GUNSHOT-RESIDUE_module.docx

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Republic of the Philippines

***CARCAR CITY COLLEGE***

Luanluan Street, Poblacion I, Carcar City, Cebu

Tel \# 487-0063/487-9077

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| **Subject | **:** | Forensic | **Discuss | **:** | 3 |
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| **Topics* | **:** | - Gunsh | | | |
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**I. ACTIVITIES**

Direction: Watch a short clip video about the gunshot residue. Click the
link attached below. After watching, write a reaction paper in the space
provided below.

Short clip video link:

--
--

**II. ABSTRACTION**



**GUNSHOT RESIDUE**

Basically, gunshot residue come from the powder component of bullet,
elements from cartridge cases and gun barrel where the bullet passes.
When these components are burned, certain products of combustion are
formed which includes partially burned and unburned particles. These
particles are deposited on the target as definite pattern depending upon
the distance between the muzzle of the gun and the target at the time of
discharge.

Upon discharge of firearm, gunpowder residues (nitrates) may be
deposited on a person at close proximity, so the interpretations as to
who discharged the firearm should be made with caution. Hand or body
part close to the fired weapon may have gunpowder residues consistent
with having discharged the weapon. However, absence of gunpowder
residues on the person's hands or body parts does not mean that he/she
did not discharge a firearm.

Gunpowder residue may be found on the skin or clothing of a person who
discharged the gun, on the entrance bullet hole of garment or wound of
the victim or on other target materials at the scene.

**Components of gunshot residue**

1. Primer or lead residue

2. Gunpowder residue

3. Elemental component from cartridge cases residues

**Composition of Primer**

Primer elements may be easier to detect in residues because they do not
get as hot as that of powder.

1. Major primer elemental composition: lead (Pb), barium (Ba), or
Antimony (Sb).

2. Trace element: aluminum (Al), sulfur (S), tin (Sn), calcium (Ca),
potassium (K), chlorine (Cl) or silicon (Si).

3. In organic compound: mercury fulminates (present in most ammunition
manufactured in Eastern Europe and used in Middle East).

**Composition of gunpowder**

1. Contains up to 23 organic compounds (FBI Study)

2. Nitrocellulose is virtually always present along with nitrate and
nitrogen containing compound such as Diphenylamine or DPA
(stabilizer in the powder).

**Types of gunpowder**

1. Single based -- when the basic ingredient is nitrocellulose

2. Double based -- nitrocellulose + 1 to 40% nitroglycerine

3. Triple based -- nitrocellulose + nitroglycerine + nitro guanidine

These can be differentiated using a mass spectrophotometer.

**Composition of cartridge case, bullet coating and metal jacket**

1. Cartridge and primer cases; BRASS (7:3 COPPER-ZINC)

2. Bullet cores: lead, lead, antimony and few iron alloy

3. Bullet jackets: brass (9:1 copper-zinc), some are iron or aluminum
alloy. Some contain nickel.

**GUNSHOT RESIDUE EXAMINATIONS**

**Purpose**

Gunshot residue examinations are performed to the help of investigators
in determining whether a person has discharged a firearm or not; and the
possible gunshot range or the distance of the shooter to the victim.
Both hands of the suspect as well as those of the victim, the firearms
and clothing of the victim must be examined to determine the presence of
gunpowder nitrates.

**Types of Powder used in the ammunition of small firearms**

**There are two types of powder used in the ammunition of small
firearms. These are:**

1. **Black Powder** -- this consists of a mixture of carbon (Charcoal),
sulfur and potassium nitrate. This mixture is used as an igniter in
smokeless gun propellant. It consists of a mixture of 15% charcoal,
10% Sulfur and 75% Potassium nitrates. Aluminum is added to enhance
the burning property. When this powder is burned, combustion
reaction takes place:

**2KNO3 + 2o2 + S + C CO2 + SO2 + K202 = 2NO2**

2. **Smokeless Powder** -- this mixture consists of Cellulose or
glycerol nitrate combined with some stabilizers (nitrobenzene or
graphite nitrates, dichromate and oxalates). When this powder
explodes, the chemical reaction takes place.

