DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND...
-
Upload
brenda-peters -
Category
Documents
-
view
216 -
download
1
Transcript of DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND...
![Page 1: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/1.jpg)
1
DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS
Nur Islami Samsudin Hj TaibIsmail Yusoff Department of Geology, Faculty of SciencesUniversity of Malaya, 50603 Kuala Lumpur, Malaysia
![Page 2: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/2.jpg)
2
CONTENT
Introduction Statement of problems: Summary Contribution to the knowledge Objective of the study Geology and hydrogeology Methodology Result and discussion Conclusions
![Page 3: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/3.jpg)
3
INTRODUCTION
![Page 4: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/4.jpg)
4
455000 460000 465000 470000 475000 480000 485000 490000 495000
640000
645000
650000
655000
660000
665000
670000
675000
680000
685000
690000 South C hina Sea
N
Kota Bharu
Bachok
M achang
Kelantan R iverPengkalan D atu R iver
Kem asin R iver
Paddy F ie ld
Tobacco F ie ld
Palm O il F ie ld
R ubber Trees F ie ld
C oconut F ie ld
Legend
Met
er
M eter
4 Km
Malacca
Strait
The area covers approximately 487 Km2 which of the surface elevation is less than 35 m above mean sea level.
Introduction
Introduction
The study area known as the North Kelantan Quaternary sediment lies within the latitude 5.83N and 6.23 N and longitude 102.14 E and 102.44 E.
It is located in the northern portion of the State of Kelantan which is on the north-eastern coast of Peninsula Malaysia
![Page 5: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/5.jpg)
5
Introduction
Groundwater is among North Kelantan’s most important natural resources
Almost hundred percent urban and rural communities uses groundwater resource to fulfil their daily domestic use. In the area around Kota Bharu (capital of Kelantan State), domestic water for the communities is supplied by a water company (Air Kelantan Sdn Bhd).
The company use 85% of its water resources extracted from groundwater, the rest is derived directly from the river. The company pump groundwater and apply some treatment for certain purpose (Ismail and Kiat, 1995).
In the southern and northeastern region of Kota Bharu, mainly the communities use the groundwater of shallow aquifer extracted from their dug well or borehole.
Introduction
![Page 6: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/6.jpg)
6
Introduction
Agricultural activity (natural and or chemical fertilizer) can cause negative impact of groundwater quality
(Bernhard et al. (1992), Singh et al. (1995), Obire et al. (2008) among others).
emission of nitrate into groundwater (Vosoughifar et al., 2004; Mahvi et al., 2005; Jain et al., 2005).
The contaminant (especially nitrate) leaching from agricultural soils has been widely studied (Almasri and Kaluarachchi, 2004; Saadi and Maslouhi, 2003).
Introduction
![Page 7: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/7.jpg)
7
Introduction
Annual report from Mineral and Geosciences Department indicate that high Fe concentration in groundwater for certain area including Perol, Pintu Geng pumping well station and other
Introduction
![Page 8: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/8.jpg)
8
STATEMENT OF PROBLEMS : SUMMARY
![Page 9: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/9.jpg)
9
Statement of problems: Summery
The probability of groundwater contaminated by human activity (chemical fertilizer in agriculture area) and natural process (heavy metal and salt/brackish) is very high.
The combined methods is aimed to solve the problem
Statement of problems : Summery
![Page 10: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/10.jpg)
10
OBJECTIVE
![Page 11: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/11.jpg)
11
OBJECTIVE
To study heavy metal in the soil that is related to the high heavy metal concentration in the groundwater.
Objective
![Page 12: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/12.jpg)
12
GEOLOGY AND HYDROGEOLOGY
![Page 13: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/13.jpg)
13
Topography feature of Kelantan State
Geology and Hydrogeology
![Page 14: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/14.jpg)
14
The geology and potential aquifer map of Kelantan State(Jabatan Mineral dan Geosains Malaysia – Kelantan, 2008)
Geology and Hydrogeology
![Page 15: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/15.jpg)
15
The North Kelantan plain is covered by Quaternary sediments overlying granite bedrock.
It is drained mainly by short rivers and streams which flow into the South China Sea.
The central part of the plain is drained by the largest river in the region, the Kelantan River, and in the South East, it is drained by Pengkalan Datu River.
