Decreasing groundwater quality at Cisadane riverbanks: groundwater-surface water approach

arXiv: Geophysics Pub Date : 2016-03-20 DOI:10.6084/M9.FIGSHARE.3119806.V1

Dasapta Erwin Irawan, D. J. Puradimaja, D. Yeni, A. A. Kuntoro, M. M. Julian

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引用次数: 3

Abstract

The decreasing of groundwater quality has been the major issue in Tangerang area. One of the key process is the interaction between groundwater and Cisadane river water, which flows over volcanic deposits of Bojongmanik Fm, Genteng Fm, Tuf Banten, and Alluvial Fan. The objective of this study is to unravel such interactions based on the potentiometric mapping in the riverbank. We had 60 stop sites along the riverbank for groundwater and river water level observations, and chemical measurements (TDS, EC, temp, and pH). Three river water gauge were also analyzed to see the fluctuations. We identified three types of hydrodynamic relationships with fairly low flow gradients: effluent flow at Segmen I (Kranggan - Batuceper) with 0.2-0.25 gradient, perched flow at Segmen II (Batuceper-Kalibaru) with gradient 0.2-0.25, and influent flow at Segmen III (Kalibaru-Tanjungburung) with gradient 0.15-0.20. Such low flow gradient is controlled by the moderate to low morphological slope in the area. The gaining and losing stream model were also supported by the river water fluctuation data. TDS and EC readings increased more than 40$\%$ from upstream to downstream. At some points the both measurements were two times higher than the permissible limits, along with the drops of pH values at those areas. This study shows the very close interaction between Cisadane river water and groundwater in the riverbank. Therefore the authorities need to be managed the areas with a very strict regulations related to the small and large scale industries located near by the river.

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西沙达纳河岸地下水质量下降:地下水-地表水方法

地下水水质下降一直是坦格朗地区面临的主要问题。其中一个关键过程是地下水与流经Bojongmanik Fm、Genteng Fm、Tuf Banten和冲积扇等火山沉积物的Cisadane河水之间的相互作用。本研究的目的是在河堤电位测绘的基础上揭示这种相互作用。我们沿着河岸设置了60个站点，用于地下水和河流水位观测，以及化学测量(TDS、EC、温度和pH)。同时对三条河流的水位计进行了分析，观察其波动情况。我们确定了三种类型的流体动力学关系，它们具有相当低的流动梯度:第一段(Kranggan - Batuceper)的流出流量为0.2-0.25梯度，第二段(Batuceper- kalibaru)的停留流量为0.2-0.25梯度，第三段(Kalibaru-Tanjungburung)的流入流量为0.15-0.20梯度。这种低流速梯度是由该地区的中低形态坡度控制的。河流涨落数据也支持了增减流模型。从上游到下游，TDS和EC读数增加了40 %以上。在某些地方，这两个测量值都比允许的限度高出两倍，同时这些地区的pH值也下降了。该研究表明，西沙达纳河水与河岸地下水之间的相互作用非常密切。因此，当局需要对位于江边的小型和大型工业进行非常严格的管理。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv: Geophysics

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