HYDROGEOLOGY AND GROUNDWATER QUALITY IN THE SOUTHEASTERN SLOPE OF MOUNT MALABAR, WEST JAVA
As the third largest river in Java, Citarum River is a source of water supply that sustains domestic, agricultural, and industrial activities for 25 million people. In 2018, the Citarum River received the title as one of the most polluted rivers in the world. This research was conducted to find o...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/69755 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | As the third largest river in Java, Citarum River is a source of water supply that sustains
domestic, agricultural, and industrial activities for 25 million people. In 2018, the Citarum
River received the title as one of the most polluted rivers in the world. This research was
conducted to find out the geological conditions, hydrogeology, and groundwater quality in the
southeastern part of the slopes of Mount Malabar which is the upstream area of the Citarum
River. With geological mapping and groundwater observations on an area of 72km2,
groundwater data obtained is checked with Permenkes standard number 492 of 2010 on
Drinking Water Quality Standards and analysis of groundwater contamination vulnerability
index based on Ribeiro (2000). Geomorphology of the research area consists of 10 units with
its type is the inter-volcanic plain, inter-volcanic valley, volcanic cones, and pyroclastic
ridges. The research area is divided into 20 geological units with the type of units in the form
of pyroclastic flows, lahar flow, pyroclastic falls, lava flows, and lava domes. There is a
primary structure in the form of sheeting joints and a secondary structure in the form of a fault
in the research area. Hydrogeology of the research area is divided into 4 aquifers and 2
aquiclude with the type of rock in the form of volcanic tuff, pyroclastic breccia, laharic
breccia, and andesite. The results of the groundwater quality analysis obtained 38 points of the
study with a range of pH values of 1.46-7.7 and TDS values of 12-779, with the distribution of
14 springs meeting pH standards and 37 springs meeting TDS standards. In addition, there is
also a groundwater contamination susceptibility index in the area with 10% of which is very
low, 16% low, 34% moderate, 37% high, and 3% very high. Then, the data was validated by
the correlation of the vulnerability index to pH levels, SO4
2-, and Na+ levels that showed low,
high, and moderate values consecutively. Finally, it is estimated that the value of the high
dominant vulnerability index in the research area may be due to geochemical processes and
plantation activity. |
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