In Senegal, artisanal vegetable oils trade is developing and Balanites aegyptiaca (desert date) as well as Sesamum indicum (sesame) are popular vegetal species. Present study focused on oils obtained from these two plants seeds. These oils have various applications such as for dietary and cosmetic purposes. Sampling carried out in Dakar region allowed collection of five oil samples for each specie, mainly in different districts shops or craft fairs. Their peroxide, acid, iodine and saponification values as well as volatile matter, tocopherols and vitamin A contents have been determined through reference methods described by International Organization for Standardization (ISO) or French Standardization Association (AFNOR). Obtained experimental data were compared with Codex Alimentarius standard and/or literature, since some parameters are not subject to specific regulation. Balanites aegyptiaca and Sesamum indicum oil samples showed an orange-yellow or pale yellow coloration. Only one desert date oil sample had an adequate peroxide value while two from sesame were not compliant. Iodine values for B. aegyptiaca samples were closed to a result previously described by peer researchers for an oil produced from seeds harvested in Senegal but out of Codex specification range for sesame oils. All ten samples had a suitable acidity, widely below maximum value of 4.0 mg KOH/g. Two sesame oil samples had correct saponification value. Among ten oil samples collected, eight showed a volatile matter content exceeding standard. Vitamin A had not been detected in any sample. Desert date oils tocopherols content were comprised between 975.38 and 1141.36 mg/kg and S. indicum samples met the standard indicating a tocopherols level in the range [330 - 1010 mg/kg]. Present study results are not all conclusive and reinforce reservations about commercially available artisanal oils quality. However, literature review allows to state that oils physico-chemical properties and nutrient content vary greatly.
| Published in | Science Journal of Analytical Chemistry (Volume 10, Issue 1) |
| DOI | 10.11648/j.sjac.20221001.11 |
| Page(s) | 1-7 |
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Balanites aegyptiaca, Sesamum indicum, Oil, Quality, Physico-chemical Parameters, Vitamins
| [1] | Hafer, E., Holzgrabe, U., Wiedemann, S., Adams, K. M., & Diehl, B. (2020). NMR spectroscopy: determination of peroxide value in vegetable and krill oil by using triphenylphosphine as tagging reagent. European Journal of Lipid Science and Technology, 122 (5), 1900442. DOI: 10.1002/ejlt.201900442. |
| [2] | Clara, M. P. F., Veronezi, C. M., & Jorge, N. (2020). Evaluation of quality of chia (Salvia hispanica), Sesame (Sesamum indicum), and quinoa (Chenopodium quinoa) oils ». Brazilian Archives of Biology and Technology, 63, e20190351. DOI: 10.1590/1678-4324-2020190351. |
| [3] | Diop, A., Sarr, S. O., Ndao, S., Cissé, M., Baldé, M., Ndiaye, B., & Diop, Y. M. (2014). Effect of deep-fat frying on chemical properties of edible vegetable oils used by senegalese households. African Journal of Food, Agriculture, Nutrition and Development, 14 (66), 9418-9438. DOI: 10.18697/ajfand.66.13315. |
| [4] | Chothani, D., & Vaghasiya, H. (2011). A review on Balanites aegyptiaca Del (desert date): phytochemical constituents, traditional uses, and pharmacological activity. Pharmacognosy Reviews, 5 (9), 55-62. DOI: 10.4103/0973-7847.79100. |
| [5] | Abdelaziz, S. M., Lemine, F. M. M., Tfeil, H. O., Filali-Maltouf, A., & Boukhary, A. O. M. S. (2020). Phytochemicals, antioxidant activity and ethnobotanical uses of Balanites aegyptiaca (L.) Del. fruits from the arid zone of Mauritania, northwest Africa. Plants, 9 (3), 401. DOI: 10.3390/plants9030401. |
| [6] | Aremu, M. O., Andrew, C., Oko, O. J., Odoh, R., Ambo, I. A., & Hikon, B. N. (2021). Nutrient, antinutrient and sugar contents in desert date (Balanites aegyptiaca (L.) Del) seed and pulp ». International Journal of Sciences, 10 (7), 12-21. DOI: 10.18483/ijSci.2484. |
