Animal Performance in Pastures of \u3ci\u3ePanicum maximum\u3c/i\u3e cv. IPR 86 Fertilized with Nitrogen

The experiment was carried out at the Experimental Station of the IAPAR in Paranavaí– PR, Brazil, from October 1998 to May 1999 to evaluate the response of crossbred steers grazing pastures of Panicum maximum cv. IPR 86 fertilized with four doses of N (0; 150; 300 and 450 kg.ha-1.year). The grass was grazed according to a rotational grazing system with grazing cycles (GCs) of 40 days (grazing period of 5 days and rest period of 35 days). It was used a randomized complete block design, with split-plots, and two replications per treatment, being the N-doses studied in the main plots and the GCs in the sub-plots. The availability of green leaf-blades increased with the increase of N-doses, resulting in 4.09; 8.18; 11.18; and 13.92 steers.ha-1.day-1 and daily LWG of 2.73; 5.25; 7.40; and 9.24 kg.ha-1 when the pastures were fertilized with 0; 150; 300 and 450 kg N.ha-1, respectively. The efficiency of N-utilization was 3.35; 3.11; and 2.89 kg LWG kg.N-1 when the pastures were fertilized with 150; 300; and 450 kg N.ha-1, respectively

Effects of Nitrogen Fertilization on the Production of \u3ci\u3ePanicum maximum\u3c/i\u3e cv. IPR 86 under Grazing

The experiment was conducted at the Experimental Station of Paranavaí/IAPAR-PR-Brazil, from October 1998 to May 1999, to evaluate the effects of N fertilization on Panicum maximum cv. IPR 86 pastures. Four doses of N (0; 150; 300; and 450 kg.ha-1.year-1) were applied to pastures under rotational grazing with grazing cycles (GCs) of 40 days (5 days-grazing and 35 days-rest). It was used a randomized complete block design, with split-plots, and two replications per treatment, being the N-doses studied in the main plots and the GCs in the sub-plots. In all GCs the variables dry matter of available green leaf-blades (GLB) and dry matter of stems + leaf sheaths (GSLS) increased linearly (P\u3c 0.01) with the increase in N-doses during a grazing period of 200 days. The average residual GLB and GSLS were 335; 730; 825; and 837, and 104; 1024; 1817; and 2763 kg.ha-1, respectively for the N-treatments of 0; 150; 300; and 400 kg.ha-1

A methodology to obtain accurate potential energy Functions for diatomic systems: mathematical point of view

The mathematics used in physical chemistry has changed greatly in the past forty years and it will certainly continue to change more quickly. Theoretical chemists and physicists must have an acquaintance with abstract mathematics if they are to keep up with their field, as the mathematical language in which it is expressed changes. Thinking about it, in this article, we want to show some of the most important concepts of Mathematical Analysis involved in obtaining analytical functions to represent the potential energy interaction for diatomic systems. A basic guide for the construction of a potential based on Dunham's coefficients and an example of a new potential obtained from this methodology is also presented

Massa de forragem e características morfológicas de gramíneas do gênero Brachiaria na região do Arenito Caiuá/PR

Na região Noroeste do Paraná, assim como em boa parte do Brasil, as espécies forrageiras mais utilizadas são as gramíneas do gênero Brachiaria, com destaque para a Brachiaria brizantha cv. Marandu. Contudo, existem novas cultivares que precisam ser avaliadas. O objetivo deste estudo foi avaliar a massa de forragem, características morfológicas e alturas de manejo (95% interceptação luminosa do dossel) de cinco cultivares de Brachiaria brizantha (Marandu, Xaraés, Piatã, Paiaguás e MG-4) e a Brachiaria híbrida Convert HD 364. Utilizou-se delineamento inteiramente casualizado, com seis tratamentos e quatro repetições. Foram avaliados a altura e interceptação luminosa do dossel, massa de forragem e composição morfológica das plantas. As cultivares Xaraés, Paiaguás e MG-4 destacaram-se pela maior massa de forragem total e de folhas, particularmente na época seca, e são boas alternativas para a cultivar Marandu. . A altura do dossel forrageiro de entrada preconizada para as cultivares Marandu e Piatã está em torno de 25 cm, para Xaraés e MG- 30 cm, Paiaguás 34 cm, e Convert 23 cm

A methodology to obtain accurate potential energy Functions for diatomic systems: mathematical point of view

The mathematics used in physical chemistry has changed greatly in the past forty years and it will certainly continue to change more quickly. Theoretical chemists and physicists must have an acquaintance with abstract mathematics if they are to keep up with their field, as the mathematical language in which it is expressed changes. Thinking about it, in this article, we want to show some of the most important concepts of Mathematical Analysis involved in obtaining analytical functions to represent the potential energy interaction for diatomic systems. A basic guide for the construction of a potential based on Dunham's coefficients and an example of a new potential obtained from this methodology is also presented

Advances in silver nanoparticles: a comprehensive review on their potential as antimicrobial agents and their mechanisms of action elucidated by proteomics

Nanoparticles play a crucial role in the field of nanotechnology, offering different properties due to their surface area attributed to their small size. Among them, silver nanoparticles (AgNPs) have attracted significant attention due to their antimicrobial properties, with applications that date back from ancient medicinal practices to contemporary commercial products containing ions or silver nanoparticles. AgNPs possess broad-spectrum biocidal potential against bacteria, fungi, viruses, and Mycobacterium, in addition to exhibiting synergistic effects when combined with certain antibiotics. The mechanisms underlying its antimicrobial action include the generation of oxygen-reactive species, damage to DNA, rupture of bacterial cell membranes and inhibition of protein synthesis. Recent studies have highlighted the effectiveness of AgNPs against various clinically relevant bacterial strains through their potential to combat antibiotic-resistant pathogens. This review investigates the proteomic mechanisms by which AgNPs exert their antimicrobial effects, with a special focus on their activity against planktonic bacteria and in biofilms. Furthermore, it discusses the biomedical applications of AgNPs and their potential non-preparation of antibiotic formulations, also addressing the issue of resistance to antibiotics