On the effect of initial drying techniques on essential oil composition, phenolic compound and antioxidant properties of anise (Pimpinella anisum L.) seeds

Bettaieb, Iness; Bourgou, Soumaya; Ben Kaab, Sofiene; Aidi Wannes, Wissem; Ksouri, Riadh; Saidini Tounsi, Moufida; Fauconnier, Marie-Laure

doi:10.1007/s11694-019-00284-4

Article (Scientific journals)

On the effect of initial drying techniques on essential oil composition, phenolic compound and antioxidant properties of anise (Pimpinella anisum L.) seeds

Bettaieb, Iness; Bourgou, Soumaya; Ben Kaab, Sofiene et al.

2020 • In Journal of Food Measurement and Characterization, 14 (1), p. 220-228

Peer Reviewed verified by ORBi

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https://hdl.handle.net/2268/240050

DOI
10.1007/s11694-019-00284-4

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Keywords :

Pimpinella anisum L.; Sun drying; Oven drying; Shade drying; Essential oil; Antioxidant

Abstract :

[en] The efect of drying methods (sun, oven and shade drying) on aniseeds was investigated in terms of their essential oils, phenolics and antioxidant activities. The optimum yield of essential oil was found in shade drying (2.62%). Fourteen volatile compounds were determined in all samples with variation of the main component proportions depending on drying methods. Thus, trans-anethole (84.21%) and estragole (3.82%) proportions signiicantly increased in shade drying. The highest total phenol and lavonoid contents of aniseeds were recorded in shade drying (42.70 mg of GAE/g and 53.55 mg of QE/g, respectively) while the lowest contents in oven drying at 60 °C (31.15 mg of GAE/g and 46.20 mg of QE/g, respectively). In all drying methods, naringin (41.04–43.76%), chloroginic acid (23.13–27.19%) and rosmarinic acid (12.26–15.95%) were the predominant phenol compounds. Although shade drying increased the antioxidant activity, aniseed extracts exhibited higher radical scavenging (IC50 = 10.15 μg/mL), reducing power (EC50 = 187.24 μg/mL) and chelating (IC50 = 6.85 mg/mL) capacities than essential oils (IC50 = 114.87 μg/mL, EC50 = 548.05 μg/mL and IC50 = 58.65 mg/mL, respectively). In conclusion, Shade drying method was found to enhance essential oils, phenols and antioxidant activities in aniseeds.

Disciplines :

Phytobiology (plant sciences, forestry, mycology...)

Author, co-author :

Bettaieb, Iness ; Université de Liège - ULiège > Agronomie, Bio-ingénierie et Chimie (AgroBioChem) > Chimie des agro-biosystèmes

Bourgou, Soumaya; Biotechnology Center of Borj-Cedria, Tunisia

Ben Kaab, Sofiene; Biotechnology Center of Borj-Cedria, Tunisia

Aidi Wannes, Wissem; Biotechnology Center of Borj-Cedria, Tunisia

Ksouri, Riadh; Biotechnology Center of Borj-Cedria, Tunisia

Saidini Tounsi, Moufida; Biotechnology Center of Borj-Cedria, Tunisia

Fauconnier, Marie-Laure ; Université de Liège - ULiège > Agronomie, Bio-ingénierie et Chimie (AgroBioChem) > Chimie des agro-biosystèmes

Language :

English

Title :

On the effect of initial drying techniques on essential oil composition, phenolic compound and antioxidant properties of anise (Pimpinella anisum L.) seeds

Publication date :

February 2020

Journal title :

Journal of Food Measurement and Characterization

ISSN :

2193-4126

eISSN :

2193-4134

Publisher :

Springer, New York, United States - New York

Volume :

Issue :

Pages :

220-228

Peer reviewed :

