Lead–crime hypothesis: Difference between revisions

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[[File:Gas pump lead warning.jpg|thumb|right|300px|This warning on an old [[Lynnwood, Washington]] fuel pump notes how it used to dispense [[gasoline]] with [[tetraethyllead]] additives.]]
{{short description|Association of blood lead levels with criminal behavior}}
{{use mdy dates |date=April 2021}}
[[File:Gas pump lead warning.jpg|thumb|right|300px|An American fuel pump that dispensed [[gasoline]] with [[tetraethyllead]] additives.]]


After decades of increasing [[crime]] across the industrialised, world crime rates started to decline sharply in the 1990s, a trend that continued into the new millennium. Many explanations have been proposed, including [[situational crime prevention]] and interactions between many other factors [[Causality#Statistics and economics|complex, multifactorial causation]].<ref name=Reyes/>
The '''lead–crime hypothesis''' is a research area that involves a study of the [[correlation]] between elevated [[blood lead level]]s in children and increased rates of crime, delinquency, and recidivism later in life.<ref name=":4">{{Cite journal|last1=Stretesky|first1=Paul B.|last2=Lynch|first2=Michael J.|date=2004|title=The Relationship between Lead and Crime|journal=Journal of Health and Social Behavior|volume=45|issue=2|pages=214–229|doi=10.1177/002214650404500207|pmid=15305761|s2cid=38272708|issn=0022-1465}}</ref><ref>{{Cite journal|last=Nevin|first=Rick|date=2007|title=Understanding international crime trends: The legacy of preschool lead exposure|journal=Environmental Research|volume=104|issue=3|pages=315–336|doi=10.1016/j.envres.2007.02.008|pmid=17451672|issn=0013-9351|bibcode=2007ER....104..315N|url=https://mpra.ub.uni-muenchen.de/35338/1/MPRA_paper_35338.pdf}}</ref><ref name=":5">{{Cite journal|last1=Marcus|first1=David K.|last2=Fulton|first2=Jessica J.|last3=Clarke|first3=Erin J.|date=2010-02-26|title=Lead and Conduct Problems: A Meta-Analysis|journal=Journal of Clinical Child & Adolescent Psychology|volume=39|issue=2|pages=234–241|doi=10.1080/15374411003591455|pmid=20390814|s2cid=30765610|issn=1537-4416}}</ref><ref name=":6">{{Cite journal|last1=Wright|first1=John Paul|last2=Dietrich|first2=Kim N|last3=Ris|first3=M. Douglas|last4=Hornung|first4=Richard W|last5=Wessel|first5=Stephanie D|last6=Lanphear|first6=Bruce P|last7=Ho|first7=Mona|last8=Rae|first8=Mary N|date=2008-05-27|title=Association of Prenatal and Childhood Blood Lead Concentrations with Criminal Arrests in Early Adulthood|journal=PLOS Medicine|volume=5|issue=5|pages=e101|doi=10.1371/journal.pmed.0050101|pmid=18507497|pmc=2689664|issn=1549-1676}}</ref><ref>{{cite web |url=https://www.firstcoastnews.com/article/news/local/jacksonville-florida-attorney-says-lead-poisoning-may-explain-some-criminal-behavior/77-5a01b4fe-e96a-4f9a-96b9-01fad2915543 |title=Jacksonville attorney says lead poisoning may explain some criminal behavior |last=Amaro |first=Ken |date=March 23, 2021 |website=First Coast News WTLV-WJXX |publisher=TEGNA and NBC |access-date=March 29, 2021 |quote=Now, environmental hazards like lead poisoning are being included in the mitigation package to win mercy and a reduced sentence.}}</ref><ref>{{cite web |url=https://jjie.org/2021/03/22/florida-attorney-believes-lead-poisoning-is-partial-explanation-for-low-income-neighborhood-crimes/ |title=Florida Attorney Believes Lead Poisoning Is Partial Explanation For Low-income Neighborhood Crimes |last=Goforth |first=Claire |date=March 22, 2021 |website=Institute for Nonprofit News. |publisher=Juvenile Justice Information Exchange |access-date=March 29, 2021 |quote=Much of the evidence to reduce his sentence, known as a mitigation package, is familiar to people in the criminal justice field — child abuse, abandonment, poverty and, of course, youth. One argument stands out from the rest: lead poisoning.}}</ref>


Lead is [[Lead poisoning|widely understood to be toxic]] to multiple organs of the human body, particularly the [[human brain]]. Concerns about even low levels of exposure began in the 1970s; in the decades since, scientists have concluded that no safe threshold for lead exposure exists.<ref name=Pediatrics>{{cite journal|last1=Dapul|first1=Dr. Heda|last2=Laraque|first2=Dr. Danielle|title=Lead Poisoning in Children|journal=Advances in Pediatrics|date=August 2014|volume=61|issue=1|pages=313–333|url=http://www.advancesinpediatrics.com/article/S0065-3101(14)00016-4/abstract|accessdate=30 November 2016}}</ref><ref name=UN/>
Lead is widely understood to be highly [[Lead poisoning|toxic]] to multiple organs of the body,<ref>{{Cite web|url=https://www.atsdr.cdc.gov/csem/csem.asp?csem=34&po=0|title=Lead (Pb) Toxicity: Key Concepts {{!}} ATSDR - Environmental Medicine & Environmental Health Education - CSEM|last=ATSDR|website=www.atsdr.cdc.gov|language=en-US|access-date=2018-10-18}}</ref> particularly the [[brain]].<ref name=":2">{{Cite journal|last1=Stewart|first1=W. F.|last2=Schwartz|first2=B. S.|last3=Davatzikos|first3=C.|last4=Shen|first4=D.|last5=Liu|first5=D.|last6=Wu|first6=X.|last7=Todd|first7=A. C.|last8=Shi|first8=W.|last9=Bassett|first9=S.|date=2006-05-22|title=Past adult lead exposure is linked to neurodegeneration measured by brain MRI|journal=Neurology|volume=66|issue=10|pages=1476–1484|doi=10.1212/01.wnl.0000216138.69777.15|pmid=16717205|issn=0028-3878|citeseerx=10.1.1.408.1953|s2cid=14946219}}</ref><ref name=":3">{{Cite journal|last1=Cecil|first1=Kim M|last2=Brubaker|first2=Christopher J|last3=Adler|first3=Caleb M|last4=Dietrich|first4=Kim N|last5=Altaye|first5=Mekibib|last6=Egelhoff|first6=John C|last7=Wessel|first7=Stephanie|last8=Elangovan|first8=Ilayaraja|last9=Hornung|first9=Richard|date=2008-05-27|title=Decreased Brain Volume in Adults with Childhood Lead Exposure|journal=PLOS Medicine|volume=5|issue=5|pages=e112|doi=10.1371/journal.pmed.0050112|pmid=18507499|pmc=2689675|issn=1549-1676}}</ref><ref>{{Cite journal|last1=Sanders|first1=T.|last2=Liu|first2=Y.|last3=Buchner|first3=V.|last4=Tchounwou|first4=P.B.|date=January 2009|title=Neurotoxic Effects and Biomarkers of Lead Exposure: A Review|journal=Reviews on Environmental Health|volume=24|issue=1|pages=15–45|doi=10.1515/reveh.2009.24.1.15|pmc=2858639|issn=2191-0308|pmid=19476290}}</ref> Individuals exposed to [[lead]] at young ages are more vulnerable to [[learning disabilities]],<ref>{{Cite journal|last1=Leviton|first1=A.|last2=Bellinger|first2=D.|last3=Allred|first3=E.N.|last4=Rabinowitz|first4=M.|last5=Needleman|first5=H.|last6=Schoenbaum|first6=S.|date=1993|title=Pre- and Postnatal Low-Level Lead Exposure and Children′s Dysfunction in School|journal=Environmental Research|volume=60|issue=1|pages=30–43|doi=10.1006/enrs.1993.1003|pmid=7679348|issn=0013-9351|bibcode=1993ER.....60...30L}}</ref><ref>{{Citation|last1=Caito|first1=Samuel|title=Developmental Neurotoxicity of Lead|volume=18|date=2017|journal=Advances in Neurobiology|pages=3–12|publisher=Springer International Publishing|isbn=9783319601885|last2=Aschner|first2=Michael|doi=10.1007/978-3-319-60189-2_1|pmid=28889260}}</ref> decreased [[Intelligence quotient|I.Q.]],<ref>{{Cite journal|last1=Lanphear|first1=Bruce P.|last2=Hornung|first2=Richard|last3=Khoury|first3=Jane|last4=Yolton|first4=Kimberly|last5=Baghurst|first5=Peter|last6=Bellinger|first6=David C.|last7=Canfield|first7=Richard L.|last8=Dietrich|first8=Kim N.|last9=Bornschein|first9=Robert|date=2005|title=Low-Level Environmental Lead Exposure and Children's Intellectual Function: An International Pooled Analysis|journal=Environmental Health Perspectives|volume=113|issue=7|pages=894–899|doi=10.1289/ehp.7688|pmid=16002379|pmc=1257652|issn=0091-6765}}</ref> [[attention deficit hyperactivity disorder]],<ref>{{Cite journal|title=Exposures to Environmental Toxicants and Attention Deficit Hyperactivity Disorder in U.S. Children|last=P.|first=Braun, Joe M. Kahn, Robert S. Froehlich, Tanya Auinger, Peggy Lanphear, Bruce|journal=Environmental Health Perspectives|date=2006|volume=114|issue=12|pages=1904–1909|publisher=National Institute of Environmental Health Sciences|doi=10.1289/ehp.9478|pmid=17185283|pmc=1764142|oclc=678275247}}</ref><ref>{{Cite journal|last=Bellinger|first=David C|date=2008-05-27|title=Neurological and Behavioral Consequences of Childhood Lead Exposure|journal=PLOS Medicine|volume=5|issue=5|pages=e115|doi=10.1371/journal.pmed.0050115|pmid=18507501|pmc=2689677|issn=1549-1676}}</ref> and problems with [[impulse control]],<ref>{{Cite journal|last=Liu|first=Jianghong|date=2011|title=Early health risk factors for violence: Conceptualization, evidence, and implications|journal=Aggression and Violent Behavior|volume=16|issue=1|pages=63–73|doi=10.1016/j.avb.2010.12.003|pmid=21399727|pmc=3052794|issn=1359-1789}}</ref> all of which may negatively impact decision-making and lead to the commission of more crimes as these children reach adulthood, especially [[violent crime]]s.<ref>{{Cite journal|last1=Olympio|first1=Kelly Polido Kaneshiro|last2=Gonçalves|first2=Claudia|last3=Günther|first3=Wanda Maria Risso|last4=Bechara|first4=Etelvino José Henriques|date=2009|title=Neurotoxicity and aggressiveness triggered by low-level lead in children: a review|journal=Revista Panamericana de Salud Pública|volume=26|issue=3|pages=266–75|doi=10.1590/s1020-49892009000900011|pmid=20058837|issn=1020-4989|doi-access=free}}</ref>


