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1. Soil publics: regenerating relations with urban soils through citizen science

   https://doi.org/10.1080/13549839.2023.2300977  

   Price, Hannah L; Engel-Di_Mauro, Salvatore; High, Kathy; Ramírez-Andreotta, Mónica D; Ureta, Sebastián; Walls, Dan; Xu, Chie; Kinchy, Abby (April 2024, Local Environment)

   In contexts of regulatory neglect, it often falls to concerned individuals and community groups to identify and reduce people’s exposure to health-threatening pollutants in urban soils. The Our Soil project, based in Troy, New York (U.S.A.) proposed that engaging people in a “do-it-together” process of scientific inquiry could cultivate both appreciation of soil’s value and urgency to protect people from toxic soil pollution. In this paper, we develop the concept of “soil publics” and use it to critically reflect on how Our Soil used participatory research methods to measure urban soil pollution, exchange and value local knowledge, and cultivate a sense of concern for soil as a public issue. Soil publics come together through collective participatory practices, such as community gardening or, in this case, citizen science. This paper argues that when citizen science is pursued with a focus on producing soil publics, it is not just a means of collecting data about soil; it is part of the process of recognising past harms and transforming human-soil relations. 

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2. Community‐engaged learning to broaden the impact of applied ecology: A case study

   https://doi.org/10.1002/eap.2768  

   Vance‐Chalcraft, Heather_D; Jelks, Na'Taki_Osborne (January 2023, Ecological Applications)

   Abstract Ecological changes are creating disruptions that often disproportionately impact communities of color and economically disadvantaged areas. Scientists who study the consequences experienced by these communities are uniquely suited to bring the public into their work as a way of setting conditions that enable impacted residents to empower themselves to advance environmental and community change. In addition to involving community stakeholders in the process of science, community science can be used to motivate learning and increase engagement of students. Here we highlight a case study of one way a historically Black college involved local communities and students in water quality monitoring efforts to examine the role of the environment in human health. Students in an introductory‐level environmental toxicology course collaborated with community members to track pollution and monitor conditions in an urban, impaired stream. Students participated in bi‐monthly water quality monitoring alongside community watershed researchers and an annual day‐long multisite sampling event with community residents and organizations. Through this engagement, students and community members contributed to the collection of data, learned about the significance of their results, and translated findings into strategies to advance watershed restoration, health, quality of life, and environmental justice goals. 

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3. The sphere of exposure: centering user experience in community science air monitoring

   https://doi.org/10.3389/fenvs.2024.1433489  

   Westbrook, Marisa; Serrano-Salomón, Valentina; Pecenka, Jay; Sankhyan, Sumit; Hollo, Aniya K; Miller, Shelly L; Sullivan, Esther (September 2024, Frontiers in Environmental Science)

   Community science has increased in popularity in communities where residents hope to investigate the relationship between environmental issues and personal health. This study partnered with neighborhoods in the most polluted residential zip code in the US to conduct community science air quality monitoring. We conducted 60 semi-structured interviews after two monitoring deployments to understand participants’ subjective experiences of pollution exposure, their engagement with low-cost air quality monitors, and their data interpretation. We utilize the environmental health concept ‘exposure experience’ to analyze how participants use personal monitors, understand their data, and reinterpret their pollution exposure as a result. We further explore how participants’ understandings are circumscribed by the technological features of low-cost monitors. We find that participants adopt both protective and mitigating behavioral changes based on information gained from personal experiments and hypothesis testing while using the monitors. Of their own accord, 40% of participants in this study adopted mitigation behaviors after identifying sources that impacted their personal air quality. Our analysis reveals that real-time data accessibility through low-cost monitors builds exposure awareness and enables residents of environmental justice communities to test, validate, or invalidate sensory experiences and challenge existing assumptions. These findings point to specific pathways for using low-cost monitors to support individual decision-making and contribute to behavioral change. Findings also identify some limitations of low-cost monitors; designers of low-cost monitors should consider how composite Air Quality Scores may encourage community scientists to equally value scientifically-established pollutants (e.g., PM) with less scientifically-established pollutants (e.g., TVOCs), without additional scientific training and health-related information. 

