Lead Mining Statistics 2024 – Everything You Need to Know

Are you looking to add Lead Mining to your arsenal of tools? Maybe for your business or personal use only, whatever it is – it’s always a good idea to know more about the most important Lead Mining statistics of 2024.

My team and I scanned the entire web and collected all the most useful Lead Mining stats on this page. You don’t need to check any other resource on the web for any Lead Mining statistics. All are here only 🙂

How much of an impact will Lead Mining have on your day-to-day? or the day-to-day of your business? Should you invest in Lead Mining? We will answer all your Lead Mining related questions here.

Please read the page carefully and don’t miss any word. 🙂

Best Lead Mining Statistics

☰ Use “CTRL+F” to quickly find statistics. There are total 74 Lead Mining Statistics on this page 🙂

---

Lead Mining Latest Statistics

• By the early 2000s, the total demand for lead in all types of lead acid storage batteries represented 88% of apparent U.S. lead consumption. ^[0]
• Other significant uses included ammunition (3%), oxides in glass and ceramics (3%), casting metals (2%), and sheet lead (1%). ^[0]
• However, more needs to be done to phase out of lead paint so far, only 41% of countries have introduced legally binding controls on lead paint. ^[1]
• The Institute for Health Metrics and Evaluation estimated that in 2019, lead exposure accounted for 900 000 deaths and 21.7 million years of healthy life lost. ^[1]
• In the US more than 80% of lead comes from secondary production with Europe reporting over 60%. ^[2]
• Experts now use a new level based on the U.S. population of children ages 1 5 years who are in the top 2.5% of children when tested for lead in their blood. ^[3]
• The modelled lead absorption attributed to the inhalation route was lower than 2 % (mean ± SE, 0.9 % ± 0.1 %). ^[4]
• Europe and North America recycle close to 100% of their battery lead. ^[5]
• Uses The primary use of lead is in lead acid batteries for motor vehicles (80% of total use). ^[5]
• The largest use was for batteries (86%); followed by rolled and extruded products (7%); lead compounds including lead oxides and salts (5%); shot and ammunition (1%); and other miscellaneous products including alloys and solder (1%). ^[5]
• In 2019, Canadian mines produced an estimated 22,608 tonnes of lead in concentrate. ^[5]
• Recycled lead accounted for 60% of Canada’s total refined lead production in 2019 partially because of substantial recycling of lead. ^[5]
• China was the world leader in lead production from mines in 2019 with 2.1 million tonnes of lead or 46.7% of the global total. ^[5]
• Other top producers, including Australia, Peru and the United States, contributed less than 10% each to global lead production from mines in 2019. ^[5]
• Ranking Country Thousand tonnes Percentage of total 1. ^[5]
• 2 Australia 430 9.6% 3 Peru 290 6.4% 4 United States 280 6.2% 5 Mexico 240 5.3% 6. ^[5]
• Russia 220 4.9% 7 Other countries 940 20.9%. ^[5]
• China was the biggest producer with 5.1 million tonnes of refined lead, which accounted for over 42% of global production. ^[5]
• 640 5.4% 5 Mexico 447 3.7% 6 Germany 332 2.8% 7 United Kingdom. ^[5]
• 9 Japan 237 2.0% 10 Other countries 2,673 23.4%. ^[5]
• Total world lead reserves were an estimated 90.4 million tonnes in 2019, as calculated by the U.S. Geological Survey. ^[5]
• Ranking Country Million tonnes Percentage of total 1 Australia 36.0 39.8% 2. ^[5]
• Russia 6.4 7.1% 4 Peru 6.3 7.0% 5 Mexico 5.6 6.2%. ^[5]
• All of the lead contained in these types of batteries can be recovered and recycled for use in new batteries – Europe and North America have battery recycling rates approaching 100%. ^[5]
• 0.8% Copper, Nickel, Lead & Zinc Mining Employment Growth in 2024 1.4% Copper, Nickel, Lead & Zinc Mining Annualized Employment Growth 2017–2024. ^[6]
• The number of people employed in the Copper, Nickel, Lead & Zinc Mining industry in Canada increased 1.4% on average over the five years between 2017 and 2024. ^[6]
• Response rates in the WLS sample have been high; approximately 75% of the original cohort responded to the 2004 survey. ^[7]
• Of the 19,050 cohort members , approximately 90% were located in the 1940 census. ^[7]
• Because these assessments used different metrics, we first transformed raw scores into the percentage of points earned out of the maximum possible for each test, then we averaged these scores within each domain. ^[7]
• To account for potential confounding in the estimated effect of lead exposure on late life cognition, we controlled for childhood socio economic and demographic factors measured in the 1940 census. ^[7]
• We used the MICE function in Stata to impute 10 datasets, then averaged estimated coefficients across these datasets to produce our final results. ^[7]
• We estimated coefficients for baseline cognition and cognitive decline between 2004 and 2011. ^[7]
• Associations with cognitive decline were estimated using interaction terms between each variable and a 2011 survey dummy variable. ^[7]
• Approximately 54% of the sample were female. ^[7]
• On average, participants who grew up in a mining town had lower parental wages, although they were more likely to report non wage income greater than $50. ^[7]
• All of the lead exposed respondents lived in Southwest Wisconsin as children, compared with just 15% of other respondents. ^[7]
