Beneath the Surface: Unveiling the Silent Threat of Groundwater Contamination

Authors

  • Dr. OSAMA ASANOUSI LAMMA Department of Soil & water Faculty of Agricultural, Bani Waleed University, Libya Author

DOI:

https://doi.org/10.58916/jhas.v8i5.81

Keywords:

Groundwater, lifeline, environment, societies and economies, global dimensions.

Abstract

In the quiet depths of the Earth, a pervasive danger lurks—groundwater contamination. This research unveils the concealed perils that compromise the lifeblood of our planet, transcending borders and demanding collective attention. As civilizations thrive on the sustenance drawn from beneath the surface, the subtle contamination of this vital resource unveils far-reaching consequences for our environment, societies, and economies. This paper traverses the historical narratives and global dimensions of groundwater contamination, delving into the intricate web of natural and human-induced sources. Through meticulous analysis of diverse case studies and statistical data, we present a panoramic view of contamination hotspots worldwide, emphasizing the dire environmental, social, and economic implications. As we navigate the challenges in mitigating this silent menace, innovative technological solutions and robust governance frameworks emerge as beacons of hope. This research serves not only as a critical exploration of the silent threat beneath our feet but also as a call to action. Groundwater contamination knows no borders, and addressing it requires a united front. In this quest for sustainable water management, we advocate for a global paradigm shift, urging nations to collaborate, policies to evolve, and technologies to innovate. The fate of our groundwater, and by extension, our shared future, rests in our collective commitment to unveil and mitigate this silent threat.

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Published

2023-12-14

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How to Cite

Dr. OSAMA ASANOUSI LAMMA. (2023). Beneath the Surface: Unveiling the Silent Threat of Groundwater Contamination. Bani Waleed University Journal of Humanities and Applied Sciences, 8(5), 380-393. https://doi.org/10.58916/jhas.v8i5.81

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