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4. Modern buildings act as a dynamic source and sink for urban air pollutants

   https://doi.org/10.1016/j.crsus.2024.100103  

   Wu, Tianren; Tasoglou, Antonios; Wagner, Danielle N; Jiang, Jinglin; Huber, Heinz J; Stevens, Philip S; Jung, Nusrat; Boor, Brandon E (May 2024, Cell Reports Sustainability)

   Science for Society Buildings account for a significant fraction of the land area in cities and actively exchange air with their proximate outdoor environments via mechanical ventilation systems. However, the direct impact of buildings on urban air pollution remains poorly characterized. Due to reductions in traffic-associated emissions of volatile organic compounds (VOCs), volatile chemical products, which are widely used inside buildings, have become a major VOC source in urban areas. Indoor-generated VOCs are likely to be an important contributor to the VOC burden of the urban atmosphere, and ventilation systems provide a pathway for VOCs to be released outdoors. Here, we show how modern buildings act as significant emission sources of VOCs for the outdoor environment. Our results demonstrate that future air quality monitoring efforts in cities need to account for direct VOC discharge from buildings in order to capture emerging sources of environmental pollution that can impact the climate and human health. Summary Urban air undergoes transformations as it is actively circulated throughout buildings via ventilation systems. However, the influence of air exchange between outdoor and indoor atmospheres on urban air pollution is not well understood. Here, we quantify how buildings behave as a dynamic source and sink for urban air pollutants via high-resolution online mass spectrometry measurements. During our field campaign in a high-performance office building, we observed that the building continually released volatile organic compounds (VOCs) into the urban air and removed outdoor ozone and fine particulate matter. VOC emissions from people, their activities, and surface reservoirs result in significant VOC discharge from the building to the outdoors. Per unit area, building emissions of VOCs are comparable to traffic, industrial, and biogenic emissions. The building source-sink behavior changed dynamically with occupancy and ventilation conditions. Our results demonstrate that buildings can directly influence urban air quality due to substantial outdoor-indoor air exchange. 

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5. Air quality, health and equity implications of electrifying heavy-duty vehicles

   https://doi.org/10.1038/s41893-023-01219-0  

   Camilleri, Sara F; Montgomery, Anastasia; Visa, Maxime A; Schnell, Jordan L; Adelman, Zachariah E; Janssen, Mark; Grubert, Emily A; Anenberg, Susan C; Horton, Daniel E (December 2023, Nature Sustainability)

   Abstract Heavy-duty vehicles (HDVs) disproportionately contribute to the creation of air pollutants and emission of greenhouse gases—with marginalized populations unequally burdened by the impacts of each. Shifting to non-emitting technologies, such as electric HDVs (eHDVs), is underway; however, the associated air quality and health implications have not been resolved at equity-relevant scales. Here we use a neighbourhood-scale (~1 km) air quality model to evaluate air pollution, public health and equity implications of a 30% transition of predominantly diesel HDVs to eHDVs over the region surrounding North America’s largest freight hub, Chicago, IL. We find decreases in nitrogen dioxide (NO₂) and fine particulate matter (PM_2.5) concentrations but ozone (O₃) increases, particularly in urban settings. Over our simulation domain NO₂and PM_2.5reductions translate to ~590 (95% confidence interval (CI) 150–900) and ~70 (95% CI 20–110) avoided premature deaths per year, respectively, while O₃increases add ~50 (95% CI 30–110) deaths per year. The largest pollutant and health benefits simulated are within communities with higher proportions of Black and Hispanic/Latino residents, highlighting the potential for eHDVs to reduce disproportionate and unjust air pollution and associated air-pollution attributable health burdens within historically marginalized populations. 

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