| [7] | Diedhiou, D., Faye, M., Candy, L., Vandenbossche, V., Vilarem, V., Sock, O., & Rigal, L. (2021). Composition and balance of the analytical fractionation of desert date (Balanites aegyptiaca L.) seeds harvested in Senegal. African Journal of Biotechnology, 20 (4), 150-158. DOI: 10.5897/AJB2021.17327. |
| [8] | Elbadawi, S. M. A., Ahmad, E. E. M., Mariod, A. A., & Mathäus, B. (2017). Effects of thermal processing on physicochemical properties and oxidative stability of Balanites aegyptiaca kernels and extracted oil. Grasas y Aceites, 68 (1), e184. DOI: 10.3989/gya.1048162. |
| [9] | Ogala, H., Elinge, C. M., Wawata, I. G., Adegoke, A. I., Muhammad, A. B., & Ige, A. R. (2018). Extraction and physicochemical analysis of desert date (Balanites Aegyptiaca) seed oil. International Journal of Advanced Academic Research, 4 (4), 1-12. |
| [10] | Mokhtar, M. M., Li, J., Du, Z., & Cheng, F. (2021). Insecticidal efficacy and chemical composition of Balanites aegyptiaca (L.) Delile seed oils against Tribolium castaneum Herbst (Coleoptera: Tenebrionidae) ». Chilean Journal of Agricultural Research, 81 (1), 102-108. DOI: 10.4067/S0718-58392021000100102. |
| [11] | Murthy, H. N., Yadav, G. G., Dewir, Y. H., & Ibrahim, A. (2020). Phytochemicals and biological activity of desert date (Balanites aegyptiaca (L.) Delile). Plants, 10 (1), 32. DOI: 10.3390/plants10010032. |
| [12] | Crews, C., Hough, P., Brereton, P., Godward, J., Lees, M., Guiet, S. & Winkelmann, W. (2006). Quantitation of the main constituents of some authentic sesame seed oils of different origin. Journal of Agricultural and Food Chemistry, 54 (17), 6266-6270. DOI: 10.1021/jf0603578. |
| [13] | Shin, B. R., Song, H.-W., Lee, J.-G., Yoon, H.-J., Chung, M.-S., & Kim, Y.-S. (2016). Comparison of the contents of benzo (a)pyrene, sesamol and sesamolin, and volatiles in sesame oils according to origins of sesame seeds. Applied Biological Chemistry, 59 (1), 129-141. DOI: 10.1007/s13765-015-0138-3. |
| [14] | Espitia Cubillos, A. A., Delgado-Tobón, A. E., & Chaparro, W. A. A. (2019). Comparative study of the thermal properties of sesame oil and two mineral oils of different viscosity. INGE CUC, 15 (2), 99-109. DOI: 10.17981/ingecuc.15.2.2019.10. |
| [15] | De Almeida Vittori Gouveia, L., Zago, L., & Moreira, A. S. B. (2017). Physical-chemical characterization and nutritional quality of sesame oil (Sesamum indicum L.). Journal of Nutritional Health & Food Science, 5 (3), 1-7. DOI: 10.15226/jnhfs.2017.00100. |
| [16] | Hadeel, S. Y., Khalida, S. A., & Walsh, M. (2020). Antioxidant activity of sesame seed lignans in sunflower and flaxseed oils. Food Research, 4 (3), 612-622. DOI: 10.26656/fr.2017.4 (3). 331. |
| [17] | Yi, J. Y., Kim, H. J., & Chung, M.-S. (2017). Manufacture of low-benzo (a)pyrene sesame seed (Sesamum indicum L.) oil using a self-designed apparatus. PLOS ONE, 12 (3), e0173585. DOI: 10.1371/journal.pone.0173585. |
| [18] | Carvalho, R. H. R., Galvão, E. L., Barros, J. Â. C., Conceição, M. M., & Sousa, E. M. B. D. (2012). Extraction, fatty acid profile and antioxidant activity of sesame extract (Sesamum indicum L.). Brazilian Journal of Chemical Engineering, 29 (2), 409-420. DOI: 10.1590/S0104-66322012000200020. |
| [19] | Pang, M., Cao, L., Zheng, D., Lei, Z., Ge, Y., Cheng, J., Jiang, S. & Cao, L. (2020). Simultaneous detection of lignans and tocopherols in sesame oil by reversed-phase high-performance liquid chromatography. Preprints. DOI: 10.22541/au.159242090.06956031. |
| [20] | Morris, J. B., Wang, M. L. & Tonnis, B. D. (2021). Variability for oil, protein, lignan, tocopherol, and fatty acid concentrations in eight sesame (Sesamum indicum L.) genotypes. Industrial Crops and Products. 164, 113355. DOI: 10.1016/j.indcrop.2021.113355. |
| [21] | International Organization for Standardization (ISO). (2007). ISO 3960:2007. Animal and vegetable fats and oils - Determination of peroxide value - Iodometric (visual) endpoint determination. |