Cellulose nitrate: C12H1404 (NO3)6 + 6H20+3N2+4CO2+8CO+H2

**Primers**

To explode a low explosive, flame is required. In guns, the flame is
applied by means of a primer. Primer produces flame on percussion. A
typical primer consists of a case containing an initiating explosive
such as mercury fulminate, an oxidizing agent such as potassium chlorate
or barium nitrate and a fuel such as antimony sulfide. This component is
the basis for examination of gunshot residue particularly primer
residues for distance determination.

**DETETCTION OF GUNSHOT RESIDUE**

The following are common methods used by most crime laboratories to
detect gunshot residue:

1. Paraffin test

2. Lead residue (detection limit: up to 30 feet and always present on
the opposite sides of the penetrated target). Reported from
intermediate glass target present (Messler and Armstrong, 1978).

3. Gunpowder residue examination (detection limit: highly variable up
to 20 cm and up to 21 inches is common).

4. Other examinations

The last two methods are classical. Color development or modern
methods such as Neutron Activation Analysis (NAA), atomic absorption
spectrophotometry (AAS), Scanning Electron microscopy with energy
dispersive analysis (SEM-EDA) and inductively coupled plasma with
mass spectrophotometry (ICP-MS) are used.

**History of Paraffin test/ dermal nitrate or Diphenylamine test**

Paraffin test was originated from Cuba when Dr. Gonzalo Iturrios first
used paraffin for collecting gunpowder residues from discharged firearm.
In 1933, Teodor Gonzales of Criminal Identification Laboratory Mexico
City introduced the test in the United States. In Mexico City introduced
the test in the United States. In this test, the hands were coated with
a layer of melted paraffin. After cooling, the casts were removed and
treated with Diphenylamine (5% DPA in 60% sulfuric).

**Methods of Examination**

**Paraffin Test**

To determine whether a person has discharged a firearm, the
Paraffin-Diphenylamine test is used. The basis of this test is the
presence of nitrates in the gunpowder residue. When a warm melted
paraffin wax is applied on the hands of the alleged shooter, it will
cause the pores of the skin to open and exude the particles of gunpowder
residue. These particles of gunpowder residue are being extracted by the
paraffin cast (with the use of melted paraffin was) and will appear as
blue specks, when diphenylamine reagent (DPA for brevity) is added on
the cast. It must be noted that the specks are generally located on the
area of the thumb and forefingers.

**Note:**

The blue color that appears indicates the reaction of nitrates with
diphenylamine reagent. Thus, nitrate from other sources like fertilizers
will give the same reaction. Other substances similar to nitrate known
as oxidizers will also react with the reagent in the same way.

However, it must also be noted that the blue specks have the
characteristics of "tailing".

**What is the Principle behind the Paraffin test?**

While the burned and partially burned particles (gunpowder residue) is
deposited on the target and in the barrel of the gun, some of these
burned and partially burned particles may escape around the breech of
the gun and some may be embedded on the exposed surface of the hand/s of
the person discharging the firearm.

Thus, the presence of these residues can be detected by way of paraffin
examination.

As a rule, in the paraffin examination, the Forensic Chemist/Chemical
officer should personally conduct the paraffin casting on the alleged
shooter. However, a competent laboratory technician under the
supervision of the examiner-on-case may also perform the paraffin
casting. But it is the Forensic Chemist/Chemical officer who should
examine the paraffin casts taken from both hands of the alleged shooter
to determine the presence of gunpowder nitrates.

Paraffin casting of the alleged shooter shall only be done with
seventy-two (72) hours from the time of the alleged shooting incident.
No person shall be subjected to paraffin casting after the lapse of the
specified period.

Embalmed cadaver who allegedly discharged a firearm shall no longer be
subjected to paraffin examination because of the impossibility of
extracting the gunpowder nitrates from the former's hands.

