Beneath the Surface: Unveiling the Silent Threat of Groundwater Contamination

المؤلفون

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

DOI:

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

الكلمات المفتاحية:

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

الملخص

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.

التنزيلات

تنزيل البيانات ليس متاحًا بعد.

المراجع

Kumar, Rohitashw & Gautam, Harender. (2018). Threat and Mitigation of Ground Water Contamination in India. 29-31.

Al-Azawi, Batool. (2020). Groundwater Contamination. 10.13140/RG.2.2.28118.06721.

Singh, U.K. Kumar, M. Chauhan, R. Jha, P.K. Ramanathan, A. and Subramanian V. 2008.

Assessment of the impact of dumpsite on groundwater quality: a case study of the Pirana site in

western. India. Environmental Monitoring Assessment 141:309-21.

Singh, U.K. Kumar, M. Chauhan, R. Jha, P.K. Ramanathan, A. and Subramanian V. 2008.

Assessment of the impact of dumpsite on groundwater quality: a case study of the Pirana site in

western. India. Environmental Monitoring Assessment 141:309-21.

Singh, U.K. Kumar, M. Chauhan, R. Jha, P.K. Ramanathan, A. and Subramanian V. 2008.

Assessment of the impact of dumpsite on groundwater quality: a case study of the Pirana site in

western. India. Environmental Monitoring Assessment 141:309-21.

Singh, U.K. Kumar, M. Chauhan, R. Jha, P.K. Ramanathan, A. and Subramanian V. 2008.

Assessment of the impact of dumpsite on groundwater quality: a case study of the Pirana site in

western. India. Environmental Monitoring Assessment 141:309-21.

Singh, U.K. Kumar, M. Chauhan, R. Jha, P.K. Ramanathan, A. and Subramanian V. 2008.

Assessment of the impact of dumpsite on groundwater quality: a case study of the Pirana site in

western. India. Environmental Monitoring Assessment 141:309-21.

Al-Sudani, H.I.Z. 2019. Salinity Pollution of Groundwater in South of Iraq. Journal of University of Babylon, Engineering Sciences. 27 (3):13-24.

Han, Z. Ma, H. Shi, G. He, L. Wei, L. and Shi, Q. 2016. A review of groundwater contamination near municipal solid waste landfill sites in China, Science of the Total Environment 569 (570): 1255-1264.

Lamma, O. A., Swamy, A. V. V. S., & Subhashini, V. (2018). Ground water quality in the vicinity of industrial locations in Guntur. Ap, India.

Lamma, D. O. A. (2020). Study on groundwater analysis for drinking purpose in Mangalagiri Mandal regions, Andhra Pradesh, India. International Journal of Appl ied Research, 6(1), 148-153.

Lamma, O., Abubaker, M., & Lamma, S. (2015). Impact of reverse osmosis on purification of water. Journal of Pharmaceutical Biology, 5(2), 108-112.

Uday, V.S. Amar, A. Kunwar, P.S. Ratnakar, D. and Netra, P.S. 2014. Groundwater quality appraisal and its hydrochemical characterization in Ghaziabad (a region of indogangetic plain), Utta Pradesh, India, Applied Water Science. 4:145–157.

Odukoya, A.M., Folorunso, A.F., Ayolabi, E.A. and Adeniran, E.A. 2013. Groundwater Quality and Identification of Hydrogeochemical Processes within University of Lagos, Nigeria. Journal of Water Resource and Protection, 5: 930-940.

Singh, U.K. Kumar, M. Chauhan, R. Jha, P.K. Ramanathan, A. and Subramanian V. 2008. Assessment of the impact of dumpsite on groundwater quality: a case study of the Pirana site in western. India. Environmental Monitoring Assessment 141:309-21.

Huang, G.X. Sun, J.C. Wang, S. Du, H.Y. Lu, Y.D. Zhi, B.F. et al. 2008. Elementary research of organochlorine pesticide in groundwater of Pearl River delta. Journal Agro-Environ Sci, 27:1471-5.

Kong. D.Y. Zhu, Z.L. Shi, L.L. Shan, Z.J. and Cai, D.J. 2004. Effect of pesticides on groundwater under sweet-potato-based cropping systems in northern China. Journal Agro-Environ Sci, 23:1017-20.

Al-Sudani, H.I.Z. 2018. Hydraulic Parameters of Groundwater Aquifers in Khan-Al-Baghdadi Area. Engineering and Technology Journal. 36 (2B): 136-146.

