MINING, HEALTH, AND SOCIETY: A COMPARATIVE ANALYSIS OF OCCUPATIONAL ACCIDENTS IN KAZAKHSTAN AND JAPAN

Year 2025, Volume: 7 Issue: 1, 73 - 99, 31.01.2025

Diana Kazbekova Akira Ogami Hajime Ando Nurlan Baigabylov Anel Yensebayeva

Abstract

This study compares occupational incidents in the mining industries of Kazakhstan and Japan from 2018 to 2023. Kazakhstan’s rising workplace accidents, particularly in coal mining, highlight deficiencies in safety management despite adopting global standards. In contrast, Japan benefits from advanced safety technologies and stringent protocols, resulting in significantly lower incident rates. The study analyses trends in incident types, such as falls and machinery-related injuries, using harmonized injury classifications. Findings reveal regulatory weaknesses and underreporting in Kazakhstan, while Japan faces challenges with aging infrastructure and disaster preparedness. The research emphasizes Kazakhstan’s need to enhance legal frameworks, training, and safety culture, while Japan must address infrastructure-related risks. Recommendations for both countries focus on improving occupational safety systems to meet international standards, providing key insights for policy reform in high-risk industries such as mining.

Keywords

Mining industry, Occupational injuries, Socioeconomic factors, Culture of safety, Kazakhstan, Japan

Ethical Statement

This study did not require approval from an ethics committee as it did not involve human participants, animals, or sensitive personal data. All data used in this research were obtained from publicly available sources.

Thanks

The research team extends its sincere gratitude to Head of statistics data department of Republican Research Institute for Occupational Safety and Health Ms. Shynar Aitimova for her valuable contributions by providing statistical data, as well as to the RRIOSH for their support throughout the study. Special appreciation is also extended to Dr. Ryutaro Matsugaki (MD, PhD) for his insightful and precise comments, which significantly enhanced this manuscript and contributed to the professional growth of the corresponding author as a researcher. This research was made possible through funding provided by the Ministry of Science for the project titled «Transformation of the State Mechanism of Social Guarantees for Persons Employed in Harmful Working Conditions in the Modern Context» (Grant No. BR22182673). Additionally, this article is a component of the PhD dissertation of Kazbekova D.B., titled «Challenges of the Institutional Infrastructure of Compulsory Insurance from Industrial Accidents in Kazakhstan», conducted under the auspices of the Department of Sociology at L.N. Gumilyov Eurasian National University.