**Taking of Paraffin Casts**

**Materials and Apparatus:**

**Paraffin wax (M.P. 38-40 C)**

- Absorbent cotton

- Bond paper

- Burner

- Beaker or casserole

- Tong

**Procedure**

a. Heat the paraffin wax in a container until it melts. Allow cooling
for a few minutes so that it will not burn the skin.

b. Let the subject wash his hands with water without using any soap or
detergent. Wipe the hands of the subject with clean absorbent
cotton.

c. Let the subject place his hands on a clean sheet of bond paper with
the palms facing downward and the fingers closed together. Using a
spoon or tong with cotton, pour the melted paraffin wax on the hands
of the subject from the thumb and index fingers and the dorsal
portion to the little finger side of the hands.

d. Cover the hands and fingers thoroughly with paraffin wax and place a
thin layer of absorbent cotton to reinforce the wax.

e. Pour another layer of the wax until the absorbent cotton has totally
absorbed the wax.

f. Allow the wax to cool and solidify before feeling them off.

g. When cool, direct the subject to move his fingers first and slowly
moving his hands out from the casts.

h. Place on the bond paper the case number, name of the subject, time
and date, technician who took the cast, witnesses and label the
right and left hand.

i. Place another bond paper on top of the paraffin casts and staple
together.

j. Place the paraffin casts inside an envelope or a box for proper
preservation.

**Note**:

It must be noted that upon casting, the melted paraffin wax penetrates
the minute crevices of the skin thus, the burned and partially burned
gunpowder nitrates which are embedded on the hands of the shooter are
extracted. Upon application of Diphenylamine (DPA) reagent on the
paraffin casts, the appearance of "tailing deep blue specks" indicates
the presence of gunpowder nitrates.

**Paraffin Wax**

Paraffin wax is a white, translucent, tasteless, odorless solid
consisting of a mixture of solid hydrocarbons of high molecular weight.
It is insoluble in water and acids and soluble in benzene, ligroin, warm
alcohol, chloroform, turpentine, carbon disulfide and olive oil.
Combustible, auto ignition temperature 473 F (245°C)

The melted paraffin wax penetrates the minute crevices of the skin upon
application, thus, adhering if there are particles present. When the
casts are peeled, the burned and partially burned particles are
extracted. A person firing a gun will likely have the particles located
above the thumb and forefingers since these are the surfaces exposed to
the gun.

**What should be noted in the interpretation of results:**

**Time of reaction**

- Number and characteristics of blue and minute specks

- The location and character of the blue specks

- Distribution and location

**Different names of this test:**

- Lunge's test

- Diphenylamine test

- Dermal nitrate test

Gonzales test -- named after the one who improved the test

**Question**: Is there any means of removing these nitrates from the
hands? How long will they stay in the pores?

Answer: None. Ordinary washing will not remove the nitrates from the
pores of the skin. Usually, gunpowder nitrates that are embedded on the
skin stay for 72 hours. That is why paraffin casting should be conducted
within the specified period.

**Substances giving false positive result:**

1. Fertilizers

2. Explosives

3. Tobacco

4. Urine

5. Certain cosmetics

6. Food samples

7. Cigarette

**Question: Will these substances not give positive result for paraffin
test?**

Answer: If the hands of the subject person are contaminated with
nitrates other than from gunpowder, one will expect to find smudges or
just a smear of blue color or a conglomeration of blue specks. But
nitrates from gunpowder appear as blue speck with tailings, because
these particles were embedded into the hands with force.

**Question: Is paraffin test result a conclusive evidence? Why?**

Answer: No. it is just a corroborative evidence which intends to support
the testimony of eyewitness/es, these are instances wherein a person who
actually discharged a firearm would still give a negative result to the
paraffin test because of several factors.

**Question: What are these factors?**

Answer: 1. Types of caliber of ammunition

2\. Use of gloves

3\. Length of the barrel

4\. Age of the gun / efficiency of mechanism

5\. Direction of firing

6\. Wind direction

7\. Humidity/percentage moisture in air

8\. When 72 hours had already lapsed (3 days)

**Types of caliber ammunition**. A hand discharging a revolver is more
likely to give a positive result for gunpowder nitrates compared to that
of a hand discharging a pistol. In an automatic pistol, the chamber is
an integral part of the barrel, whereas in the revolver, the chamber is
located in the cylinder and separated from the barrel with airspace.
Thus, leakage of powder in a revolver is more likely to occur.

