Criminalistics Chapter 6: Fingerprints PDF

Summary

This chapter from the book Criminalistics: An Introduction to Forensic Science provides an overview of fingerprints, including their history, principles, and classification systems. The chapter also discusses the use of fingerprints for criminal investigations.

Full Transcript

Criminalistics
An Introduction to Forensic Science
ELEVENTH EDITION

CHAPTER 6
Fingerprints

Criminalistics: An Introduction to Forensic Science, 11e Copyright © 2015 by Pearson Education, Inc.
Richard Saferstein All Rights Reserved
 History

The first systematic attempt at personal
identification was devised by a French
police expert, Alphonse Bertillion.
The Bertillion system relied on a
detailed description of the subject,
combined with full-length and profile
photographs and a system of precise
body measurements called
anthropometry.

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 History

In 1892 Francis Galton published his
classic textbook Finger Prints.
At Galton’s insistence, the British
government adopted fingerprinting as a
supplement to the Bertillion system.
The next step was the creation of
classification systems capable of filing
many thousands of prints in a logical
and searchable sequence.
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 History

Dr. Juan Vucetich devised a
classification system still used in most
Spanish-speaking countries, while Sir
Edward Henry devised another
classification system used in most
English-speaking countries.

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 History

In 1903, when the Bertillion system
could not distinguish between two men
(one Will West and the other William
West), it was fingerprinting that clearly
distinguished them.

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 History

After the Will West incident, the use of
fingerprinting by the New York City Civil
Service Commission in 1901, and the
training of American police by Scotland
Yard representatives at the 1904
World’s Fair, fingerprinting began to be
used in earnest in all major U.S. cities.

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 Fingerprint Principles

Fingerprints are a reproduction of
friction skin ridges found on the palm
side of the fingers and thumbs.

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 Fingerprint Principles

The basic principles underlying the use
of fingerprints in criminal investigations
are that:
1. A fingerprint is an individual
characteristic because no two fingers
have yet been found to possess
identical ridge characteristics;

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 Fingerprint Principles

The basic principles underlying the use
of fingerprints in criminal investigations
are that:
2. A fingerprint will remain unchanged
during an individual’s lifetime; and
3. A fingerprints have general ridge
patterns that permit them to be
systematically classified.

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 Principle One

Mathematically, the probability for the
existence of two identical fingerprint
patterns in the world’s population is
extremely small. Galton calculated the
existence of 64 billion different fingerprints.
 Besides theoretical calculations, of the
millions upon millions of individuals who have
had their prints classified, no two fingerprints
have been found to be identical.

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 Principle One

Mathematically, the probability for the
existence of two identical fingerprint
patterns in the world’s population is
extremely small. Galton calculated the
existence of 64 billion different
fingerprints.
 The individuality of a fingerprint is not
determined by its general shape or pattern,
but by the careful study of its ridge
characteristics, known as minutiae.

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 Principle One

Mathematically, the probability for the
existence of two identical fingerprint
patterns in the world’s population is
extremely small. Galton calculated the
existence of 64 billion different
fingerprints.
 It is the identity, number, and relative
location of these minutiae that imparts
individuality to a fingerprint.

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 Principle One

Some common fingerprint ridge
characteristics are bifurcations, ridge
endings, ridge dots, and enclosures.
 There are as many as 150 minutiae on
the average finger.
 Currently in the United States, there is no
predetermined minimum number of
friction ridge characters which must be
present in two impressions in order to
establish positive identification.
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 Principle One

Some common fingerprint ridge
characteristics are bifurcations, ridge
endings, ridge dots, and enclosures.
 In a judicial proceeding, an expert must
demonstrate a point-by-point
comparison in order to prove the
identity of an individual.

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FIGURE 6–1 Fingerprint ridge characteristics.
Courtesy Sirchie Fingerprint Laboratories, Youngsville, NC, www.sirchie.com

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FIGURE 6–2 A fingerprint exhibit illustrating the matching ridge characteristics between the crime-scene print
and an inked impression of one of the suspect’s fingers.
Richard Saferstein, Ph.D.

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 Principle Two

The epidermis is the outer layer of the
skin, while the dermis is the inner layer
of the skin.
The dermal papillae is the layer of cells
between the epidermis and dermis, that
is responsible for determining the form
and pattern of the ridges on the surface
of the skin.

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 Principle Two

Once the dermal papillae develop in the
human fetus, the ridge patterns will
remain unchanged throughout life
except to enlarge during growth.

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 Principle Two

Each skin ridge is populated with pores
leading to sweat glands, from which
perspiration is deposited on the skin.