GEOLOGY AND HYDROGEOLOGY
Geology and Hydrogeology
![Page 16: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/16.jpg)
16
The thickness of the Quaternary deposits varies from 25 m inland to about 200 m near the coast. There are three formation: Gula Formation, Beruas Formation, Simpang Formation (Bosch, 1986)
The loose quaternary sediments consist of alternating layers of coarse gravels to silts or mixtures of the two
There are two main aquifer Shallow aquifer, mostly unconfined but occasionally confined or
semi-confined, thickness normally 2-3 m and may reach up 17.5 m. => first aquifer
Deep aquifer, mainly confined, thickness usually more than 15 m, this deep aquifer comprises three different layers, separated from each other by semi-permeable strata of silt. => second, third and fourth aquifer.
(Saim 1999)
GEOLOGY AND HYDROGEOLOGY
Geology and Hydrogeology
![Page 17: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/17.jpg)
17
METHODOLOGY
![Page 18: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/18.jpg)
18
Methodology
Geolectrical Resistivity profiling direct surface measurement (field and
lab) Hydrogeochemical
groundwater samples analysis groundwater data from Mineral Geosains
Malaysia Soil Property Analysis Drill a new well
Methodology
![Page 19: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/19.jpg)
19
Geoelectrical Resistivity
Abem Terrameter SAS 4000
Methodology
![Page 20: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/20.jpg)
20
Geoelectrical Resistivity
Wenner Configuration
Methodology
a = 2a ∆V/i Highest signal strength(Schrott and Sass, 2008; Kneisel, 2006; Loke, 2004; Abu-Shariah, 2002, etc)Less time
Depth of investigation is 0.519 time electrode spacing (Loke, 2004; Merrick, 1997; Barker, 1991;Edwards, 1977)
Why Wenner??
![Page 21: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/21.jpg)
21
Data Coverage and Resolution
Data coverage using Wenner configuration for four cables with 5m electrode spacing
a= 5 m
a= 10 m
a = 40 m
a = 100 m depth = 51.9 m a = 110 m depth = 57.09
5.19 m
This layer is not covered
Cannot be distinguished if resistivity value for both layer is not too contrast
Geoelectrical Resistivity
![Page 22: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/22.jpg)
22
Geoelectrical Resistivity
Data Processing Res2DINV Inversion software (Loke,
1995; 1996, 2002, 2007) The basic is aimed at finding a resistivity
distribution that gives a response similar to the actual measured values
Methodology
![Page 23: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/23.jpg)
23
Geoelectrical Resistivity
Direct Resistivity Measurement Field Laboratory
For the small electrode spacing, the apparent resistivity becomes the true resistivity of the material assuming that the material is homogeneous (Telford, 1990).
Methodology
C1 P1 P2 C2
![Page 24: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/24.jpg)
24
Hydrogeochemical
In-situ Parameter pH Temperature Conductivity Total Disolved Solid Salinity Physical well parameter (Well depth, depth to water table, and XY
location, ground level)
Major Cation and Anion
