Scoping Review on Mitigating the Silent Threat of Toxic Industrial Waste: Eco-Rituals Strategies for Remediation and Ecosystem Restoration

Almaw Genet Yeshiwas; Gashaw Melkie Bayeh; Tilahun Degu Tsega; Sintayehu Simie Tsega; Asaye Alamneh Gebeyehu; Zufan Alamrie Asmare; Rahel Mulatie Anteneh; Amare Genetu Ejigu; Ahmed Fentaw Ahmed; Zeamanuel Anteneh Yigzaw; Abathun Temesgen; Anley Shiferaw Enawgaw; Getasew Yirdaw; Habitamu Mekonen; Chalachew Yenew

doi:10.1177/11786302251329795

Scoping Review on Mitigating the Silent Threat of Toxic Industrial Waste: Eco-Rituals Strategies for Remediation and Ecosystem Restoration

Almaw Genet Yeshiwas^* (Co-first Author), Gashaw Melkie Bayeh, Tilahun Degu Tsega, Sintayehu Simie Tsega, Asaye Alamneh Gebeyehu, Zufan Alamrie Asmare, Rahel Mulatie Anteneh, Amare Genetu Ejigu, Ahmed Fentaw Ahmed, Zeamanuel Anteneh Yigzaw, Abathun Temesgen, Anley Shiferaw Enawgaw, Getasew Yirdaw, Habitamu Mekonen, Chalachew Yenew^* (Co-first Author)

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

4 Citations (Scopus)

Abstract

Background: The problem of toxic industrial waste impacting soil and water quality remains a significant environmental threat, yet comprehensive solutions are lacking. This review addresses this gap by exploring the effects of industrial waste on ecosystems and proposing strategies for remediation. Its aim is to provide a thorough understanding of the issue and suggest actionable solutions to minimize environmental damage.
Methods: A comprehensive scoping review was conducted following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Data were sourced from major academic databases, including Science Direct, Scopus, PubMed, Academic Search Premier, Springer Link, Google Scholar, and Web of Science. A total of 105 relevant articles were included based on strict eligibility criteria. The review process encompassed identification, screening, and eligibility checks, followed by data abstraction and analysis.
Results: The scoping review highlights the severe impact of toxic industrial waste on soil and water quality, emphasizing pollutants such as heavy metals (cadmium, lead, chromium), organic contaminants, and excess nutrients (nitrogen and phosphorus). These pollutants degrade aquatic ecosystems, causing acidification, eutrophication, and oxygen depletion, leading to biodiversity loss and the mobilization of toxic metals. Soil health is similarly compromised, with heavy metal contamination reducing fertility and disrupting microbial communities essential for nutrient cycling. Mitigation strategies, including cleaner production technologies, effluent treatment, bioremediation, and phytoremediation, offer promising solutions. These eco-friendly approaches effectively reduce pollutants, restore ecosystems, and enhance environmental sustainability, thus mitigating the long-term risks posed by industrial waste on soil and water quality.
Conclusions and recommendations: The findings confirm that toxic industrial waste is a critical environmental threat that impacts both aquatic ecosystems and terrestrial soils. Immediate action is necessary to address ecological degradation. Recommended strategies include banning harmful raw materials, pre-treatment of waste, riparian buffering, bioremediation, and stricter regulations to control pollution and safeguard ecosystems.
© The Author(s) 2025.

Original language	English
Number of pages	12
Journal	Environmental Health Insights
Volume	19
Online published	27 Apr 2025
DOIs	https://doi.org/10.1177/11786302251329795
Publication status	Published - 2025
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being
SDG 6 Clean Water and Sanitation
SDG 9 Industry, Innovation, and Infrastructure
SDG 12 Responsible Consumption and Production
SDG 15 Life on Land
SDG 17 Partnerships for the Goals

Research Keywords

industrial waste remediation
soil and water pollution
eco-friendly mitigation strategies
heavy metal contamination
environmental sustainability

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This full text is made available under CC-BY-NC 4.0. https://creativecommons.org/licenses/by-nc/4.0/

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Yeshiwas, A. G., Bayeh, G. M., Tsega, T. D., Tsega, S. S., Gebeyehu, A. A., Asmare, Z. A., Anteneh, R. M., Ejigu, A. G., Ahmed, A. F., Yigzaw, Z. A., Temesgen, A., Enawgaw, A. S., Yirdaw, G., Mekonen, H., & Yenew, C. (2025). Scoping Review on Mitigating the Silent Threat of Toxic Industrial Waste: Eco-Rituals Strategies for Remediation and Ecosystem Restoration. Environmental Health Insights, 19. https://doi.org/10.1177/11786302251329795