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 Principle Two

Once the finger touches a surface,
perspiration, along with oils that may
have been picked up by touching the
hairy portions of the body, is transferred
onto that surface, leaving the finger’s
ridge pattern (a fingerprint). Pints
deposited in this manner are invisible to
the eye and are commonly referred to a
latent fingerprints.

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FIGURE 6–3 Cross-section of human skin.

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 Principle Three

All fingerprints are divided into three
classes on the basis of their general
pattern: loops, arches, and whorls
(L.A.W.).
60-65% of the population have loops,
30-35% have whorls, and about 5%
have arches.

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 Loops

A loop must have one or more ridges
entering from one side of the print,
recurving, and exiting from the same
side.
 If the loop opens toward the little finger,
it is called an ulnar loop.
 If the loop opens toward the thumb, it is
called a radial loop.

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 Loops

The pattern area of the loop is
surrounded by two diverging ridges
known as type lines.
The ridge point at or nearest the point
where two type lines diverge is known
as the delta. All loops must have one
delta.
The approximate center of the loop
pattern is known as the core.
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 Principle Three

All loops must have one delta, which is
the ridge point at or directly in front of
the point where two ridge lines (type
lines) diverge.

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FIGURE 6–5 Loop pattern.

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 Whorls

Whorls are divided into four groups:
plain, central pocket loop, double loop,
and accidental.
All whorl patterns have type lines and a
minimum of two deltas.

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 Whorls

A plain whorl and a central pocket loop
have at least one ridge that makes a
complete circuit.
 If an imaginary line drawn between the
two deltas within these patterns touches
any of the circular ridges, the pattern is
a plain whorl. If no such ridge is
touched, the pattern is a central pocket
loop.

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 Whorls

The double loop is made up of two
loops combined into one fingerprint.
An accidental either contains two or
more patterns, or is a pattern not
covered by the other categories. Hence,
an accidental may consist of a
combination loop and plain whorl or
loop and tented arch.

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 Principle Three

Whorls are divided into four groups:
plain, central pocket loop, double loop,
and accidental.
All whorl patterns have type lines and a
minimum of two deltas.

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FIGURE 6–6 Whorl patterns.

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 Arches

Arches, the least common of the three
general patterns, are divided into two
distinct groups: plain arches and tented
arches.
The plain arch is formed by ridges
entering from one side of the print,
rising and falling, and exiting on the
opposite side (like a wave).

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 Arches

The tented arch is similar to the plain
arch except that instead of rising
smoothly at the center, there is a sharp
upthrust or spike, or the ridges meet at
an angle that is less than 90 degrees.
Arches do not have type lines, deltas,
or cores.

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FIGURE 6–7 Arch patterns.

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 ACE-V

A four-step process to identify and
individualize a finger print:
1. Analysis
2. Comparison: compare the questioned
print at (3) levels.
3. Identify
4. Verification: examiner’s conclusion is
confirmed by a second examiner.

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 ACE-V

Level 1 encompasses the general ridge
flow and pattern configuration.
Level 2 includes locating and comparing
ridge characteristics or minutiae.
Level 3 includes the examination and
location of ridge pores, breaks, creases,
scars, and other permanent minutiae.

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 Primary Classification

Fingerprint classification systems are
based on knowledge of fingerprint
pattern classes.
The presence or absence of the whorl
pattern is the basis for the
determination of the primary
classification.

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 Primary Classification

If a whorl pattern is found on any finger
of the first pair, it is assigned a value of
16; on the second pair, an 8; on the
third pair, a 4; on the second pair, a 2;
and on the last pair, a 1.
Any finger having a loop or arch is
assigned a 0.

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 Primary Classification

After values for all 10 fingers are
obtained, they are totaled, and a 1 is
added to both the numerator and
denominator.
The fraction thus obtained is the
primary classification.

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 Primary Classification

Approximately 25% of the population
falls into the 1/1 category; that is, all
their fingers have either loops or
arches.

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 Primary Classification

A fingerprint classification system
cannot in itself unequivocally identify
an individual; it will merely provide the
fingerprint examiner with a number of
candidates, all of whom have an
indistinguishable set of prints in the
system’s file.

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 AFIS

The heart of AFIS technology is the
ability of a computer to scan and
digitally encode fingerprints so that
they can be subject to high-speed
computer processing.

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 AFIS

AFIS aids in classifying and retrieving
fingerprints by converting the image of
a fingerprint into digital minutiae that
contain data showing ridges at their
points of termination (ridge endings)
and their branching into two ridges
(bifurcations).