Methodology
Soil Water Sampler
Ion Chromatography (IC)Inductively Coupled Plasma (ICP)
Tritor
![Page 25: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/25.jpg)
25
Soil Property Analysis
Grain size distribution (Hamlin, 1991) Soil moisture content (Black, 1964) Hydraulic conductivity (Porchet method
(Oosterbaan and Nijland, 1994; van Hoorn, 2007)
Methodology
Hand auger
![Page 26: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/26.jpg)
26
RESULTS AND DISCUSSION
![Page 27: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/27.jpg)
27
No Dominant Medium
Moisture Resistivity Value
1 Clay to Fine sand (surface)
Low (8-10%) (unpolluted)
350-450 ohm.m
2 Clay to Fine sand
Fully saturated (unpolluted)
150-250 ohm.m
3 Medium sand (surface)
High (unpolluted) 30-60 ohm.m
4 Medium and coarse sand
Fully Saturated (unpolluted)
50-100 ohm.m
5 Granite basement
bounded by saturated soil
>400 ohm.m
0 40 80
0
2
4
6
8
10
12
14
16
18
20
GravelCoarse SandMed sandFine SandSilt & Clay
Percentage (%)
Depth
(m
)
0 5000
0
1000
00
0
2
4
6
8
10
12
14
16
18
20
22
24
K CaMg NaPb CdSe AlMn CuZn FeAs
Concentration (mg/Kg)
Depth
(m
)
24.1 m
Test-site 3
5
1 23 4
60m
Grain size
Chemical soil
Surface measurement
![Page 28: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/28.jpg)
Well Ground Depth Water
No Sample X Y Depth Levelto
Water Level TDS Cond Sal T pH Chloride Nitrate Sulfate Fluoride K Ca Mg Na Al Fe CO3 HCO3 ID m m m (msl) mg/L S/cm 0/00 C mg/L mg/L mg/L mg/L mg/L mg/L mg/L mg/L mg/L mg/L mg/L mg/L
1 KB20 472600 666200 44.8 8.84 2.98 5.86 46.8 98.1 0 31 6.03 2.63 0.12 0.379 0.265 4.697 5.335 3.301 9.502 12.07 0 6.72 KB21 472600 666200 29 8.81 4.03 4.78 52 107.7 0 30.7 6.04 2.55 0.11 0.329 0.343 4.889 6.769 4.517 7.459 0.134 13.17 0 03 KB25 476400 673500 52.9 6.44 5.45 0.99 86 94 None None 7.1 3 3.9 <5 <0.5 5 4.3 2.1 8.6 0 10 <1 484 KB26 476400 673500 33.5 6.44 5.14 1.3 74 103 None None 7 2 4.7 <5 <0.5 3.8 5.2 3.1 7.6 0 7.6 <1 545 KB28 471600 674700 113.2 6.07 7.95 -1.88 104 107 0 28.7 7.1 2.9 0.1 0.238 0.339 8 3.5 3.7 8.5 0 10 <1 546 KB29 471600 674700 62.2 6.08 7.99 -1.91 44.7 95.1 0 30.2 6.17 3.19 0.17 0.317 0.168 5.363 2.879 3.302 7.867 12.99 0 3.47 KB30 471600 674700 14.2 6.01 7.43 -1.42 44.7 96.5 0 28.6 5.24 10.12 5.84 6.215 0.015 2.128 2.992 1.524 10.13 0.43 0 08 KB36 477400 665900 35.5 5.87 3.23 2.64 56 76 None None 7.2 4 2.4 9 <0.5 6.6 2.6 2.4 5.7 0 9.4 <1 299 KB37 477400 674200 13 4.11 3.49 0.62 174 102 None None 6.8 6 <0.5 15 <0.5 2.7 6 2.9 62 0 3 <1 205
10 KB39 479200 672200 16.5 5.88 1.95 3.93 78 131 None None 8.1 20 1.5 10 <0.5 1.7 0.9 1.6 21 0 0.7 <1 1711 KB42 474800 673300 11 6.18 5.13 1.05 48 67 None None 8.2 6 4.3 <5 <0.5 1.6 3.5 1.8 5.9 0 0.1 <1 2312 KB43 475200 671100 15 6.26 5.12 1.14 44 57 None None 7.1 6 5 <5 <0.5 1.2 2.6 1.3 4.6 0 11 <1 1613 KB44 476500 671100 14.8 5.67 4.52 1.15 86 123 None None 7.9 12 4.3 14 <0.5 1.8 2.6 1.6 20 0 1.4 <1 3114 KB45 476300 675200 12 6 4.76 1.24 84 137 None None 7 8 9.7 6 <0.5 2.8 8.2 1.3 7.9 0 2.3 <1 3315 KB49 471550 674500 14 7.44 3.8 3.64 104 182 None None 7.4 12 1.4 14 5 3.1 23 2.6 9.2 0 2.3 <1 7016 WA201 472187 674575 