Jatiluhur Reservoir Water Quality Analysis at Various Depths

Eka Wardhani; Zulfah Ananda Sugiarti

doi:10.14710/presipitasi.v18i3.400-411

DOI: https://doi.org/10.14710/presipitasi.v18i3.400-411

Jatiluhur Reservoir Water Quality Analysis at Various Depths

Eka Wardhani - Institut Teknologi Nasional Bandung, Indonesia

*Zulfah Ananda Sugiarti - Institut Teknologi Nasional Bandung, Indonesia

BibTex Citation Data :

@article{Presipitasi39722,
    author = {Eka Wardhani and Zulfah Sugiarti},
    title = {Jatiluhur Reservoir Water Quality Analysis at Various Depths},
    journal = {Jurnal Presipitasi: Media Komunikasi dan Pengembangan Teknik Lingkungan},
  volume = {18},
    number = {3},
    year = {2021},
    keywords = {Jatiluhur; floating net cages; pollution organic},
    abstract = {  The Jatiluhur Reservoir is an important building in West Java Province whose dams the Citarum River. The location of the Jatiluhur Reservoir, which is the most downstream of the Saguling and Cirata Reservoirs, is where domestic, industrial, and agricultural wastewater pollution is accommodated from water catchment areas so that water quality decreases. This study aims to analyze the water quality in this reservoir at various depths. The study was conducted in September 2020 at 16 sampling points at a depth of 0-8 meters. The water quality parameters analyzed were Temperature, Dissolved Residue (TDS), pH, Dissolved Oxygen (DO), Fluoride (F - ), Nitrate (NO 3  - N), Sulfate (SO 4  2- ), BOD 5 , COD, and Escherichia coli. Based on the study results, it was found that the concentrations of DO, BOD 5  and COD at the monitoring location of the Jatiluhur Reservoir did not meet the quality standards. The concentrations of DO, BOD 5  and COD respectively 1.00-3.99 mg/L; 3.10-17.00 mg/L; and 28.00-59.00 mg/L. These three parameters contribute to the decline in water quality. The status of water quality using the IP method is categorized as lightly polluted so that it affects the utilization of this reservoir, especially as raw water for drinking water. The highest level of contamination was at the floating net cages sampling location at a depth of 8 m. The decline in water quality in the Jatiluhur Reservoir is caused by organic substances originating from floating net cages waste.   },
   issn = {2550-0023},   pages = {400--411}  doi = {10.14710/presipitasi.v18i3.400-411},
    url = {https://ejournal.undip.ac.id/index.php/presipitasi/article/view/39722}
}

Citation Format:

Abstract

The Jatiluhur Reservoir is an important building in West Java Province whose dams the Citarum River. The location of the Jatiluhur Reservoir, which is the most downstream of the Saguling and Cirata Reservoirs, is where domestic, industrial, and agricultural wastewater pollution is accommodated from water catchment areas so that water quality decreases. This study aims to analyze the water quality in this reservoir at various depths. The study was conducted in September 2020 at 16 sampling points at a depth of 0-8 meters. The water quality parameters analyzed were Temperature, Dissolved Residue (TDS), pH, Dissolved Oxygen (DO), Fluoride (F^-), Nitrate (NO₃^-N), Sulfate (SO₄^2-), BOD₅, COD, and Escherichia coli. Based on the study results, it was found that the concentrations of DO, BOD₅ and COD at the monitoring location of the Jatiluhur Reservoir did not meet the quality standards. The concentrations of DO, BOD₅ and COD respectively 1.00-3.99 mg/L; 3.10-17.00 mg/L; and 28.00-59.00 mg/L. These three parameters contribute to the decline in water quality. The status of water quality using the IP method is categorized as lightly polluted so that it affects the utilization of this reservoir, especially as raw water for drinking water. The highest level of contamination was at the floating net cages sampling location at a depth of 8 m. The decline in water quality in the Jatiluhur Reservoir is caused by organic substances originating from floating net cages waste.

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Keywords: Jatiluhur; floating net cages; pollution organic

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Section: Regional Case Study

Language : EN

In Vol 18, No 3 (2021): November 2021

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Leidonald, R., Muhtadi, A., Lesmana, I et al. 2019. Profiles of temperature, salinity, dissolved oxygen, and pH in Tidal Lakes. IOP Conf Series: Earth and Environmental Science (2019) 260, 012075
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Prinajati, P. D. 2019. Kualitas Air Waduk Jatiluhur Di Purwakarta terhadap pengaruh keramba jaring apung. Journal of Community Based Environmental Engineering and Management 3 (2), 79-86
Purnamaningtyas, S. E. 2014. Distribusi konsentrasi oksigen, nitrogen dan fosfat di Waduk Saguling, Jawa Barat. LIMNOTEK-Perairan Darat Tropis di Indonesia 21 (2), 125-134
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Silaen, W. F., Siagian, M., & Simarmata, A. H. 2017. Concentration of BOD5 in the lacustrine and transition zones Koto Panjang Reservoir, Kampar District, Riau Province. Jurnal Online Mahasiswa 4 (2)
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Sri, M. H., Sulardiono, B., & Rudiyanti, S. 2015. Kajian kesuburan Perairan di Waduk Ir. H. Djuanda Purwakarta berdasarkan kandungan nutrien dan struktur komunitas fitoplankton. Diponegoro Journal of Maquares 4, 123-131
T. Y. Ling, N. Gerunsin, C. L. Soo et al. 2017. Seasonal changes and spatial variation in water quality of a large young tropical reservoir and its downstream river. Journal of Chemistry 2017, 16
Wardhani, E., Notodarmojo, S., dan Roosmini, D. 2014. Pencemaran Kadmium di Sedimen Waduk Saguling Provinsi Jawa Barat. Jurnal Manusia dan Lingkungan Pusat Studi Lingkungan Hidup Universitas Gadjah mada (PSLH UGM) 23 (3), 285-294
Wardhani, E., Notodarmojo, S., dan Roosmini, D. 2017a. Heavy metal speciation in sediments in Saguling Lake West Java Indonesia. International Journal of GEOMATE ISSN: 2186-2990 Japan 12 (34), 146-151
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Yuliastuti, E. 2011. Kajian kualitas air Sungai Ngringo Karanganyar Dalam Upaya Pengendalian Pencemaran Air. Tesis, UNDIP
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