Glove prints

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Glove prints, also sometimes described as gloveprints or glove marks, are latent, fingerprint-like impressions that are transferred to a surface or object by an individual who is wearing gloves.

Contents

Criminals often wear gloves to avoid leaving fingerprints, which makes the investigation of crimes more difficult. Although the gloves act as a protective covering for the wearer's prints, the gloves themselves can leave prints that are sometimes unique like human fingerprints, thus betraying the wearer. After collecting glove prints, law enforcement can then match them to gloves that they have collected as evidence as well as glove prints retrieved from other crime scenes. [1]

History

Since the advent of fingerprint detection, many criminals have resorted to the wearing of gloves during the commission of their crimes in order to avoid leaving their fingerprints as evidence. In the era prior to contemporary advances in forensic science, the simple act of covering the hands often assured criminal assailants their anonymity if no witnesses were present during their offenses; thus a pair of gloves became the most essential and crucial tool for any successful perpetrator. [2]

In earlier decades, investigators would dust for fingerprints only to find smears and smudges caused by gloves. Often in earlier decades these smudges were ignored because very little of their detail was retrievable. With the advent of latent fingerprint detection in the late 20th century, investigators started to collect, analyze, and record prints left at crime scenes that were created by the wearing of gloves. Glove prints can be as simple as marks caused by seams or folds in fabric of a glove, or they can be as complex as marks left behind by the grain or texture of the fabric of a glove. When gloves are collected as evidence their prints can be taken and compared to glove prints that were taken at crime scenes or from evidence. [3]

Offenders who wear gloves tend to use their hands and fingers very freely, and thus, because their gloves give them a false sense of protection, leave easily distinguishable glove prints on the surfaces they handle. If when either a fingerprint is able to pass through a glove, or when, because of holes in a glove, finger and glove prints appear together, investigators are now able to better distinguish between prints made by friction ridges and prints made by gloves. Many times this also happens because criminals also opt to wear gloves that are both tight-fitting and relatively short, which makes the occurrence of prints being made by the butt of the palm and the wrist (palm prints) more common as the gloves may slip, thus exposing areas of the skin that may leave prints. [4] Also, many times criminals would discard their gloves at crime scenes or hide them nearby. Today, latent fingerprints (first discovered on the surfaces of fabrics by investigators in the 1930s), [5] as well as DNA and incriminating bacteria can also be recovered from the inside of these discarded gloves. [6] [7]

In many jurisdictions the act of wearing gloves itself while committing a crime can be prosecuted as an inchoate offense. [8]

By the 1950s, after over a half century of frustration due to the wearing of gloves by assailants, fingerprint experts began studies to determine how it may be feasible to detect and compare glove prints found at crime scenes. [9]

In 1971, the Metropolitan Police Service of London, England claims the first (or one of the first) convictions based on glove print-evidence. Glove-prints were found on a broken window and were later matched to the gloves of a suspect. [10]

In 2005, a German forensic scientist and engineer carried out various empirical studies on glove prints. The manufacturing engineer carried out basic research into the manufacturing techniques of gloves to determine individual and functional characteristics of the glove surfaces. This included purely textile gloves, coated textile gloves (also dotted gloves), as well as gloves made of dipping forms and leather or artificial leather gloves, together with combinations of the aforementioned surfaces. He also developed the anatomical effects of the hand when creating glove prints. At the same time, many Landeskriminalamt began to transfer glove prints into their databases of traces. Since 2012, glove prints are an inherent part of the education of forensic experts at the Bundeskriminalamt (Germany) (Division KT – Forensic Science Institute). [11]

Starting in early 2009, law enforcement in Derbyshire, East Midlands, England began uploading hundreds of files of collected glove prints into their criminal database. Glove Print Database to help Police in their fight against crime The Glove Mark Working Group in Derbyshire includes the Derbyshire Police Department, the Home Office Scientific Development Branch, and Nottingham Trent University. [12]