Proponents of the lead–crime hypothesis argue that the removal of [[Tetraethyllead#In motor fuel|lead additives from motor fuel]], and the consequent decline in children's lead exposure, explains [[Crime drop|the fall]] in [[crime rates in the United States]] beginning in the 1990s.{{refn|name=Doleac}} This hypothesis also offers an explanation of the earlier rise in crime in the preceding decades as the result of increased lead exposure throughout the mid-20th century.<ref name="Steel">{{cite book |last1=Steel |first1=Daniel |display-editors=etal |editor1-last=Chao |editor1-first=Hsiang-Ke |title=Mechanism and Causality in Biology and Economics |date=2013 |publisher=Springer Science & Business Media |isbn=978-9-40-072454-9 |page=188 |chapter-url=https://books.google.com/books?id=Bf40AAAAQBAJ&q=lead&pg=PA188 |chapter=Mechanisms and Extrapolation in the Abortion-Crime Controversy}}</ref>
The major source of lead exposure during the 20th century was [[leaded gasoline]]. Proponents of the lead-crime hypothesis argue that the removal of lead additives from motor fuel, and the consequent decline in children's lead exposure, explains the fall in [[crime rates in the United States]] beginning in the 1990s.{{refn|name=Doleac}} This hypothesis also offers an explanation of the {{em|rise}} in crime in the preceding decades as the result of increased lead exposure throughout the mid-20th century.<ref name="Steel">{{cite book |last1=Steel |first1=Daniel |display-editors=etal |editor1-last=Chao |editor1-first=Hsiang-Ke |title=Mechanism and Causality in Biology and Economics |date=2013 |publisher=Springer Science & Business Media |isbn=978-9-40-072454-9 |page=188 |chapterurl=https://books.google.com/books?id=Bf40AAAAQBAJ&pg=PA188&dq=lead |chapter=Mechanisms and Extrapolation in the Abortion-Crime Controversy}}</ref>


The lead-crime hypothesis is not mutually exclusive with other explanations of the drop in US crime rates such as the [[legalized abortion and crime effect]].{{refn|name=Steel}} The difficulty in measuring the effect of lead exposure on crime rates is in separating the effect from other indicators of [[poverty]] such as poorer schools, nutrition, and medical care, exposure to other pollutants, and other variables that may lead to crime.{{refn|name=Doleac}}
The lead–crime hypothesis is not mutually exclusive with other explanations of the drop in US crime rates<ref>{{Cite journal|last1=Farrell|first1=Graham|last2=Tilley|first2=Nick|last3=Tseloni|first3=Andromachi|date=2014|title=Why the Crime Drop?|journal=Crime and Justice|volume=43|issue=1|pages=421–490|doi=10.1086/678081|s2cid=145719976|issn=0192-3234|url=http://eprints.whiterose.ac.uk/97466/1/Farrell%20Tilley%20Tseloni%202014%20Why%20the%20Crime%20Drop%20%28C%26J%20vol43%29.pdf}}</ref><ref>{{Cite journal|last=Levitt|first=Steven D|date=2004|title=Understanding Why Crime Fell in the 1990s: Four Factors that Explain the Decline and Six that Do Not|journal=Journal of Economic Perspectives|volume=18|issue=1|pages=163–190|doi=10.1257/089533004773563485|issn=0895-3309|citeseerx=10.1.1.210.3073}}</ref> such as the [[legalized abortion and crime effect]].<ref>{{Cite journal|last1=Donohue|first1=J. J.|last2=Levitt|first2=S. D.|date=2001-05-01|title=The Impact of Legalized Abortion on Crime|journal=The Quarterly Journal of Economics|volume=116|issue=2|pages=379–420|doi=10.1162/00335530151144050|issn=0033-5533|citeseerx=10.1.1.205.9648}}</ref> Lead exposure during the years in question correlated with exposure to urban [[poverty]], due to close residential or primary school proximity with high-density motor vehicle traffic burning leaded gasoline or from residing in older, poorly maintained housing stock, much of which contained high levels of lead in the form of [[lead paint]], lead solder, or other lead-based building materials; additionally, municipalities with a low taxation base often continued to receive drinking water via degraded lead pipes rather than upgrading to modern infrastructure. The difficulty in measuring the effect of lead exposure on crime rates lies in separating the effect from other indicators of low [[socioeconomic status]] such as poorer schools, nutrition, and medical care, exposure to other pollutants, and other variables that are predictive of criminal behavior.<ref>{{Cite journal|last1=Ludwig|first1=J.|last2=Duncan|first2=G. J.|last3=Hirschfield|first3=P.|date=2001-05-01|title=Urban Poverty and Juvenile Crime: Evidence from a Randomized Housing-Mobility Experiment|journal=The Quarterly Journal of Economics|volume=116|issue=2|pages=655–679|doi=10.1162/00335530151144122|s2cid=7372118|issn=0033-5533|url=https://semanticscholar.org/paper/a44400d77440e4ec9c80eaa75642b8406820f1a8}}</ref><ref>{{Cite journal|last1=Hsieh|first1=Ching-Chi|last2=Pugh|first2=M. D.|date=1993|title=Poverty, Income Inequality, and Violent Crime: A Meta-Analysis of Recent Aggregate Data Studies|journal=Criminal Justice Review|volume=18|issue=2|pages=182–202|doi=10.1177/073401689301800203|s2cid=146740046|issn=0734-0168}}</ref><ref>{{Cite journal|last1=Cantor|first1=David|last2=Land|first2=Kenneth C.|date=1985|title=Unemployment and Crime Rates in the Post-World War II United States: A Theoretical and Empirical Analysis|journal=American Sociological Review|volume=50|issue=3|pages=317|doi=10.2307/2095542|issn=0003-1224|jstor=2095542}}</ref><ref>{{cite journal | last1 = Werbach | first1 = M | year = 1992 | title = Nutritional influences on aggressive behavior | journal = J Orthomol Med | volume = 7 | issue = 1| pages = 45–51 }}</ref>