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 AFIS

When the search is complete (a
computer can make thousands of
comparisons per second), the computer
produces a list of file prints that must
be examined by a trained fingerprint
expert.

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 AFIS

AFIS systems come in all sizes allowing
for the creation of local systems at the
country and city levels.
Software incompatibilities often mean
that state and local AFIS systems
cannot communicate with each other
and share information.

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 Latent Prints

Once the finger touches a surface, body
perspiration and/or oils present on the
finger ridges are transferred to that
surface, leaving an impression.
Prints deposited in this manner are
invisible to the eye and are commonly
referred to as latent or invisible
fingerprints.

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 Visible Prints

Visible prints are made when fingers
touch a surface after the ridges have
been in contact with a colored material
such as blood, paint, grease, or ink.
Plastic prints are ridge impressions left
on a soft material, such as putty, wax,
soap, or dust.

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 Visible Prints

Locating visible or plastic prints at the
crime scene normally presents little
problem to the investigator, because
these prints are usually distinct and
visible to the eye.

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Detecting Prints on Non-Porous
Surfaces
Latent prints deposited on hard and
nonabsorbent surfaces (e.g., glass,
mirror, tile, and painted wood) are
preferably developed by the application
of a powder; whereas prints on porous
surfaces (e.g., papers, cardboard, and
cloth) generally require treatment with
a chemical.

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Detecting Prints on Non-Porous
Surfaces
Powders, available in a variety of colors,
can be applied with a brush or magnetic
wand, and adhere to perspiration
and/or body oils of the print. Most
common are black powders (black
carbon) and gray powders (aluminum
dust).

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Detecting Prints on Non-Porous
Surfaces
Super Glue® is approximately 98 to 99
percent cyanoacrylate ester, a chemical
that actually interacts with and
visualizes a latent fingerprint.

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Detecting Prints on Non-Porous
Surfaces
Super Glue® fuming develops latent
prints on nonporous surfaces, such as
metals, electrical tape, leather, and
plastic bags.
 Development occurs when fumes from
the glue adhere to the print, usually
producing a white latent print.

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Detecting Prints on Non-Porous
Surfaces
Super Glue® fuming can be
accomplished by using either a fuming
chamber (for up to six hours) or a
handheld wand that heats a small
cartridge containing cyanoacrylate.

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Detecting Prints on Non-Porous
Surfaces
Fingerprints are treated with chemicals
that would induce fluorescence when
exposed to lasers or high-intensity light
sources (“alternate light sources”) such
as quartz halogen, xenon arc, or indium
arc light sources.

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Detecting Prints on Non-Porous
Surfaces
Dye combinations known as RAM, RAY,
and MRM 10, when used in conjunction
with Super Glue fuming, have been
effective in visualizing latent
fingerprints by fluorescence.

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 Detecting Prints on Porous
Surfaces
Examiners use various chemical
methods to visualize latent prints on
porous surfaces, such as iodine fuming,
ninhydrin, and Physical Developer.

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 Detecting Prints on Porous
Surfaces
Iodine fuming involves heating iodine
crystals that cause vapors which
combine with latent prints to make
them visible.
 Iodine prints are not permanent and will
fade, making it necessary to photograph
the prints immediately.

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 Detecting Prints on Porous
Surfaces
Ninhydrin reacts chemically with trace
amounts of amino acids present in
latent prints to produce a purple-blue
color. It’s the chemical method of
choice.

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 Detecting Prints on Porous
Surfaces
Physical Developer is a silver-nitrate-
based reagent used to develop prints
when other chemical methods are
ineffective. It is also useful for
developing prints on porous objects
that may have been wet at one time.

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 Detecting Prints on Porous
Surfaces
If one wants to use all of the three
chemical methods on the same surface,
it is necessary to first fume with iodine,
then treat with ninhydrin, and then
apply physical developer.

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 Preserving Prints

If the object is small enough to be
transported without destroying the
print, it should be preserved in its
entirety.
A photograph must be taken before any
attempts at preservation are made.

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 Preserving Prints

Prints on large immovable objects that
have been developed with a powder
can best be preserved by “lifting” with
a broad adhesive tape.
Then the tape is placed on a properly
labeled card that provides a good
background contrast with the powder.

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 Digital Imaging

Digital imaging is the process by which
a picture is converted into a digital
computer file.
With the help of digital imaging
software, fingerprints, which are often
not in perfect condition, can now be
enhanced for the most accurate and
comprehensive analysis.

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 Digital Imaging

An important and useful tool, especially
for fingerprint identification, is the
“compare” function that places two
images side by side and allows the
examiner to chart the common features
on both images simultaneously.

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