| [22] | International Organization for Standardization (ISO). (2013). ISO 3961: 2013. Animal and vegetable fats and oils - Determination of iodine value. |
| [23] | International Organization for Standardization (ISO). (2009). ISO 660: 2009. Animal and vegetable fats and oils - Determination of acid value and acidity. |
| [24] | International Organization for Standardization (ISO). (2013). ISO 3657: 2013. Animal and vegetable fats and oils - Determination of saponification value. |
| [25] | International Organization for Standardization (ISO). (2016). ISO 662: 2016. Animal and vegetable fats and oils - Determination of moisture and volatile matter content. |
| [26] | French Standardization Association (AFNOR). (2014). NF EN 12823-1: 2014. Foodstuffs - Determination of vitamin A by high performance liquid chromatography. |
| [27] | Park, H., Mun, S., & Kim, Y.-R. (2019). UV and storage stability of retinol contained in oil-in-water nanoemulsions. Food Chemistry, 272, 404-410. DOI: 10.1016/j.foodchem.2018.08.076. |
| [28] | International Organization for Standardization (ISO). (2006). ISO 9936:2006. Animal and vegetable fats and oils - Determination of tocopherol and tocotrienol contents by high-performance liquid chromatography. |
| [29] | Okia, C. A., Kwetegyeka, J., Okiror, P., Kimondo, J. M., Teklehaimanot, Z. & Obua, J. (2013). Physico-chemical characteristics and fatty acid profile of desert date kernel oil. African Crop Science Journal, 21 (s3). 723-734. |
| [30] | Purnamayati, L., Sumardianto, Romadhon, & Dewi, E. N. (2019). Physical blending characteristic of fish oil and sesame oil. IOP Conference Series: Earth and Environmental Science, 246, 012054. DOI: 10.1088/1755-1315/246/1/012054. |
| [31] | Talbot, G. (2016). The stability and shelf life of fats and oils. In The Stability and Shelf Life of Food, Elsevier, 461-503. DOI: 10.1016/B978-0-08-100435-7.00016-2. |
| [32] | Mariod, A. A., Mirghani, M. E. S., & Hussein, I. (2017). Chapter 28 - Vangueria madagascariensis (Rubiaceae) as new oil source. In Unconventional Oilseeds and Oil Sources, Academic Press, 167-180. DOI: 10.1016/B978-0-12-809435-8.00028-7. |
| [33] | Barrera-Arellano, D., Badan-Ribeiro, A. P., & Serna-Saldivar, S. O. (2019). Corn oil: composition, processing, and utilization. In Corn, Elsevier, 593-613. DOI: 10.1016/B978-0-12-811971-6.00021-8. |
| [34] | Da Silva Oliveira, W., Neves, D. A., & Ballus, C. A. (2019). Mature chemical analysis methods for food chemical properties evaluation. In Evaluation Technologies for Food Quality, Elsevier, 63-90. DOI: 10.1016/B978-0-12-814217-2.00005-6. |
| [35] | Onu, P., & Mbohwa, C. (2021). New approach and prospects of agrowaste resources conversion for energy systems performance and development. In Agricultural Waste Diversity and Sustainability Issues, Elsevier, 97-118. DOI: 10.1016/B978-0-323-85402-3.00007-3. |
| [36] | Barret, R. (2018). Importance and evaluation of lipophilicity. In Therapeutical Chemistry, Elsevier, 53-78. DOI: 10.1016/B978-1-78548-288-5.50003-2. |
| [37] | Thangarasu, V., & Anand, R. (2019). Comparative evaluation of corrosion behavior of Aegle Marmelos Correa diesel, biodiesel, and their blends on aluminum and mild steel metals. In Advanced Biofuels, Elsevier, 443-471. DOI: 10.1016/B978-0-08-102791-2.00017-9. |
| [38] | CODEX. (1999). CODEX STAN 210-1999. Standard for named vegetable oils. |
| [39] | Cuvelier, M.-E., & Maillard, M.-N. (2012). Stabilité des huiles alimentaires au cours de leur stockage. Oilseeds and fats, Crops and Lipids, 19 (2), 125-132. DOI: 10.1051/ocl.2012.0440. |
| [40] | Ali, A. E., Mohammed, B., Ali, H. A. A. M., Malik, I. O. M., Ali, M. A. e. M., & Hamadnalla, H. M. (2021). Biochemical properties and nutritional value of Balanites aegyptiaca (Laloub) seed oil. Insights in Chemistry and Biochemistry, 2 (1), 1-4. DOI: 10.33552/ICBC.2021.02.000527. |
| [41] | Takahashi, N., Saito, D., Hasegawa, S., Yamasaki, M., & Imai, M. (2021). Vitamin A in health care: Suppression of growth and induction of differentiation in cancer cells by vitamin A and its derivatives and their mechanisms of action. Pharmacology & Therapeutics, In Press, 107942. DOI: 10.1016/j.pharmthera.2021.107942. |