References

• Abdugaliyeva, Gulzhan, Gulzhan Daumova, Baurzhan Makhiyev and Aigerim Akylkankyzy (2024). “Prognosis of Injuries at Metallurgical Plants of KazZinc LLP by Mathematical Modelling”. Analysis of Statistical Indicators of Occupational Injuries That Occurred at Coal Mines of Kazakhstan, 1(463): 8–16.
• Abikenova, Sholpan K., Bauyrzhan M. Iskakov, Ainur N. Turekulova, Bibigul T. Chereyeva, (2023). “Features of Reducing Occupational Injuries in Kazakhstan and Abroad”. Bulletin of the Kazakh University of Economics, Finance and International Trade, 2(51). doi: 10.52260/kuef.2023.51.2.041.
• Abikenova, Sholpan, Roberto Marcelloni and Sholpan Aitimova (2023). “Mathematical Aspects of Occupational Risk and its Classification Considering Statistical Indicators”. Bulletin of the L.N. Gumilyov Eurasian National University. Mathematics. Computer Science. Mechanics Series, 145(4): 23–34. doi: 10.32523/2616-7182/bulmathenu.2023/4.3.
• Abikenova, Sholpan, Sholpan Aitimova, Gulnara Sattarova, Aidos Bekmagambetov and Aidos Tolepov (2023). “Analysis of Statistical Indicators of Occupational Injuries that Occurred at Coal Mines of Kazakhstan”. Analysis of Statistical Indicators of Occupational Injuries That Occurred at Coal Mines of Kazakhstan, 4(404): 317–329.
• Alessa, Faisal M., Ashish D. Nimbarte and E. Mark Sosa (2020). “Incidences and Severity of Wrist, Hand, and Finger Injuries in the U.S. Mining Industry”. Safety Science, 129: 104792. doi: 10.1016/j.ssci.2020.104792.
• Bakishev, K. A. (2024). Injuries during mining or construction work: Condition, dynamics, prognosis. Journal of Actual Problems of Jurisprudence, 109(1). doi: 10.26577/JAPJ2024109110.
• Beck, Ulrich (1992). Risk Society: Towards a New Modernity. Sage Publications. Chebotarev, Aleksandr G. and Darya D. Sementsova (2021). “Comprehensive Assessment of Working Conditions and Occupational Disease Rates at Mining and Metallurgical Enterprises”. Mining Industry Journal (Gornay Promishlennost), 1(2021): 114–119. doi: 10.30686/1609-9192-2021-1-114-119.
• Committee on Statistics of the Republic of Kazakhstan (2024). Occupational Injuries and Occupational Diseases in the Republic of Kazakhstan, Analytical Report. Retrieved from https://stat.gov.kz/ru/news/o-travmatizme-svyazannom-s-trudovoy-deyatelnostyu-i-professionalnykh-zabolevaniyakh-v-respublike-kaz1/. Accessed: 5.05.2024.
• Cruz-Ausejo, Liliana, Nieves Alejandra Cama-Ttito, Patricia Flores Solano, Anthony Copez-Lonzoy and Víctor Juan Vera-Ponce (2024). “Occupational Accidents in Mining Workers: Scoping Review of Studies Published in the Last 13 Years”. BMJ Open, 14(10): e080572. doi: 10.1136/bmjopen-2023-080572.
• De, Sudeshna, Kirsten S. Almberg, Robert A. Cohen and Lee S. Friedman (2020). “Injuries during the First Hour at Work in the U.S. Mining Industry”. American Journal of Industrial Medicine, 63(12): 1124–1133. doi:10.1002/ajim.23186.
• Duarte, Joana, António Torres Marques and João Santos Baptista (2021). “Occupational Accidents Related to Heavy Machinery: A Systematic Review”. Safety, 7(1): 21. doi: 10.3390/safety7010021.
• Duarte, Joana, João Santos Baptista and António Torres Marques (2019). “Occupational Accidents in the Mining Industry—A Short Review. In Pedro M. Arezes et al. (Ed.), Occupational and Environmental Safety and Health, 202: 61–69). Springer International Publishing. doi: 10.1007/978-3-030-14730-3_7.
• Duarte, Joana, João Santos Baptista and António Torres Marques (2018). “Evidence of Occupational Accidents with Equipment in Mining – A Systematic Review Protocol”. International Journal of Occupational and Environmental Safety, 2(2): 84–88. doi: 10.24840/2184-0954_002.002_0009.
• Friedman, Lee S., Kirsten S. Almberg and Robert A. Cohen (2019). “Injuries Associated with Long Working Hours Among Employees in the US Mining Industry: Risk Factors and Adverse Outcomes”. Occupational and Environmental Medicine, 76(6): 389–395. doi: 10.1136/oemed-2018-105558.
• Hämäläinen, Päivi, Jukka Takala and Kaija Leena Saarela (2006). “Global Estimates of Occupational Accidents”. Safety Science, 44(2): 137–156. doi: 10.1016/j.ssci.2005.08.017.
