Effect of processing on the nutritional composition of Chia and Quinoa seeds

Authors

  • Somyarki Upadhya Department of Food Science, Nutrition and Technology, College of Community Science Chaudhary Sarwan Kumar Himachal Pradesh Krishi Vishvavidyalaya, Palampur.-176 062
  • Ranjana Verma Department of Food Science, Nutrition and Technology, College of Community Science Chaudhary Sarwan Kumar Himachal Pradesh Krishi Vishvavidyalaya, Palampur.-176 062
  • Nilakshi Chauhan Department of Food Science, Nutrition and Technology, College of Community Science Chaudhary Sarwan Kumar Himachal Pradesh Krishi Vishvavidyalaya, Palampur.-176 062

Keywords:

chia seeds, quinoa seeds, processed, proximate analysis, minerals.

Abstract

The nutritional value of minor crops seeds varies widely depending on the type of crop and variety of seeds. Generally, these seeds are a good source of dietary fibre, protein, vitamins, minerals, and healthy fats. In recent times, chia seeds and quinoa seeds gained popularity due to high nutritional profile. They are a good source of fibre, protein, as well as containing many beneficial minerals such as calcium, iron, magnesium, and phosphorus. In this study analysis of nutritional composition of raw and processed chia and quinoa seeds has been carried out. The proximate analysis evident the germinated chia showed significant increase in crude fibre (32.15%) and protein (18.15%) content. Quinoa during roasting showed significant increase in crude fat (7.69%) and protein (11.94%) content. It is inferred from the results that pre-treatment help in enhancing the nutritional profile of chia and quinoa seeds. While unprocessed seeds of quinoa showed the maximum content of mineral as compared to the processed seeds.

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Published

2023-12-27

How to Cite

Upadhya, S., Verma, R., & Chauhan, N. (2023). Effect of processing on the nutritional composition of Chia and Quinoa seeds. Himachal Journal of Agricultural Research, 49(2), 227–231. Retrieved from https://hjar.org/index.php/hjar/article/view/172490

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Section

Full Length Papers

References

Agume ASN, Njintang NY, and Mbofung CMF. 2017. Effect of soaking and roasting on the physicochemical and pasting properties of soybean flour. Foods 6 (2): 12.

Ahmed M, Ting IP, and Scora RW. 1994. Leaf oil composition of Salvia hispanica L. from three geographical areas. Journal of Essential Oil Research 6 (3): 223-228.

Alvarez-Jubete L, Arendt EK and Gallagher E. 2009. Nutritive value and chemical composition of pseudocereals as gluten-free ingredients. International Journal of Food Sciences and Nutrition 60 (10):240-257.

AOAC. 2010. Official method of analysis. 16th Edition. Association of official analytical chemists. Washington. DC.USA Limited, May 2010:154-170.

Benincasa P, Falcinelli B, Lutts S, Stagnari F, and Galieni A. 2019. Sprouted grains: A comprehensive review. Nutrients 11 (2): 421.

Brady K, Ho CT, Rosen RT, Sang S and Karwe MV. 2007. Effects of processing on the nutraceutical profile of quinoa. Food Chemistry 100: 1209–1216.

Gao C, Wang F, and Yuan L. 2019. Review on the changes of active substances, anti- nutritional factors and antioxidation activity of soybean during germination. Journal of Nuclear Agriculture 33 (5): 962-968.

Gomez-Favela MA, Gutiérrez-Dorado R, Cuevas- Rodríguez EO, Canizalez-Román V A, del Rosario León-Sicairos C, Milán-Carrillo J, and Reyes-Moreno C. 2017. Improvement of chia seeds with antioxidant activity, GABA, essential amino acids, and dietary fibre by controlled germination bioprocess. Plant foods for human nutrition 72 (4): 345-352.

Haripriya A and Aparna NV. 2018. Effect of roasting on selected nutrient profile and functional properties of chia seeds (Salvia hispanica) and optimization of chia seed based instant soup mix. International Journal of Food Science Nutrition 3: 200-206.

Hatamian M, Noshad M, Abdanan-Mehdizadeh S, and Barzegar H. 2020. Effect of roasting treatment on functional and antioxidant properties of chia seed flours. NFS Journal 21: 1-8.

Inyang CU, and Zakari UM. 2008. Effect of germination and fermentation of pearl millet on proximate, chemical and sensory properties of instant¯Fura -a Nigerian cereal food. Pakistan Journal of Nutrition 7 (1): 9-12.

Kylen AM and Mccready RM. 1975. Nutrients in seeds and sprouts of alfalfa, lentils, mung beans and soybeans. Mariod AA, Ahmed SY, Abdelwahab SI, Cheng SF, Eltom AM, Yagoub SO and Gouk SW. 2012. Effects of roasting and boiling on the chemical composition, amino acids and oil stability of safflower seeds. International journal of Food Science & Technology 47:1737-1743.

Mayer AM and Poljakoff-Mayber A. 1982. The Germination of Seeds: Pergamon International Library of Science, Technology, Engineering and Social Studies. Elsevier.

Mostafa MM, Rahma E H and Rady AH. 1987. Chemical and nutrtional changes in soybean during germination. Food Chemistry 23 (4): 257-275.

Nicoli MC, Anese M and Parpinel M. 1999. Influence of processing on the antioxidant properties of fruit and vegetables. Trends in Food Science and Technology 10: 94–100.

Ranganna S. 2007. Handbook of analysis and quality control for fruit and vegetable products. Tata McGraw Hills Publishing Co. Ltd. New Delhi.518-520.

Jinting LU, Cheng, Jiang hua, Yayuan, Chen, Qian, Kun and Zhang 2023. Effects of germination on nutritional quality of soybean. Food Science and Technology 43 (8):8323.

Ullah R, Nadeem M, Khalique A, Imran M, Mehmood S, Javid A and Hussain J. 2016. Nutritional and therapeutic perspectives of Chia (Salvia hispanica L.): a review. Journal of Food Science and Technology 53(4): 1750- 1758.

Valencia RC, RA Encina, CR Binaghi, MJ Greco, CB and Ronayne de Ferrer PA. 2010. Effects of roasting and boiling of quinoa, kiwicha and kañiwa on composition and availability of minerals in vitro. Journal of the Science of Food and Agriculture 90(12): 2068-2073.

Valencia-Chamorro SA. 2003. Quinoa In: Caballero B.: Encyclopedia of Food Science and Nutrition. Vol. 8. Academic Press, Amsterdam: 4895–4902.

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