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A Study on Occupational Health in the Marble Industry in Mexico: The Case of Tepexi de Rodríguez-Puebla


Affiliations
1 División de Estudios de Posgrado e Investigación, Tecnológico Nacional de México/IT de Puebla, Avenida Tecnológico 420, Col. Maravillas, 72220, Puebla, Mexico
2 Laboratorio de Logística y Sustentabilidad en Economías Emergentes, Tecnológico Nacional de México/ITS de Misantla, Km. 1.8 Carretera a Loma del Cojolite, 93850, Misantla. Veracruz, Mexico
3 Universidad Popular Autónoma del Estado de Puebla. 17 Sur 901, Barrio de Santiago, 72410, Puebla. Puebla, Mexico
4 Departamento de Ingeniería Industrial, Tecnológico Nacional de México/ITS de Zacapoaxtla. Carretera Acuaco-Zacapoaxtla Km. 8, Col. Totoltepec, 73680. Zacapoaxtla, Mexico

The existing literature lacks a unified perspective on the impact of occupational health in the marble industry, especially in developing countries. This study aims to enhance current knowledge by exploring how operational conditions and work activities affect workers' health. In the municipality of Tepexi de Rodríguez, Puebla, Mexico, two marble companies and 27 workers participated. In 2021, lighting, noise, and operational conditions were measured, and in 2024, sleep disorders and occupational fatigue were evaluated. The three-year gap between study periods resulted from accessibility and logistical issues. The study used the LEST method, NOM-011-STPS-2001 and NOM-025-STPS-2008 standards, and the Pittsburgh and Yoshitake instruments; data were processed using Ergoniza® software. Results show a physical workload of 7.7, mental workload of 3.0, psychosocial aspects of 4.3, and work time of 6.9 (on a scale of 0 to 10). Noise levels reached 92.26 dB, natural lighting was 899.6 lx, and artificial lighting was 269.4 lx. The sleep disorder index was 7.0, and occupational fatigueshowed 2.3 out of 5 for physical fatigue, 1.9 for mental fatigue, and 2.1 for mixed fatigue. These findings reveal a severe physical workload in the cutting, polishing, and packaging areas, correlating sleep disorders to work areas. Increasing the sample size and randomly selecting workers for dynamic system modelling is recommended to explain the correlation between working conditions and productivity. This study underscores the need to improve working conditions to mitigate health impacts, offering practical insights for marble companies and health organizations.

Keywords

Collateral damages, Environmental conditions, Ergonomic evaluation, Lighting, Noise
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  • A Study on Occupational Health in the Marble Industry in Mexico: The Case of Tepexi de Rodríguez-Puebla

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Authors

Teodoro Alarcón-Ruíz
División de Estudios de Posgrado e Investigación, Tecnológico Nacional de México/IT de Puebla, Avenida Tecnológico 420, Col. Maravillas, 72220, Puebla, Mexico
Luis Enrique García-Santamaría
Laboratorio de Logística y Sustentabilidad en Economías Emergentes, Tecnológico Nacional de México/ITS de Misantla, Km. 1.8 Carretera a Loma del Cojolite, 93850, Misantla. Veracruz, Mexico
Yésica Mayett-Moreno
Universidad Popular Autónoma del Estado de Puebla. 17 Sur 901, Barrio de Santiago, 72410, Puebla. Puebla, Mexico
Eduardo Fernández-Echeverría
Departamento de Ingeniería Industrial, Tecnológico Nacional de México/ITS de Zacapoaxtla. Carretera Acuaco-Zacapoaxtla Km. 8, Col. Totoltepec, 73680. Zacapoaxtla, Mexico
Gregorio Fernández-Lambert
Laboratorio de Logística y Sustentabilidad en Economías Emergentes, Tecnológico Nacional de México/ITS de Misantla, Km. 1.8 Carretera a Loma del Cojolite, 93850, Misantla. Veracruz, Mexico

Abstract


The existing literature lacks a unified perspective on the impact of occupational health in the marble industry, especially in developing countries. This study aims to enhance current knowledge by exploring how operational conditions and work activities affect workers' health. In the municipality of Tepexi de Rodríguez, Puebla, Mexico, two marble companies and 27 workers participated. In 2021, lighting, noise, and operational conditions were measured, and in 2024, sleep disorders and occupational fatigue were evaluated. The three-year gap between study periods resulted from accessibility and logistical issues. The study used the LEST method, NOM-011-STPS-2001 and NOM-025-STPS-2008 standards, and the Pittsburgh and Yoshitake instruments; data were processed using Ergoniza® software. Results show a physical workload of 7.7, mental workload of 3.0, psychosocial aspects of 4.3, and work time of 6.9 (on a scale of 0 to 10). Noise levels reached 92.26 dB, natural lighting was 899.6 lx, and artificial lighting was 269.4 lx. The sleep disorder index was 7.0, and occupational fatigueshowed 2.3 out of 5 for physical fatigue, 1.9 for mental fatigue, and 2.1 for mixed fatigue. These findings reveal a severe physical workload in the cutting, polishing, and packaging areas, correlating sleep disorders to work areas. Increasing the sample size and randomly selecting workers for dynamic system modelling is recommended to explain the correlation between working conditions and productivity. This study underscores the need to improve working conditions to mitigate health impacts, offering practical insights for marble companies and health organizations.

Keywords


Collateral damages, Environmental conditions, Ergonomic evaluation, Lighting, Noise