• Hara, Kunio, Mitsuo Hinoue and Sumiyo Ishimatsu (2023). “Causes of Countermeasures Against Serious Accidents Caused by Health Hazards of Chemical Substances, Based on Cases of Occupational Accidents in Japan”. Journal of UOEH, 45(4): 243–257. doi: 10.7888/juoeh.45.243.
• JISHA (2024). Data and graph of transition of occupational accidents in industries in each type of accidents in 1999-2023 [Dataset]. Ministry of Health, Labour and Welfare, Japan.
• Jørgensen, Kirsten (2016). “Prevention of “Simple Accidents at Work” with Major Consequences”. Safety Science, 81: 46–58. doi: 10.1016/j.ssci.2015.01.017.
• Kadyrzhanova, Tatyana S. (2024). “Analysis of Foreign Trends in The Field of Occupational Safety and Health”. Bulletin of the Institute of Legislation and Legal Information of the Republic of Kazakhstan, 2(77): 320–326. doi: 10.52026/2788-5291_2024_77_2_320.
• Kawasaki, Akie and Katsuya Kōroki. (2018). 労災保険関連統計にみる林業労働災害の発生傾向と災害防止対策の課題.一般社団法人日本森林学会 [Trends in Forestry Labor Accidents Observed in Labor Accident Insurance-Related Statistics and Challenges in Disaster Prevention Measures]. doi: 10.11519/jfsc.129.0_28.
• Liu, Jinli, Subasish Das and Md Nasim Khan (2024). “Decoding the Impacts of Contributory Factors and Addressing Social Disparities in Crash Frequency Analysis”. Accident Analysis and Prevention, 194: 107375. doi: 10.1016/j.aap.2023.107375
• Liu, Rong, Zhi Liu, Hong-Chao Liu and Hui Shi (2021). “An Improved Alternative Queuing Method for Occupational Health and Safety Risk Assessment and Its Application to Construction Excavation”. Automation in Construction, 126: 103672. doi: 10.1016/j.autcon.2021.103672.
• Marx, Karl and Engels, Friedrich (1848). The Communist Manifesto.
• Meyer, John W. and Brian Rowan (1977). “Institutionalized Organizations: Formal Structure as Myth and Ceremony”. American Journal of Sociology, 83(2): 340–363. doi: 10.1086/226550.
• Mirzaei Mostafa Mirzaei, Hamed Aghaei, Omid Kalatpuor, Ali Reza Soltanian and Asghar Nikravesh (2019). “Analysis of the Severity of Occupational Injuries in the Mining Industry using a Bayesian Network”. Epidemiology and Health, 41: e2019017. doi: 10.4178/epih.e2019017.
• MLHW (2023). The 14th occupational safety and health program. Ministry of Health, Labour and Welfare.
• Molé, Dale M. (2024). “Mining Accident”. In Ciottone’s Disaster Medicine, 955–957. Elsevier.
• Quiroz, Diana, María Paula, Quiceno Mesa and Estela Ospina Salinas (2023). “Occupational Safety and Health Risks: The Situation of Direct and Outsourced Mining Workers in Bolivia, Colombia, and Peru. Profundo.
• Sanmiquel, Lluís, Marc Bascompta, Josep M. Rossell and Hernán Anticoi (2021). “Analysis of Occupational Accidents in the Spanish Mining Sector in the Period 2009–2018”. International Journal of Environmental Research and Public Health, 18(24): 13122. doi: 10.3390/ijerph182413122.
• Sanmiquel, Lluís, Marc Bascompta, Josep M. Rossell, Hernán Francisco Anticoi and Eduard Guash (2018). “Analysis of Occupational Accidents in Underground and Surface Mining in Spain Using Data-Mining Techniques”. Interna Hayashi, Chisato, Soshiro Ogata, Hiroshi Toyoda, Naoko Tanemura, Toshiyuki
• Okano, Masahiro Umeda and Shinobu Mashino (2023). “Risk Factors for Fracture by Same-Level Falls among Workers across Sectors: A Cross-Sectional Study of National Open Database of the Occupational Injuries in Japan”. Public Health, 217: 196–204. doi: 10.1016/j.puhe.2023.02.003.
• Heberger, John R. and Steven J. Wurzelbacher (2024). “Mining Injuries 2012-2019: Using Workers’ Compensation Claims Data From 35 States to Identify Rates and Costs Associated by Nature of Injury, Event/Exposure, and Body Part Affected”. Journal of Occupational and Environmental Medicine. doi: 10.1097/JOM.0000000000003067.
• Higuchi, Masazumi (2023). 第14次労働災害防止計画の概要 [Overview of the 14th Plan for the Prevention of Occupational Accidents]. 産業医学ジャーナル, 45(1): 49–54.
