Garden egg (Solanum aethiopicum L.) is highly perishable. Shelf life of the crop can be extended via pickling. Therefore, this study focused to observe the pickled garden egg, in order to make it available in and out of season. Three samples were prepared, namely unpickled (control) garden egg (UPRGE); pickled garden egg in brine with sugar (PGESU); and pickled garden egg with salt (PGESA). Samples were pickled for seven days and evaluated for the nutritional, phytochemicals and sensory qualities using standard methods. On dry weight basis, moisture contents ranged from (1.11 to 1.12 %), protein ranged from (13.8 to 19.5 %), ash ranged from (12.7 to 18.0 %), fiber ranged from (8.5 to 15.8 %), fat ranged from (2.7 to 5.4 %) and the available carbohydrates ranged from (45.1 to 54.3 %). There was significance difference (p<0.05) in protein, ash, crude fiber, and carbohydrates. The mineral compositions were as follows: Potassium (183.0 to 183.7 mg/g), magnesium ranged from (162.3 to 194.5 mg/g), calcium ranged from (105.6 to 207.3 mg/g), copper ranged from (67.9 to 747.1 mg/g) and sodium ranged from (315.4 to 346.2 mg/g). Vitamin C ranged from (3.25 to 3.37 mg/g), saponin ranged from (10.74 to11.58 mg/g) and tannin (1.93 to 2.73 mg/g). Unpickled garden egg was scored higher in all of the sensory attributes. Conclusively, although pickling improves the nutritional composition of garden egg, and reduces the anti-nutritional content, the raw samples were preferred.

Agoreyo BO, Obansa ES, Obanor EO. 2012 Comparative nutritional and phytochemical analyses of two varieties of Solanum melongena. Science World Journal. 7(1):5-8.

Akinola SA, Osundahunsi OF. 2017. Lactic acid bacteria and yeast diversities in spontaneously fermented millet sourdoughs. Journal of Microbiology, Biotechnology and Food Sciences, 6(4), 1030–1035.

Aliyu HM. 2006. Proximate analysis of some leafy vegetables (Roselle, Jute and Bitter leaf). International Journal of Food Agricultural Resources, 3(1), 11-14.

Aluge OO, Akinola SA, Osundahunsi OF. 2016. Effect of malted sorghum on quality characteristics of wheat-sorghum-soybean flour for potential use in confectionaries. Food and Nutrition Sciences, 7(13), 1241–1252.

Anosika CA, Obido O, Ezeanyika LU. 2012. The anti-inflammatory activity of garden egg (Solanum aethiopicum) on egg albumin induced Oedema and granuloma tissue Formation in rats. Asian Pacific Journal of Tropics. 5:62-66.

AOAC, 2005. Official Methods of Analysis of the Association of Official Analytical Chemists. 14th (Edn.). Washington, DC.

Asibey-Berko E, Taiye FAK. 1999. Proximate analysis of some underutilized Ghanian Vegetables. Ghana Journal of Science. 39:91-92.

Auta R, Ali I. 2011. Nutritional and Chemical Evaluation of Solanum incanum (Bitter Garden egg). International Journal of Tropical Medicine and Public Health.1(1): 96-107.

Bergley JA. 2009. Characterization of African Eggplants species and origin. Journal of plant origin and distribution. 10(4):262-272.

Egbe JG, Lennox JA, Efiuvwevwere BO. 2017. Microbial dynamics during cucumber fermentation. Global Research Journal of Microbiology. 3(2):13-17.

Ekop AS, Eddy NO. 2005. Comparative studies of the level of toxicants in the seed of Indian Almond (Terminalia catappa) and African walnut (Coulaedulis). Chem. Class J. 2: 74 – 76.

Entani E, Asai M, Tsujihata S, Tsukamoto Y, Ohta M. 1998. Antibacterial action of vinegar against foodborne pathogenic bacteria including Escherichia coli O157:H7. Journal of Food Protection. 61(8): 953-959.

Evans TG, Chan F, Menge BA, Hofmann GE. 2013. Transcriptomic responses to ocean acidification in larval sea urchins from a naturally variable pH environment. Molecular Ecology, 22(6),1609–1625. https://doi.org/10.1111/mec.12188

Eze SO, Kanu CQ. 2014. Phytochemical and nutritive composition analysis of Solanum spp. L.J Pharmaceutical science innovation 3(4): 358-362.

