Abstract: Regardless of the convenience of plentiful miscellaneous collection of synthetic products and high-throughput tactics for their biological testing, natural compounds twig at a major source for antimicrobial drug development. These compounds are exclusively treasured as they have endured natural assortment over time. In this study we concentrated on Ethnobotanical efficacy of Indian medicinal plants like Ocimum sanctum, Phyllanthus emblica and Bryophyllum pinnatum for defence against bacterial human pathogen salmonella paratyphi A and salmonella paratyphi B. Phytochemical screening of these plants was executed for constituents like alkaloids, flavonoids, tannins, steroids, glycosides, carbohydrates and aminoacids. The ethanol extract of these plants exhibited good activity against the human pathogens by agar well diffusion assay method and the MIC was recorded. Average mean zone of inhibition found by these plants ranged between 4 mm to 29 mm and 4 mm to 27 mm respectively for salmonella paratyphi A and salmonella paratyphi B. These results accomplish the antimicrobial potential of the medicinal plants and hence convey upkeep for the use of them in traditional medicine.Abstract: Regardless of the convenience of plentiful miscellaneous collection of synthetic products and high-throughput tactics for their biological testing, natural compounds twig at a major source for antimicrobial drug development. These compounds are exclusively treasured as they have endured natural assortment over time. In this study we concentrated on...Show More
Abstract: Water contamination was a serious problem throughout the world. Various technologically advanced treatment methodologies for example activated sludge process, membrane bioreactor, trickling filter, rotating biological contractor and oxidation ditch are widely studied well documented and adopted in practice. However, attention to promising low-investment-cost technologies such as slow biological waste water treatments after preliminary/primary treatment techniques was quite effective water treatment technology. It is also efficient in removing coli form microorganisms such as Cryptosporidium, E. coli and bacteriophage from wastewater. Apart from reduction of pathogenic load which is ascribed to the biological processes. This way of technology adopted the methodology taking the sample in the field of water surface two parts in sampling pond water in the surface pond water and inner parts also handling two different glass bottles. Then in analysis their analysis the sample subjected to physiochemical analysis then again the sample subjected to serial dilution to identify the microbe’s spp in the water sample (surface and deepest) part of pond water surface part of sample more microbes familiar conducted in this experiment. Then by using those identified microbes dosing this is done using 10-6 and 10-5 by prepared nutrient agar (3.25 gram with 250 ml of distilled water). Then take 1% (0.5), 3% (1.5) and 5% (2.5) by volume of broth added into waste water of 49.5 ml, 48.5 ml and 47.5 ml respectively. This means that for 50 ml of conical flask as the colonies of culture increase the probability of waste water to be clear was too been high so 47.5 with 5% (2.5) combined form of broth high potent of cleaned.Abstract: Water contamination was a serious problem throughout the world. Various technologically advanced treatment methodologies for example activated sludge process, membrane bioreactor, trickling filter, rotating biological contractor and oxidation ditch are widely studied well documented and adopted in practice. However, attention to promising low-inves...Show More