==Background==
==Background and research==
===Usage of lead in modern history===
[[File:Symptoms of lead poisoning (raster).png|thumb|upright=1.3|Effects of lead on the human body.]]
[[Lead]], a naturally occurring [[metal]] of [[Lead#Physical|bluish-grey color]], has been used for multiple purposes in the history of human [[civilization]]. Advantages include being somewhat soft and pliable as well as resistant to [[corrosion]] compared to other metals. The widespread substance is also able to function as a shield against various forms of [[radiation]].<ref name=Pediatrics/>
{{main|Lead poisoning}}
[[Lead]] is a naturally occurring [[metal]] of bluish-grey color that has been used for multiple purposes in the history of human [[civilization]].<ref name=":1" /> Being soft and pliable, as well as resistant to [[corrosion]] compared to other metals, has resulted in lead being used for many different items across time. Some of the earliest items made from lead were beads and jewelry dating back to 7th millennium B.C.<ref>{{Cite journal|last=Terekhova|first=N. N.|date=1981|title=The History of Metalworking Production among the Ancient Agriculturalists of Southern Turkmenia|journal=Soviet Anthropology and Archeology|volume=19|issue=3–4|pages=313–324|doi=10.2753/aae1061-1959190304313|issn=0038-528X}}</ref> Its malleability made lead an ideal choice for the Romans to build pipes for transporting water.<ref>{{Cite journal|last=Hodge|first=A. Trevor|date=1981|title=Vitruvius, Lead Pipes and Lead Poisoning|journal=American Journal of Archaeology|volume=85|issue=4|pages=486–491|doi=10.2307/504874|issn=0002-9114|jstor=504874|s2cid=193094209 }}</ref><ref>{{Cite journal|last=Boeckx|first=Roger L.|date=1986|title=Lead poisoning in children|journal=Analytical Chemistry|volume=58|issue=2|pages=274A–[288A]|doi=10.1021/ac00293a001|issn=0003-2700|pmc=2060893|pmid=13230485}}</ref><ref>{{Cite journal|last1=Delile|first1=H.|last2=Blichert-Toft|first2=J.|author2-link=Janne Blichert-Toft|last3=Goiran|first3=J.-P.|last4=Keay|first4=S.|last5=Albarede|first5=F.|date=2014-04-21|title=Lead in ancient Rome's city waters|journal=Proceedings of the National Academy of Sciences|volume=111|issue=18|pages=6594–6599|doi=10.1073/pnas.1400097111|pmid=24753588|pmc=4020092|issn=0027-8424|bibcode=2014PNAS..111.6594D|doi-access=free}}</ref> Furthermore, [[Lead(II) acetate|lead acetate]] (also referred to as "sugar of lead") has been reported to have been used medicinally in the past.<ref>{{Cite book|title=Lead and lead poisoning in antiquity|last=O.|first=Nriagu, Jerome|date=1983|publisher=Wiley|isbn=978-0471087670|oclc=424313729}}</ref> However, it was also noted that exposure to lead may have health consequences. The botanist [[Nicander]] was one of the first to write about the uses of lead.<ref name=":1" /> [[Pedanius Dioscorides|Dioscorides]] would later report that "the mind gives way" in individuals exposed to lead.<ref name=":1" /> Nonetheless, despite the hazards posed by lead, its durability made it useful and it was added to items such as [[Lead glass|glass]], [[Lead paint|paint]],<ref>{{Cite journal|last=Warren|first=Christian|date=1999|title=Toxic Purity: The Progressive Era Origins of America's Lead Paint Poisoning Epidemic|journal=The Business History Review|volume=73|issue=4|pages=705–736|doi=10.2307/3116131|issn=0007-6805|jstor=3116131|s2cid=155757751 }}</ref> and eventually [[Leaded gasoline|gasoline]].<ref>{{Cite journal|last=Nriagu|first=Jerome O.|date=1990|title=The rise and fall of leaded gasoline|journal=Science of the Total Environment|volume=92|pages=13–28|doi=10.1016/0048-9697(90)90318-o|issn=0048-9697|bibcode=1990ScTEn..92...13N}}</ref><ref>{{Cite journal|last=Kovarik|first=William|date=2005|title=Ethyl-leaded Gasoline: How a Classic Occupational Disease Became an International Public Health Disaster|journal=International Journal of Occupational and Environmental Health|volume=11|issue=4|pages=384–397|doi=10.1179/oeh.2005.11.4.384|pmid=16350473|s2cid=44633845|issn=1077-3525}}</ref> The widespread substance is also able to function as a shield against various forms of [[radiation]].<ref name="Pediatrics">{{cite journal|last1=Dapul|first1=Dr. Heda|last2=Laraque|first2=Dr. Danielle|date=August 2014|title=Lead Poisoning in Children|url=http://www.advancesinpediatrics.com/article/S0065-3101(14)00016-4/abstract|journal=Advances in Pediatrics|volume=61|issue=1|pages=313–333|access-date=30 November 2016|doi=10.1016/j.yapd.2014.04.004|pmid=25037135}}</ref>


The use of leaded products such as lead paint and leaded gasoline have resulted in higher environmental levels of lead in the air and soil.<ref name=":0" /> Lead is also a stable element and does not break down in the environment, so it must be physically removed. Most cases of lead exposure occur via inhalation or ingestion, though transdermal exposure is also possible.<ref name=":0" /> Once in the body lead has a half-life of approximately 30 days if in the blood, but can remain in the body for 20 to 30 years if it has accumulated in bones and organs.<ref name=":0" /> Expanded scientific investigation into [[organolead chemistry]] and the varied ways in which human biology changes due to lead exposure took place throughout the 20th century. Although it has continued to be in wide use even into the 21st century, greater understanding of [[blood lead levels]] (BLLs) and other factors have meant that a new scientific consensus has emerged. No safe level of lead in the [[Blood|human bloodstream]] exists as such; any amount can contribute to [[Neurology|neurological]] problems and other health issues.<ref name="Morrissey">{{cite web |url=https://www.epa.gov/sites/default/files/2017-04/documents/2017.03.24_chpac_lead_hazard_reduction_letter.pdf |title=Children's Health Protection Advisory Committee |last=Morrissey |first=Barbara |date=March 24, 2017 |website=US EPA |access-date=December 26, 2021}}</ref><ref name=Pediatrics/>
Expanded scientific investigation into [[organolead chemistry]] and the varied ways in which human biology changes due to lead exposure took place throughout the 20th century. Although it has continued to be in wide use even into the 21st century, greater understanding of [[blood lead levels]] (BLLs) and other factors have meant that a new scientific consensus has emerged. No 'safe' level of lead in the [[Blood|human bloodstream]] exists as such; any amount can contribute to [[Neurology|neurological]] problems and other health issues.<ref name=Pediatrics/>


