246, 345–354.

Wang, R., Pan, F., He, R., Kuang, F., Wang, L., and Lin, X., (2021). Arecanut (Areca catechu L.) seed extracts

extracted by conventional and eco-friendly solvents: Relation between phytochemical compositions and biological activities by multivariate analysis. Journal of Applied Research on Medicinal and Aromatic Plants 25

(100336): 1–12.

Yeo, Y. L., Chia, Y. Y., Lee, C. H., Sow, H. S., and Yap, W. S., (2014). Effectiveness of maceration periods with

different extraction solvents on in-vitro antimicrobial activity from fruit of Momordica. Journal of Applied

Pharmaceutical Science, 4(10), 16–23.

Zhang, W., Huang, W., Chen, W., Han, L., and Zhang, H., (2014). Optimization of extraction conditions of areca

seed polyphenols and evaluation of their antioxidant activities. Molecules, 16416–16427.

Zhang, W., Li, B., Han, L., and Zhang, H., (2009). Antioxidant activities of extracts from areca ( Areca catecthu

L .) flower , husk and seed. African Journal of Biotechnology, 8(16), 3887–3892.

Downloads

Published

2022-10-31

Issue

Vol. 10 No. 2 (2022): October 2022

Section

Archives

License

Copyright (c) 2022 Journal of Academia

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Most read articles by the same author(s)