6 7 3.1 3.9 119.5 217.12 0 27 6.73 6.3 16.5 11.25 0.155 3.068 6.475 2.978 8.462 0.135 0.796 0 6.217 WA202 474470 674742 <7 7 2.4 4.6 22.7 45.24 0 26.7 7.81 1.08 0 0.545 0 2.364 4.018 2.384 6.284 0.245 0.642 0 22.418 WA203 477990 674718 <7 7 None None 12.4 26.3 0 26.3 7.6 3.31 2.05 9.642 0.122 1.456 2.845 1.384 5.845 0.125 0.587 0 15.419 WA204 478537 670628 <7 7 None None 28.4 48.71 0 25.7 6.89 3.42 0 2.203 0.069 3.143 4.797 1.047 4.382 0.132 0.263 0 1420 WA205 471314 671360 6 12 3.1 8.9 20.1 46.74 0 30 6.7 5.63 0 0.881 0 1.029 3.746 0.455 2.098 0.215 0.072 0 021 WA206 481202 671004 <7 12 2.65 9.35 10.8 25.11 0 29.5 7.98 1.65 0 0 0 0.824 3.71 0.426 0.86 0.064 0.107 0 022 WA207 477057 669403 <7 8 1.9 6.1 11.7 27.2 0 29.1 7.34 1.59 0 0.169 0 1.024 4.779 0.571 1.589 0.032 0.044 0 1.823 WA208 474066 667941 <7 13 2.8 10.2 26.9 45.53 0 28.7 6 2.9 0 2.684 0.08 2.431 2.604 0.753 2.895 0.176 0.332 0 7.624 WA209 480084 667965 6 11 2.3 8.7 144.7 301 0.1 31.2 6.04 7.87 0 192 0.329 22.99 59 18.52 13.64 0.122 0.491 0 113.425 WA210 468975 667269 6 12 2.26 9.74 13.9 32.3 0 29.3 6.65 1.63 0 0 0 1.038 5.433 0.598 1.423 0.056 0.062 0 9.326 WA211 470633 666528 <7 12 2.23 9.77 21.6 50.2 0 28.5 6.24 1.83 0 0 0 1.057 5.88 0.671 1.746 0.035 0.061 0 11527 WA212 479159 665816 <7 11 2.09 8.91 22.5 52.3 0 29.2 6.31 6.19 0 0.881 0 0.795 4.174 0.466 1.983 0.29 0.122 0 028 WA213 470336 664245 <7 12 2.22 9.78 18.9 43.9 0 28.6 6.37 5.95 0.53 0 0 0.961 4.537 0.548 2.13 0.1 0.103 0 2.629 WA214 471906 662674 <7 12 1.8 10.2 12.3 28.6 0 28.1 6.51 2.27 0 0 0 0.992 4.782 0.517 1.214 0.02 0 0 9.130 WA215 474946 662852 8 13 2.6 10.4 27.5 41.05 0 30.3 5.58 3.61 0 0.788 0 1.805 2.529 0.576 2.915 0.126 1.016 0 11.231 WA216 479179 662447 6 15 2.8 12.2 15.3 32.2 0 32.2 5.85 5.12 0 0.483 0.05 5.111 7.064 1.28 5.113 1.464 5.333 0 48.232 WA217 475731 660712 <8 22 3.4 18.6 19.3 40.8 0 27.2 5.77 4.29 0 0.696 0 3.983 2.114 0.711 2.566 0.282 0.671 0 16.233 WA218 473016 660510 5 11 1.81 9.19 15.2 35.3 0 28.1 6.16 2.14 0 0.475 0 1.26 3.971 0.498 1.346 0.047 0.013 0 12.3
250 45 400 1.5 150 200 0.2 0.3
In-situ parameters and water chemical result for Area 2. In the bottom, limit concentration for domestic use by WHO (1992) and U.S.EPA (2002) is displayed.
28
No indication of brackish water
Relatively lower nitrate concentration
High Fe concentration
Hydrogeochemical result
![Page 29: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/29.jpg)
29
465000 470000 475000 480000 485000
660000
665000
670000
675000
N
Kelantan R iver
Pengkalan Datu R iver
M arak H ill
G unong Panchor H ill
_
o.
Legend
G eoelectrica l R esistiv ity
G roundwater Sam pleSoil Sam ple
4 Km
Me
ters
M eters
???
Selected geoelectrical model
60m A201
60m
60m
60m
A202
A204
A208
A210
28m
Potential aquifer
Granite Bedrock
![Page 30: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/30.jpg)
30
465000 470000 475000 480000 485000
660000
665000
670000
675000
N
Kelantan R iver
Pengkalan Datu R iver
M arak H ill
G unong Panchor H ill
_
o.
Legend
G eoelectrica l R esistiv ity
G roundwater Sam pleSoil Sam ple
4 Km
Me
ters
M eters
60m
60m
60m
60m
60m
???
