Circulação de cromo entre os compartimentos biótico e abiótico com indícios de bioindicação em uma turfeira não alterada no município de Guaíba, RS, Brasil

Amostras de sedimento, água e tecido vegetal (Mimosa bimucronata e Paspalum notatum)foram analisadas com respeito a seu conteúdo em cromo. Estas amostras foram coletadas de umaturfeira numa baixada entre elevações graníticas na Fazenda São Maximiniano, município de Guaíba,RS, Brasil. Os resultados indicam que em um meio sem contaminação antrópica do metal propostoas concentrações do metal pesado estão totalmente dependentes da fonte para este, ou seja, arocha granítica. O presente trabalho permitiu estabelecer os níveis naturais de cromo (background)em um ambiente geologicamente conhecido e não alterado antropicamente, assim como o comportamentogeoquímico deste metal entre os compartimentos abióticos e biótico. Foi possívelestabelecer, também, o comportamento de absorção do metal por duas espécies vegetais tidascomo bioindicadoras.Samples of sediment, water and vegetational tissue (Mimosa bimucronata and Paspalumnotatum) were analised with respect of its chromium content. These samples were collected from apeatland located in a basin among granitic elevations in the São Maximiniano Farm, Guaíba municipality,Rio Grande do Sul, Brazil. The results indicate that in a non antropic contaminated environment by theproposed heavy metal, the concentration are totally source dependent for it, the granitic rocks. Thiswork led us to establish the natural levels of chromium (background) in a geologically well known andnon antropically changed environment, as well as geochemical behavior of this metal among theabiotics and biotic compartments. It was also possible to establish the biosorption behavior of the twovegetal species, known as bioindicators

Eficiência agronômica de fosfato natural reativo na cultura da soja.

O objetivo deste trabalho foi avaliar a eficiência agronômica relativa de uma fonte de fósforo na cultura de soja [Glycine max (L.) Merrill.]. O superfosfato triplo foi a fonte-padrão, e o fosfato natural reativo Arad foi a fonte testada, ambos aplicados em diferentes doses, em área total ou no sulco de semeadura. Em outubro de 2004, o experimento foi instalado em Balsas, MA, em Latossolo Vermelho-Amarelo distrófico, textura argilosa e baixa disponibilidade de fósforo, conduzido com soja cultivar BRS Sambaíba por três safras (2004/2005 a 2006/2007); a terceira safra foi conduzida sob efeito residual das aplicações anteriores. De forma geral, não foram observadas diferenças quanto à localização da fonte-padrão, ao passo que a localização do fosfato natural reativo Arad reduziu significativamente a eficiência. Quando aplicado a lanço, nos dois primeiros cultivos, o fosfato natural reativo Arad resultou em aproximadamente 76% de eficiência agronômica relativa, o que demonstra média viabilidade agronômica. Sob efeito residual, a aplicação localizada do superfosfato triplo resultou em resposta semelhante à verificada com a aplicação anual desta fonte, entretanto, o aumento na eficiência agronômica relativa foi mais acentuado, quando ambas as fontes foram aplicadas a lanço

Overcoming hesitancy to submit manuscripts for peer review

Publishing completed research is essential for knowledge dissemination and career advancement, yet many academics experience submission anxiety. Reasons include fear of rejection, imposter syndrome, and perfectionism. This commentary reviews drivers of submission hesitancy and outlines evidence-based strategies to empower manuscript submission. Consequences of delays are detrimental for individual productivity and scientific progress. Indicators of unhelpful rumination during endless revisions include excessive time re-reviewing background literature or endlessly analyzing data. Plagiarism angst can also stall submission. Strategies to promote manuscript submission include setting readiness checklists and timeline goals, seeking mentor perspectives on drafts, forming peer writing groups for accountability, understanding text reuse conventions, viewing peer input as collaborative, and reframing rejection as an expected part of review. While incentives must be reformed, mindset shifts can initiate positive norms amid existing pressures. Scientists have a responsibility to disseminate timely research and can implement techniques to do so

Phosphorus placement for annual crops in the tropics.

