Minerals and phytochemical analysis of watermelon seeds (Citrullus Lanatus) Department:Chemistry By: Expresshubpub Project ID: 2560 Rating: (3.0) votes: 22 Price:₦3000 Get the Complete MaterialAbstractPlants contain chemical constituents such as alkaloid, carbohydrate, steroid, terpenoid, saponin, cardiac glycoside, flavonoid, tannin, phenolic, waxes, essential oils, amino acids proteins etc. The presence or absence of some of these constituents has been found useful in the placement of plants in the taxonomic categories. Watermelon seed was studied for the presence or absence of these phytochemicals. Phytochemical screening of the ethanol extract of the seeds revealed that the seeds contain Alkaloid, Saponin, Flavonoid, Cardiac glycoside, Carbohydrate, Steroid, Terpenoid, Tannin, Phenolic, and Anthraquinone some were detected and some were not detected in the watermelon seed chaff and while some were detected and some were not detected in the watermelon seed powder. The proximate composition of watermelon seed was carried out these sample seeds were obtained from discards of plants and prepared for use by decocting, drying and grinding into powder. Using ethanol, their moisture content was extracted, the ash content, crude protein, crude fat, crude fibre, carbohydrate (CHO), energy value as well as the mineral contents were determined from the digested sample of the grinded watermelon seeds. This was used in determining the seeds chemical properties using Flame photometer, colorimeter and AAS (Atomic Absorption Spectrophotometer). The minerals determined are K, Na, Ca, Mg, P. Their composition in mg/kg are, for chaff (0.12 ±0.00, 0.58± 0.00, 1.92± 0.00, 1.22± 0.00 and 0.31± 0.00) and while for powder (0.47± 0.00, 0.43± 0.00, 2.37± 0.00, 1.47± 0.00, and 0.19± 0.00) respectively. The Mn content of the seed is below the detectable limit of the method used in determining them. ...Preview Download Preview +Other Chemistry project topics and materials you might be interested in»Minerals and phytochemical analysis of watermelon seeds (Citrullus Lanatus)»Production of hair growth oil and body lotion from Pumpkin and Pawpaw seed oil»Kinectic study and heavy metals removals from used engine oil treated with groundnut shells»Synthesis and exploration of ion nanoparticles using costus after flower extract as a reducing agent»Characteristics of humic substances from strongly acidic soil remediated and restored using humin enhanced biodegradable waste materials»Ethanol production from cocoyam peels»Characteristics of humic substances from strongly acidic soil remediated and restored using CNB-TECH end product»Comparative study of physico-chemical properties and essential mineral of some fruit juice orange and tomato»Biodiesel production using soybean oil and characterization»Extraction and characterization of avocado seed oil»Analysis of the quality of groundwater (boreholes)»Spectroscopic and phytochemical evaluation of methanolic extract of mahogany tree gum for possible biosynthetic process»Production of biolubricant from Carica Papaya seed oil»Phytochemical and proximate analysis of Combretum Zenkeri Ubi»Biosynthesis of bark peel of aerial yam-magnesium oxide nano composites for biosensing application