| [42] | Honarbakhsh, M., Ericsson, A., Zhong, G., Isoherranen, N., Zhu, C., Bromberg, Y., Van Buiten, C., Malta, K., Joseph, L., Sampath, H., Lackey, A. I., Storch, J., Vetriani, C., Chikindas, M. L., Breslin, P., & Quadro, L. (2021). Impact of vitamin A transport and storage on intestinal retinoid homeostasis and functions. Journal of Lipid Research, 62, 100046. DOI: 10.1016/j.jlr.2021.100046. |
| [43] | Malloy, M. J., & Kane, J. P. (2015). Lipoprotein disorders. In Rosenberg’s Molecular and Genetic Basis of Neurological and Psychiatric Disease, Elsevier, 577-588. DOI: 10.1016/B978-0-12-410529-4.00051-6. |
| [44] | Chew, S. C., & Nyam, K. L. (2020). Refining of edible oils. In Lipids and Edible Oils, Elsevier, 213-241. DOI: 10.1016/B978-0-12-817105-9.00006-9. |
| [45] | Melo, D., Álvarez-Ortí, M., Nunes, M. A., Costa, A. S. G., Machado, S., Alves, R. C., Pardo, J. E., & Oliveira, M. B. P. P. (2021). Whole or defatted sesame seeds (Sesamum indicum L.)? The effect of cold pressing on oil and cake quality. Foods, 10 (9), 2-15. DOI: 10.3390/foods10092108. |
| [46] | Hajimahmoodi, M., Oveisi, M. R., Sadeghi, N., Jannat, B., Bahaeddin, Z., & Mansoori, S. (2008). Gamma tocopherol content of Iranian sesame seeds. Iranian Journal of Pharmaceutical Research, 7 (2), 135-139. |
| [47] | Rangkadilok, N., Pholphana, N., Mahidol, C., Wongyai, W., Saengsooksree, K., Nookabkaew, S., & Satayavivad J. (2010). Variation of sesamin, sesamolin and tocopherols in sesame (Sesamum indicum L.) seeds and oil products in Thailand ». Food Chemistry, 122 (3), 724-730. DOI: 10.1016/j.foodchem.2010.03.044. |
APA Style
Rokhaya Gueye, Aminata Diaw, Astou Ndiaye, Elhadji Ousmane Faye, Amadou Diop, et al. (2022). Assessment of Balanites aegyptiaca and Sesamum indicum Artisanal Oils Quality and Vitamin Contents. Science Journal of Analytical Chemistry, 10(1), 1-7. https://doi.org/10.11648/j.sjac.20221001.11
ACS Style
Rokhaya Gueye; Aminata Diaw; Astou Ndiaye; Elhadji Ousmane Faye; Amadou Diop, et al. Assessment of Balanites aegyptiaca and Sesamum indicum Artisanal Oils Quality and Vitamin Contents. Sci. J. Anal. Chem. 2022, 10(1), 1-7. doi: 10.11648/j.sjac.20221001.11
AMA Style
Rokhaya Gueye, Aminata Diaw, Astou Ndiaye, Elhadji Ousmane Faye, Amadou Diop, et al. Assessment of Balanites aegyptiaca and Sesamum indicum Artisanal Oils Quality and Vitamin Contents. Sci J Anal Chem. 2022;10(1):1-7. doi: 10.11648/j.sjac.20221001.11
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Download@article{10.11648/j.sjac.20221001.11,
author = {Rokhaya Gueye and Aminata Diaw and Astou Ndiaye and Elhadji Ousmane Faye and Amadou Diop and Khadidiatou Thiam and Serigne Omar Sarr and Bara Ndiaye and Yérim Mbagnick Diop},
title = {Assessment of Balanites aegyptiaca and Sesamum indicum Artisanal Oils Quality and Vitamin Contents},
journal = {Science Journal of Analytical Chemistry},
volume = {10},
number = {1},
pages = {1-7},
doi = {10.11648/j.sjac.20221001.11},
url = {https://doi.org/10.11648/j.sjac.20221001.11},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.sjac.20221001.11},
abstract = {In Senegal, artisanal vegetable oils trade is developing and Balanites aegyptiaca (desert date) as well as Sesamum indicum (sesame) are popular vegetal species. Present study focused on oils obtained from these two plants seeds. These oils have various applications such as for dietary and cosmetic purposes. Sampling carried out in Dakar region allowed collection of five oil samples for each specie, mainly in different districts shops or craft fairs. Their peroxide, acid, iodine and saponification values as well as volatile matter, tocopherols and vitamin A contents have been determined through reference methods described by International Organization for Standardization (ISO) or French Standardization Association (AFNOR). Obtained experimental data were