Medical analysis of the role of lead exposure in the [[Human brain|brain]] note increases in impulsive actions and social aggression as well as the possibility of developing [[attention deficit hyperactivity disorder]] (ADHD). Those conditions likely influence [[personality]] traits and behavioral choices, with examples including having poor [[job performance]], beginning a pattern of [[substance abuse]], and undergoing [[teenage pregnancy]]. Evidence that lead exposure contributes to lower [[intelligence quotient]] (IQ) scores goes back to a seminal 1979 study in ''[[Nature (journal)|Nature]]'', with later analysis finding the link particularly robust.<ref name=Pediatrics/><ref name=Reyes/>
Analyses of the role of lead exposure in the [[Human brain|brain]] have been ongoing for the past few decades. Lead can interfere with numerous neurotransmitter systems in the brain, most likely because of its ability to mimic calcium.<ref name=":0" /> Elevation of aminolevulinic acid from lead-induced disruption of heme synthesis results in lead poisoning having symptoms similar to [[Porphyria#Acute porphyrias|acute porphyria]].<ref>{{cite book |last=Vannotti |first=Alfred | name-list-style = vanc |date=1954 |title=Porphyrins: Their Biological and Chemical Importance |url=https://books.google.com/books?id=-bzoAAAAIAAJ |publisher=Hilger & Watts, Hilger Division |page=126 |quote=Indeed, lead poisoning, like all porphyrin diseases, is accompanied by obstinate constipation, nervous lesions, hyperpigmentation and abdominal attacks. }}</ref><ref>{{cite book|last1=Dancygier|first1=Henryk | name-list-style = vanc |title=Clinical Hepatology: Principles and Practice of Hepatobiliary Diseases|date=2009|publisher=Springer Science & Business Media|isbn=9783642045196|page=1088|url=https://books.google.com/books?id=lrPX8C4p90QC&pg=PA1088|url-status=live|archive-url=https://web.archive.org/web/20170908185104/https://books.google.com/books?id=lrPX8C4p90QC&pg=PA1088|archive-date=8 September 2017|df=dmy-all}}</ref><ref>{{cite journal | vauthors = Akshatha LN, Rukmini MS, Mamatha TS, Sadashiva Rao P, Prashanth B | title = Lead poisoning mimicking acute porphyria! | journal = Journal of Clinical and Diagnostic Research | volume = 8 | issue = 12 | pages = CD01-2 | date = December 2014 | pmid = 25653942 | pmc = 4316248 | doi = 10.7860/JCDR/2014/10597.5315 }}</ref><ref>{{cite journal | vauthors = Tsai MT, Huang SY, Cheng SY | title = Lead Poisoning Can Be Easily Misdiagnosed as Acute Porphyria and Nonspecific Abdominal Pain | journal = Case Reports in Emergency Medicine | volume = 2017 | pages = 9050713 | date = 2017 | pmid = 28630774 | pmc = 5467293 | doi = 10.1155/2017/9050713 | doi-access = free }}</ref><ref>{{cite journal | title = Hereditary Coproporphyria | journal = GeneReviews | date = 2018 | pmid = 23236641 | url = https://www.ncbi.nlm.nih.gov/books/NBK114807/ | access-date = 28 February 2020 | quote = the symptoms in lead poisoning closely mimic those of acute porphyria | last1 = Wang | first1 = B. | last2 = Bissell | first2 = D. M. | last3 = Adam | first3 = M. P. | last4 = Ardinger | first4 = H. H. | last5 = Pagon | first5 = R. A. | last6 = Wallace | first6 = S. E. | author7 = Bean LJH | last8 = Stephens | first8 = K. | last9 = Amemiya | first9 = A. }}</ref> Exposure to lead can also alter brain structure and function.<ref name=":2" /><ref name=":3" /><ref>{{Cite journal|last1=Brubaker|first1=Christopher J.|last2=Schmithorst|first2=Vincent J.|last3=Haynes|first3=Erin N.|last4=Dietrich|first4=Kim N.|last5=Egelhoff|first5=John C.|last6=Lindquist|first6=Diana M.|last7=Lanphear|first7=Bruce P.|last8=Cecil|first8=Kim M.|date=2009|title=Altered myelination and axonal integrity in adults with childhood lead exposure: A diffusion tensor imaging study|journal=NeuroToxicology|volume=30|issue=6|pages=867–875|doi=10.1016/j.neuro.2009.07.007|pmid=19619581|pmc=2789851|issn=0161-813X}}</ref><ref>{{cite journal | last1 = Yuan | first1 = W. | last2 = Holland | first2 = S. K. | last3 = Cecil | first3 = K. M. | last4 = Dietrich | first4 = K. N. | last5 = Wessel | first5 = S. D. | last6 = Altaye | first6 = M. | last7 = Lanphear | first7 = B. P. | year = 2006 | title = The impact of early childhood lead exposure on brain organization: a functional magnetic resonance imaging study of language function | url = https://semanticscholar.org/paper/aa9762d0b44a12612e76b806f91fe47b1c0aeb9b| journal = Pediatrics | volume = 118 | issue = 3| pages = 971–977 | doi=10.1542/peds.2006-0467| pmid = 16950987 | s2cid = 9367116 }}</ref> At the behavioral level, exposure to lead has been observed to cause increases in impulsive<ref name=":7">{{Cite journal|last1=Byers|first1=R. K.|last2=Lord|first2=E. E.|date=1944|journal=The Journal of Nervous and Mental Disease|volume=100|issue=4|pages=420|doi=10.1097/00005053-194410000-00009|issn=0022-3018|title=Late Effects of Lead Poisoning on Mental Development}}</ref><ref>Mendelsohn, A. L., Dreyer, B. P., Fierman, A. H., Rosen, C. M., Legano, L. A., Kruger, H. A., ... & Courtlandt, C. D. (1998). Low-level lead exposure and behavior in early childhood. ''Pediatrics'', ''101''(3), e10-e10.</ref> actions and social aggression,<ref>{{cite journal | last1 = Needleman | first1 = H. L. | last2 = McFarland | first2 = C. | last3 = Ness | first3 = R. B. | last4 = Fienberg | first4 = S. E. | last5 = Tobin | first5 = M. J. | year = 2002 | title = Bone lead levels in adjudicated delinquents: a case control study | journal = Neurotoxicology and Teratology | volume = 24 | issue = 6| pages = 711–717 | doi=10.1016/s0892-0362(02)00269-6| pmid = 12460653 }}</ref> as well as the possibility of developing [[attention deficit hyperactivity disorder]] (ADHD).<ref>{{cite journal | last1 = Goodlad | first1 = J. K. | last2 = Marcus | first2 = D. K. | last3 = Fulton | first3 = J. J. | year = 2013 | title = Lead and attention-deficit/hyperactivity disorder (ADHD) symptoms: A meta-analysis | journal = Clinical Psychology Review | volume = 33 | issue = 3| pages = 417–425 | doi=10.1016/j.cpr.2013.01.009| pmid = 23419800 }}</ref> Those conditions likely influence [[personality]] traits and behavioral choices, with examples including having poor [[job performance]],<ref>{{cite journal | last1 = Schwartz | first1 = B. S. | last2 = Stewart | first2 = W. F. | last3 = Bolla | first3 = K. I. | last4 = Simon | first4 = D. | last5 = Bandeen-Roche | first5 = K. | last6 = Gordon | first6 = B. | last7 = Todd | first7 = A. C. | year = 2000 | title = Past adult lead exposure is associated with longitudinal decline in cognitive function | url = https://semanticscholar.org/paper/9cd7eeabfd10f1cfd30db38996d17bb3cd132c60| journal = Neurology | volume = 55 | issue = 8| pages = 1144–1150 | doi=10.1212/wnl.55.8.1144| pmid = 11071492 | s2cid = 17461186 }}</ref> beginning a pattern of [[substance abuse]],<ref>{{Cite journal|last1=Nation|first1=Jack R.|last2=Baker|first2=Dorothy M.|last3=Taylor|first3=Betty|last4=Clark|first4=Donald E.|date=1986|title=Dietary lead increases ethanol consumption in the rat.|journal=Behavioral Neuroscience|volume=100|issue=4|pages=525–530|doi=10.1037/0735-7044.100.4.525|pmid=3741603|issn=1939-0084}}</ref> and undergoing [[teenage pregnancy]].<ref>{{Cite journal|last=Nevin|first=Rick|date=2000|title=How Lead Exposure Relates to Temporal Changes in IQ, Violent Crime, and Unwed Pregnancy|journal=Environmental Research|volume=83|issue=1|pages=1–22|doi=10.1006/enrs.1999.4045|pmid=10845777|issn=0013-9351|bibcode=2000ER.....83....1N|s2cid=18983793 |url=https://mpra.ub.uni-muenchen.de/35324/1/MPRA_paper_35324.pdf}}</ref><ref>{{Cite journal|last1=Lane|first1=Sandra D.|last2=Webster|first2=Noah J.|last3=Levandowski|first3=Brooke A.|last4=Rubinstein|first4=Robert A.|last5=Keefe|first5=Robert H.|last6=Wojtowycz|first6=Martha A.|last7=Cibula|first7=Donald A.|last8=Kingson|first8=Johanna E.F.|last9=Aubry|first9=Richard H.|date=2008|title=Environmental Injustice: Childhood Lead Poisoning, Teen Pregnancy, and Tobacco|journal=Journal of Adolescent Health|volume=42|issue=1|pages=43–49|doi=10.1016/j.jadohealth.2007.06.017|pmid=18155029|issn=1054-139X}}</ref> Evidence that lead exposure contributes to lower [[intelligence quotient]] (IQ) scores goes back to a seminal 1979 study in ''[[Nature (journal)|Nature]]'', with later analysis finding the link particularly robust.<ref name=Pediatrics/><ref name=Reyes/>


The international process of trying to lower the prevalence of lead has been largely spearheaded by the Partnership for Clean Fuels and Vehicles (PCFV). The [[non-governmental organization]] partners with major [[List of oil exploration and production companies|oil companies]], various governmental departments, multiple [[civil society]] groups, and other such institutions worldwide. Efforts to phase-out lead in transport fuel achieved major gains in over seventy-five nations. In discussions at the [[Earth Summit 2002|2002 'Earth Summit']], institutions under the umbrella of the [[United Nations]] vowed to emphasize [[public–private partnerships]] (PPPs) in order to help [[Developing country|developing and transitional countries]] go unleaded.<ref name=UN/>
The heavy metal lead can be found readily in the environment, especially in urban and industrialized areas.<ref name=":0">{{Cite book|title=Toxicological profile for lead.|last=Registry.|first=United States. Agency for Toxic Substances and Disease|date=2007|publisher=U.S. Dept. of Health and Human Services, Public Health Service, Agency for Toxic Substances and Disease Registry|oclc=819638920}}</ref> The majority of modern-day environmental lead contamination can be traced back to leaded paint and the addition of [[tetraethyllead]] and [[tetramethyllead]] to gasoline, though other sources have contributed as well.<ref name=":0" /> Though some of the hazards of lead exposure have been documented for centuries,<ref name=":1">{{Cite book|title=Some landmarks in the history of lead poisoning.|last=R.|first=Major, Ralph|date=1931|oclc=230983773}}</ref> recognition of the hazards posed did not appear to gain much traction until the 1960s with the Senate hearings of [[Edmund Muskie]]<ref>Committee on Public Works, Hearings before a Subcommittee on Air and Water Pollution, United States Senate, 89th Congress, Second Section on S-3112 and S-3400, Washington, DC, 1966.</ref> that would help lead to the phaseout of leaded gasoline and lead-based paint in the 1970s.<ref>{{Cite journal|last=Bellinger|first=D. C.|date=2006-03-23|title=Childhood lead poisoning: the torturous path from science to policy|journal=Journal of Clinical Investigation|volume=116|issue=4|pages=853–857|doi=10.1172/jci28232|pmid=16585952|pmc=1421365|issn=0021-9738}}</ref> Blood lead levels would drop in a statistically significant way soon after the phaseout.<ref>{{Cite journal|last1=Annest|first1=Joseph L.|last2=Pirkle|first2=James L.|last3=Makuc|first3=Diane|last4=Neese|first4=Jane W.|last5=Bayse|first5=David D.|last6=Kovar|first6=Mary Grace|date=1983-06-09|title=Chronological Trend in Blood Lead Levels between 1976 and 1980|journal=New England Journal of Medicine|volume=308|issue=23|pages=1373–1377|doi=10.1056/nejm198306093082301|pmid=6188954|issn=0028-4793}}</ref> In the decades since, scientists have concluded that no safe threshold for lead exposure exists.<ref name="Morrissey"/><ref>{{Cite web|url=https://www.cdc.gov/nceh/lead/default.htm|title=CDC - Lead - Home Page|last=Health|first=National Center for Environmental|date=2018-10-11|website=www.cdc.gov|language=en-us|access-date=2018-10-12}}</ref>