Al-Sudani, H.I.Z. 2018. Influence of Structural Factors on Groundwater System - West of Iraq. Basrah Journal of Science.36 (1):1-15.

elvakumar, S. Chandrasekar, N. and Kumar, G. 2017. Hydrogeochemical characteristics and groundwater contamination in the rapid urban development areas of Coimbatore, India. Water Resources and Industry, 17: 26–33.

Adimalla N, Li P. Occurrence, health risks and geochemical mechanisms of fluoride and nitrate in groundwater of the rock-dominant semi-arid region, Telangana State, India. Hum Ecol Risk Assess. 2019;25:81–103.

Adimalla N, Wu J. Groundwater quality and associated health risks in a semi-arid region of south India: implication to sustainable groundwater management. Hum Ecol Risk Assess. 2019;25:191–216.

Ahmed A, Nawaz R, Woulds C, Drake F. Influence of hydro-climatic factors on future coastal land susceptibility to erosion in Bangladesh: a geospatial modelling approach. J Geovis Spat Anal. 2020;4:6. doi: 10.1007/s41651-020-00050-x.

Mohammad, M. J., Krishna, P. V., Lamma, O. A., & Khan, S. (2015). Analysis of water quality using Limnological studies of Wyra reservoir, Khammam district, Telangana, India. Int. J. Curr. Microbiol. App. Sci, 4(2), 880-895.

Lamma, O. A. (2021). The impact of recycling in preserving the environment. IJAR, 7(11), 297-302.

Lamma, O. A., & Swamy, A. V. V. S. (2018). Assessment of Ground Water Quality at Selected Industrial Areas of Guntur, AP, India. Int. J. Pure App. Biosci, 6(1), 452-460.

Lamma, O. A. (2021). Groundwater Problems Caused By Irrigation with Sewage Effluent. International Journal for Research in Applied Sciences and Biotechnology, 8(3), 64-70.

Lamma, O., & Swamy, A. V. V. S. (2015). E-waste, and its future challenges in India. Int J Multidiscip Adv Res Trends, 2(I), 12-24.

Outhman, A. M., & Lamma, O. A. (2020). Investigate the contamination of tissue paper with heavy metals in the local market. IJCS, 8(1), 1264-1268.

Lamma, O. A., & Moftah, M. A. (2016). Effect of vermicompost on antioxidant levels in Andrographis paniculata. International Journal of Applied and Pure Science and Agriculture, 2(3), 1-6

Asanousi Lamma, O., Swamy, A. V. V. S., & Alhadad, A. A. (2018). Assessment of Heavy Metal Pollution in Ground Water and its Correlation with other Physical Parameters at Selected Industrial Areas of Guntur, AP, India. AP, India.

Mohammad, M. J., Krishna, P. V., Lamma, O. A., & Khan, S. (2015). Analysis of water quality seasonal variations of paler reservoir, Khammam district, Telangana, India. International Journal of Current Research in Chemistry and Pharmaceutical Sciences, 2(2), 31-43.

Lamma, O. A., & Sallam, R. M. A. (2018). Analysis of water quality of Lingala Munner Krishna district, AP, India. J. Adv. Stud. Agricult. Biol. Environ. Sci, 5(3), 22-27.

FARAJ, M. A. M., BUNA, M. A. M., ASMEEDAH, G. A., LAMMA, O. A., & SAHEED, R. M. (2023). Organic Geochemical Investigation of Crude oils from the Al Bayda Platform Area (Samah formation), Central Part of the Sirte Basin, Northern Libya. Oriental Journal of Chemistry, 39(4).

Lamma, O. A. Waste disposal and landfill: Potential hazards and their impact on groundwater(2021). International Journal of Geography, Geology and Environment 3 (2), 133-141>

Emhmd, H. M., Ragab, S. Y., & Alhadad, A. A. (2022). Investigation of the Antimicrobial Activity of Some Species Belonging to Pinaceae Family. Applied Science and Engineering Journal for Advanced Research, 1(4), 34-45.

التنزيلات

منشور

2023-12-14

إصدار

القسم

Article

كيفية الاقتباس

Dr. OSAMA ASANOUSI LAMMA. (2023). Beneath the Surface: Unveiling the Silent Threat of Groundwater Contamination. مجلة جامعة بني وليد للعلوم الإنسانية والتطبيقية, 8(5), 380-393. https://doi.org/10.58916/jhas.v8i5.81

الأعمال الأكثر قراءة لنفس المؤلف/المؤلفين

<< < 1 2 3 4 5 6 7 8 9 10 > >> 

المؤلفات المشابهة

1-10 من 27

يمكنك أيضاً إبدأ بحثاً متقدماً عن المشابهات لهذا المؤلَّف.