**False Positive Result**

1. Contamination or transfer of gunshot residue (GSR) to the body by
mishandling or when the body is heavily contaminated by GSR from
previous shooting.

2. Washing of hands where samples are collected.

3. Type of ammunition such as rifle and shot gun.

**Length of the barrel**. A weapon of 2-inch barrel will deposit residue
over a larger area than a weapon of 5-inch barrel (even if they are
discharged from the same distance with the same type of ammunition). In
a longer barrel, the hand is father away from the muzzle end of the gun.
It takes a bullet to travel in more time, thus using up/burning up more,
if not all, of the nitrates. In a short barrel, the bullet travels
through the barrel in less time leaving behind a greater amount of
unburned particles.

**Age of the gun/efficiency of mechanism.** Complete combustion or the
conversion of all nitrates into its end product (CO,CO,N,O,-OH) is more
likely to occur in a new weapon compared to an old one. Besides, leakage
of gunpowder is more likely to happen in the old weapon where the breech
mechanism is no longer tingly fitted.

**Direction of firing.** More powder residues will be obtained when the
gun is discharged pointing upward than downward. Gunpowder residues have
weight and will naturally fall down because of gravity.

**Wind direction and velocity.** In high velocity (strong wind), the
power residues will be blown in the direction of the wind. One is more
likely to be positive for gunpowder nitrates if there is no wind, or the
wind direction is towards the shooter.

**Humidity/percentage moisture in air.** Humidity lessens the extent of
combustion yielding more gunpowder nitrates.

**False Positive reaction** -- smear blue color or conglomeration of
blue specks on both dorsal and palm aspects of the hand.

Failure to find traces of nitrate on the hand of the person does not
prove that he did not fire a gun. But it is submitted that the paraffin
test has some value due to the psychological effect on the persons whose
hands were found positive. Also, the finding of actual traces of
gunpowder nitrates on the hand/s of the person does not conclusively
determine or establish that he has discharge a gun. It is possible that
the GPR particle may have been blown on the hand directly from the
barrel of the gun being discharged by another person.

**Gunpowder Residue Test on Firearms**

The diphenylamine reagent is also applied to cotton swabbing of the
barrel and chambers of the gun to determine if the firearm was
discharged. A deep blue color resulting from the reaction of nitrates
with the reagent indicates presence of gunpowder residue.

**Established Forensic Rules:**

a. The Forensic Chemist on case shall conduct the gunpowder residue
examination (GPR) without delay.

b. After the examination is done, the firearm shall be returned to the
representative of the requesting unit if the request is solely for
gunpowder residue (GPR) examination, or submitted to the FAID if
ballistic examination is required.

**Gunshot Range Determination (Also known gunshot distance
determination)**

When a firearm is discharged, gunpowder residue may also be deposited on
the clothing of the victim. The size and density of the pattern of the
gunpowder residue found on clothing are the main factors considered in
determining the approximate distance of the shooter to the victim. As
the distance to the victim increases, the size of pattern expands while
density decreases and vice-versa.

**Distance determination** -- the method of determining the distance
between the firearm and the target. This is usually based on the
distance of the powder patterns or the spread of the shot pattern.

**Importance of Distance Determination**

1. In connection to self-defense pleas

2. In the distinction between murder and suicide. It is possible to
state with certainty the distance of the gun from the target by
means of the patterns and residues left on the target. Not only the
type of gun, but also the condition and type of ammunition that will
affect this pattern.

1. Entrance and exit holes

2. Powder residue pattern (burning, singeing, smudging, tattooing -- a
black coarsely peppered pattern)

**Entrance and Exit holes:**

Entrance hole contains gunpowder residue (bullet wipe residue) and it is
slightly burned.

The diameter of entrance hole is smaller than the exit hole.

The exit hole is frayed outward while entrance hole is inward.

**Other Entrance hole characteristics:**

a. Angled bullet hole has elongated hle.

b. Contact fires have uneven margins but all entrance holes typically
have even margins.

c. Grazing bullet hole (several small holes created from a folded
garment).

