Honors & Awards

  • Rising Environmental Leaders Program, Stanford Woods Institute for the Environment (2015)
  • Center for a Livable Future Lerner Doctoral Fellowship, Johns Hopkins University Bloomberg School of Public Health (2009-2013)

Boards, Advisory Committees, Professional Organizations

  • Member, International Society for Environmental Epidemiology (2014 - Present)
  • Member, American Public Health Association (2010 - Present)
  • Certified Industrial Hygienist, American Board of Industrial Hygiene (2005 - Present)

Professional Education

  • Master of Science, Johns Hopkins University (2000)
  • Doctor of Philosophy, Johns Hopkins University (2013)
  • Bachelor of Arts, University of California Berkeley (1995)

Stanford Advisors


All Publications

  • Probabilistic modeling of school meals for potential bisphenol A (BPA) exposure Journal of Exposure Science and Environmental Epidemiology Hartle, J. C., Fox, M. A., Lawrence, R. S. 2015
  • Early Life Metabolism of Bisphenol A: A Systematic Review of the Literature. Current Environmental Health Reports 2014 Nachman, R. M., Hartle, J. C., Lees, P. S., Groopman, J. D. 2014; 1 (1)
  • Bisphenol A: A ubiquitous food system contaminant Introduction to the U.S. Food System: Public Health, Environment, and Equity Hartle, J. C. Jossey-Bass, An Imprint of John Wiley & Sons, Inc. . 2014
  • A comparative study of allowable pesticide residue levels on produce in the United States GLOBALIZATION AND HEALTH Neff, R. A., Hartle, J. C., Laestadius, L. I., Dolan, K., Rosenthal, A. C., Nachman, K. E. 2012; 8


    The U.S. imports a substantial and increasing portion of its fruits and vegetables. The U.S. Food and Drug Administration currently inspects less than one percent of import shipments. While countries exporting to the U.S. are expected to comply with U.S. tolerances, including allowable pesticide residue levels, there is a low rate of import inspections and few other incentives for compliance.This analysis estimates the quantity of excess pesticide residue that could enter the U.S. if exporters followed originating country requirements but not U.S. pesticide tolerances, for the top 20 imported produce items based on quantities imported and U.S. consumption levels. Pesticide health effects data are also shown.The model estimates that for the identified items, 120 439 kg of pesticides in excess of U.S. tolerances could potentially be imported to the U.S., in cases where U.S. regulations are more protective than those of originating countries. This figure is in addition to residues allowed on domestic produce. In the modeling, the top produce item, market, and pesticide of concern were oranges, Chile, and Zeta-Cypermethrin. Pesticides in this review are associated with health effects on 13 body systems, and some are associated with carcinogenic effects.There is a critical information gap regarding pesticide residues on produce imported to the U.S. Without a more thorough sampling program, it is not possible accurately to characterize risks introduced by produce importation. The scenario presented herein relies on assumptions, and should be considered illustrative. The analysis highlights the need for additional investigation and resources for monitoring, enforcement, and other interventions, to improve import food safety and reduce pesticide exposures in originating countries.

    View details for DOI 10.1186/1744-8603-8-2

    View details for Web of Science ID 000302059900001

    View details for PubMedID 22293037

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