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Forensic Science: Fundamentals & Investigations, Chapter 6 1 Chapter 6 Fingerprints By the end of this chapter you will be able to: discuss the history of fingerprinting describe the characteristics of fingerprints and fingerprinting minutiae explain when and how fingerprints are formed describe what causes fingerprints to be left on objects identify the basic types of fingerprints describe how criminals attempt to alter their fingerprints All Rights Reserved South-Western / Cengage Learning © 2009
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Forensic Science: Fundamentals & Investigations, Chapter 6 2 Chapter 6 Fingerprints By the end of this chapter you will be able to: determine the reliability of fingerprints as a means of identification describe the Integrated Automated Fingerprint Identification System (IFAIS) explain how fingerprint evidence is collected describe the latest identification technologies determine if a fingerprint matches a fingerprint on record use the process of lifting a latent print
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Forensic Science: Fundamentals & Investigations, Chapter 6 3 Historical Development 1. The oldest known documents showing fingerprints date from third century B.C. China. 2. In ancient Babylon (dating back to 1792-1750 B.C.), fingerprints pressed into clay tablets marked contracts. 3. The earliest written study (1684) is Dr. Nehemiah’s paper describing the patterns he saw on human hands under a microscope, including the presence of ridges. 4. In 1788, Johann Mayer noted that the arrangement of skin ridges is never duplicated in two persons. He was probably the first scientist to recognize this fact.
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Forensic Science: Fundamentals & Investigations, Chapter 6 4 Historical Development 5.Nine fingerprint patterns were described in 1823 by Jan Evangelist Purkyn. 6.Sir William Herschel (shown at the right), in 1856, began the collection of fingerprints and noted they were not altered by age. 7.Alphonse Bertillon created a way to identify criminals that was used in 1883 to identify a repeat offender. 8.In 1888, Sir Francis Galton (shown at the right), and Sir Edmund Richard Henry, developed the fingerprint classification system that is still in use in the United States.
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Forensic Science: Fundamentals & Investigations, Chapter 6 5 Historical Development 9.In 1891, Iván (Juan) Vucetich improved fingerprint collection. He began to note measurements on identification cards, as well as adding all ten fingerprint impressions. He also invented a better way of collecting the impressions. 10.Beginning in 1896, Sir Henry (mentioned in the last entry on the previous slide), with the help of two colleagues, created a system that divided fingerprints into groups. Along with notations about individual characteristics, all ten fingerprints were imprinted on a card (called a ten card).
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Forensic Science: Fundamentals & Investigations, Chapter 6 6 What Are Fingerprints? All fingers, toes, feet, and palms are covered in small ridges. These ridges are arranged in connected units called dermal, or friction, ridges. These ridges help us get or keep our grip on objects. Natural secretions plus dirt on these surfaces leave behind an impression (a print) on those objects with which we come in contact.
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Forensic Science: Fundamentals & Investigations, Chapter 6 7 Formation of Fingerprints An animal’s external tissue (skin) consists of (a) an inner dermis and (b) an outer epidermis. The creation of fingerprints occurs in a special layer (the basal layer) in the epidermis where new skin cells are produced. Fingerprints probably begin forming at the start of the 10 th week of pregnancy. Because the basal layer grows faster than the others, it collapses, forming intricate shapes.
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Forensic Science: Fundamentals & Investigations, Chapter 6 8 Characteristics of Fingerprints There are 3 general fingerprint distinctions: ARCH WHORL LOOP About 5% About 30% About 65% of the population
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Forensic Science: Fundamentals & Investigations, Chapter 6 9 Characteristics of Fingerprints Forensic examiners look for the presence of a core (the center of a whorl or loop) and deltas (triangular regions near a loop). A ridge count is another characteristic that distinguishes one fingerprint from another. The count is made from the center of the core to the edge of the delta.
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Forensic Science: Fundamentals & Investigations, Chapter 6 10 Basic patterns can be further divided: – Arch patterns can be plain (4%) or tented (1%). Comes to a sharp point, and almost has a delta in the middle
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11 Whorl patterns can be plain (24%) central pocket (2%), double loop (4%), or accidental (0.01%). A plain whorl is a fingerprint pattern that includes a completely closed off circle. A central pocket loop pattern on a finger is like a plain whorl, but the design isn't symmetrical and completely closed off. They are often tilted to the side.
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12 The double-loop pattern looks like an "S" and is basically two loops facing inwards toward each other. Accidental whorls consist of two different types of patterns with the exception of the plain arch, have two or more deltas or a pattern which possess some of the requirements for two or more different types or a pattern which conforms to none of the definitions. Whorl patterns continued
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Whorl patterns Forensic Science: Fundamentals & Investigations, Chapter 6 13
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14 Loop patterns can be radial ( 4%) or ulnar (61%),
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Forensic Science: Fundamentals & Investigations, Chapter 6 15 Fingerprints form as early as 10 weeks
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Forensic Science: Fundamentals & Investigations, Chapter 6 16 Even twins have unique fingerprints due to small differences (called minutiae) in the ridge patterns. Identification points consist of bifurcations, ending ridges, dots, ridges and islands. A single rolled fingerprint may have as many as 100 or more identification points that can be used for identification purposes.
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Forensic Science: Fundamentals & Investigations, Chapter 6 17 The type and location of minutiae in the ridge patterns are both used in identification
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Forensic Science: Fundamentals & Investigations, Chapter 6 18 Several features must match to make a positive identification, just matching patterns is NOT enough! There is no set number of matching features required, but the more there are the better the match is. If there is even one feature that does not seem to match, there is NO identification made.
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Forensic Science: Fundamentals & Investigations, Chapter 6 19 Types of Fingerprints There are 3 types of prints that investigators look for at crime scenes: 1. Patent fingerprints are visible prints transferred onto smooth surfaces by blood or other liquids. 2. Plastic fingerprints are indentations left in soft materials such as clay or wax. 3. Latent fingerprints are not visible but made so by dusting with powders or the use of chemicals.
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Forensic Science: Fundamentals & Investigations, Chapter 6 20 Fingerprint Forensic FAQs Can fingerprints be erased? No, if, for example, they are removed with chemicals, they will grow back. Is fingerprint identification reliable? Yes, but analysts can make mistakes. Is fingerprint matching carried out by computers in a matter of seconds? No, but the FBI’s Integrated Automated Fingerprint Identification System (IAFIS or AFIS) can provide a match in 2 hours for the prints in its Master File.
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Forensic Science: Fundamentals & Investigations, Chapter 6 21 Fingerprint Forensic FAQs How are latent fingerprints collected?
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Forensic Science: Fundamentals & Investigations, Chapter 6 22 The Future of Fingerprinting New scanning technologies and digitally identifying patterns may eliminate analytical mistakes. Trace elements of objects that have been touched are being studied to help with the identification of individuals. To help with identification, other physical features such as eyes and facial patterns are also being studied.
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Forensic Science: Fundamentals & Investigations, Chapter 6 23................. Summary................. Summary Fingerprints have long been used for identification, and in the mid-1800s were recognized as unique to each person. Three main groups include arches, whorls, and loops. Basic analysis includes looking for cores, deltas, and making a ridge count. Investigators search for patent, plastic, and latent prints. Dusting with powders or using special chemicals can make latent fingerprints visible. New developments may eliminate errors by analysts.
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