Nutritional and microbiological qualities of pumpkin (Cucurbita pepo) seed composite flours
DOI:
https://doi.org/10.30574/gscbps.2020.12.3.0222Keywords:
Pumpkin (Cucurbita pepo) seed, Proximate, Mineral, Peroxide, MicrobialAbstract
The nutritional and microbiological qualities of pumpkin (Cucurbita pepo) seed composite flours were studied using standard nutrient assessment and microbiological methods. Proximate and nutrient content analysis showed that pumpkin (Cucurbita pepo) seed flour (PSF) had low moisture (6.48 ±0.72%) and starch content (19.75 ±2.47%) with high ash (5.92 ±0.81%), fat (33.12 ±2.20%), fibre (7.24 ±0.64%) and protein (27.05 ±2.01%) contents over wheat flour (WF1). Mineral and peroxide values were high in pumpkin seed flour (PSF) than wheat flour (WF1). The blended flours (CF1-CF6) recorded higher mineral (mg/100 g) and peroxide (meg/kg) contents than wheat flour (WF1) - the control; with CF6 (60% pumpkin) having the highest values (Ca-95.40±1.63, K-688.40±2.91, Fe-6.76±0.05, Zn-10.61±1.06 and peroxide - 3.24±0.02). Bacterial and fungal counts (CFU/g) of blended flours ranged from 2.83x103 ±0.09- 3.15x103 ±0.52 and 3.59x102 ±1.81- 3.92x102 ±1.12 respectively. WF1 flour recorded the highest bacterial and fungal counts while CF6 recorded the least bacterial and fungal counts. Four (4) bacterial and three (3) fungal isolates were identified to include Bacillus species, Pseudomonas aeruginosa, Staphylococcus aureus, Escherichia coli, and Penicillium species, Mucor species, Aspergillus species respectively. Due to the high nutritional contents and reduced microbial counts of the blends, inclusion of pumpkin seed flour in supplemented products should be encouraged so as to enhance nutritional requirements and eradicate malnutrition among individuals especially infants and children.
Metrics
References
Younis YMH, Ghirmy S and Al-Shihry SS. (2000). African Cucurbita pepo L: Properties of seed and variability in fatty acid composition of seed oil. Phytochemistry, 54, 71-75.
El-Adawy TA. (2001). Characteristics and composition of watermelon, pumpkin, and paprika seed oils and flours. Journal of Agricultural and Food Chemistry, 49, 1253– 1259.
Mohamed IO. (2003). In vitro bioavailability of minerals in selected tropical fruits and vegetables. M. Sc. Thesis, University of Khartoum, Sudan.
Chung KH, Shin KO, Hwang HJ and Choi KS. (2013). Chemical composition of nuts and seeds sold in Korea. Nutrition Resource Practice, 7, 82-88.
Sicilia T, Niemeyer HB, Honig DM and Metzler M. (2003). Identification and stereochemical characterization of lignans in flaxseed and pumpkin seeds. Journal of Agricultural and Food Chemistry, 51, 1181–1188.
Ike CC, Emeka-Ike PC, Nwokorie CC and Anochie CC. (2015). Microbiological quality evaluation of locally prepared snacks sold in Aba metropolis, Abia State, Nigeria. International Journal of Scientific Engineering and Applied Science (IJSEAS), 1(7), 46-59.
Idouraine A, Khan MJ, Kohlhepp EA, Weber CW, Warid WA andMalrinez- Tollez JI. (1996). Nutrient constituents from light lines of naked squash (Cucurbita pepo L.). Journal of Agriculture and Food Chemistry, 44(3), 721-724.
Nkosi CZ, Opoku AR and Terblanche SE. (2006). Antioxidative effects of pumpkin seed (Cucurbitapepo) protein isolate in CCL4 induced liver injury in low protein fed rats. PhytotherapyReserach, 20, 935-40.
Dhiman. (2009). African Cucurbitapepo. Properties of seed and variability in fatty acid composition of seed oil. Journal of Phytochemistry, 54(1), 71-75.
Ike CC and Emeka-Ike PC. (2016). Bacteriological Quality of Processed African Oil Bean Seed (Pentaclethra macrophylla) sold in Umulolo and Ihube Communities in Okigwe, Imo State, Nigeria. International Journal of Scientific Engineering and Applied Science (IJSEAS), 2(5), 126-136.
Ptitchkina NM, Novokreschonova LV, Piskunova GV and Morris ER. (1998). Large enhancements in loaf volume and organoleptic acceptability of wheat bread by small additions of pumpkin powder: Possible role of acetylated pectin in stabilizing gas-cell structure. Food Hydrocolloids, 12, 333-337.
Gajigo O and Lukoma A. (2011). Infrastructure and agricultural productivity in Africa: Market brief, AFDB (African Development Fund).
Barkema A. (1993). Reaching consumers in the twenty first century: The short way around the barn. American Journal Agricultural Economics, 75(5), 1126-1131.
AOAC. (2012). Official methods of analysis, Association of official analytical chemist 19th edition, Washington D.C., USA.
Onwuka GI. (2018). Food Analysis and Instrumentation: Theory and Practice. 2ndEdition. Naphthali Prints. Surulere, Lagos Nigeria, 146-161.
Cappucino GJR and Sherman B. (2010). Microbiology: A Laboratory Manual, 9th Edition. The Benjamin Publishing Company. California.
Boone DR, Castenholz RW, Garrity GM, Brenner DJ, Krieg NR and Staley JR (Eds.). (2005). Bergey's Manual of Systematic Bacteriology. Second Edition. New York: Springer Verlag.