• Parents’ Education, N(%). ^[7]
• $50 of non wage income, N(%). ^[7]
• 1.1 0.081 Adult Variables Education, N(%). ^[7]
• 83 Net Worth, N(%). ^[7]
• 67 Fair/Poor Health, N(%). ^[7]
• Hypertension, N(%). ^[7]
• Table 2 shows the estimated fixed effects from multilevel regression models of late life memory/attention. ^[7]
• After adjusting for potentially confounding socio economic and demographic factors in Model 2, the estimated effect of childhood lead exposure on the intercept of memory/attention was still not significant. ^[7]
• However, the estimated slope effect increased slightly in magnitude and indicated a significantly steeper rate of decline in memory/attention for those who were exposed to lead as children. ^[7]
• Estimated fixed effects from multilevel regression models of language/executive function are presented in Table 3. ^[7]
• In Model 3, we found that the estimated coefficient for childhood lead exposure did not substantially change after adjusting for adolescent IQ, even though adolescent IQ itself is strongly associated with late life language/executive function. ^[7]
• To investigate this threat, we tested whether WLS participants who lived near lead mines as children were less likely to participate in the 2004 or 2011 survey rounds. ^[7]
• Finally, although the WLS is a large population based sample, it includes mostly those with at least a high school degree, reflecting approximately 80 percent of those graduating from high schools during this period. ^[7]
• According to the World Health Organization , today around 85% of the world’s lead consumption is for the production of lead. ^[8]
• The good news is that lead acid batteries are 99% recyclable. ^[8]
• Thus, while the 99% recycling statistic is important, it may understate the potential for lead contamination via this process. ^[8]
• They stressed that while leadacid batteries are 99% recyclable, lithium ion batteries are recycled at a rate below 5%. ^[8]
• However, several companies also contacted me to argue that the 5% statistic itself is misleading. ^[8]
• “Our batteries are highly recyclable based on our Bill of Materials on average we have 83% of steel and copper, by weight. ^[8]
• They are close to 100% recyclable. ^[8]
• Some companies already claim 50%, which takes OneCharge batteries to around 90% recycling rate. ^[8]
• Around 80% of cells usually can still work in less demanding applications, such as home energy storage. ^[8]
• From October 2016 to October 2017, the largest percentage increases in statewide employment were mostly in mining and logging. ^[9]
• State 12 month ercent change North Dakota Mining and logging Texas Mining and logging Nevada Construction Vermont Mining and logging Wyoming Mining and logging. ^[9]
• Among the industries with the largest percentage increase in employment in each state from October 2016 to October 2017, mining and logging in North Dakota experienced the largest increase, with 23.4 percent. ^[9]
• Among the states with industries having the largest percentage increases in employment, mining and logging had the largest percentage increase in 16 of the top 20. ^[9]
• Among industries having the largest percentage decreases in employment in each state, the information industry in Kansas experienced the largest decrease, with an 8.3 percent decrease from October 2016 to October 2017. ^[9]
• This was followed by a 7.5percent decrease in manufacturing employment for Alaska, a 6.8percent decrease in construction for Iowa, and a 6.7 percent decrease in information employment in North Carolina. ^[9]
• State 12 month ercent change Kansas Information Alaska. ^[9]
• 37 Copper, Nickel, Lead & Zinc Mining Businesses in the US in 2024 0% Copper, Nickel, Lead & Zinc Mining in the US Business Growth in 2024 2% Copper, Nickel, Lead & Zinc Mining in the US Annualized Business Growth 2017–2024. ^[10]
• There are 37 Copper, Nickel, Lead & Zinc Mining businesses in the US as of 2024, a decline of. ^[10]
• In Broken Hill, the most recent data show that 53 % of children tested have BLLs over 5 μg/dL, with Aboriginal children “twice as likely to have blood lead levels that exceed 10 μg/dL” [13]. ^[11]
• In 2008, a larger sample showed a greater percentage of children with BLLs greater than or equal to. ^[11]
• In Port Pirie, in the first half of 2014 approximately 20 % of children tested had blood lead levels of 10 μg/dL or higher [16]. ^[11]
• [55], or the percentage of yards that exceed the standard. ^[11]
• Parents in all three cities are advised that children should not have “empty stomachs” and should follow specific diets in order to, according to the Broken Hill materials, “keep children’s lead levels low” [73]. ^[11]
• In 2018, U.S. production of lead was estimated at 1.3 million metric tons; primarily from secondary refining of scrap metal and 10 mines mostly in Alaska and Missouri. ^[12]
• The U.S. has 11 operating secondary smelters accounting for 99% of refined lead production in the U.S. Lead can be used as a pure metal, combined with another metal to form an alloy, or in the form of a chemical compound. ^[12]

I know you want to use Lead Mining Software, thus we made this list of best Lead Mining Software. We also wrote about how to learn Lead Mining Software and how to install Lead Mining Software. Recently we wrote how to uninstall Lead Mining Software for newbie users. Don’t forgot to check latest Lead Mining statistics of 2024.

