Evaluating the Use of Indoor Residential Wipe Samples Following a Wildfire

The Las Conchas wildfire that burned in New Mexico between 26 June and 3 August, 2011 was one of the largest in state history. In addition to burning nearly 160,000 acres, smoke from the fire significantly impacted downwind communities. In an effort to quantify the extent of smoke exposure to indoor environments, wipe samples were collected inside of 64 homes located throughout the north/central region of New Mexico. These wipe samples were analyzed for char and ash (indicators of biomass smoke) using Polarized Light Microscopy, with the results plotted in Google Maps. Out of the 64 residences that were investigated, char was detected from within 78% of the homes. Ash was not measured from any of the wipe samples. Mapping of these results demonstrates the far-reaching impact that smoke from the Las Conchas wildfire had on downwind communities, as indoor wipe samples from homes up to 50 kilometers from the fire tested positive for char. This project also demonstrated the usefulness of collecting wipe samples to retrospectively assess wildfire smoke impacts on indoor environments in lieu of expensive indoor air sampling campaign

Separation and Characterization of Respirable Amphibole Fibers from Libby, Montana

The vermiculite mine in Libby, Montana, was in operation for over 70 yr and was contaminated with asbestos-like amphibole fibers. The mining, processing, and shipping of this vermiculite led to significant fiber inhalation exposure throughout the community, and residents of Libby have developed numerous pulmonary diseases such as lung cancer and mesothelioma. The present study describes the separation of Libby 6-mix into respirable and nonrespirable size fractions by means of aqueous elutriation. The elutriator, designed to separate fibers with aerodynamic diameters smaller than 2.5 μm (respirable) from larger fibers, used an upward flow rate of 3.4 × 10−4 cm s−1. The resultant respirable fraction constituted only 13% of the raw Libby 6-mix mass, and less than 2% of the fibers in the elutriated fraction had aerodynamic diameters exceeding 2.5 μm. Surface area of the elutriated fibers was 5.3 m−2 g−1, compared to 0.53 m−2 g−1 for the raw fibers. There were no detectable differences in chemical composition between the larger and smaller fibers. Such harvesting of respirable fractions will allow toxicological studies to be conducted within a controlled laboratory setting, utilizing fiber sizes that may more accurately simulate historical exposure of Libby residents’ lungs. Importantly, this work describes a method that allows the use of material enriched in more uniform respirable material than raw Libby 6-mix, making comparisons with other known fiber preparations more valid on a mass basis

Fate of Libby Amphibole Fibers When Burning Contaminated Firewood

In Libby, Montana, over 70 years of mining amphibole-contaminated vermiculite has led to amphibole contamination in areas surrounding the abandoned mine and in other areas throughout the town. In addition to contaminated soils, tree bark has also been found to be contaminated with amphibole fibers throughout the Libby area. As residential woodstoves are the main source of home heating in Libby, the purpose of this study was to determine if amphibole fibers become liberated into the ambient air when amphibole-contaminated firewood is combusted. Amphibole-contaminated firewood was combusted in new, EPA-certified stoves during three trials. The results of these trials showed that the majority of the fibers remained in the ash following the combustion process, suggesting that additional potential exposures can occur within the homes to those that clean the ash out of woodstoves. The combustion trials also revealed that amphibole fibers can become liberated into the ambient air during the combustion process. Amphibole fibers were found impacted in the ductwork, as well as detected in wipe samples collected from an inverted container used to concentrate the woodsmoke emissions. These findings stress the need for identifying a clean fuel source for the inhabitants of Libby to prevent future exposures

Facilitating the link between point-of-production workers and corporate ICT systems in construction

Web-based project management systems (WPMS) are becoming more widespread within construction and have shown to be beneficial in improving communications and document transfer between project participants. However, the challenge of integrating point-of-production workers into such systems still remains largely unrealised. This paper describes current applications within construction that are addressing these challenges. The technologies employed vary from tablet PC's, PDA's to RFID tags. The paper examines in detail a web-based data capture and management system for piling works, utilising a site-based web server and wireless network. The system effectively allows for the expansion of existing WPMS to include construction site workers, whilst improving the management and understanding of the project in terms of quality, cost and progress. The paper also agues that improved data reliability and robustness can be achieved by integrating the point-of-production operations into corporate ICT systems

The Big Sky Model: A Regional Collaboration for Participatory Research on Environmental Health in the Rural West

As an innovative community-based framework for science learning, the Big Sky Model is guiding high school and tribal college students from rural areas of Montana and Idaho in their understanding of chemical, physical, and environmental health concepts in the context of their own homes, schools, and communities. Students participate in classroom lessons and continue with systematic inquiry through actual field research to investigate a pressing, real-world issue: understanding the complex links between poor air quality and respiratory health outcomes. This article provides background information, outlines the procedure for implementing the model, and discusses its effectiveness as demonstrated through various evaluation tools