This article discusses principles for optimizing the placement of P in soils of the tropics?looking towards better agronomic, economic, environmental, and social outcomes. General guidelines are offered for short and long-term sustainability

Single Atom Dynamics in Chemical Reactions

Many heterogeneous chemical reactions involve gases catalyzed over solid surfaces at elevated temperatures and play a critical role in the production of energy, healthcare, pollution control, industrial products, and food. These catalytic reactions take place at the atomic level, with active structures forming under reaction conditions. A fundamental understanding of catalysis at the single atom resolution is therefore a major advance in a rational framework upon which future catalytic processes can be built. Visualization and analysis of gas-catalyst chemical reactions at the atomic level under controlled reaction conditions are key to understanding the catalyst structural evolution and atomic scale reaction mechanisms crucial to the performance and the development of improved catalysts and chemical processes. Increasingly, dynamic single atoms and atom clusters are believed to lead to enhanced catalyst performance, but despite considerable efforts, reaction mechanisms at the single atom level under reaction conditions of gas and temperature are not well understood. The development of the atomic lattice resolution environmental transmission electron microscope (ETEM) by the authors is widely used to visualize gas–solid catalyst reactions at this atomic level. It has recently been advanced to the environmental scanning TEM (ESTEM) with single atom resolution and full analytical capabilities. The ESTEM employs high-angle annular dark-field imaging where intensity is approximately proportional to the square of the atomic number (Z). In this Account, we highlight the ESTEM development also introduced by the authors for real time in situ studies to reliably discern metal atoms on lighter supports in gas and high temperature environments, evolving oxide/metal interfaces, and atomic level reaction mechanisms in heterogeneous catalysts more generally and informatively, with utilizing the wider body of literature. The highlights include platinum/carbon systems of interest in fuel cells to meet energy demands and reduce environmental pollution, in reduction/oxidation (redox) mechanisms of copper and nickel nanoparticles extensively employed in catalysis, electronics, and sensors, and in the activation of supported cobalt catalysts in Fischer–Tropsch (FT) synthesis to produce fuels. By following the dynamic reduction process at operating temperature, we investigate Pt atom migrations from irregular nanoparticles in a carbon supported platinum catalyst and the resulting faceting. We outline the factors that govern the mechanism involved, with the discovery of single atom interactions which indicate that a primary role of the nanoparticles is to act as reservoirs of low coordination atoms and clusters. This has important implications in supported nanoparticle catalysis and nanoparticle science. In copper and nickel systems, we track the oxidation front at the atomic level as it proceeds across a nanoparticle, by directly monitoring Z-contrast changes with time and temperature. Regeneration of deactivated catalysts is key to prolong catalyst life. We discuss and review analyses of dynamic redox cycles for the redispersion of nickel nanoparticles with single atom resolution. In the FT process, pretreatment of practical cobalt/silica catalysts reveals higher low-coordination Co0 active sites for CO adsorption. Collectively, the ESTEM findings generate structural insights into catalyst dynamics important in the development of efficient catalysts and processes

Rheophysics of dense granular materials : Discrete simulation of plane shear flows

We study the steady plane shear flow of a dense assembly of frictional, inelastic disks using discrete simulation and prescribing the pressure and the shear rate. We show that, in the limit of rigid grains, the shear state is determined by a single dimensionless number, called inertial number I, which describes the ratio of inertial to pressure forces. Small values of I correspond to the quasi-static regime of soil mechanics, while large values of I correspond to the collisional regime of the kinetic theory. Those shear states are homogeneous, and become intermittent in the quasi-static regime. When I increases in the intermediate regime, we measure an approximately linear decrease of the solid fraction from the maximum packing value, and an approximately linear increase of the effective friction coefficient from the static internal friction value. From those dilatancy and friction laws, we deduce the constitutive law for dense granular flows, with a plastic Coulomb term and a viscous Bagnold term. We also show that the relative velocity fluctuations follow a scaling law as a function of I. The mechanical characteristics of the grains (restitution, friction and elasticity) have a very small influence in this intermediate regime. Then, we explain how the friction law is related to the angular distribution of contact forces, and why the local frictional forces have a small contribution to the macroscopic friction. At the end, as an example of heterogeneous stress distribution, we describe the shear localization when gravity is added.Comment: 24 pages, 19 figure

