Bramsenhale6944

Wildfire is a major source of biomass burning aerosols, which greatly impact Earth climate. Tree species in North America (NA) boreal forests can support high-intensity crown fires, resulting in elevated injection height and longer lifetime (on the order of months) of the wildfire aerosols. Given the long lifetime, the properties of aged NA wildfire aerosols are required to understand and quantify their effects on radiation and climate. Here we present comprehensive characterization of climatically relevant properties, including optical properties and cloud condensation nuclei (CCN) activities of aged NA wildfire aerosols, emitted from the record-breaking Canadian wildfires in August 2017. Despite the extreme injection height of ~12 km, some of the wildfire plumes descended into the marine boundary layer in the eastern North Atlantic over a period of ~2 weeks, owing to the dry intrusions behind mid-latitude cyclones. The aged wildfire aerosols have high single scattering albedos at 529 nm (ω529; 0.92-0.95) wh layer aerosols. However, the high fraction of particles with large diameter (i.e., within accumulation size ranges, ~100-250 nm) compensates for the low values of κ, and as a result, the aged NA wildfire aerosols contribute more efficiently to CCN population. These results provide direct evidence that the long-range transported NA wildfires can strongly influence CCN concentration in remote marine boundary layer, therefore the radiative properties of marine low clouds. Given the expected increases of NA wildfire intensity and frequency and regular occurrence of dry intrusion following mid-latitude cyclones, the influence of NA wildfire aerosols on CCN and clouds in remote marine environment need to be further examined. Multiple studies have demonstrated the critical role of touch in human development and the impact of mother's tactile input for an infant's well-being. However, the literature lacks a detailed description of maternal touch behavior during play tasks. Our study examined maternal touch patterns during mother-infant interactions. We analyzed the touch behavior of 41 mothers while they interacted with their 12-month-old infants, in a structured social interaction, composed of three tasks (1) free play with toys, (2) free play without toys, and (3) object play with a challenging toy. Every touch performed by the mother was segmented and categorized using the Ordinalized Mother Touch Scale (OMTS Category). In a 3 (Play Task) x 8 (OMTS Category) ANOVA, all effects were significant. We found that, in the free play without toys task, mother's use of touch is highly frequent (M = 71 %), when compared to object-oriented tasks. Mothers also adjusted to object-oriented task difficulty they touched almost twice as much in the challenging play task as in the free play with toys (M = 26 % vs. M = 14 %). In addition, the different play tasks influenced the proportion of time mothers used particular categories of touch. In summary, our study found that mothers' touch behavior depends on the play task demands (non-object oriented vs. selleck object oriented) changing in terms of frequency but also in the mother's use of different categories of touch. BACKGROUND QRS axis deviation can occur during myocardial infarction (MI); to date, little is known about the significance of extreme right axis deviation (ERAD) in the frontal plane, i.e. a shift in QRS axis between +180° and +270°, during MI. We sought to investigate the clinical characteristics and outcomes of patients with new-onset ERAD in the absence of complete bundle branch blocks (BBB) in the setting of acute coronary syndromes (ACS). METHODS A single-center retrospective observational study was conducted, including patients with new-onset ERAD in the absence of complete BBB admitted for ACS to our Cardiac Intensive Care Unit. Clinical, electrocardiographic, echocardiographic, angiographic features at baseline and cardiovascular events during hospitalization and at mid-term follow-up were collected. RESULTS The study population consisted of 30 consecutive patients (23 men) from January 2014 to September 2018. The most frequent clinical presentation was ST-segment elevation MI (n = 22, 73.4%) and the most frequent electrocardiographic MI location was anterolateral (n = 11, 36.7%). Left anterior descending (LAD) was the most frequent infarct-related artery (n = 21, 70%); 15 patients (50%) had multivessel coronary artery disease. Cardiac arrest due to ventricular fibrillation (VF) at presentation (n = 5, 16.6%), cardiogenic shock during the hospital stay (n = 10, 33.3%), cardiac arrest due to VF after revascularization (n = 6, 20%) and cardiac death (n = 7, 23.3%) were common. CONCLUSION New-onset ERAD during MI may be related to extensive myocardial ischemia and/or necrosis causing an "electrical escaping" with an extreme dislocation of the QRS axis. In our limited series we found several acute arrhythmic and hemodynamic complications and high mortality. Lead (Pb) isotopic composition analysis is a useful tool to accurately identify the origin of Pb in environmental media. The existing calculation method of the contribution of Pb sources from Pb isotope ratios greatly restricted the development of Pb contamination source apportionment. In the present study, a new distance model for calculating the mass proportion of Pb sources, which is based on the distance between the samples and the possible Pb sources in the Pb isotope ratios plot, was presented. The inverse distance model was applied to calculate the contribution proportion of two Pb sources in three previous studies. The average absolute differences between the proportions calculated by the conventional binary mixing equation and the inverse distance model were 0.21%, 1% and 1.9%, respectively, indicating that the new model agreeably calculated the contribution of two Pb sources. The anthropogenic sources proportion (52%) calculated by the inverse distance model of three Pb sources to park soil Pb in Shanghai was comparable to the result that was calculated by the conventional ternary mixing equation (53%), which showed the validity of the new model in calculating the contribution proportion of three Pb sources. Rational results were obtained by the inverse distance model in calculating the contribution of four Pb sources, illustrating that the new model has potential use in calculating the apportionment of four or more Pb sources. These results suggest that the inverse distance model is a simple and efficient approach for calculating the contribution proportion of various Pb contamination sources, and provides a prospective in the study of this field.