With the belief that individual offenders possess preferences for specific types of gloves (style and fabric/material), forensic scientists have also used glove print databases to create complex computations and charts that isolate, geographically, "hot spots" where prints taken from specific types of gloves are matched against similar types of crimes. [13] Forensic scientists have even had success matching partial glove prints by using these databases and related software. [14] Offenders may prefer a specific type of glove depending on its perceived inherent benefits. Latex, nitrile, plastic, rubber, or vinyl gloves are worn because they are thin and cling to the wearer's skin which in turn provides a level of dexterity to the wearer. [15] Leather gloves possess pores that provides the wearer with an enhanced gripping ability. Leather gloves that are thin and tight-fitting provide both enhanced gripping and dexterity to the wearer. [16]

Prints from different glove types

Assailants may prefer thin latex gloves because their snug fit helps to maintain dexterity. This same thin and snugness may allow the wearer's fingerprints to pass through the material. When discovered by authorities, latent fingerprints may also be recovered from the inside of these gloves. Disposable gloves 09.JPG
Assailants may prefer thin latex gloves because their snug fit helps to maintain dexterity. This same thin and snugness may allow the wearer's fingerprints to pass through the material. When discovered by authorities, latent fingerprints may also be recovered from the inside of these gloves.
Lined leather gloves may leave a print that is as unique as a human fingerprint. When discovered by authorities, latent fingerprints may also be recovered from the inside of these gloves. Gloves2.jpg
Lined leather gloves may leave a print that is as unique as a human fingerprint. When discovered by authorities, latent fingerprints may also be recovered from the inside of these gloves.

Notable instances

Batting gloves usually include an unlined leather palm and a nylon or cotton back. For the same reason baseball players wear these gloves, to improve their grip while maintaining dexterity while batting, assailants wear these gloves as to maintain dexterity and be able to grip easily during their offenses. Batting gloves, by Kevin Favela.png
Batting gloves usually include an unlined leather palm and a nylon or cotton back. For the same reason baseball players wear these gloves, to improve their grip while maintaining dexterity while batting, assailants wear these gloves as to maintain dexterity and be able to grip easily during their offenses.