Eze SO, Obinwa E. 2014. Phytochemical and Nutrient evaluation of the leaves and fruits of Naucer latifolia (uvury ilu). Communication in Applied Science. 2(1):8-24.

Fu L, Nie XD, Xie HL, Ferro MD. 2013. Rapid multi-element analysis of Chinese vinegar by sector field inductively coupled plasma mass spectrometry. European Food Research and Technology, 237, 795–800.

Ifon ET, Bassir O. (1980). The nutritive value of some Nigerian leafy green vegetables – part 2: The distribution of protein, carbohydrates (including ethanol-soluble simple sugars), crude fat, fibre and ash. Food Chem., 5: 231 – 235. 25.

Kolbe E, Kramer D. 2OO7. Planning for seafood freezing Alaska Sea Grant College Program Oregon State University. ISBN 1566121191. 19:1-5

Lee SY, Kang DH. 2004. Microbial Safety of Pickled Fruits and Vegetables and Hurdle Technology. Internet Journal of Food Safety 4: 21-32.

Makkar HP, Blummel M, Borowy NK,Becker K. 1993. Gravimetric determinations of tannins and their correlations with chemical and protein precipitation methods. Journal of Science Food Agric. 61: 161 – 165.

Medina E, de Castro A, Romero C, Ramırez EM, Brenes M. 2015. Safety of fermented fruits and vegetables. Regulating Safety of Traditional and Ethnic Foods 355–68.

Meilgaard MC, Carr TB, Civille GV. 1991. Sensory Evaluation Technique. (2nd Edn). CRC Press. Boca Raton. Florida.

Noda Y, Kneyuki T, Igarashi K, Mori A, Packer L. 2000. Antioxidant activity of nasunin, an anthocyanin in eggplant peels. Toxicology 148(2-3):119-123.

Offor CE, Igwe SU. 2015. Comparative analysis of the vitamin composition of two different species of garden egg (Solanum aethiopicum and Solanum macrocarpon), World Journal Medical Sciences, 12(3): 274-276.

Okafor N. 2007. Cucumbers (pickling): Modern Industrial Microbiology and Biotechnology. 353-354. Enfield, Science Publishers, University of Michigan.

Okorie SU, Okaka JC. 2017. Nutritional Evaluation of Germinated and Fermented all Legume Mixed Protein Diets in Rats. J Hum Nutr Food Sci 5(3): 1-8.

Pearson D. 1976. Chemical Analysis of foods (7th Ed) Churchill, Livingstone, London, pp. 218-336.

Paneque P, Morales ML, Burgos P, Ponce L, Callejón RM. 2016. Elemental characterisation of Andalusian wine vinegars with protected designation of origin by ICP-OES and chemometric approach. Food Control 75, 203–210.

Price KR, Johnson IT, Fenwick GR. 2006. The chemistry and biological significance of saponin in food and feedstuffs. Critical Review in Food Science and Nutrition 26, 27-135.

Ramli NS, Saadon NRM. 2021. Effects of Pickling steps on antioxidant activity of guava. Earth Environmental Science. 756: 1-6.

Reynolds AE. 1975. The mode of action of acetic acid on bacteria. Diss Abstr B. 35:4935-4936.

Saranya R1, Rajani V. 2017. Impact of Pickling on Carbohydrate, Protein and Tannin Content of Five Selected Fruits. International Journal of Engineering Trends and Technology. 52(1): 36-39.

Snowdon AL. 1990. A colour atlas of post-harvest diseases and disorders of fruits and vegetables. Volume 2: vegetables. Wolfe scientist Ltd, Barcelonia, Spain. 12-15.

SPSS Inc. IBM SPSS Statistic 20.0. Chicago, IL, USA; 2011

Swain MR, Anandharaj M, Ramesh Chandra R, Rizwana PR. 2014. Fermented Fruits and Vegetables of Asia: A Potential Source of Probiotics. Hindawi Publishing Corporation Biotechnology Research International. 1-19.

Walker GM. 1994. The Roles of Magnesium in Biotechnology, Critical Reviews in Biotechnology, 14:4, 311-354.

Yadav KA, Singh SV. 2014. Osmotic dehydration of fruits and vegetables: a review. J Food Sci Technol. 51(9):1654–1673.

Yoshimura M, Takahashi H, Nakanishi T. 1991. Role of sodium, potassium, calcium, and magnesium on blood pressure regulation and antihypertensive dietary therapy. Japanese J. Nutr., 49: 53-62