Detecting leachate plumes and groundwater pollution at Ruseifa municipal landfill utilizing VLF-EM method

A Very Low Frequency-Electromagnetic (VLF-EM) survey was carried out in two sites of domestic waste of old and recent landfills. The landfill structures lie on a major highly fractured limestone aquifer of shallow groundwater less than 30 m, which is considered as the main source of fresh water in A...

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Bibliographic Details
Published inJournal of applied geophysics Vol. 65; no. 3; pp. 121 - 131
Main Authors Al-Tarazi, E., Abu Rajab, J., Al-Naqa, A., El-Waheidi, M.
Format Journal Article
LanguageEnglish
Published London Elsevier B.V 01.09.2008
Amsterdam Elsevier
New York, NY
Subjects
2-D VLF inversion
Applied geophysics
Aquifer pollution
Earth sciences
Earth, ocean, space
Exact sciences and technology
Hydrochemistry
Internal geophysics
Landfill
VLF-EM method
VLF-EM method
Hydrochemistry
Aquifer pollution
Landfill
2-D VLF inversion
inverse problem
efficiency
extension
plumes
ground water
surveys
pollution
low frequency
contamination
depth
aquifers
hydrochemistry
landfills
leachate
fresh water
flow
wadis
direction
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Summary:A Very Low Frequency-Electromagnetic (VLF-EM) survey was carried out in two sites of domestic waste of old and recent landfills. The landfill structures lie on a major highly fractured limestone aquifer of shallow groundwater less than 30 m, which is considered as the main source of fresh water in Amman–Zarqa region. A total of 18 VLF-EM profiles were conducted with length ranges between 250 and 1500 m. Hydrochemical and biochemical analysis of water samples, taken from wells in the region, has also been conducted. The integrated results of previous DC resistivity method of the same study area and the outcomes of the 2-D tipper inversion of VLF-EM data proved the efficiency of this method in locating shallow and deep leachate plume with resistivity less than 20 Ω m, and enabling the mapping of anomalous bodies and their extensions down to 40 m depth. The sign of groundwater contamination was noticed in many surrounding wells resulting in the high number of fecal coliform bacteria and total coliform bacteria and the increase in inorganic parameters such as chloride (Cl). The pollution of groundwater wells in the landfill area is attributed to the leachate bodies which flow through the upper part of Wadi Es Sir (A7) or Amman–Wadi Es Sir Aquifer (B2/A7). Furthermore, several structural features were detected and the direction of local groundwater movement has been determined. The structural features have been found to have critical effects on the flowing of leachate plume towards north-northeast and west-southwest of the potable aquifer in the area.
ISSN:0926-9851
1879-1859
DOI:10.1016/j.jappgeo.2008.06.005