Predicting and regulating potential zone for heavy metal re-contaminated farmland: Case study in Taiwan

IF 4.7 2区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

Environmental Development Pub Date : 2025-01-23 DOI:10.1016/j.envdev.2025.101147

Jieh-Haur Chen , Mu-Chun Su , Meng-Fen Yeh , Wei-Jen Lin , Tzuyang Yu , Ming-Chung Yeh

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引用次数: 0

Abstract

Taoyuan City ranks second in Taiwan for land pollution area. Despite government remediation efforts, the dynamic nature of land characteristics continues to present risks of recontamination. This study utilizes the Random Forest (RF) algorithm to predict and manage potential heavy metal recontamination zones in farmland. Key model parameters were identified through a literature review, leveraging a dataset of 1,555 records from Taoyuan City's managed agricultural lands collected over 19 years (2004–2022). The proposed RF model demonstrates exceptional performance, achieving 75.76% accuracy in predicting soil monitoring concentration variations and an outstanding 99.95% accuracy for soil heavy metal concentration increments. It outperforms alternative models, including MLP, SVM, and DT, in establishing prediction thresholds for heavy metal recontamination, such as cadmium (Low: 0.0022, High: 0.0045), copper (Low: 0.1095, High: 0.1826), and zinc (Low: 0.2374, High: 0.5479), measured in mg/kg-day increments. This model provides critical insights into areas susceptible to heavy metal pollution, with a specific focus on cadmium, copper, and zinc contamination. By leveraging its predictive capabilities, authorities can proactively devise and implement strategies to mitigate risks, safeguarding both the environment and public health.

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来源期刊

Environmental Development Social Sciences-Geography, Planning and Development

CiteScore

8.40

自引率

1.90%

发文量

审稿时长

74 days

期刊介绍： Environmental Development provides a future oriented, pro-active, authoritative source of information and learning for researchers, postgraduate students, policymakers, and managers, and bridges the gap between fundamental research and the application in management and policy practices. It stimulates the exchange and coupling of traditional scientific knowledge on the environment, with the experiential knowledge among decision makers and other stakeholders and also connects natural sciences and social and behavioral sciences. Environmental Development includes and promotes scientific work from the non-western world, and also strengthens the collaboration between the developed and developing world. Further it links environmental research to broader issues of economic and social-cultural developments, and is intended to shorten the delays between research and publication, while ensuring thorough peer review. Environmental Development also creates a forum for transnational communication, discussion and global action. Environmental Development is open to a broad range of disciplines and authors. The journal welcomes, in particular, contributions from a younger generation of researchers, and papers expanding the frontiers of environmental sciences, pointing at new directions and innovative answers. All submissions to Environmental Development are reviewed using the general criteria of quality, originality, precision, importance of topic and insights, clarity of exposition, which are in keeping with the journal''s aims and scope.