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abstract = "Background: The problem of toxic industrial waste impacting soil and water quality remains a significant environmental threat, yet comprehensive solutions are lacking. This review addresses this gap by exploring the effects of industrial waste on ecosystems and proposing strategies for remediation. Its aim is to provide a thorough understanding of the issue and suggest actionable solutions to minimize environmental damage.Methods: A comprehensive scoping review was conducted following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Data were sourced from major academic databases, including Science Direct, Scopus, PubMed, Academic Search Premier, Springer Link, Google Scholar, and Web of Science. A total of 105 relevant articles were included based on strict eligibility criteria. The review process encompassed identification, screening, and eligibility checks, followed by data abstraction and analysis.Results: The scoping review highlights the severe impact of toxic industrial waste on soil and water quality, emphasizing pollutants such as heavy metals (cadmium, lead, chromium), organic contaminants, and excess nutrients (nitrogen and phosphorus). These pollutants degrade aquatic ecosystems, causing acidification, eutrophication, and oxygen depletion, leading to biodiversity loss and the mobilization of toxic metals. Soil health is similarly compromised, with heavy metal contamination reducing fertility and disrupting microbial communities essential for nutrient cycling. Mitigation strategies, including cleaner production technologies, effluent treatment, bioremediation, and phytoremediation, offer promising solutions. These eco-friendly approaches effectively reduce pollutants, restore ecosystems, and enhance environmental sustainability, thus mitigating the long-term risks posed by industrial waste on soil and water quality.Conclusions and recommendations: The findings confirm that toxic industrial waste is a critical environmental threat that impacts both aquatic ecosystems and terrestrial soils. Immediate action is necessary to address ecological degradation. Recommended strategies include banning harmful raw materials, pre-treatment of waste, riparian buffering, bioremediation, and stricter regulations to control pollution and safeguard ecosystems.{\textcopyright} The Author(s) 2025.",

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author = "Yeshiwas, {Almaw Genet} and Bayeh, {Gashaw Melkie} and Tsega, {Tilahun Degu} and Tsega, {Sintayehu Simie} and Gebeyehu, {Asaye Alamneh} and Asmare, {Zufan Alamrie} and Anteneh, {Rahel Mulatie} and Ejigu, {Amare Genetu} and Ahmed, {Ahmed Fentaw} and Yigzaw, {Zeamanuel Anteneh} and Abathun Temesgen and Enawgaw, {Anley Shiferaw} and Getasew Yirdaw and Habitamu Mekonen and Chalachew Yenew",

year = "2025",

doi = "10.1177/11786302251329795",

language = "English",

volume = "19",

journal = "Environmental Health Insights",

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Yeshiwas, AG, Bayeh, GM, Tsega, TD, Tsega, SS, Gebeyehu, AA, Asmare, ZA, Anteneh, RM, Ejigu, AG, Ahmed, AF, Yigzaw, ZA, Temesgen, A, Enawgaw, AS, Yirdaw, G, Mekonen, H & Yenew, C 2025, 'Scoping Review on Mitigating the Silent Threat of Toxic Industrial Waste: Eco-Rituals Strategies for Remediation and Ecosystem Restoration', Environmental Health Insights, vol. 19. https://doi.org/10.1177/11786302251329795

Scoping Review on Mitigating the Silent Threat of Toxic Industrial Waste: Eco-Rituals Strategies for Remediation and Ecosystem Restoration. / Yeshiwas, Almaw Genet (Co-first Author); Bayeh, Gashaw Melkie; Tsega, Tilahun Degu et al.
In: Environmental Health Insights, Vol. 19, 2025.

