Agricultural, livestock management, and industrial activities have the potential to cause high levels of contamination to the soil, surface water, and groundwater as a result of accidental or deliberate discharges of pollutants to the environment. In this study, we evaluated the contamination of groundwater by various forms of leached nitrogen (total N, ammonia, nitrate, and nitrite) arising from the application of poultry litter, swine waste, and mineral nitrogen (urea) to the soil. The study was conducted using a set of drainage lysimeters in the experimental area of UFSM, Frederico Westphalen Campus (RS), Brazil. In this study, the use of swine waste and urea as nitrogen sources shows high leaching of ammonia (N-NH 3 + ) and total nitrogen (total N) in drainage water in relation to the nitrogen supplied by poultry litter. Comparing the values of ammonia, nitrite,
Biotechnology is the branch of science that uses molecules, viruses, microorganisms, cells, animals, plants or part of them in technological processes to generate benefits for humans, to flora, fauna and the environment. In this context, enzymes are natural biocatalysts that present substrate specificity and extreme importance to vital processes, as they develop indispensable functions in biochemical reactions of cell metabolism, and can be used in biotechnological processes. Knowing the human needs, for a world population of about 7.7 billion people and the functional usefulness of enzymes, there is, on the one hand, a gigantic demand for the consumption of various products in the agricultural sector, processed and industrialized, such as: food, beverages, clothing in the textile sector, medicines, vaccines, cosmetics in the chemical-pharmaceutical sector, as well as in the production of paper and fuels, in which enzymes, mainly amylases, have been widely used in production processes. In this work, experiments were carried out with the wild Bacillus cereus bacterium to verify the production of amylases, the results obtained could demonstrate the formation of amylolysis halos around the colonies in Petri dishes containing Tryptic Soy Agar + starch (1%) medium, pH 7.3 and grown in a biological oven at 37oC for 24 hours, when revealed in iodine vapor; the Amylolysis Index (AI) was 3.3 and the efficiency of starch substrate degradation by amylases was greater than 90% in the evaluated treatments.
Biotechnology has been an essential tool in the search for solutions and in the optimization of bioprocesses associated with issues of human, plant, animal, energy and also the balance of ecosystems on planet Earth. The objective of this research was to present an unconventional substrate (cellulose), in abundance on the planet, to be used as a substitute source of carbon and energy for biotechnology processes, with the possibility of increasing industrial production of biomass and energy. As basis for the research, an extensive literature review and quantitative and qualitative analyzes were carried out. Genetic Engineering techniques were used to enable the yeast Saccharomyces cerevisiae for partial cellulose degradation, through the use of genetic transformation methods to insert a plasmid carrying the cellobiohydrolase cDNA. It was found that the recombinant and biologically active cellobiohydrolase protein was expressed and excreted in haploid and diploid laboratory yeast strains. The analyzes allowed the visualization of cellulolysis halos around colonies of recombinant strains grown in solid YPD medium with 1% microgranular cellulose. The recombinant clones derived from the haploid lineage yielded in average of 1.70 mg ART/mL, while recombinant clones derived from the diploid lineage produced in average of 2.05 mg ART/mL.
The sub-Saharan Africa region concentrates more than 90% of notifications of malaria infections. However, the disease is not concentrated only in the African continent, being endemic even in the Amazon region of Brazil. Thus, it is imperative that there are effective actions to mitigate and eradicate the disease. In this sense, a bibliometric analysis was carried out to address current facts related to the characterization of the parasite, vector control, disease diagnosis and treatment of patients. The results indicate that methods for vector control, although effective, are not available for the entire population of endemic countries and their effectiveness has been circumvented by the vector over time. Chemical treatments with antimalarials also suffer from acquired resistance by the pathogen. Furthermore, the most current therapy is the developed and tested anti-malarial vaccine, with results that proved to be viable in economic and public health terms. In view of the high number of deaths caused by malaria, especially in children living in areas of high contagion, the World Health Organization has started to recommend the use of this resource, which could save thousands of lives every year.
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