===Correlation between lead exposure and crime===
Though efforts to reduce environmental levels of lead were initially slowed down by the lead industry, the emergence of [[Clair Cameron Patterson|Clair Patterson]] in the 1960s would lead to more meaningful changes.<ref>{{Cite journal|last1=Patterson|first1=Clair|last2=Ericson|first2=Jonathon|last3=Manea-Krichten|first3=Mirela|last4=Shirahata|first4=Hiroshi|date=1991|title=Natural skeletal levels of lead in Homo sapiens sapiens uncontaminated by technological lead|journal=Science of the Total Environment|volume=107|pages=205–236|doi=10.1016/0048-9697(91)90260-l|pmid=1785050|issn=0048-9697|bibcode=1991ScTEn.107..205P}}</ref><ref>{{cite journal | last1 = Patterson | first1 = C. C. | year = 1965 | title = Contaminated and natural lead environments of man | journal = Archives of Environmental Health | volume = 11 | issue = 3| pages = 344–360 | doi=10.1080/00039896.1965.10664229| pmid = 14334042 }}</ref> The establishment of the [[United States Environmental Protection Agency]] in 1970 and the influence of the [[U.S. Consumer Product Safety Commission|Consumer Product Safety Commission]] would help ensure that gasoline and paint could only contain trace amounts of lead.<ref>{{cite journal | last1 = Lewis | first1 = J | year = 1985 | title = Lead poisoning: a historical perspective | url =https://archive.epa.gov/epa/aboutepa/lead-poisoning-historical-perspective.html | journal = EPA Journal | volume = 11 | page = 15 }}</ref> Furthermore, several major legislative acts were passed to help reduce the amount of lead being introduced into the environment, including the [[Clean Air Act (United States)|Clean Air Act]] of 1970 and the Lead Based Paint Poisoning Prevention Act.<ref>{{Cite web|url=https://www.hud.gov/sites/documents/20258_LEGISLATIVEHISTORY.PDF|title=LEGISLATIVE HISTORY OF LEAD-BASED PAINT|website=U.S. Department of Housing and Urban Development|access-date=November 30, 2018}}</ref>
{{Refimprove science|section|date=June 2017}}


[[File:Achim_Steiner-IMG 0837.jpg|thumb|right|200px|[[German Brazilians|Brazilian-German]] [[economist]] [[Achim Steiner]], speaking as then head of the [[United Nations Environment Programme|U.N. Environment Programme]], described anti-lead efforts as a key [[sustainable development]] success.]]
The international process of trying to lower the prevalence of lead has been largely spearheaded by the Partnership for Clean Fuels and Vehicles (PCFV). The [[non-governmental organization]] partners with major [[List of oil exploration and production companies|oil companies]], various governmental departments, multiple [[civil society]] groups, and other such institutions worldwide. Efforts to phase-out lead in transport fuel achieved major gains in over seventy-five nations. In discussions at the [[Earth Summit 2002|2002 Earth Summit]], institutions under the umbrella of the [[United Nations]] vowed to emphasize [[public–private partnerships]] (PPPs) in order to help [[Developing country|developing and transitional countries]] go unleaded.{{refn|name=Phase-out}}


In terms of [[crime]], multiple commentators and researchers have noted that, after decades of relatively steady increases, [[crime rates in the United States]] started to sharply decline in the 1990s. The trend continued even into the new millennium. Multiple possible explanations have come about, with academic studies pointing to [[Causality#Statistics and economics|complex, multifactorial causation]] as different social trends occurred at the same time.<ref name=Reyes/>
==Research on lead–crime correlation==


The [[economist]]s [[Steven D. Levitt]] and [[John J. Donohue III]], of the [[University of Chicago]] and [[Stanford University]], respectively, have argued that the decline in U.S. crime rates took place due to the combination of increases in the number of police, hikes in size of the prison population, waning of the spread of [[crack cocaine]], and the widespread legalization of [[abortion]] from the 1970s onward. Possible other factors include changes in [[alcohol]] consumption. Later studies have upheld many of these findings while disputing others.{{refn|name=Reyes}}<ref>{{cite journal|first1=John J.|last1=Donohue III|first2=Stephen D.|last2=Levitt|journal=The Journal of Human Resources|year=2004 |url=http://pricetheory.uchicago.edu/levitt/Papers/DonohueLevittReply2004.pdf|title=Further Evidence that Legalized Abortion Lowered Crime: A Reply to Joyce|accessdate=30 November 2016}}</ref>
[[File:Achim_Steiner-IMG 0837.jpg|thumb|right|200px|[[German Brazilians|Brazilian-German]] [[economist]] [[Achim Steiner]], speaking as then head of the [[United Nations Environment Programme|U.N. Environment Programme]], described anti-lead efforts as a key [[sustainable development]] success.]]
After decades of increasing [[crime]] across the industrialised world, crime rates started to decline sharply in the 1990s, a trend that continued into the new millennium. Many explanations have been proposed, including [[situational crime prevention]] and interactions between many other factors [[Causality#Statistics and economics|complex, multifactorial causation]].<ref name=Reyes/>
The [[economist]]s [[Steven D. Levitt]] and [[John J. Donohue III]], of the [[University of Chicago]] and [[Stanford University]] have argued that the decline in U.S. crime rates took place due to the combination of increases in the number of police, hikes in size of the prison population, waning of the spread of [[crack cocaine]], and the widespread legalization of [[abortion]] from the 1970s onward. Possible other factors include changes in [[alcoholic beverage|alcohol]] consumption. Later studies have upheld many of these findings while disputing others.{{refn|name=Reyes}}.<ref>{{cite journal|first1=John J.|last1=Donohue III|first2=Stephen D.|last2=Levitt|journal=The Journal of Human Resources|year=2004 |url=http://pricetheory.uchicago.edu/levitt/Papers/DonohueLevittReply2004.pdf|title=Further Evidence that Legalized Abortion Lowered Crime: A Reply to Joyce|access-date=30 November 2016}}</ref> However, relatively few studies have noted that crime trends have been broadly consistent internationally, whereas academics have been prone to insularity. For example, trends in drug use in the US are not replicated elsewhere, and while the UK decriminalised abortion five years before the US crime rates there declined five years after those in the US.<ref name="Crime">{{cite book |last1=Ross |first1=Nick |title=Crime: how to solve it and why so much of what we're told is wrong" |date=2013 |publisher=Biteback |location=London |isbn=9781849544993 |pages=74-86 |url=http://www.thecrimbeook.com}}</ref>
Hence the attraction of a theory which could transcend national jurisdictions. While noting that [[correlation does not imply causation]], the fact that in the [[United States]] anti-lead efforts took place simultaneously alongside falls in violent crime rates attracted attention from researchers. Changes were not uniform across the country, even while increasingly stringent [[U.S. Environmental Protection Agency|Environmental Protection Agency]] rules went into force from 1970s onward. Several areas had far greater lead exposure compared to others for years.<ref name=Reyes/><ref name=Firestone>{{cite magazine |magazine=[[Discover (magazine)|Discover]] |url=http://blogs.discovermagazine.com/crux/2013/01/08/does-lead-exposure-cause-violent-crime-the-science-is-still-out/ |archive-url=https://web.archive.org/web/20130112150807/http://blogs.discovermagazine.com/crux/2013/01/08/does-lead-exposure-cause-violent-crime-the-science-is-still-out/ |archive-date=2013-01-12 |title=Does Lead Exposure Cause Violent Crime? The Science is Still Out|first=Scott|last=Firestone|date=8 January 2013}}</ref>
A 2007 report published by ''The B.E. Journal of Economic Analysis & Policy'', authored by Jessica Wolpaw Reyes of [[Amherst College]], found that between 1992 and 2002 the [[Tetraethyllead#Phaseout and ban|phase-out of lead from gasoline]] in the U.S. "was responsible for approximately a 56% decline in violent crime". The report noted a significant flaw, cautioning that the findings relating to "murder are not robust if New York and the District of Columbia are included". Nonetheless, the author concluded that "[o]verall, the phase-out of lead and the legalization of abortion appear to have been responsible for significant reductions in violent crime rates." She additionally speculated that by "2020, all adults in their 20s and 30s will have grown up without any direct exposure to gasoline lead during childhood, and their crime rates could be correspondingly lower."<ref name=Reyes>{{cite journal|last1=Reyes|first1=Jessica Wolpaw|date=2007|url=http://www3.amherst.edu/~jwreyes/papers/LeadCrimeBEJEAP.pdf|title=Environmental Policy as Social Policy? The Impact of Childhood Lead Exposure on Crime|journal=The B.E. Journal of Economic Analysis & Policy|issue=1|volume=7|access-date=30 November 2016}}</ref>]