Kidd S, Halliday C, Alexiou H and Ellis D. (2016). Description of Medical Fungi. 3rd Edition. Newstlye Printing. Adelaide, South Australia 5031, Australia, 23-170.
Ocheme OB, Adedeji OE, Chinma CE, Yakubu CM and Ajibo UH. (2018). Proximate composition, functional, and pasting properties of wheat and groundnut protein concentrate flour blends. Food Science and Nutrition, 6, 1173–1178.
Hamed SY, El-Hassan NM, Hassan AB, Eltayed MM and Babikar EE. (2008). Nutritional evaluation and physiochemical properties of processed pumpkin (Telfairia occidentalis Hook) seed flour. Pakistan Journal of Nutrition, 7, 330-34.
Abd El-Ghany MA, Dalia AH and Soha MS. (2010). Biological study on the effect of pumpkin seeds and zinc on reproductive potential of male rats. Proceedings of 5th Arab and 2nd International Annual Scientific Conference, 2384-2404.
Kim MY, Kim EJ, Kim YN, Choi C and Lee BH. (2012). Comparison of the chemical compositions and nutritive values of various pumpkin (Cucurbitaceae) species and parts. Nutrution Research and Practice, 6, 21-27.
Elinge CM, Muhammad A, Atiku FA, Itodu AU, Peni IJ, Sanni OM and Mbongo AN. (2012). Proximate, mineral and anti-nutrient composition of pumpkin (Cucurbita pepo L) seeds extract. International Journal of Plant Research, 2(5), 146-150.
Milovanovic MM, Demin MA, Vucelic-Radovic BV, Žarkovic BM and Stikic RI. (2014). Evaluation of the nutritional quality of wheat bread Prepared with quinoa, buckwheat and pumpkin seed blends. Journal of Agricultural Sciences, 59(3), 319-328.
Manpreet K. (2017). Development and nutritional evaluation of pumpkin seed (Cucurbita moschata) supplemented products. Unpublished M.Sc. Thesis, Department of Food and Nutrition, College of Home Science, Punjab Agricultural University, Ludhiana-141004, 1-89.
Wongsagonsup R, Kittisuban P, Yaowalak A and Suphantharika M. (2015). Physical and sensory qualities of composite wheat-pumpkin flour bread with addition of hydrocolloids. International Food Research Journal, 22(2), 745-752.
Iwe MO, Onyeukwu U and Agiriga AN. (2016). Proximate, functional and pasting properties of FARO 44 rice, African yam bean and brown cowpea seeds composite flour. Cogent Food and Agriculture,2, 1-10.
El-Adawy TA and Taha KM. (2001), Characteristics and composition of watermelon, pumpkin and paprika seed oils and flours. Journal of Agriculture, Food and Chemistry, 49, 1253-1259.
Noor-Aziah AA and Komathi CA. (2009). Physicochemical and functional properties of peeled and unpeeled pumpkin flour. Journal of Food Science, 74, S328-S333.
Omotoso OT. (2006). Nutritional quality, functional properties and antinutrients compositions of the larva of Cirinaforda (Westwood) (Lepidoptera satuniidae). Journal of Zhejiang University of Science, 7, 51-55.
Gibney MJ. (1989). Nutrition diet and health. New York, NY, Cambridge University Press. 168.
Emeka-Ike PC. (2020). Potentials of wheat and pumpkin (cucurbita pepo) seed composite flours in cake making. Unpublished M.Sc. Thesis, Department of Food and Technology, Faculty of Engineering, Imo State University, Owerri, 1-124.
Gernah DI, Ariahu CC and Ingbian EK. (2011). Effects of malting and lactic fermentation on some chemical and functional properties of maize. The American Journal of Food Technology, 6, 404–412.
Araujo RGO, Pimentel MF, Macedo SM, Bruns RE, Korn M, da GA and Ferreira SLC. (2008). Mineral composition of wheat flour consumed in Brazilian cities. Journal of Brazilian Chemical Society, 19(5), 935-942.
Farzana C, Deshpande B and Begum MJ. (2003). Nutritional components of wheat products. Indian Journal Nutrution and Dietetics, 40,141- 46.
Manpreet K and Sonika S. (2018). Development and nutritional evaluation of cake supplemented with pumpkin seed flour. Asian Journal of Dairy and Food Research, 37(3), 232-236.
Fawzi WW and Hunter DJ. (1998). Vitamins in HIV disease progression and vertical transmission. Epidemiology, 9, 457-466.
Gibson RS. (2003). Inadequate Intakes of Zinc in developing countries – Practical household strategies to reduce risk of deficiency, Zinc and Human Health.
Latunde-Dada OG. (2000). Women and sustainable approaches to the management of iron deficiency. Food and Nutrition Bulletin, 21, 277-278.
Adeel R, Sohail A and Masud T. (2014). Characterization and antibacterial study of pumpkin seed oil. Life Science Leaflets, 49, 53-64.
Jay MJ, Loessner MJ and Golden DA. (2005). Modern Food Microbiology, Seventh Edition. Springer Publishers, USA, 39-60.
Barber L, Ibiama EA and Achinewhu SC. (1989). Technical note: Microorganisms associated with fermented fluted pumpkin seeds (Telferia occidentalis). International Journal of Food Science and Technology, 24, 189-193.
Emeka-Ike PC, Ike CC, Nwokorie CC and Ogwuegbu HO. (2019). Food safety processing and evaluation of powdered pap from maize and malted maize with carrot. Elixir International Journal - Elixir Food Science,132, 53452-53457.
Downloads
Published
How to Cite
Issue
Section
License
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.