Community-Based Health and Exposure Study around Urban Oil Developments in South

: Oilfield-adjacent communities often report symptoms such as headaches and/or asthma. Yet, little data exists on health experiences and exposures in urban environments with oil and gas development. In partnership with Promotoras de Salud (community health workers), we gathered household surveys nearby two oil production sites in Los Angeles. We tested the capacity of low-cost sensors for localized exposure estimates. Bilingual surveys of 205 randomly sampled residences were collected within two 1500 ft. buffer areas (West Adams and University Park) surrounding oil development sites. We used a one-sample proportion test, comparing overall rates from the California Health Interview Survey (CHIS) of Service Planning Area 6 (SPA6) and Los Angeles County for variables of interest such as asthma. Field calibrated low-cost sensors recorded methane emissions. Physician diagnosed asthma rates were reported to be higher within both buffers than in SPA6 or LA County. Asthma prevalence in West Adams but not University Park was significantly higher than in Los Angeles County. Respondents with diagnosed asthma reported rates of emergency room visits in the previous 12 months similar to SPA6. 45% of respondents were unaware of oil development; 63% of residents would not know how to contact local regulatory authorities. Residents often seek information about their health and site-related activities. Low-cost sensors may be useful in highlighting differences between sites or recording larger emission events and can provide localized data alongside resident-reported symptoms. Regulatory officials should help clarify information to the community on methods for reporting health symptoms. Our community-based participatory research (CBPR) partnership supports efforts to answer community questions as residents seek a safety buffer between sensitive land uses and active oil development.

[1]  Ashley Collier-Oxandale,et al.  Assessing a low-cost methane sensor quantification system for use in complex rural and urban environments. , 2018, Atmospheric measurement techniques.

[2]  B. Schichtel,et al.  Modeling to Evaluate Contribution of Oil and Gas Emissions to Air Pollution , 2017, Journal of the Air & Waste Management Association.

[3]  Timothy F. Malloy,et al.  Toxicity of acidization fluids used in California oil exploration , 2017 .

[4]  R. Morello-Frosch,et al.  Surveying for Environmental Health Justice: Community Organizing Applications of Community-Based Participatory Research , 2016 .

[5]  Elizabeth L. Ogburn,et al.  Association Between Unconventional Natural Gas Development in the Marcellus Shale and Asthma Exacerbations. , 2016, JAMA internal medicine.

[6]  A. Lewis,et al.  Evaluating the performance of low cost chemical sensors for air pollution research. , 2016, Faraday discussions.

[7]  J. Hays,et al.  Potential hazards of air pollutant emissions from unconventional oil and natural gas operations on the respiratory health of children and infants , 2016, Reviews on environmental health.

[8]  K. Berhane,et al.  Association of Changes in Air Quality With Bronchitic Symptoms in Children in California, 1993-2012. , 2016, JAMA.

[9]  M. McCawley,et al.  Adequacy of Current State Setbacks for Directional High-Volume Hydraulic Fracturing in the Marcellus, Barnett, and Niobrara Shale Plays , 2016, Environmental health perspectives.

[10]  A. Bartoňová,et al.  On the use of small and cheaper sensors and devices for indicative citizen-based monitoring of respirable particulate matter. , 2015, Environmental pollution.

[11]  Michael Hannigan,et al.  Quantification Method for Electrolytic Sensors in Long-Term Monitoring of Ambient Air Quality , 2015, Sensors.

[12]  L. Spinelle,et al.  Field calibration of a cluster of low-cost available sensors for air quality monitoring. Part A: Ozone and nitrogen dioxide , 2015 .

[13]  R. Piedrahita,et al.  Approach for quantification of metal oxide type semiconductor gas sensors used for ambient air quality monitoring , 2015 .

[14]  Qingmin Meng,et al.  Distance: A critical aspect for environmental impact assessment of hydraulic fracking , 2014 .

[15]  David O Carpenter,et al.  Air concentrations of volatile compounds near oil and gas production: a community-based exploratory study , 2014, Environmental Health.

[16]  L. Shang,et al.  The next generation of low-cost personal air quality sensors for quantitative exposure monitoring , 2014 .

[17]  P. Peduzzi,et al.  Proximity to Natural Gas Wells and Reported Health Status: Results of a Household Survey in Washington County, Pennsylvania , 2014, Environmental health perspectives.

[18]  Beizhan Yan,et al.  Environmental Health Research Recommendations from the Inter-Environmental Health Sciences Core Center Working Group on Unconventional Natural Gas Drilling Operations , 2014, Environmental health perspectives.

[19]  N. Buchmann,et al.  Spatial variability of methane: attributing atmospheric concentrations to emissions. , 2014, Environmental pollution.

[20]  Seth B.C. Shonkoff,et al.  Environmental Public Health Dimensions of Shale and Tight Gas Development , 2014, Environmental health perspectives.

[21]  Lisa M. McKenzie,et al.  Birth Outcomes and Maternal Residential Proximity to Natural Gas Development in Rural Colorado , 2014, Environmental health perspectives.

[22]  Matthew Fry,et al.  Urban gas drilling and distance ordinances in the Texas Barnett Shale , 2013 .

[23]  E. Snyder,et al.  The changing paradigm of air pollution monitoring. , 2013, Environmental science & technology.

[24]  Lee S Newman,et al.  The use of health impact assessment for a community undergoing natural gas development. , 2013, American journal of public health.

[25]  Gb Stewart,et al.  The use of electrochemical sensors for monitoring urban air quality in low-cost, high-density networks , 2013 .

[26]  Rachel Morello-Frosch,et al.  The Three R's: How Community Based Participatory Research Strengthens the Rigor, Relevance and Reach of Science. , 2013, Environmental justice.

[27]  George W. Kling,et al.  Performance of a low-cost methane sensor for ambient concentration measurements in preliminary studies , 2012 .

[28]  R. Morello-Frosch,et al.  Playing It Safe: Assessing Cumulative Impact and Social Vulnerability through an Environmental Justice Screening Method in the South Coast Air Basin, California , 2011, International journal of environmental research and public health.

[29]  Meredith Minkler,et al.  Sí Se Puede: Using Participatory Research to Promote Environmental Justice in a Latino Community in San Diego, California , 2010, Journal of Urban Health.

[30]  Rachel Morello-Frosch,et al.  The Environmental “Riskscape” and Social Inequality: Implications for Explaining Maternal and Child Health Disparities , 2006, Environmental health perspectives.

[31]  Jason Corburn,et al.  Combining community-based research and local knowledge to confront asthma and subsistence-fishing hazards in Greenpoint/Williamsburg, Brooklyn, New York. , 2001, Environmental health perspectives.

[32]  Pam Nichols From the Ground Up: Environmental Racism and the Rise of the Environmental Justice Movement , 2001 .

[33]  Nancy Quam-Wickham “Cities Sacrificed on the Altar of Oil”: Popular Opposition to Oil Development, in 1920s Los Angeles , 1998, Environmental History.

[34]  P. Brown,et al.  Popular epidemiology and toxic waste contamination: lay and professional ways of knowing. , 1992, Journal of health and social behavior.

[35]  Jeremy K. Domen,et al.  Identifying chemicals of concern in hydraulic fracturing fluids used for oil production. , 2017, Environmental pollution.

[36]  Oehha Dinp Nsrl Comments on the Diisononyl Phthalate ( DINP ) No Significant Risk Level ( NSRL ) Derived by the Office of Environmental Health Hazard Assessment ( OEHHA , 2015 .

[37]  G. V. Chilingar,et al.  Environmental hazards posed by the Los Angeles Basin urban oilfields: an historical perspective of lessons learned , 2005 .