The present study aimed for the extraction of color dyes from different sources, such as Brassica oleracea, Brassica campestris, Citrus limon, Citrus limetta, Tagetes erecta, Spinacea oleracea, Beta vulgaris, Rosa indica and Curcuma longa. The leftovers of such plants were mainly used for color dye extraction and their confirmation using spectrophotometric analysis. The specific color pigments like carotenoids, anthocyanin, chlorophyll and betanin were found to be the main coloring agents that impart specific color to the samples. Among all these samples, the maximum yield was obtained from C. limetta aqueous peel extract, and among all the temperatures employed room temperature was found out to be the most suitable temperature for the stability of color extracts. The extracted colors were utilized in candy making and sugar syrup making and were also used for coloring various foods stuffs. Moreover, the extracted color dyes were applied for dyeing purposes on cotton cloth with alum showing better and more enhancing color fastness results than the lime.
The recent research was directed to explore the phytochemical, antimicrobial and antioxidant activity of Hydrodictyon reticulatum L. The samples were then identified morphologically and anatomically. By using different solvents algal extracts were prepared. The phytochemical activity of algal samples were performed to determine the presence or absence of alkaloids, steroids, tannin, triterpenoids, saponin, terpenoids, quinine, coumarins, phlobatannins, phytosteroids and flavonoids. Two bacterial strains S. aureus and E. coli were used to determine the antibacterial activity of algal extracts. The greatest activity was appeared by the methanolic extract against the fungal strain S. aureus i.e. 12.5±0.088 mm, while the aqueous extract showed the maximum anti-bacterial activity that was 12.2±0.058 mm beside E. coli. These findings were relatively equivalent to the results of standard Amkasin that was normally used as antibiotic in the market. The results of antifungal movement was indicated greatest having the solvent (CH3)2CO separate i.e. 1.8±0.058 mm against A. niger. While methanol extricate indicated 2.35±0.058 mm against the strain F. solani. DPPH rummaging activity, TAA and TPC were performed to determine the action of reticulatum. In the event of DPPH the most extreme IC50 recorded was from the chloroform extricate. While in TPC methanol extricate indicated most extreme esteem 67.14±0.54 mm and in TAA ethanol showed greatest esteem i.e. 0.88±0.01 µg/L. These results demonstrated that the Hydrodictyon reticulatum had phytochemical, cancer prevention agent and antimicrobial potential and suggested for pharmaceutical use.
Introduction For sample collection, four sites were selected, sites where fresh water were present, that is, Ravi syphon, BRB Lahore, Shahdara, and Head Baloki. The latitude and altitude of the locations were recorded at the time of collection. Results A total of 21 species of algae belonging to eight genera and four families were examined in the current studies. The collected samples were mainly filamentous and they were primarily green in color as the photosynthetic pigment found to be dominated was Chlorophyll. It was observed that all the genera varied mainly on the basis of cell shape, size, number of pyramids and on the arrangement of cells. The site mainly selected was those where fresh water was mainly found and at the time of collection latitude and altitude was also recorded. Conclusions The classical microscopic technique (Light Microscopy) and Modern microscopic technique (Staining Electron Microscopy) of some samples were done that, played a lively part in the correct identification of species as a slight difference was found among species that were only evident when the Modern microscopic technique was done.
For optimization of cultural conditions for algal biomass production of two local filamentous freshwater algae, namely Hydrodictyon reticulatum, and Spirogyra communis were cultured. Among all these tested media, H. reticulattum gave maximum biomass (18.6 g/l) in Bristol medium whereas, S. communis gave the biomass of 10.5 g/l in Bristol soil media. Then the effect of different carbon sources (lactose, glucose, cellulose and starch) supplement in Bristol media was evaluated for biomass production. Among all the sources cellulose at 1 g/l was found to be significant for optimal mass production of (15.81 g/l) and (18.6 g/l) of S. communis and H. reticulatum, respectively. Both the algal species gave insignificant results in all other carbon sources. The effect of different nitrogen sources (ammonium nitrate, ammonium sulphate, ammonium chloride, potassium nitrate and urea) was tested for biomass production. Urea at 0.1 g/l was found to be best (20.7 g/1000 ml) for optimal growth of H. reticulatum as compared to (16.86 g/1000 ml) of S. communis. However, cellulose as carbon source and urea as nitrogen source were optimized for significant growth of both the algal species. The comparison between the growth rates of both specimens was evaluated. Both the species gave maximum growth up to 15 days of incubation and then the growth started decreasing gradually. It is indicated that the volumetric growth of H. reticulatum is significant in the selected media as compared to S. communis.
A b s t r a c t A r t i c l e I n f oThe present study is concerned with the selection of organism and optimization of culture media for algal biomass production. Samples of different species of algae were collected and identified from different areas of Lahore. The rate of growth of these algal species was compared in A-Z medium. It was found that the rate of biomass production of all the species was increased with increase in time. However, Spirogyra exhibited maximum production of algal biomass in 15 days of incubation. Different culture media, including A-Z media, Bristol's media and Bristol's soil media were employed for mass production. Among them, Bristol's soil media was found the best media, as it supplied maximum production of algal biomass (10.5g/L). Moreover, the production of biomass was reached optimum after 14 days of incubation in Bristol's soil media.
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