While noting that [[correlation does not imply causation]], the fact that in the [[United States]] anti-lead efforts took place simultaneously alongside falls in violent crime rates attracted attention from researchers. Changes were not uniform across the country, even while increasingly stringent [[U.S. Environmental Protection Agency|Environmental Protection Agency]] rules went into force from 1970s onward. Several areas had far greater lead exposure compared to others for years.<ref name=Reyes/><ref name=Firestone>{{citeweb|publisher=''[[Discover (magazine)|Discover]]''|url=http://blogs.discovermagazine.com/crux/2013/01/08/does-lead-exposure-cause-violent-crime-the-science-is-still-out/|title=Does Lead Exposure Cause Violent Crime? The Science is Still Out|first=Scott|last=Firestone|date=8 January 2013}}</ref>
A 2011 study by the [[California State University]] found that "Ridding the world of leaded petrol, with the United Nations leading the effort in developing countries, has resulted in $2.4 trillion in annual benefits, 1.2 million fewer premature deaths, higher overall intelligence and 58 million fewer crimes", according to the United Nations News Centre.{{refn|name=Phase-out}} The executive director of the [[United Nations Environment Programme]] (UNEP) [[Achim Steiner]] argued that "Although this global effort has often flown below the radar of [the] media and global leaders, it is clear that the elimination of leaded petrol is an immense achievement on par with the global elimination of major deadly diseases."<ref name="Phase-out">{{cite web |url=https://www.un.org/apps/news/story.asp?NewsID=40226&Cr=pollutant&Cr1=#.UZdkooJAsR4 |title=Phase-out of leaded petrol brings huge health and cost benefits – UN–backed study |date=27 October 2011 |publisher=United Nations News Centre}}</ref>


A 2007 report published by ''The B.E. Journal of Economic Analysis & Policy'', authored by Jessica Wolpaw Reyes of [[Amherst College]], found that between 1992 and 2002 the [[Tetraethyllead#Phaseout and ban|phase-out of lead from gasoline]] in the U.S. "was responsible for approximately a 56% decline in violent crime". While cautioning that the findings relating to "murder are not robust if New York and the District of Columbia are included," the author concluded that "[o]verall, the phase-out of lead and the legalization of abortion appear to have been responsible for significant reductions in violent crime rates." She additionally speculated that by "2020, all adults in their 20s and 30s will have grown up without any direct exposure to gasoline lead during childhood, and their crime rates could be correspondingly lower."<ref name=Reyes>{{cite journal|last1=Reyes|first1=Jessica Wolpaw|date=2007|url=http://www3.amherst.edu/~jwreyes/papers/LeadCrimeBEJEAP.pdf|title=Environmental Policy as Social Policy? The Impact of Childhood Lead Exposure on Crime|journal=The B.E. Journal of Economic Analysis & Policy|issue=1|volume=7|accessdate=30 November 2016}}</ref>
According to a May 2017 study, lead exposure in childhood substantially increased school suspensions and juvenile detention among boys in [[Rhode Island]], suggesting that the phasing out of leaded gasoline may explain a significant part of the decline in crime in the United States beginning in the 1990s.<ref name="Doleac">{{cite web |last1=Doleac |first1=Jennifer L. |title=New evidence that lead exposure increases crime |url=https://www.brookings.edu/blog/up-front/2017/06/01/new-evidence-that-lead-exposure-increases-crime/ |publisher=The Brookings Institution |date=1 June 2017}}</ref><ref>{{Cite journal |last1=Aizer |first1=Anna |last2=Currie |first2=Janet |date=May 2017 |title=Lead and Juvenile Delinquency: New Evidence from Linked Birth, School and Juvenile Detention Records |doi=10.3386/w23392 |journal=NBER Working Paper No. 23392 |doi-access=free }}</ref>


In 2011, a report published by the official United Nations News Centre remarked, "Ridding the world of leaded petrol, with the United Nations leading the effort in developing countries, has resulted in $2.4 trillion in annual benefits, 1.2 million fewer premature deaths, higher overall intelligence and 58 million fewer crimes". The [[California State University]] did the specific study. Then [[United Nations Environment Programme|U.N. Environment Programme]] (UNEP) executive director [[Achim Steiner]] argued, "Although this global effort has often flown below the radar of media and global leaders, it is clear that the elimination of leaded petrol is an immense achievement on par with the global elimination of major deadly diseases."<ref name=UN>{{cite web|url=https://www.un.org/apps/news/story.asp?NewsID=40226&Cr=pollutant&Cr1=#.UZdkooJAsR4|title=Phase-out of leaded petrol brings huge health and cost benefits – UN–backed study|date=27 October 2011|accessdate=11 November 2016|publisher=United Nations News Centre}}</ref>
A 2018 longitudinal study conducted in New Zealand found only a weak association between childhood lead levels and criminal conviction, which was no longer significant after controlling for sex. In New Zealand, there is no correlation between lead exposure and socioeconomic status, thus social class does not act as a confounder. The authors conclude that "past studies of the association between BLL and crime, in which high BLL and low socioeconomic status were associated, may not have completely overcome confounding".<ref>{{Cite journal| doi = 10.1001/jamapediatrics.2017.4005| issn = 2168-6203| volume = 172| issue = 2| pages = 166–173| last1 = Beckley| first1 = Amber L.| last2 = Caspi| first2 = Avshalom| last3 = Broadbent| first3 = Jonathan| last4 = Harrington| first4 = Honalee| last5 = Houts| first5 = Renate M.| last6 = Poulton| first6 = Richie| last7 = Ramrakha| first7 = Sandhya| last8 = Reuben| first8 = Aaron| last9 = Moffitt| first9 = Terrie E.| title = Association of Childhood Blood Lead Levels With Criminal Offending| journal = JAMA Pediatrics| date = 2018-02-01| pmid = 29279896| pmc = 5801257| doi-access = free}}</ref> Data from the same cohort was published the next year as well and has been cited in review papers as evidence of lead poisoning having long-lasting consequences for mental health and personality.<ref name="2019-Reuben-video">{{cite web |url=https://edhub.ama-assn.org/jn-learning/video-player/17844517 |title=Childhood Lead Exposure, Adult Personality, and Later-Life Mental Health |author=<!--Not stated--> |date=3 September 2019 |website=AMA Ed Hub |publisher=JN Learning |access-date=13 December 2020 |quote=This JAMA Medical News video summarizes findings from a recent cohort study reporting an association between childhood lead exposure in Dunedin, New Zealand, and adult personality traits and psychopathology.}}</ref><ref name="2019-Reuben-article">{{cite journal |url=https://jamanetwork.com/journals/jama/fullarticle/2729713 |title=Childhood Lead Exposure May Affect Personality, Mental Health in Adulthood |last=Sancar |first=Feyza |date=March 27, 2019 |journal=JAMA |volume=321 |issue=15 |pages=1445–1446 |doi=10.1001/jama.2019.1116 |pmid=30916713 |access-date=March 13, 2021 |quote=The findings suggest that lead exposure during childhood may have long-lasting consequences for mental health and personality.|doi-access=free }}</ref><ref name="2019-Reuben-citation">{{cite journal |last1=Neuwirth |first1=Lorenz S |last2=Lopez |first2=Oscar E. |date=2020 |title=Low-level lead exposure impairs fronto-executive functions: A call to update the DSM–5 with lead poisoning as a neurodevelopmental disorder. |journal=Psychology & Neuroscience |volume=13 |issue=3 |pages=299–315 |doi=10.1037/pne0000225 |doi-access=free }}</ref>