• Javaid, Ali, Muhammad Abubakar Siddique, Aijaz Ahmad Reshi, Mui-zzud-din, Furqan Rustam, Eunhee Lee and Vishal Rupapara (2023). “Coal Mining Accident Causes Classification Using Voting-Based Hybrid Classifier (VHC)”. Journal of Ambient Intelligence and Humanized Computing, 14(10), 13211–13221. doi: 10.1007/s12652-022-03779-z.
• JICA (2024). Data collection survey on the monitoring for environmentally friendly mining development: Final report. Japan International Cooperation Agency : Sumiko Resources Exploration and Development Co., Ltd. : Mitsubishi Materials Techno Co.JISHA (2024). Data and graph of transition of occupational accidents in industries in each type of accidents in 1999-2023 [Dataset]. Ministry of Health, Labour and Welfare, Japan.
• Jørgensen, Kirsten (2016). “Prevention of “Simple Accidents at Work” with Major Consequences”. Safety Science, 81: 46–58. doi: 10.1016/j.ssci.2015.01.017.
• Kadyrzhanova, Tatyana S. (2024). “Analysis of Foreign Trends in The Field of Occupational Safety and Health”. Bulletin of the Institute of Legislation and Legal Information of the Republic of Kazakhstan, 2(77): 320–326. doi: 10.52026/2788-5291_2024_77_2_320.
• Kawasaki, Akie and Katsuya Kōroki. (2018). 労災保険関連統計にみる林業労働災害の発生傾向と災害防止対策の課題.一般社団法人日本森林学会 [Trends in Forestry Labor Accidents Observed in Labor Accident Insurance-Related Statistics and Challenges in Disaster Prevention Measures]. doi: 10.11519/jfsc.129.0_28.
• Liu, Jinli, Subasish Das and Md Nasim Khan (2024). “Decoding the Impacts of Contributory Factors and Addressing Social Disparities in Crash Frequency Analysis”. Accident Analysis and Prevention, 194: 107375. doi: 10.1016/j.aap.2023.107375
• Liu, Rong, Zhi Liu, Hong-Chao Liu and Hui Shi (2021). “An Improved Alternative Queuing Method for Occupational Health and Safety Risk Assessment and Its Application to Construction Excavation”. Automation in Construction, 126: 103672. doi: 10.1016/j.autcon.2021.103672.
• Marx, Karl and Engels, Friedrich (1848). The Communist Manifesto.
• Meyer, John W. and Brian Rowan (1977). “Institutionalized Organizations: Formal Structure as Myth and Ceremony”. American Journal of Sociology, 83(2): 340–363. doi: 10.1086/226550.
• Mirzaei Mostafa Mirzaei, Hamed Aghaei, Omid Kalatpuor, Ali Reza Soltanian and Asghar Nikravesh (2019). “Analysis of the Severity of Occupational Injuries in the Mining Industry using a Bayesian Network”. Epidemiology and Health, 41: e2019017. doi: 10.4178/epih.e2019017.
• MLHW (2023). The 14th occupational safety and health program. Ministry of Health, Labour and Welfare.
• Molé, Dale M. (2024). “Mining Accident”. In Ciottone’s Disaster Medicine, 955–957. Elsevier.
• Quiroz, Diana, María Paula, Quiceno Mesa and Estela Ospina Salinas (2023). “Occupational Safety and Health Risks: The Situation of Direct and Outsourced Mining Workers in Bolivia, Colombia, and Peru. Profundo.
• Sanmiquel, Lluís, Marc Bascompta, Josep M. Rossell and Hernán Anticoi (2021). “Analysis of Occupational Accidents in the Spanish Mining Sector in the Period 2009–2018”. International Journal of Environmental Research and Public Health, 18(24): 13122. doi: 10.3390/ijerph182413122.
• Sanmiquel, Lluís, Marc Bascompta, Josep M. Rossell, Hernán Francisco Anticoi and Eduard Guash (2018). “Analysis of Occupational Accidents in Underground and Surface Mining in Spain Using Data-Mining Techniques”. International Journal of Environmental Research and Public Health, 15(3): 462. doi: 10.3390/ijerph15030462.
• Senapati, Amrites, Ashis Bhattacherjee and Nearkasen Chau (2020). “Associations of Job-Related Hazards and Personal Factors with Occupational Injuries at Continuous Miner Worksites in Underground Coal Mines: A Matched Case-Control Study in Indian Coal Mine Workers”. Industrial Health, 58(4): 306–317. doi: 10.2486/indhealth.2019-0102.
• Shimizu, Takashi, Takahiro Nagata, Akira Fujimoto, Shinya Inoue, Masashi Nagata and Koji Mori (2022). “Occupational Safety and Health Aspects of Corporate Social Responsibility Reporting in Japan: Comparison between 2012 and 2020”. BMC Research Notes, 15(1): 260. doi: 10.1186/s13104-022-06145-6.
