ED23C-0870
Investigating Indoor Air Quality Using a Community-based Participatory Research Model

Tuesday, 15 December 2015
Poster Hall (Moscone South)
Ashley Monika Collier1, George E Ware2, Patricia G Iwaskai2, Debbi Main2, LaShonn Renae Billingsley3, Raj Pandya4 and Michael Hannigan1, (1)University of Colorado at Boulder, Boulder, CO, United States, (2)Taking Neighborhood Health to Heart, Denver, CO, United States, (3)Taking Neighborhood Health To Heart, Denver, CO, United States, (4)American Geophysical Union, Washington, DC, United States
Abstract:
Our project seeks to expand scientific knowledge of air pollutant screening methods while also gathering data a community group can use to improve local health outcomes. Working with Taking Neighborhood Health to Heart (TNH2H), a Denver-based neighborhood group with significant experience doing community-based participatory research (CBPR) related to improving individual and community health, we designed a project to help residents test their homes for two contaminants of interest: radon and perchloroethylene. Radon is naturally occurring and commonly found across Colorado. Perchloroethylene contamination has been discovered in other parts of Denver and residents of Northeast Denver would like to learn more about its possible presence in their neighborhood. Additionally while radon is simple to test for, the same cannot be said for perchloroethylene. This project provides an opportunity to pilot a low-cost sampling method for perchloroethylene, apply TNH2H’s CBPR model to an environmental health issue, adapt it for the geosciences, and engage the community in education around air quality issues. Data collected during the project will be shared with participating homes and the larger community. Community members will also participate in understanding and interpreting the data, and together community members and scientists will plan possible next steps, which may involve conducting further research, taking community action, or recommending changes in policy and practice.

Beyond the local impacts, we are testing an air quality sampling method that could make sampling more accessible to a broader range of communities. We are also learning more about how communities and scientists can best work together and what additional resources can help facilitate and ensure successful implementation of these types of projects. Our partner, the Thriving Earth Exchange, will use what we learn to facilitate scientist-community partnerships like this in other communities around the world. We need to understand how to effectively engage in these partnerships because this model will allow us to collect and utilize much more data, particularly at the local level. This model of scientist-community collaboration is an important strategy for maximizing the public good that comes from geoscience research.