In a 2013 article, ''[[Mother Jones (publication)|Mother Jones]]'' ran a report by [[Kevin Drum]] arguing:
A 2022 meta-analysis, which pooled 542 estimates from 24 studies and corrected for [[publication bias]], found that the estimates indicated that "the abatement of lead pollution may be responsible for 7–28% of the fall in homicide in the US," leaving 93-72% unaccounted for. It concluded that "Lead increases crime, but does not explain the majority of the fall in crime observed in some countries in the 20th century. Additional explanations are needed".<ref>{{Cite journal |last1=Higney |first1=Anthony |last2=Hanley |first2=Nick |last3=Moro |first3=Mirko |date=2022 |title=The lead-crime hypothesis: A meta-analysis |journal=Regional Science and Urban Economics |volume=97 |page=103826 |language=en |doi=10.1016/j.regsciurbeco.2022.103826 |s2cid=233466946 |issn=0166-0462|doi-access=free }}</ref> Another 2022 analysis found that lead abatement was responsible for about 7% of the reduction in offense rates among U.S. cohorts. Most of the remainder was due to "relative cohort size, the prevalence of crime during childhood, and the capacity of families and neighborhoods to socialize children".<ref>{{Cite journal |last=Spelman |first=William |date=2022-02-01 |title=Why birth cohorts commit crime at different rates |url=https://www.sciencedirect.com/science/article/pii/S0049089X21001058 |journal=Social Science Research |language=en |volume=102 |pages=102628 |doi=10.1016/j.ssresearch.2021.102628 |issn=0049-089X}}</ref>
{{quote|"Needless to say, not every child exposed to lead is destined for a life of crime. Everyone over the age of 40 was probably exposed to too much lead during childhood, and most of us suffered nothing more than a few points of IQ loss. But there were plenty of kids already on the margin, and millions of those kids were pushed over the edge from being merely slow or disruptive to becoming part of a nationwide epidemic of violent crime."<ref name=Firestone/>}}

Drum writes:

{{quote|"We now have studies at the international level, the national level, the state level, the city level, and even the individual level. Groups of children have been followed from the womb to adulthood, and higher childhood blood lead levels are consistently associated with higher adult arrest rates for violent crimes. All of these studies tell the same story: Gasoline lead is responsible for a good share of the rise and fall of violent crime over the past half century.<ref name=Drum>{{cite magazine |last1=Drum |first1=Kevin |title=Lead: America's Real Criminal Element |url=http://www.motherjones.com/environment/2016/02/lead-exposure-gasoline-crime-increase-children-health |work=Mother Jones |date=11 February 2016 |language=en}}</ref>
}}

According to Reyes, "Childhood lead exposure increases the likelihood of behavioral and cognitive traits such as impulsivity, aggressivity, and low IQ that are strongly associated with criminal behavior".<ref name=Reyes/>

A May 2017 study by Anna Azier and Janet Currie found that lead exposure in childhood substantially increased school suspensions and juvenile detention among boys in [[Rhode Island]], suggesting that the phasing out leaded gasoline may explain a significant part of the decline in crime in the United States beginning in the 1990s.<ref name="Doleac">{{cite web |last1=Doleac |first1=Jennifer L. |title=New evidence that lead exposure increases crime |url=https://www.brookings.edu/blog/up-front/2017/06/01/new-evidence-that-lead-exposure-increases-crime/ |publisher=The Brookings Institution |date=1 June 2017}}</ref><ref>{{Cite journal |last1=Aizer |first1=Anna |last2=Currie |first2=Janet |date=May 2017 |title=Lead and Juvenile Delinquency: New Evidence from Linked Birth, School and Juvenile Detention Records |doi=10.3386/w23392 |work=NBER Working Paper No. 23392 |publisher=National Bureau of Economic Research |location=Cambridge, Mass}}</ref>


==See also==
==See also==
{{Portal|Chemistry|Society}}
{{Portal|Chemistry|Crime|Sociology}}
* [[Biosocial criminology]]
* [[Biosocial criminology]]
* [[Environmental toxicology]]
* [[Environmental toxicology]]
Line 56: Line 56:
* [[Statistical correlations of criminal behavior]]
* [[Statistical correlations of criminal behavior]]
* [[Tetraethyllead]]
* [[Tetraethyllead]]
{{-}}


==References==
==References==
Line 63: Line 62:
==Further reading==
==Further reading==


* {{cite journal |last1=Carpenter |first1=David O. |last2=Nevin |first2=Rick |title=Environmental causes of violence |journal=Physiology & Behavior |date=February 2010 |volume=99 |issue=2 |pages=260–268 |doi=10.1016/j.physbeh.2009.09.001 |pmid=19758571 |s2cid=5706643 |url=https://election.princeton.edu/wp-content/uploads/2013/01/violence_lead_Nevin.pdf}}
* {{cite journal |last1=Carpenter |first1=David O. |last2=Nevin |first2=Rick |title=Environmental causes of violence |journal=Physiology & Behavior |date=February 2010 |volume=99 |issue=2 |pages=260–268 |doi=10.1016/j.physbeh.2009.09.001 |url=https://election.princeton.edu/wp-content/uploads/2013/01/violence_lead_Nevin.pdf}}
* {{cite news |last=Casciani |first=Dominic |title=Did removing lead from petrol spark a decline in crime? |work=BBC News |url=https://www.bbc.com/news/magazine-27067615 |date=21 April 2014}}
* {{cite news |url=http://www.bbc.com/news/magazine-27067615 |date=21 April 2014 |first=Dominic |last=Casciani |title=Did removing lead from petrol spark a decline in crime?|publisher=BBC News}}
* {{cite journal |last1=Feigenbaum |first1=James J. |last2=Muller |first2=Christopher |title=Lead exposure and violent crime in the early twentieth century |journal=Explorations in Economic History |date=October 2016 |volume=62 |pages=51–86 |doi=10.1016/j.eeh.2016.03.002 |url=https://scholar.harvard.edu/files/jfeigenbaum/files/feigenbaum_muller_lead_crime.pdf}}
* {{cite magazine |last1=Drum |first1=Kevin |title=Lead: America's Real Criminal Element |url=https://www.motherjones.com/environment/2016/02/lead-exposure-gasoline-crime-increase-children-health |magazine=Mother Jones |date=11 February 2016}}
* {{cite journal |last1=Feigenbaum |first1=James J. |last2=Muller |first2=Christopher |title=Lead exposure and violent crime in the early twentieth century |journal=Explorations in Economic History |date=October 2016 |volume=62 |pages=51–86 |doi=10.1016/j.eeh.2016.03.002 |s2cid=43223100 |url=https://scholar.harvard.edu/files/jfeigenbaum/files/feigenbaum_muller_lead_crime.pdf}}
* {{cite web |last=Firestone |first=Scott |date=8 January 2013 |title=Does Lead Exposure Cause Violent Crime? The Science is Still Out |work=Discover |url=http://blogs.discovermagazine.com/crux/2013/01/08/does-lead-exposure-cause-violent-crime-the-science-is-still-out/}}
* {{cite news |last=Knapp |first=Alex |title=How Lead Caused America's Violent Crime Epidemic |url=https://www.forbes.com/sites/alexknapp/2013/01/03/how-lead-caused-americas-violent-crime-epidemic/ |work=Forbes |date=3 January 2013}}
* {{cite news |last=Knapp |first=Alex |title=How Lead Caused America's Violent Crime Epidemic |url=https://www.forbes.com/sites/alexknapp/2013/01/03/how-lead-caused-americas-violent-crime-epidemic/ |work=Forbes |date=3 January 2013}}
* {{cite web |last=Nevin |first=Rick |date=19 December 2012 |title=The Answer is Lead Poisoning |url=https://nebula.wsimg.com/422bf977bd49967644ae8b1a0a047ded?AccessKeyId=0C0B5E388F2FB5E1BB9B&disposition=0&alloworigin=1}}
* {{cite news |last=Vedantam |first=Shankar |title=Research Links Lead Exposure, Criminal Activity |url=https://www.washingtonpost.com/wp-dyn/content/article/2007/07/07/AR2007070701073.html |work=The Washington Post |date=8 July 2007}}
* {{cite journal |last=Wakefield |first=Julie |title=The lead effect? |journal=Environmental Health Perspectives |date=October 2002 |volume=110 |issue=10 |pages=A574–A580 |url=https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1241041/pdf/ehp0110-a00574.pdf |pmc=1241041 |issn=0091-6765}}
* {{cite book |last=Nevin |first=Rick |date=2016 |title=Lucifer Curves: The Legacy of Lead Poisoning |publisher=BookBaby |asin=B01I3LTR4W}}
* {{cite news |last=Vedantam |first=Shankar |title=Research Links Lead Exposure, Criminal Activity |url=https://www.washingtonpost.com/wp-dyn/content/article/2007/07/07/AR2007070701073.html |newspaper=The Washington Post |date=8 July 2007}}
* {{cite journal |last=Wakefield |first=Julie |title=The lead effect? |journal=Environmental Health Perspectives |date=October 2002 |volume=110 |issue=10 |pages=A574–A580 |pmc=1241041 |issn=0091-6765|pmid=12361937 |doi=10.1289/ehp.110-a574 }}

{{Evolutionary psychology}}


{{DEFAULTSORT:Lead-crime hypothesis}}
[[Category:Criminology]]
[[Category:Criminology]]
[[Category:Environmental toxicology]]
[[Category:Environmental toxicology]]

Revision as of 13:15, 23 May 2023

This warning on an old Lynnwood, Washington fuel pump notes how it used to dispense gasoline with tetraethyllead additives.

