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Firearms Examiner Training

Module 12: Gunshot Residue and Distance Determination

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illustration of a gun being fired
National Institute of Justice (NIJ) (see reuse policy).

 

Author: John H. Dillon, Jr.
Headshot of Author John H. Dillon, Jr
National Institute of Justice (NIJ) (see reuse policy).
Jack Dillon earned a B. S. from the United States Naval Academy and an M. Ed. from the University of Virginia. Commissioned in the United States Marine Corps in 1964, he attained the rank of Captain of Marines. Appointed a Special Agent, FBI, in 1970, he investigated diverse criminal violations, including organized crime, bank robberies, extortions, and kidnappings. In 1976 he received orders to the Firearms/Toolmarks Unit of the FBI Laboratory for training as an examiner, where he evaluated evidence and provided on-site field support in domestic cases, as well as abroad. He also designed and taught basic and management-level forensic courses at the FBI Academy, Quantico, Virginia, 1982-1988. Jack retired from the FBI as Chief of the Firearms/Toolmarks Unit in 1994, and continues to consult in forensic firearm cases and in training design and delivery.

 

Introduction

The use of gunshot residues for determining the distance of the muzzle of a firearm from a target at the time of discharge is a subdiscipline of the forensic firearms specialty. This module covers the examination, testing, reproduction and comparison of residues, and distance determination.

Applying scientific methods, the subdiscipline of using gunshot residues for determining distance is performed in the following manner:

  • Testing is conducted only when the suspect firearm is available or per laboratory protocol.
  • Visual and microscopic examination is made of evidence items for residues, which may or may not be visible to the unaided eye.
  • Testing of evidence items is performed using a sequence of standardized chromophoric (color-producing) chemical tests which are specific for certain metals or compounds typically produced by fired ammunition components, including burned gunpowder.
  • Reproduction of these residues in the form of standards fired by the examiner at known distances uses the suspect firearm and ammunition that is as similar as possible to that used in the incident(s).
  • Comparison of the residues previously developed on evidence items is made against known standards to determine the distance of a suspect firearm from the target at the time of discharge.

Distance determinations based on gunshot residues are not performed in isolation from the rest of the firearms-related evidence in a shooting case. In summary, this module is directed at acquiring an understanding of the chemical makeup of ammunition propellants, what types of combustion products they produce, and the mechanics of extracting the distance-related information they represent.

 

Objectives

At the conclusion of this module the student should be able to do the following:

  • Describe in general terms the chemical reaction that takes place when propellant powder burns
  • Describe the visual and microscopic examination of evidence for the presence of visible gunshot residues
  • Describe the physical effects caused by the discharge of a firearm and the passage of a bullet
  • Describe the techniques for preparation of test media and chemical reagents required for the Modified Griess Test
  • Describe the techniques for preparation of test media and chemical reagents for the Dithiooxamide Test
  • Describe the techniques for preparation of test media and chemical reagents for the Sodium Rhodizonate Test
  • Explain the chemical reactions that take place in the Modified Griess Test
  • Explain the chemical reactions that take place in the Sodium Rhodizonate Test
  • Explain the chemical reactions that take place in the Dithiooxamide Test
  • Describe the performance of the Modified Griess Test for the detection of nitrite residues on porous objects
  • Describe the performance of the reverse Modified Griess Test for the detection of nitrite residues on nonporous objects
  • Describe the performance of the Dithiooxamide Test for nickel or cuprous materials
  • Describe the performance of the Sodium Rhodizonate Test for the detection of lead residues
  • Describe the performance of the Bashinski Transfer Technique/Sodium Rhodizonate Test for the detection of lead residues on darker (blue, black, violet) surfaces
  • Describe how to document gunshot residue test/technique procedures and results
  • Describe the process of reproducing positive results in gunshot residue examinations
  • Articulate conclusions based on gunshot residue test/technique results and the accumulated raw data represented in contemporaneous notes

AFTE Knowledge and Ability Factors

14.

Knowledge of how to properly document evidence and analytical results (through notes, sketches, photography, reports, etc.)

15.

Knowledge of the techniques and procedures used to properly mark evidence (when appropriate)

52.

Knowledge of how and when to use chemical reagents

59.

Knowledge of how and when to use fume hoods

82.

Knowledge of the different materials that may be present in the bore of a firearm

97.

Knowledge of proper ammunition selection. (for microscopic comparison and for duplication of patterns of gunshot residue)

106.

Knowledge of chemical tests used in the examination of bullet holes. (bullet impact site, and ricochet marks outside of scope of training)

107.

Knowledge of how and when to perform microscopic examinations for the purpose of distance determination

109.

Knowledge of how and when to perform chemical tests (such as sodium rhodizonate and Griess) for the purpose of distance determination

110.

Knowledge of stippling patterns/powder patterns on a surface and how they are used in distance determination

111.

Knowledge of pellet patterns and how they are used in distance determination

112.

Knowledge of which firearms, ammunition, and test pattern surfaces to use for the purpose of distance determination

120.

Knowledge of firearms-generated discharge products: how deposited; primer constituents, propellant residues, bullet metal, and bullet lubricants

12.

Ability to use logic to analyze and identify strengths and weaknesses of different approaches

19.

Ability to understand and interpret technical data output from laboratory instruments

21.

Ability to recognize discrepancies or inconsistencies in analytical findings and determine their cause and significance

23.

Ability to recognize the limitations of tests and interpretations

42.

Ability to recognize and interpret the effects of ammunition/firearms combinations on various aspects involved in reconstructing what happened at a shooting scene (distance)

62.

Ability to identify holes and/or defects in various objects as bullet caused, through physical and/or chemical means (e.g., lead containing "bullet wipe," "bullet splash" (copper/lead transfers in bullet graze or ricochet marks outside of scope of training)

77.

Ability to identify the physical form and type of small arms propellant recovered from a gun, victim's clothing, etc. (e.g., flattened ball powder, perforated disc, flake powder, etc.)

82.

Ability to recognize the various physical and chemical forms of propellants, their purpose in various cartridges and their value as physical evidence

 

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