Reference

---

1. usgs – https://www.usgs.gov/centers/nmic/lead-statistics-and-information.
2. who – https://www.who.int/news-room/fact-sheets/detail/lead-poisoning-and-health.
3. ila-lead – https://ila-lead.org/resources/lead-production-statistics/.
4. epa – https://www.epa.gov/lead/learn-about-lead.
5. nih – https://pubmed.ncbi.nlm.nih.gov/24122159/.
6. nrcan – https://www.nrcan.gc.ca/our-natural-resources/minerals-mining/minerals-metals-facts/lead-facts/20518.
7. ibisworld – https://www.ibisworld.com/canada/industry-statistics/employment/copper-nickel-lead-zinc-mining/.
8. sciencedirect – https://www.sciencedirect.com/science/article/pii/S2352827322000167.
9. forbes – https://www.forbes.com/sites/rrapier/2020/01/19/environmental-implications-of-lead-acid-and-lithium-ion-batteries/.
10. bls – https://www.bls.gov/opub/ted/2017/mining-and-logging-leads-most-states-with-largest-12-month-increase-in-employment-since-october-2016.htm.
11. ibisworld – https://www.ibisworld.com/industry-statistics/number-of-businesses/copper-nickel-lead-zinc-mining-united-states/.
12. biomedcentral – https://ehjournal.biomedcentral.com/articles/10.1186/s12940-015-0085-9.
13. osha – https://www.osha.gov/lead.

How Useful is Lead Mining

On the other hand, critics of lead mining point to the numerous hazards associated with the extraction and processing of this mineral. Lead is a highly toxic substance that can have detrimental effects on human health, particularly on children and pregnant women. Exposure to lead can cause developmental disabilities, neurological disorders, and even death in severe cases. The environmental impact of lead mining is also a cause for concern, as the process can result in soil and water contamination, leading to harm to local ecosystems and wildlife.

The usefulness of lead mining must be carefully weighed against these risks and concerns. While lead is an essential component of many everyday items, including electrical wiring, medical equipment, and ceramic glazes, the potential harm it can cause to human health and the environment cannot be ignored. It is crucial for societies to find a balance between the benefits and drawbacks of lead mining, taking into account the health and safety of those involved in the process as well as the impact on the natural world.

One possible solution to mitigate the negative effects of lead mining is to implement strict regulations and safety measures to minimize exposure to lead and prevent pollution. Companies involved in lead mining should be held accountable for any harm caused to workers, nearby residents, and the environment, and should be required to adopt sustainable practices that reduce the risk of contamination. In addition, individuals can play a role by reducing their use of lead-containing products and advocating for safer alternatives.

Furthermore, investing in research and technology to find alternative materials that can replace lead in important applications can help reduce the demand for lead mining. Scientists and engineers are constantly working to develop innovative solutions that are environmentally friendly and free of toxic substances. By supporting these efforts and promoting the adoption of sustainable practices, we can move towards a future where lead mining is no longer a necessity.

In conclusion, the usefulness of lead mining is a complex issue that requires careful consideration of both the benefits and risks involved. While lead is a valuable resource that plays a crucial role in many industries, it is essential to prioritize the health and well-being of people and the planet. By taking proactive steps to minimize the negative impact of lead mining and exploring alternative options, we can create a more sustainable and responsible approach to the use of this mineral.

In Conclusion

Be it Lead Mining benefits statistics, Lead Mining usage statistics, Lead Mining productivity statistics, Lead Mining adoption statistics, Lead Mining roi statistics, Lead Mining market statistics, statistics on use of Lead Mining, Lead Mining analytics statistics, statistics of companies that use Lead Mining, statistics small businesses using Lead Mining, top Lead Mining systems usa statistics, Lead Mining software market statistics, statistics dissatisfied with Lead Mining, statistics of businesses using Lead Mining, Lead Mining key statistics, Lead Mining systems statistics, nonprofit Lead Mining statistics, Lead Mining failure statistics, top Lead Mining statistics, best Lead Mining statistics, Lead Mining statistics small business, Lead Mining statistics 2024, Lead Mining statistics 2021, Lead Mining statistics 2024 you will find all from this page. 🙂

We tried our best to provide all the Lead Mining statistics on this page. Please comment below and share your opinion if we missed any Lead Mining statistics.