60m
Potential aquifer
Granite Bedrock
![Page 31: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/31.jpg)
31
What is the cause of relatively lower resistivity value (<20ohm.m) appear in some geoelectrical model?Songyu et al. (2008), reported his experiment result
that polluted soil by Fe has a good negative correlation with resistivity value0 50000 100000
0
5
10
15
20
25
30
35
40
Al
Fe
Concentration (mg/Kg)
Depth
(m
)
0 50000 1000000
5
10
15
20
25
30
35
40
Al
Fe
Concentration (mg/Kg)
Depth
(m
)
WA1WA2
Contrast chemical soil
Fe = 0.098 mg/l
Fe = 13.85 mg/l
![Page 32: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/32.jpg)
32
0 5000 10000 15000 20000 25000 300000
100002000030000400005000060000700008000090000
100000
f(x) = 2.76645435244161 x + 22413.8004246284A1S01A1S05A1S10A1S13A2S04A2S05A2S06A2S09A2S10A2S11W2-02W1-02Fe (mg/Kg)
Al (m
g/K
g)
0 0.2 0.4 0.6 0.8 1 1.2 1.40
5000
10000
15000
20000
25000
30000
35000
f(x) = 21646.4471403815 x + 4567.07105719237
WA106WA103WA119WA215WA201KB39WA211WA115
Fe in water (mg/l)
Fe in s
oil (
mg/K
g)
0 0.1 0.2 0.3 0.4 0.50
20000
40000
60000
80000
100000
120000
WA106WA103WA119WA215WA201KB39WA211WA115
Al in water (mg/l)
Al in
soil (
mg/K
g)
Fe and Al had the same source when they were deposited along geologic time
Fe in groundwater is influenced by Fe concentration in soil
Al in ground water does not show any correlation with Al in soil (Al dissolve at pH ~2)
Fe and Al concentration in other location soil sample
![Page 33: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/33.jpg)
Fe distribution in groundwater (Area 1 and Area 2)
460000 465000 470000 475000 480000 485000 490000 495000640000
645000
650000
655000
660000
665000
670000
675000
680000
685000
690000
Kelantan R iverPengkalan D atu R iver
Kem asin R iver
South China Sea N
M arak H ill
Panchor H ill
Boundary Range
Jawa H ill
0 to 0.1 0.1 to 0 .2 0.2 to 0 .3 0.3 to 0 .4 0.4 to 0 .5 0.5 to 0 .6 0.6 to 0 .7 0.7 to 0 .8 0.8 to 0 .9 0.9 to 1 1 to 2 2 to 3
Unit in m g/L
M eter
Met
er
Kota Bharu
Bhacok
4 Km
Fe concentration (mg/L) in shallow aquifer (<10 m ) 33
![Page 34: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/34.jpg)
Fe concentration (mg/L) in aquifer (10-20 m )
460000 465000 470000 475000 480000 485000 490000 495000640000
645000
650000
655000
660000
665000
670000
675000
680000
685000
690000
Kelantan R iverPengkalan D atu R iver
Kem asin R iver
South China Sea N
M arak H ill
Panchor H ill
Boundary Range
Jawa H ill
Unit in m g/L
0 to 0.5 0.5 to 1 1 to 1.5 1.5 to 2 2 to 2.5 2.5 to 3 10 to 13
M eter
Met
er
Kota Bharu
Bhacok
4 Km
34
Fe distribution in groundwater (Area 1 and Area 2)
![Page 35: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/35.jpg)
Fe concentration (mg/L) in aquifer (>20 m )
460000 465000 470000 475000 480000 485000 490000 495000640000
645000
650000
655000
660000
665000
670000
675000
680000
685000
690000
Kelantan R iverPengkalan D atu R iver
Kem asin R iver
South China Sea N
M arak H ill
Panchor H ill
Boundary Range
Jawa H ill
Unit in m g/L
0 to 1 7 to 8 8 to 9 9 to 10 10 to 11 11 to 12 12 to 13 13 to 14
W A2
W A1
M eter
Met
er
Kota Bharu
Bhacok
4 Km
35
Fe distribution in groundwater (Area 1 and Area 2)
![Page 36: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/36.jpg)
36
Relatively higher Fe concentration in aquifer
Depth slice of resistivity distribution
![Page 37: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/37.jpg)
37
CONCLUSION
![Page 38: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/38.jpg)
38
Conclusion
The zones of higher Fe concentration in aquifer system has been delineated along depth slice of resistivity distribution.
Fe concentration extends dipping from the northern side of Boundary Range to the northwestern.
![Page 39: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/39.jpg)
39
Recommendations
The methods applied in this study have been successful for chemical fertilizer monitoring, detection nitrate in groundwater, delineating present of heavy metal in the aquifer and to predict concentration of salt water content in the aquifer. A similar approach could be applied to the other location in the Peninsula Malaysia to get new water resources.
![Page 40: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/40.jpg)
40
Acknowledgements
I am most grateful to my supervisors Assoc. Prof. Dr. Samsudin Hj Taib and Assoc. Prof. Dr. Ismail Yusoff for their invaluable suggestion, criticism and encouragement throughout the study period.
Thank to Prof. Dr. Wan Hasiah Abdullah the one who has given me a way to continue my study in University of Malaya.
The financial support through the University of Malaya research grants no PJPFS308/2008C is gratefully acknowledged.
Department of Geology, Faculty of Science, University of Malaya
Jabatan Mineral dan Geosains Malaysia Kelantan for providing water chemical data and Geology map
![Page 41: DELINEATION OF HEAVY METAL ZONE IN AQUIFER SYSTEM USING GEOELECTRICAL RESISTIVITY AND HYDROGEOCHEMICAL METHODS Nur Islami Samsudin Hj Taib Ismail Yusoff.](https://reader035.fdocuments.us/reader035/viewer/2022070409/56649e895503460f94b8e468/html5/thumbnails/41.jpg)
41
THANK YOUTerimakasih