• Shkembi, Abas, Lauren M. Smith and Richard L. Neitzel (2022). “Retrospective Assessment of the Association between Noise Exposure and Nonfatal and Fatal Injury Rates Among Miners in the United States from 1983 to 2014”. American Journal of Industrial Medicine, 65(1): 30–40. doi: 10.1002/ajim.23305.
• Siti Noraishah Ismail, Ahmad, Ramli and Hanafi Abdul Aziz (2021). “Research Trends in Mining Accidents Study: A Systematic Literature Review”. Safety Science, 143: 105438. doi: 10.1016/j.ssci.2021.105438.
• Smatlayev, Baurzhan M., Abikenova, Sholpan K. and Saktaganova, Indira S. (2023). Legal Analysis of the Implementation of Insurance Programs in the Republic of Kazakhstan to Prevent Accidents at Work and Assess the Need for Investments in Safe Work at the Expense of the Insurance Fund Formed in the Compulsory Accident Insurance System”. Bulletin of L.N. Gumilyov Eurasian National University. Law Series, 144(3): 42–50. doi: 10.32523/2616-6844-2023-144-3-42-50.
• Stemn, Eric (2019). “Analysis of Injuries in the Ghanaian Mining Industry and Priority Areas for Research”. Safety and Health at Work, 10(2): 151–165. doi: 10.1016/j.shaw.2018.09.001.
• Takala, Jukka (1999). “Global Estimates of Fatal Occupational Accidents”. Epidemiology, 10(5): 640–646. doi: 10.1097/00001648-199909000-00034.
• Taubayev, Aidos A., Dana M. Turekulova, Sholpan K. Abikenova and Bauyrzhan M. Iskakov (2023). Analysis of occupational injuries and their economic consequences in Kazakhstan’s enterprises. Bulletin of the Kazakh University of Economics, Finance and International Trade, 2(51): doi: 10.52260/kuef.2023.51.2.004.
• Wasaki, Natsuko and Akiko Takahashi (2024). “Characteristics of Occupational Accidents Caused by Inattentiveness”. Journal of Occupational Safety and Health, JOSH-2023-0016-GE. doi: 10.2486/josh.JOSH-2023-0016-GE.
• Wilson, Kerry S., Tahira Kootbodien and Nisha Naicker (2020). “Excess Mortality Due to External Causes in Women in the South African Mining Industry: 2013–2015”. International Journal of Environmental Research and Public Health, 17(6): 1875. doi: 10.3390/ijerph17061875.
• Yaslı, Fatma, and Bersam Bolat (2019). “A Bayesian Network Analysis for Occupational Accidents of Mining Sector”. In Numan M. Durakbasa and Mehmet G. Gencyilmaz (Eds.), Proceedings of the International Symposium for Production Research 2018, 781–799. Springer International Publishing. doi: 10.1007/978-3-319-92267-6_63.
• Yerdessov, Nurbek, Asset Izdenov, Timur Beisenov, Roza Suleimenova, Bakhtiyar Serik and Ermek Sraubaev (2022). “Industrial Traumatism and Occupational Morbidity in Mining Industry of Kazakhstan”. Journal of Public Health Research, 11(1): jphr.2021.2169. doi: 10.4081/jphr.2021.2169.
• Yin, Wenting, Guang Fu, Cheng Yang, Zhong’an Jiang, Kai Zhu and Yong Gao (2017). “Fatal Gas Explosion Accidents on Chinese Coal Mines and the Characteristics of Unsafe Behaviors: 2000–2014”. Safety Science, 92: 173–179. doi: 10.1016/j.ssci.2016.09.018.
• Zhang, HanYuan, Xue Yang and María Dolores Martínez-Aires (2021). “A Reference Framework for Health and Safety in the Workplace in China and the European Union: A Comparative Study”. Work, 70(1): 247–261. doi: 10.3233/WOR-213569.
• Zhang, Jiangshi, Jing Fu, Hongyu Hao, Gui Fu, Feng Nie and Wei Zhang (2020). “Root Causes of Coal Mine Accidents: Characteristics of Safety Culture Deficiencies Based on Accident Statistics”. Process Safety and Environmental Protection, 136: 78–91. doi: 10.1016/j.psep.2020.01.024.
• Zhang, Jinjia, Kaili Xu, Genserik Reniers and Greg You (2020). “Statistical Analysis of the Characteristics of Extraordinarily Severe Coal Mine Accidents (ESCMAs) in China from 1950 to 2018”. Process Safety and Environmental Protection, 133: 332–340. doi: 10.1016/j.psep.2019.10.014.
• Zhang, Yong, Wei Shao, Ming Zhang, Hui Li, Shenghua Yin and Yonggang Xu (2016). “Analysis of 320 Coal Mine Accidents Using Structural Equation Modeling with Unsafe Conditions of the Rules and Regulations as Exogenous Variables”. Accident Analysis and Prevention, 92: 189–201. doi: 10.1016/j.aap.2016.02.021.