Carrier-envelope phase dependent high-order harmonic generation with a high-repetition rate OPCPA-system

We study high-order harmonic generation with a high-repetition rate (200 kHz), few-cycle, driving laser, based on optical parametric chirped pulse amplification. The system delivers carrier-envelope phase stable, 8 fs, 10 μJ pulses at a central wavelength of 890 nm. High-order harmonics, generated in a high-pressure Ar gas jet, exhibit a strong CEP-dependence over a large spectral range owing to excellent stability of the driving laser pulses. This range can be divided into three spectral regions with distinct CEP influence. The observed spectral interference structures are explained by an analytical model based upon multiple pulse interferences.Marie Curie Research Training Network ATTOFELEuropean Research CouncilKnut and Alice Wallenberg foundationSwedish Foundation for Strategic ResearchSwedish Research Counci

Rapid Intradermal Delivery of Liquid Formulations Using a Hollow Microstructured Array

Purpose The purpose of this work is to demonstrate rapid intradermal delivery of up to 1.5 mL of formulation using a hollow microneedle delivery device designed for self-application. Methods 3M’s hollow Microstructured Transdermal System (hMTS) was applied to domestic swine to demonstrate delivery of a variety of formulations including small molecule salts and proteins. Blood samples were collected after delivery and analyzed via HPLC or ELISA to provide a PK profile for the delivered drug. Site evaluations were conducted post delivery to determine skin tolerability. Results Up to 1.5 mL of formulation was infused into swine at a max rate of approximately 0.25 mL/min. A red blotch, the size of the hMTS array, was observed immediately after patch removal, but had faded so as to be almost indistinguishable 10 min post-patch removal. One-mL deliveries of commercial formulations of naloxone hydrochloride and human growth hormone and a formulation of equine anti-tetanus toxin were completed in swine. With few notable differences, the resulting PK profiles were similar to those achieved following subcutaneous injection of these formulations. Conclusions 3M’s hMTS can provide rapid, intradermal delivery of 300–1,500 µL of liquid formulations of small molecules salts and proteins, compounds not typically compatible with passive transdermal delivery. KEY WORDS transdermal drug delivery. microneedles. intradermal. hollow microstructures. MT

Prophage Spontaneous Activation Promotes DNA Release Enhancing Biofilm Formation in Streptococcus pneumoniae

Streptococcus pneumoniae (pneumococcus) is able to form biofilms in vivo and previous studies propose that pneumococcal biofilms play a relevant role both in colonization and infection. Additionally, pneumococci recovered from human infections are characterized by a high prevalence of lysogenic bacteriophages (phages) residing quiescently in their host chromosome. We investigated a possible link between lysogeny and biofilm formation. Considering that extracellular DNA (eDNA) is a key factor in the biofilm matrix, we reasoned that prophage spontaneous activation with the consequent bacterial host lysis could provide a source of eDNA, enhancing pneumococcal biofilm development. Monitoring biofilm growth of lysogenic and non-lysogenic pneumococcal strains indicated that phage-infected bacteria are more proficient at forming biofilms, that is their biofilms are characterized by a higher biomass and cell viability. The presence of phage particles throughout the lysogenic strains biofilm development implicated prophage spontaneous induction in this effect. Analysis of lysogens deficient for phage lysin and the bacterial major autolysin revealed that the absence of either lytic activity impaired biofilm development and the addition of DNA restored the ability of mutant strains to form robust biofilms. These findings establish that limited phage-mediated host lysis of a fraction of the bacterial population, due to spontaneous phage induction, constitutes an important source of eDNA for the S. pneumoniae biofilm matrix and that this localized release of eDNA favors biofilm formation by the remaining bacterial population