Indoor Firing/Shooting Ranges and Lead Contamination—Exposure Beyond the Firing Line

If you need lead testing at an indoor firing/shooting range or other services related to lead at gun ranges as discussed in this article, call us at 1-800-344-4414 or email us at info@atlenv.com for details and a free estimate.

 

Written by Robert E. Sheriff, MS, CIH, CSP, President

September 11, 2017

 

It is estimated that there are 16,000 to 18,000 indoor firing/shooting ranges in the United States. Each of these indoor gun ranges presents the possibility of lead exposure not just to the firearms users but many others who may utilize the building where the range is located.

Lead contamination is very likely throughout the building especially when the firing/shooting range has been in operation for a long time.

Police and military ranges are very often housed in a building where other services are located. This includes exercise rooms, weight rooms, showers, meeting rooms, and the administration offices. This may even include kitchens, break rooms and cafeterias.

There are also numerous high school and college shooting ranges for student competition teams.

Private shooting ranges such as sportsmen’s clubs and fraternal organizations are likely to be in meeting halls that include kitchens and community event facilities some that are even rented out to anyone needing large event space.

We have found lead contamination in essentially all parts of such buildings especially when the firing range has been in use for a long time—15 to 20 years or more.

Also, such older ranges are not likely to have proper ventilation and air filtration to prevent escape of airborne lead outside the building and to other parts of the building.

Sanitation is another situation that can result in lead contamination away from the firing line itself. Clothing used by the shooters is kept in clothing lockers with street clothes and personal items. In many cases, shooters don’t wash their hands before handling other items such as exercise equipment and even food.

Newer ranges often are designed and rules set to control contamination. This can include HEPA filtered exhaust, copper jacketed bullets, shooter clothing lockers in the range area, washing facilities in the range area, frequent cleaning and vacuuming (using HEPA filtered vacuums) but still the potential to carry lead contamination outside the shooting range exists.

Clean-up of lead contamination can be time consuming and expensive especially when it affects the other parts of the building.

Defining what is a safe level of lead on surfaces is not easy. The greatest danger of lead exposure that can adversely affect humans is for children six years old and younger. At these ages, very small amounts of exposure can reduce a child’s IQ and have other longer term adverse effects throughout their lives.

HUD (Housing and Urban Development) has established guidelines for surface contamination from lead based paint in housing where young children may reside. The acceptable levels of surface lead contamination established by HUD for residential housing with small children are:

40 ug/ft2 – bare and carpeted floors

250 ug/ft2 – interior windowsills

400 ug/ft2 – window troughs

OSHA has set standards for lead exposure which applies to the individuals in the American workforce. The standard is 29CFR1910.1025 but this only applies to employees such as range officers or other employees of the organization. Further it only applies to employees in private organizations not public employees like police and military personnel. However, there are many public organizations that have voluntarily accepted the OSHA regulations. The OSHA lead standard sets limits on airborne lead and also a limit on blood lead levels which could result in removal of the workers from lead exposure for elevated blood lead.

The Army and Air Force National Guard developed a very useful guideline titled, “Guidelines and Procedures for Rehabilitation and Conversion of Indoor Firing Ranges.” It is a useful publication for decontamination of indoor firing/shooting ranges even to the extent that the space can be used for other uses after decontamination. Of course, it is useful for decontamination whether the indoor range continues or is intended for other uses.

They identify the acceptable surface contamination level of 200 ug/ft or less which is a reasonably safe level as long as no young children would be using the future space. A good example is setting up a daycare facility in a former college firing range. In such cases where children 6 years old are intended to occupy should adhere to the HUD safe level of 40 ug/ft2 as the appropriate level of decontamination—from experience, is difficult to achieve.

We have experience in evaluating indoor firing/shooting ranges for lead contamination with the ability to determine OSHA compliance, appropriate ventilation, testing all areas for surface contamination, and clearance sampling after decontamination.

 

Contact us by e-mail (info@atlenv.com) or call us at 800-344-4414.

Our primary service areas for Lead Contamination Sampling/Testing are: NJ, NY, NYC, PA, CT, DE, (Boston) MA, RI, Wash DC, WI, MD, MI, (Chicago) IL, VA, IN, (Atlanta) GA, AL, NC, SC, TN, (Dallas) TX, OK, DC, AR, we can service most other areas of the U.S. but with some added travel charges.

 

References

  1. Office of Healthy Homes and Lead Hazard Control, USHUD, “Guidelines for the Evaluation and Control of Lead-Based Paint Hazards in Housing,” 2nd Edition, July 2012.
  2. www.osha.gov/pls/oshaweb/owadisp.show_document?p_table=STANDARDS&p_id=10030 “29CFR1910.1025 Lead.
  3. Dept. of the Army and the Air Force, National Guard Bureau, Arlington, VA, 22202-3231, “Guidelines and Procedures for the Rehabilitation and Conversation of Indoor Firing Ranges,” NG Pam 420-15, 3 November, 2006.
  4. SHARP Dept. of Labor and Industries, State of Washington, “Lead Hazards at Indoor Firing Ranges,” Report No. 51-1-2000, April 2000.
  5. “Lead Exposure for Indoor Firing Ranges Among Students on Shooting Teams—Alaska, 2002-2004.” https://www.cdc.gov/mmwr/preview/mmwrhtml/mm5423a1.htm
  6. LaidLaw, M.A.S., Filippelli, G., Mielke, H., Gulson, B., Ball, A.S., “Lead Exposure at Firing Ranges—A Review,” Environmental Health, 16:34, 4, April, 2017.
  7. Robson, W.L. M. (MD), “Lead and the Shooting Range,” http://thewellarmedwomen.com/lead-and-the-shooting-range