After decades of increasing crime across the industrialised, world crime rates started to decline sharply in the 1990s, a trend that continued into the new millennium. Many explanations have been proposed, including situational crime prevention and interactions between many other factors complex, multifactorial causation.[1]

Lead is widely understood to be toxic to multiple organs of the human body, particularly the human brain. Concerns about even low levels of exposure began in the 1970s; in the decades since, scientists have concluded that no safe threshold for lead exposure exists.[2][3]

The major source of lead exposure during the 20th century was leaded gasoline. Proponents of the lead-crime hypothesis argue that the removal of lead additives from motor fuel, and the consequent decline in children's lead exposure, explains the fall in crime rates in the United States beginning in the 1990s.[4] This hypothesis also offers an explanation of the rise in crime in the preceding decades as the result of increased lead exposure throughout the mid-20th century.[5]

The lead-crime hypothesis is not mutually exclusive with other explanations of the drop in US crime rates such as the legalized abortion and crime effect.[5] The difficulty in measuring the effect of lead exposure on crime rates is in separating the effect from other indicators of poverty such as poorer schools, nutrition, and medical care, exposure to other pollutants, and other variables that may lead to crime.[4]

Background and research

Usage of lead in modern history

Lead, a naturally occurring metal of bluish-grey color, has been used for multiple purposes in the history of human civilization. Advantages include being somewhat soft and pliable as well as resistant to corrosion compared to other metals. The widespread substance is also able to function as a shield against various forms of radiation.[2]

Expanded scientific investigation into organolead chemistry and the varied ways in which human biology changes due to lead exposure took place throughout the 20th century. Although it has continued to be in wide use even into the 21st century, greater understanding of blood lead levels (BLLs) and other factors have meant that a new scientific consensus has emerged. No 'safe' level of lead in the human bloodstream exists as such; any amount can contribute to neurological problems and other health issues.[2]

Medical analysis of the role of lead exposure in the brain note increases in impulsive actions and social aggression as well as the possibility of developing attention deficit hyperactivity disorder (ADHD). Those conditions likely influence personality traits and behavioral choices, with examples including having poor job performance, beginning a pattern of substance abuse, and undergoing teenage pregnancy. Evidence that lead exposure contributes to lower intelligence quotient (IQ) scores goes back to a seminal 1979 study in Nature, with later analysis finding the link particularly robust.[2][1]

The international process of trying to lower the prevalence of lead has been largely spearheaded by the Partnership for Clean Fuels and Vehicles (PCFV). The non-governmental organization partners with major oil companies, various governmental departments, multiple civil society groups, and other such institutions worldwide. Efforts to phase-out lead in transport fuel achieved major gains in over seventy-five nations. In discussions at the 2002 'Earth Summit', institutions under the umbrella of the United Nations vowed to emphasize public–private partnerships (PPPs) in order to help developing and transitional countries go unleaded.[3]

Correlation between lead exposure and crime

Brazilian-German economist Achim Steiner, speaking as then head of the U.N. Environment Programme, described anti-lead efforts as a key sustainable development success.

In terms of crime, multiple commentators and researchers have noted that, after decades of relatively steady increases, crime rates in the United States started to sharply decline in the 1990s. The trend continued even into the new millennium. Multiple possible explanations have come about, with academic studies pointing to complex, multifactorial causation as different social trends occurred at the same time.[1]

The economists Steven D. Levitt and John J. Donohue III, of the University of Chicago and Stanford University, respectively, have argued that the decline in U.S. crime rates took place due to the combination of increases in the number of police, hikes in size of the prison population, waning of the spread of crack cocaine, and the widespread legalization of abortion from the 1970s onward. Possible other factors include changes in alcohol consumption. Later studies have upheld many of these findings while disputing others.[1][6]

While noting that correlation does not imply causation, the fact that in the United States anti-lead efforts took place simultaneously alongside falls in violent crime rates attracted attention from researchers. Changes were not uniform across the country, even while increasingly stringent Environmental Protection Agency rules went into force from 1970s onward. Several areas had far greater lead exposure compared to others for years.[1][7]

A 2007 report published by The B.E. Journal of Economic Analysis & Policy, authored by Jessica Wolpaw Reyes of Amherst College, found that between 1992 and 2002 the phase-out of lead from gasoline in the U.S. "was responsible for approximately a 56% decline in violent crime". While cautioning that the findings relating to "murder are not robust if New York and the District of Columbia are included," the author concluded that "[o]verall, the phase-out of lead and the legalization of abortion appear to have been responsible for significant reductions in violent crime rates." She additionally speculated that by "2020, all adults in their 20s and 30s will have grown up without any direct exposure to gasoline lead during childhood, and their crime rates could be correspondingly lower."[1]

In 2011, a report published by the official United Nations News Centre remarked, "Ridding the world of leaded petrol, with the United Nations leading the effort in developing countries, has resulted in $2.4 trillion in annual benefits, 1.2 million fewer premature deaths, higher overall intelligence and 58 million fewer crimes". The California State University did the specific study. Then U.N. Environment Programme (UNEP) executive director Achim Steiner argued, "Although this global effort has often flown below the radar of media and global leaders, it is clear that the elimination of leaded petrol is an immense achievement on par with the global elimination of major deadly diseases."[3]

In a 2013 article, Mother Jones ran a report by Kevin Drum arguing:

"Needless to say, not every child exposed to lead is destined for a life of crime. Everyone over the age of 40 was probably exposed to too much lead during childhood, and most of us suffered nothing more than a few points of IQ loss. But there were plenty of kids already on the margin, and millions of those kids were pushed over the edge from being merely slow or disruptive to becoming part of a nationwide epidemic of violent crime."[7]

Drum writes:

"We now have studies at the international level, the national level, the state level, the city level, and even the individual level. Groups of children have been followed from the womb to adulthood, and higher childhood blood lead levels are consistently associated with higher adult arrest rates for violent crimes. All of these studies tell the same story: Gasoline lead is responsible for a good share of the rise and fall of violent crime over the past half century.[8]

According to Reyes, "Childhood lead exposure increases the likelihood of behavioral and cognitive traits such as impulsivity, aggressivity, and low IQ that are strongly associated with criminal behavior".[1]

A May 2017 study by Anna Azier and Janet Currie found that lead exposure in childhood substantially increased school suspensions and juvenile detention among boys in Rhode Island, suggesting that the phasing out leaded gasoline may explain a significant part of the decline in crime in the United States beginning in the 1990s.[4][9]

See also

References

  1. ^ a b c d e f g Reyes, Jessica Wolpaw (2007). "Environmental Policy as Social Policy? The Impact of Childhood Lead Exposure on Crime" (PDF). The B.E. Journal of Economic Analysis & Policy. 7 (1). Retrieved 30 November 2016.
  2. ^ a b c d Dapul, Dr. Heda; Laraque, Dr. Danielle (August 2014). "Lead Poisoning in Children". Advances in Pediatrics. 61 (1): 313–333. Retrieved 30 November 2016.
  3. ^ a b c "Phase-out of leaded petrol brings huge health and cost benefits – UN–backed study". United Nations News Centre. 27 October 2011. Retrieved 11 November 2016.
  4. ^ a b c Doleac, Jennifer L. (1 June 2017). "New evidence that lead exposure increases crime". The Brookings Institution.
  5. ^ a b Steel, Daniel (2013). "Mechanisms and Extrapolation in the Abortion-Crime Controversy". In Chao, Hsiang-Ke; et al. (eds.). Mechanism and Causality in Biology and Economics. Springer Science & Business Media. p. 188. ISBN 978-9-40-072454-9. {{cite book}}: External link in |chapterurl= (help); Unknown parameter |chapterurl= ignored (|chapter-url= suggested) (help)
  6. ^ Donohue III, John J.; Levitt, Stephen D. (2004). "Further Evidence that Legalized Abortion Lowered Crime: A Reply to Joyce" (PDF). The Journal of Human Resources. Retrieved 30 November 2016.
  7. ^ a b Firestone, Scott (8 January 2013). "Does Lead Exposure Cause Violent Crime? The Science is Still Out". Discover. {{cite web}}: Italic or bold markup not allowed in: |publisher= (help)
  8. ^ Drum, Kevin (11 February 2016). "Lead: America's Real Criminal Element". Mother Jones.
  9. ^ Aizer, Anna; Currie, Janet (May 2017). "Lead and Juvenile Delinquency: New Evidence from Linked Birth, School and Juvenile Detention Records". NBER Working Paper No. 23392. Cambridge, Mass: National Bureau of Economic Research. doi:10.3386/w23392.

Further reading

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