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

IF 2.3 Q2 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH

Environmental Health Insights Pub Date : 2025-04-27 eCollection Date: 2025-01-01 DOI:10.1177/11786302251329795

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

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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.

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减轻有毒工业废物无声威胁的范围综述：生态仪式修复和生态系统恢复策略。

背景：有毒工业废物对土壤和水质的影响仍然是一个重大的环境威胁，但缺乏全面的解决方案。本文通过探讨工业废物对生态系统的影响并提出补救策略来解决这一差距。其目的是提供对该问题的全面了解，并提出可行的解决方案，以尽量减少对环境的破坏。方法：根据系统评价和荟萃分析的首选报告项目（PRISMA）指南进行全面的范围评价。数据来源于主要的学术数据库，包括Science Direct、Scopus、PubMed、academic Search Premier、施普林格Link、谷歌Scholar和Web of Science。根据严格的资格标准，共纳入了105篇相关文章。审查过程包括识别、筛选和资格检查，随后是数据抽象和分析。结果：范围审查强调了有毒工业废物对土壤和水质的严重影响，强调了重金属（镉、铅、铬）、有机污染物和过量营养物质（氮和磷）等污染物。这些污染物使水生生态系统退化，造成酸化、富营养化和氧气消耗，导致生物多样性丧失和有毒金属的调动。土壤健康同样受到损害，重金属污染降低了肥力，破坏了对养分循环至关重要的微生物群落。缓解战略，包括清洁生产技术、污水处理、生物修复和植物修复，提供了有希望的解决办法。这些生态友好的方法有效地减少了污染物，恢复了生态系统，提高了环境的可持续性，从而减轻了工业废物对土壤和水质造成的长期风险。结论和建议：研究结果证实，有毒工业废物是影响水生生态系统和陆地土壤的严重环境威胁。必须立即采取行动解决生态退化问题。建议的战略包括禁止使用有害原材料、废物预处理、河岸缓冲、生物修复以及更严格的法规来控制污染和保护生态系统。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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