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

TY - JOUR

T1 - Scoping Review on Mitigating the Silent Threat of Toxic Industrial Waste

T2 - Eco-Rituals Strategies for Remediation and Ecosystem Restoration

AU - Yeshiwas, Almaw Genet

AU - Bayeh, Gashaw Melkie

AU - Tsega, Tilahun Degu

AU - Tsega, Sintayehu Simie

AU - Gebeyehu, Asaye Alamneh

AU - Asmare, Zufan Alamrie

AU - Anteneh, Rahel Mulatie

AU - Ejigu, Amare Genetu

AU - Ahmed, Ahmed Fentaw

AU - Yigzaw, Zeamanuel Anteneh

AU - Temesgen, Abathun

AU - Enawgaw, Anley Shiferaw

AU - Yirdaw, Getasew

AU - Mekonen, Habitamu

AU - Yenew, Chalachew

PY - 2025

Y1 - 2025

N2 - Background: The problem of toxic industrial waste impacting soil and water quality remains a significant environmental threat, yet comprehensive solutions are lacking. This review addresses this gap by exploring the effects of industrial waste on ecosystems and proposing strategies for remediation. Its aim is to provide a thorough understanding of the issue and suggest actionable solutions to minimize environmental damage.Methods: A comprehensive scoping review was conducted following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Data were sourced from major academic databases, including Science Direct, Scopus, PubMed, Academic Search Premier, Springer Link, Google Scholar, and Web of Science. A total of 105 relevant articles were included based on strict eligibility criteria. The review process encompassed identification, screening, and eligibility checks, followed by data abstraction and analysis.Results: The scoping review highlights the severe impact of toxic industrial waste on soil and water quality, emphasizing pollutants such as heavy metals (cadmium, lead, chromium), organic contaminants, and excess nutrients (nitrogen and phosphorus). These pollutants degrade aquatic ecosystems, causing acidification, eutrophication, and oxygen depletion, leading to biodiversity loss and the mobilization of toxic metals. Soil health is similarly compromised, with heavy metal contamination reducing fertility and disrupting microbial communities essential for nutrient cycling. Mitigation strategies, including cleaner production technologies, effluent treatment, bioremediation, and phytoremediation, offer promising solutions. These eco-friendly approaches effectively reduce pollutants, restore ecosystems, and enhance environmental sustainability, thus mitigating the long-term risks posed by industrial waste on soil and water quality.Conclusions and recommendations: The findings confirm that toxic industrial waste is a critical environmental threat that impacts both aquatic ecosystems and terrestrial soils. Immediate action is necessary to address ecological degradation. Recommended strategies include banning harmful raw materials, pre-treatment of waste, riparian buffering, bioremediation, and stricter regulations to control pollution and safeguard ecosystems.© The Author(s) 2025.

AB - Background: The problem of toxic industrial waste impacting soil and water quality remains a significant environmental threat, yet comprehensive solutions are lacking. This review addresses this gap by exploring the effects of industrial waste on ecosystems and proposing strategies for remediation. Its aim is to provide a thorough understanding of the issue and suggest actionable solutions to minimize environmental damage.Methods: A comprehensive scoping review was conducted following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. Data were sourced from major academic databases, including Science Direct, Scopus, PubMed, Academic Search Premier, Springer Link, Google Scholar, and Web of Science. A total of 105 relevant articles were included based on strict eligibility criteria. The review process encompassed identification, screening, and eligibility checks, followed by data abstraction and analysis.Results: The scoping review highlights the severe impact of toxic industrial waste on soil and water quality, emphasizing pollutants such as heavy metals (cadmium, lead, chromium), organic contaminants, and excess nutrients (nitrogen and phosphorus). These pollutants degrade aquatic ecosystems, causing acidification, eutrophication, and oxygen depletion, leading to biodiversity loss and the mobilization of toxic metals. Soil health is similarly compromised, with heavy metal contamination reducing fertility and disrupting microbial communities essential for nutrient cycling. Mitigation strategies, including cleaner production technologies, effluent treatment, bioremediation, and phytoremediation, offer promising solutions. These eco-friendly approaches effectively reduce pollutants, restore ecosystems, and enhance environmental sustainability, thus mitigating the long-term risks posed by industrial waste on soil and water quality.Conclusions and recommendations: The findings confirm that toxic industrial waste is a critical environmental threat that impacts both aquatic ecosystems and terrestrial soils. Immediate action is necessary to address ecological degradation. Recommended strategies include banning harmful raw materials, pre-treatment of waste, riparian buffering, bioremediation, and stricter regulations to control pollution and safeguard ecosystems.© The Author(s) 2025.

KW - industrial waste remediation

KW - soil and water pollution

KW - eco-friendly mitigation strategies

KW - heavy metal contamination

KW - environmental sustainability

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U2 - 10.1177/11786302251329795

DO - 10.1177/11786302251329795

M3 - RGC 21 - Publication in refereed journal

C2 - 40297656

SN - 1178-6302

VL - 19

JO - Environmental Health Insights

JF - Environmental Health Insights

ER -

Scoping Review on Mitigating the Silent Threat of Toxic Industrial Waste: Eco-Rituals Strategies for Remediation and Ecosystem Restoration

Abstract

UN SDGs

Research Keywords

Publisher's Copyright Statement

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