142nd APHA Annual Meeting and Exposition

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304160
Soil analysis of urban farms in New Orleans, LA

142nd APHA Annual Meeting and Exposition (November 15 - November 19, 2014): http://www.apha.org/events-and-meetings/annual
Monday, November 17, 2014

Kyle Moller, MSPH , Department of Global Environmental Health Sciences, Tulane University, New Orleans, LA
Braelin Carter , Department of Global Environmental Health Sciences, Tulane University, New Orleans, LA
Daniel Nguyen , Viet Village Urban Farm Sustainable Aquaculture Park, Mary Queen of Viet Nam Community Development Corporation, Inc., New Orleans, LA
Mark Wilson, MSPH, PhD , Department of Global Environmental Health Sciences, Tulane University, New Orleans, LA
Jeffrey Wickliffe, PhD , Department of Global Environmental Health Sciences, Tulane University, New Orleans, LA
Urban agriculture provides improved access to healthy food, stimulates local economic development, and fosters sustainable land use. However, urban soils in relatively old cities may have unsafe levels of contaminants that could impact the quality and safety of the produce grown in these areas. We are evaluating soil levels of trace elements, semi-volatile organic compounds, and diesel-range organics from urban farm sites in New Orleans, LA, to determine whether unsafe levels of contaminants are present. We have collected and analyzed primarily topsoil using a chain of custody approach from cooperative urban farm sites within the New Orleans metropolitan area. Trace elements were analyzed by ICP/MS (Hg CVAAS) and organic compounds were analyzed using GC/MS. Results were compared to the Louisiana Department of Environmental Quality’s (LDEQ) soil standards. Results from one of our farm sites revealed that 98.9% of samples were below the LDEQ soil standards for the elements and compounds tested. One sample exceeded the standard for diesel range organics but this zone is not currently under production. Four samples were above the standard for iron, and one sample exceeded standards for iron and aluminum. Maintaining a soil pH greater than 6.5 in order to mitigate any effects from the excess iron and aluminum was provided as risk management advice. We conclude that the soil at this site is suitable for agricultural use and the produce from this site is likely safe for consumption. We are examining additional urban farm sites in areas with varying degrees of historical urbanization. Ultimately, our goal is to develop a policy and plan, from sampling to mitigation, for examining soils in highly urbanized areas where legacy pollution may create a foodborne hazard when converted to agricultural production regardless of scale.

Learning Areas:

Environmental health sciences
Public health or related laws, regulations, standards, or guidelines
Public health or related public policy
Public health or related research

Learning Objectives:
Evaluate soil levels of trace elements, semi-volatile organic compounds, and diesel-range organics from urban farm sites in New Orleans, LA. Compare levels to the Louisiana Department of Environmental Quality's soil standards.

Keyword(s): Environmental Health, Food Safety

Presenting author's disclosure statement:

Qualified on the content I am responsible for because: My MSPH was in environmental health focused primarily on resource management. This included soil contamination and I am continuing this focus in my pursuit of a PhD. I am developing this research as my dissertation focus and am conducting this work under the guidance of experienced environmental health scientists.
Any relevant financial relationships? No

I agree to comply with the American Public Health Association Conflict of Interest and Commercial Support Guidelines, and to disclose to the participants any off-label or experimental uses of a commercial product or service discussed in my presentation.