**Classification of Gunshot Distance**

- Burning (direct)

- Singeing (1 to 2 inches)

- Smudging (2 to 8 inches)

- Tattooing (8 to 18 inches)

**The distance of the muzzle of the gun to the target is classified into
three (3):**

1. Direct contact

2. 2 inches to 36 inches away

3. 36 inches away or more

**Tests for Gunshot Residue (GSR)**

- Nitrite and

- Lead residue chemical examination

**Characteristics of Gunshot wounds**

A. **Direct/contact wounds**

The principal damage is more visible due to the flame and the muzzle
blast than to the penetration of bullet. The following observations
may be noted:

1. Gaping hole where fabric is badly thorn

2. Blackened area surrounding the bullet hole

3. The presence of partially burned powder residues around the entrance
hole.

B. **Wounds inflicted at a distance from 2-36 inches**

If the gun is discharged closely to the body of the victim, two (2)
types of discoloration will be observed around the hole of the
entrance namely: (1) smudging and (2) powder tattooing (black
coarsely peppered pattern).

**Smudging** -- is produced when the gun is held from about 2 inches
to the maximum of 8 inches. The smoke and soot from the burned pores
are deposited around the hole of the entrance producing a dirty
appearance.

The size of the smudge depends upon the following:

a. **Length of the barrel** -- a weapon of 2-inch barrel will deposit
residue over a larger area than a weapon of --inch barrel (even if
they are fired from the distance with the same type of ammunition).
In a longer barrel, the hand is farther away from the muzzle end of
the gun. It takes a bullet to travel in more times, thus, using
up/burning up more, if not all, of the nitrates. In short barrel,
the bullet travels through the barrel in less time leaving behind a
greater amount of unburned particles.

b. **Age of the gun/efficiency of mechanism** -- complete combustion or
the conversion of all nitrates into its end product is more likely
to occur in a new weapon compared to an old one. Besides, leakage of
gunpowder is more likely to happen in the old weapon where the
breech mechanism is no longer tightly fitted.

c. **Direction of Firing** -- more gunpowder residues will be obtained
when the gun is fired upward than downward. Gunpowder residues have
weight and will naturally fall down because of gravity.

d. **Wind Direction and Velocity** -- in high velocity (strong wind),
the powder residues will be blown in the direction of the wind. One
is more likely to be positive for gunpowder nitrates if there is no
wind, or the direction is away from the body.

e. **Humidity/percentage moisture in air** -- Humidity lessens the
extent of combustion yielding more gunpowder nitrates.

- Caliber

- Powder charge

- Distance of firing

C. **Wounds inflicted at a Distance of more than 36 inches**:

- Powder tattooing is seldom present.

- Nitrates found will not be sufficient for GSR

**FIREARM EXAMINATION**

Methods used to determine the probable time the firearms has been
discharged:

a. **Lucas test**

A characteristic smell that decreases in intensity with lapse of
time is present immediately after firing but even after several
weeks some slight smell remains.

b. **Odor (Hydrogen Sulfide)**

This is another product resulting from combustion of gunpowder which
is present in the gaseous state. This compound can be detected by
means of lead acetate paper test.

If the breech of the gun is kept closed, this persists between 2-3
hours.

***Sulfide*** -- the greater part disappears in about 4-5 hours but
frequently a trace remains for a longer time, the longest period
being 10 hours.

c. **Odor of the barrel (rusting)**

As a rule, no rust can be detected inside the barrel of a firearm if
such firearm has been discharged. But if the firearm has been
discharged, iron salts are formed and can be detected inside the
barrel. These iron salts are soon oxidized resulting in the
formation of rust. The formation of rust is affected by the humidity
of the air so that in the interpretation of the result, this factor
must always be considered.

d. **Presence of Nitrates (by cotton swabbing method)**

Nitrates diminish after a lapse of time. Nitrates can be detected by
swabbing a portion of residue in a barrel and mixing the residue
with Diphenylamine solution (DPA).

e. **Dermal Nitrate test**

The test is designed to determine the presence of gunpowder nitrates
on the hands of the alleged shooter.

**Distance from which the gun has been discharged**

**Significance**:

a. In connection with self-defense.

b. In the distinction between murder and suicide. It can be stated with
certainty the distance of the gun from the target by way of patterns
of residues left on the victim.