Related Research Articles

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References

  1. Sawer, Patrick (2008-12-13). "Police use glove prints to catch criminals". The Telegraph.
  2. Horace Cox, ed. (1905). The Law Times: The Journal and Record: The Law and The Lawyers. Vol. CXIX. London: The Law Times. p. 563.
  3. The gloves are off as Liane's unique technique helps to finger more thieves
  4. Fisher, Barry A.J. Techniques of Crime Scene Investigation. Boca Raton, CRC Press. 2004. ISBN   0-8493-1691-X
  5. "O'Dougherty Urges All Be Fingerprinted: U.S. Attorney Describes Sciences of Crime Detection to Democrats". The Brooklyn Daily Eagle. March 8, 1938. Retrieved July 1, 2014.
  6. http://www.csigizmos.com/products/latentdevelopment/gloves.html Archived 2013-04-27 at the Wayback Machine Visualization of latent fingerprints on used vinyl and latex gloves using Gellifters
  7. Khan, Amina (2010-04-07). "A hand in crime investigation". Los Angeles Times.
  8. James W.H. McCord and Sandra L. McCord, Criminal Law and Procedure for the paralegal: a systems approach, supra, p. 127.
  9. Svensson, Arne, and Otto Wendel. Crime Detection: Modern Methods of Criminal Investigation. Amsterdam, Elsevier Publishing Company. 1955. ASIN: B000J0034O
  10. Buckley, William Frank. National Review Bulletin, Volume 23: Page B-87. New York, 1971
  11. "Handschuhspuren".
  12. http://www3.ntu.ac.uk/apps/staff_profiles/staff_directory/125555-2/26/Emma_Rixon.aspx Archived 2014-02-06 at archive.today Emma Rixon: Lecturer/Senior Lecturer
  13. Forensic intelligence and crime analysis - Law, Probability and Risk
  14. http://www.forensicmag.com/product-releases/2013/04/software-module-evaluation-traces#.Ux0f8M6V7Sg Software Module for Evaluation of Traces
  15. http://www.glovemanufacturer.com/products/rubber-gloves Rubber Gloves
  16. http://www.makingrebeccalynne.com/2011/10/serial-killer-sewing-fmq-friday.html Serial Killer Sewing: FMQ Friday
  17. Luong, Susan; Roux, Claude (2009). "Marks or Impressions of Manufactured Items". Wiley Encyclopedia of Forensic Science. doi:10.1002/9780470061589.fsa362. ISBN   978-0-470-01826-2.
  18. Pepper IK. Crime scene investigation: methods and procedures. Maidenhead (UK): Open University Press; 2010.
  19. Paulis, Melad G. (29 November 2019). "What can glove impression evidence reveal about assailants? A pilot study". Forensic Sciences Research. 7 (1): 29–39. doi:10.1080/20961790.2019.1684642. PMC   8942492 . PMID   35341130. S2CID   214257256.
  20. http://www.chacha.com/question/do-latex-gloves-conceal-fingerprints%3F-if-so%2C-why Archived 2014-07-14 at the Wayback Machine Do latex gloves conceal fingerprints? If so, Why?
  21. 1 2 "Personal Identification: Fingerprints". scienceman.org. Archived from the original on 2009-05-22. Retrieved 2012-12-14.
  22. Wiggins, Cierra; Reitnauer, Andrew R. (Winter 2019). "Comparative Study of the Development of Latent Impressions on Gloves". Evidence Technology Magazine.
  23. Pleckaitis, John (2007). "Developing Friction Ridge Detail on the Interior of Latex and Nitrile Gloves". Journal of Forensic Identification. 57 (2): 230–239. OCLC   206265616.
  24. Pressly, Jason (1999). "Ninhydrin on latex gloves: An alternative use for an old technique". Journal of Forensic Identification. 49 (3): 257–260.
  25. Lahm, Cathryn; Reitnauer, Andrew (2015). "The Use of Colored Barrier Filters in Forensic Photography". Fingerprint Whorld. 62: 158.
  26. Arbeli, Tomer; Liptz, Yakir; Bengiat, Ravell; Levin-Elad, Michal (November 2017). "Development of fingermarks on Latex gloves: The solution to a challenging surface". Forensic Science International. 280: 147–152. doi:10.1016/j.forsciint.2017.09.015. PMID   29031159.
  27. http://tombguard.org/society/faq/ SOCIETY OF THE HONOR GUARD: Frequently Asked Questions
  28. http://gripswell.com/faq.php Frequently Asked Questions
  29. "Crime Labs". mitchpileggi.net. Archived from the original on 2012-07-13. Retrieved 2012-05-22.
  30. http://onin.com/fp/lpcollection.html Latent Print Evidence Collection Guidance...
  31. http://www.leagle.com/xmlResult.aspx?page=2&xmldoc=1993387187AD2d200_1355.xml&docbase=CSLWAR2-1986-2006&SizeDisp=7 PEOPLE v. QUARLES: 187 A.D.2d 200 (1993): Appellate Division of the Supreme Court of the State of New York, Fourth Department: February 5, 1993
  32. In the Court of Appeals of Georgia: A13A2296. MASON v. THE STATE
  33. http://www.clpex.com/Articles/TheDetail/1-99/TheDetail52.htm Glove Analysis Using ACE-V and Adobe Photoshop
  34. Madison Heights teenager charged in home break-ins
  35. http://www.azcentral.com/12news/news/articles/2011/05/27/20110527rock-burglar-arrest-arizona.html Sheriff's Office: Suspected 'rock burglar' arrested in Phoenix
  36. http://www.in.gov/judiciary/opinions/pdf/05211402nhv.pdf Jacob Herron v. State of Indiana - IN.gov
  37. https://web.archive.org/web/20140221014136/http://www.torontosun.com/2013/12/06/high-river-gun-grab-a-massive-breach-of-civil-rights High River Gun Grab a massive breach of civil rights

Further reading