Peer Reviewed verified by ORBi

Additional URL :

https://link.springer.com/journal/11694/volumes-and-issues/14-1

Available on ORBi :

since 07 October 2019

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Bibliography

Diaz-Maroto, M.V., Sánchez Palomo, E., Castro, L., Viñas, G., Perez-Coello, M.S., (2004) J. Sci. Food Agric., 84, p. 2070. , COI: 1:CAS:528:DC%2BD2cXhtVejs7rJ
Zhang, L.L., Lv, S., Xuc, J.G., Zhang, L.F., (2018) Nat. Prod. Res., 32, p. 1184. , COI: 1:CAS:528:DC%2BC2sXmslejtL0%3D, PID: 28438032
Sellami, I.B., Wannes, W.A., Bettaieb, I., Berrima, S., Chahed, T., Marzouk, B., (2011) Food Chem., 126, p. 691. , COI: 1:CAS:528:DC%2BC3cXhs1SrurnF
Mirhossein, F., Rahimmalek, M., Pirbalouti, A.G., Taghipoor, M., (2015) J. Essent. Oil Res., 27, p. 204
Ayyobi, H., Gholam-Ali, P., Jamal-Ali, O., (2014) Ratar. Povrt., 51, p. 18
Śledź, M., Nowacka, M., Wiktor, A., Witrowa-Rajchert, D., (2013) Food Bioprod. Process, 91, p. 421
Garg, H.P., Prakash, J., (2000) Solar Energy Fundamentals and Applications, p. 434. , Tata McGraw-Hill Publishing Company Limited, New Delhi, India
Samojlik, I., Mijatović, V., Petković, S., Škrbić, B., Božin, B., (2012) Fitoterapia, 83, p. 1466. , COI: 1:CAS:528:DC%2BC38XhsFyjs7nL, PID: 22926042
Özel, A., (2009) Exp. Agric., 45, p. 117
Ullah, H., Honermeier, B., (2013) Ind. Crops Prod., 42, p. 489. , COI: 1:CAS:528:DC%2BC38Xht1entbvN
Tepe, A.S., Tepe, B., (2015) Ind. Crops Prod., 69, p. 153
Bettaieb Rebey, I., Bourgou, S., Aidi Wannes, W., Hamrouni Selami, I., Saidani Tounsi, M., Marzouk, B., Fauconnier, M.L., Ksouri, R., (2018) Plant Biosyst., 152, p. 971
Bettaieb Rebey, I., Aidi Wannes, W., Ben Kaab, S., Bourgou, S., Saidani Tounsi, M., Ksouri, R., Fauconnier, M.L., (2019) Sci. Hortic., 246, p. 453. , COI: 1:CAS:528:DC%2BC1cXitlGgt7nJ
Zaouali, Y., Ammar, S., Kechiche, N., Jay, J., Ben Aissia, H., (2010) Eur. Phys. J. Appl. Phys., 52, p. 11302
Dewanto, V., Wu, X., Adom, K.K., Liu, R.H., (2002) J. Agric. Food Chem., 50, p. 3010. , COI: 1:CAS:528:DC%2BD38XivVGns7c%3D, PID: 11982434
Hanato, T., Kagawa, H., Yasuhara, T., Okuda, T., (1998) Chem. Pharm. Bull., 36, p. 2090
Zhao, H., Dong, J., Lu, J., Chen, J., Li, Y., Shan, Y., Fan, W., Gu, G., (2006) J. Agric. Food Chem., 54, p. 277
Oyaizu, M., (1986) Jpn. J. Nutr. Diet., 44, p. 307. , COI: 1:CAS:528:DyaL2sXktlyiu7g%3D
Dehghani Mashkani, M.R., Larijani, K., Mehrafarin, A., Naghdi Badi, H., (2018) Ind. Crops Prod., 112, p. 389. , COI: 1:CAS:528:DC%2BC2sXitVelurjL
Ozdemir, N., Ozgen, Y., Kiralan, M., Bayrak, A., Arslan, N., Fawzy Ramadan, M., (2017) J. Food Meas. Charact., 12, p. 820