**Scorching or Singeing**

If a firearm was discharged very close to the target as in a case of
alleged suicide and sometimes in murder, burns or scorches may result.
This resulting reaction is caused by flame that emerges from the muzzle
and travels only a short distance from it. This distance will vary with
the length of the barrel, the size of the powder charge and the degree
to which the bullet fill the barrel. The presence of scorch is a proof
that the firearm was discharged a few inches away from the target.
Scorching is very rare if the victim was shot 3 inches or more away from
the muzzle.

**Other Methods of Examination**

The following are the sophisticated instruments used to determine the
gunshot range residue (GSR):

**AAS** -- Atomic Absorption Spectrophotometer

**NAA** -- Neutron Activation Analysis

**SEM-EDX** -- Scanning Electron Microscope with Energy Dispersive X-ray
Analysis

**ICP-MS** -- Inductively Couled Plasma with Mass Spectrophotometry

**COLLECTION, PRESERVATION AND TRANSIT OF SPECIMEN**

Important points to remember in the collection, preservation and transit
of specimen:

a. Clothing removed from the victim should be cautiously and carefully
handled to prevent powder residues from becoming dislodged.

b. Do not wad the specimen or pack it loosely for shipment.

c. Secure the area to be tested between two layers of heavy cardboard
fastened together tightly to prevent the specimen from becoming
postlude about in transit.

d. Each specimen should be wrapped tightly and marked.

e. Clothing heavily smeared with blood should be fried thoroughly
before packing.

f. Gun recovered from the scene of the crime and ammunition available
should be preserved.

g. Person suspected to have discharged a firearm should be subjected to
a paraffin test. (Cover his hands with paper bags to avoid
contamination). Examination must be performed immediately and in no
case should it be postponed 72 hours after the shooting.

**III. ASSESSMENT**

A. **Let's Make a Venn Diagram!**

1. Black Powder and Smokeless Powder

2. Entrance Hole and Exit Hole

3. Singeing and Smudging

B. **Let's Make an Essay!**

C. **Let's Have a Quiz!**

1. It is a white, translucent, tasteless, odorless solid consisting of
a mixture of solid hydrocarbons of high molecular weight.

A. Floor Wax

B. Paraffin Wax

C. Paraffin Glue

D. Explosives

2. It is a test which determines the presence of nitrates in the
gunpowder residue left on the hand of the perpetrator.

A. Paraffin Test

B. Lunge's Test

C. Dermal nitrate Test

D. All of the Above

3. It comes from the powder component of bullet, elements from
cartridge cases and gun barrel where the bullet passes.

A. Fertilizer

B. Gunshot residue

C. Smokeless powder

D. Hydrogen Sulfide

4. It is a type of powder which consists of a mixture carbon, sulfur
and potassium nitrates. This mixture is used as an igniter in
smokeless gun propellant.

A. Black powder

B. Blue powder

C. Smokeless powder

D. Sulfur powder

5. Where does the Paraffin Test originated?

A. United States

B. Mexico City

C. Cuba

D. Cebu

6. Which of the following is not a name of paraffin test?

A. Lunge's test

B. Diphenylamine test

C. Dermal sulfur test

D. Gonzales test

7. Which of the following substance that does not give a false positive
result?

A. Explosives

B. Cigarette

C. Tobacco

D. Gunpowder

8. It is produces when the gun is held from about 2 inches to the
maximum of 8 inches. The smoke and soot from the burned pores are
deposited around the hole of the entrance producing a dirty
appearance.

A. Singeing

B. Tattooing

C. Smudging

D. Burning

9. It is a type of examination using a microscope which is commonly
used in comparison of an empty shell containing characteristic marks
from grooves of the gun barrel and firing pin of specific firearm
used.

A. Lucas test

B. Bullet comparison

C. Dermal nitrate test

D. Neutron Activation Analysis

10. This test is designed to determine the presence of gunpowder
nitrates on the hands of the alleged shooter.

A. Lucas test

B. Bullet comparison

C. Dermal nitrate test

D. Neutron Activation Analysis