compared with Codex Alimentarius standard and/or literature, since some parameters are not subject to specific regulation. Balanites aegyptiaca and Sesamum indicum oil samples showed an orange-yellow or pale yellow coloration. Only one desert date oil sample had an adequate peroxide value while two from sesame were not compliant. Iodine values for B. aegyptiaca samples were closed to a result previously described by peer researchers for an oil produced from seeds harvested in Senegal but out of Codex specification range for sesame oils. All ten samples had a suitable acidity, widely below maximum value of 4.0 mg KOH/g. Two sesame oil samples had correct saponification value. Among ten oil samples collected, eight showed a volatile matter content exceeding standard. Vitamin A had not been detected in any sample. Desert date oils tocopherols content were comprised between 975.38 and 1141.36 mg/kg and S. indicum samples met the standard indicating a tocopherols level in the range [330 - 1010 mg/kg]. Present study results are not all conclusive and reinforce reservations about commercially available artisanal oils quality. However, literature review allows to state that oils physico-chemical properties and nutrient content vary greatly.},
year = {2022}
}
TY - JOUR T1 - Assessment of Balanites aegyptiaca and Sesamum indicum Artisanal Oils Quality and Vitamin Contents AU - Rokhaya Gueye AU - Aminata Diaw AU - Astou Ndiaye AU - Elhadji Ousmane Faye AU - Amadou Diop AU - Khadidiatou Thiam AU - Serigne Omar Sarr AU - Bara Ndiaye AU - Yérim Mbagnick Diop Y1 - 2022/03/04 PY - 2022 N1 - https://doi.org/10.11648/j.sjac.20221001.11 DO - 10.11648/j.sjac.20221001.11 T2 - Science Journal of Analytical Chemistry JF - Science Journal of Analytical Chemistry JO - Science Journal of Analytical Chemistry SP - 1 EP - 7 PB - Science Publishing Group SN - 2376-8053 UR - https://doi.org/10.11648/j.sjac.20221001.11 AB - In Senegal, artisanal vegetable oils trade is developing and Balanites aegyptiaca (desert date) as well as Sesamum indicum (sesame) are popular vegetal species. Present study focused on oils obtained from these two plants seeds. These oils have various applications such as for dietary and cosmetic purposes. Sampling carried out in Dakar region allowed collection of five oil samples for each specie, mainly in different districts shops or craft fairs. Their peroxide, acid, iodine and saponification values as well as volatile matter, tocopherols and vitamin A contents have been determined through reference methods described by International Organization for Standardization (ISO) or French Standardization Association (AFNOR). Obtained experimental data were compared with Codex Alimentarius standard and/or literature, since some parameters are not subject to specific regulation. Balanites aegyptiaca and Sesamum indicum oil samples showed an orange-yellow or pale yellow coloration. Only one desert date oil sample had an adequate peroxide value while two from sesame were not compliant. Iodine values for B. aegyptiaca samples were closed to a result previously described by peer researchers for an oil produced from seeds harvested in Senegal but out of Codex specification range for sesame oils. All ten samples had a suitable acidity, widely below maximum value of 4.0 mg KOH/g. Two sesame oil samples had correct saponification value. Among ten oil samples collected, eight showed a volatile matter content exceeding standard. Vitamin A had not been detected in any sample. Desert date oils tocopherols content were comprised between 975.38 and 1141.36 mg/kg and S. indicum samples met the standard indicating a tocopherols level in the range [330 - 1010 mg/kg]. Present study results are not all conclusive and reinforce reservations about commercially available artisanal oils quality. However, literature review allows to state that oils physico-chemical properties and nutrient content vary greatly. VL - 10 IS - 1 ER -
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