Hazrati, S., Farnia, P., Habibzadeh, F., Mollaei, S., (2018) J. Food Process. Preserv., 42
Guo, Y.R., An, Y.-M., Jia, Y.-X., Xu, J.G., (2018) JEOP, 21, p. 1
Pirbalouti, A.G., Salehi, S., Craker, L., (2017) J. Appl. Res. Med. Aromat. Plants, 4, p. 35
Saeidi, K., Zohre, G., Rostami Hudson, S., (2016) JEOP, 19, p. 391. , COI: 1:CAS:528:DC%2BC28Xlsleju78%3D
Castro, M.D., Ming, L.C., Marques, M.O.M., Machado, S.R., (2001) In Proceeding of the 5Th National Symposium New Crops and New Uses, p. 599. , Atlanta, USA
Sefidkon, F., Abbasi, K., Khaniki, G.B., (2006) Food Chem., 99, p. 19. , COI: 1:CAS:528:DC%2BD28XjslygsLY%3D
Özer, Z., Kiliç, T., Selvi, S., Pasa, C., (2018) TEOP, 21, p. 1403
(2000) Dritter Nachtrag, pp. 499-500. , 3rd, Council of Europe, Strasbourg
Acimovic, M., Tesevic, V., Todosijevic, M., Djisalov, J., Oljaca, S., (2015) Bot. Serb., 39, p. 9
Fitsiou, E., Mitropoulou, G., Spyridopoulou, K., Tiptiri-Kourpeti, A., Vamvakias, M., Bardouki, H., Panayiotidis, M., Chlichlia, K., (2016) Molecules, 21, p. 1069
Kosalec, I., Pepeljnjak, S., Kustrak, D., (2017) Acta Pharm., 55, p. 377
Miranda, M.A., Vega-Gálvez, J., López, G., Parada, M., Sanders, M., (2010) Ind. Crops Prod., 32, p. 258. , COI: 1:CAS:528:DC%2BC3cXht1ert7bJ
Hihat, S., Remini, H., Madani, K., (2017) Int. Food Res. J., 24, pp. 503-509. , COI: 1:CAS:528:DC%2BC1cXhvFGjsLfN
Tan, T.C., Cheng, L.H., Bhat, R., Rusul, G., Easa, A.M., (2015) Food Chem., 142, p. 121
Van-Hung, P., (2016) Crit. Rev. Food Sci. Nutr., 56, p. 25. , COI: 1:CAS:528:DC%2BC2MXhvFGksLbO, PID: 25075608
Multari, S., Pihlava, J.M., Ollennu-Chuasam, P., Hietaniemi, V., Yang, B., Suomela, J.P., (2018) J. Agric. Food Chem., 66, p. 2900. , COI: 1:CAS:528:DC%2BC1cXjtFyktLs%3D, PID: 29478323
Bettaieb, I., Hamrouni-Sellami, I., Bourgou, S., Limam, F., Marzouk, B., (2011) Acta Physiol. Plant., 33, p. 1103. , COI: 1:CAS:528:DC%2BC3MXhtlOntLfJ
Choi, Y., Lee, S.M., Chun, J., Lee, H.B., Lee, J., (2006) Food Chem., 99, p. 381. , COI: 1:CAS:528:DC%2BD28Xktlent7k%3D
Alam, M.A., Subhan, N., Rahman, M.M., Uddin, S.J., Reza, H.M., Sarker, S.D., (2014) Adv. Nutr., 5, p. 404. , COI: 1:CAS:528:DC%2BC2cXhslGqs7nN, PID: 25022990
Ebrahimabadi, A.H., Ebrahimabadi, E.H., Djafari-Bidgoli, Z., Kashi, F.J., Mazoochi, A., Batooli, H., (2010) Food Chem., 119, p. 452e458
Tomaino, A., Cimino, F., Zimbalatti, V., Venuti, V., Sulfaro, V., DePasquale, A., (2005) Food Chem., 89, p. 549. , COI: 1:CAS:528:DC%2BD2cXns1Cju7g%3D
Chong, K.L., Lim, Y.Y., (2012) J. Food Qual., 35, p. 51. , COI: 1:CAS:528:DC%2BC38XjtVKjsL8%3D