Heavy Metal Identification in Water Resources and the Surrounding Environment of the Cirasea Riparian Zone, Indonesia

Rizka Maria; Ratna Dwi Puji Astuti; Anna Fadliah Rusydi; Dyah Marganingrum; Asep Mulyono; Heri Nurohman; Eki Naidania Dida; Retno Damayanti; Riostantieka Mayandari Shoedarto; Yudi Rahayudin; Adie Taufiqurrahman; Muhammad Rio Ferdiano; Detizca Melia Nugraha

doi:10.22146/ijc.93326

Heavy Metal Identification in Water Resources and the Surrounding Environment of the Cirasea Riparian Zone, Indonesia

Rizka Maria, Ratna Dwi Puji Astuti, Anna Fadliah Rusydi, Dyah Marganingrum, Asep Mulyono, Heri Nurohman, Eki Naidania Dida, Retno Damayanti, Riostantieka Mayandari Shoedarto, Yudi Rahayudin, Adie Taufiqurrahman, Muhammad Rio Ferdiano, Detizca Melia Nugraha

Faculty of Public Health

Research output: Contribution to journal › Article › peer-review

Abstract

The Cirasea River can provide water for both the Bandung basin and agricultural irrigation. Intensive agriculture, industry, and land use changes could have an impact on water quality. The purpose of this study is to look at the origins of heavy metals in riparian water resources. Heavy metal analysis was performed on 13 groundwater and river water samples. Heavy metals in water sources were compared with sediment and soil. The samples were analyzed for heavy metals using an AAS instrument. The research method employs statistical, geographical, and heavy metal pollution index (HPI). The HPI for river water was 131, whereas groundwater was 93. River water with an HPI value of more than 100 is highly polluted, indicating that it is unsafe for human consumption and has negative health consequences. Data verification with heavy metals in sediments reveals the presence of heavy metals coming from geogenic circumstances in various locations in the upstream area. Heavy metals in downstream areas result from geological factors and anthropogenic activities in the surrounding area. The long-term effects of heavy metal pollution along the riparian zone will become apparent. More research is needed on communities that depend on groundwater supplies along the Cirasea watershed.

Original language	English
Pages (from-to)	1331-1348
Number of pages	18
Journal	Indonesian Journal of Chemistry
Volume	24
Issue number	5
DOIs	https://doi.org/10.22146/ijc.93326
Publication status	Published - 2024

Keywords

anthropogenic
geogenic
groundwater
heavy metals
river water

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.22146/ijc.93326

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Maria, R., Astuti, R. D. P., Rusydi, A. F., Marganingrum, D., Mulyono, A., Nurohman, H., Dida, E. N., Damayanti, R., Shoedarto, R. M., Rahayudin, Y., Taufiqurrahman, A., Ferdiano, M. R., & Nugraha, D. M. (2024). Heavy Metal Identification in Water Resources and the Surrounding Environment of the Cirasea Riparian Zone, Indonesia. Indonesian Journal of Chemistry, 24(5), 1331-1348. https://doi.org/10.22146/ijc.93326

@article{3f77adc7e1e8460f990b2d21fdb52997,

title = "Heavy Metal Identification in Water Resources and the Surrounding Environment of the Cirasea Riparian Zone, Indonesia",

abstract = "The Cirasea River can provide water for both the Bandung basin and agricultural irrigation. Intensive agriculture, industry, and land use changes could have an impact on water quality. The purpose of this study is to look at the origins of heavy metals in riparian water resources. Heavy metal analysis was performed on 13 groundwater and river water samples. Heavy metals in water sources were compared with sediment and soil. The samples were analyzed for heavy metals using an AAS instrument. The research method employs statistical, geographical, and heavy metal pollution index (HPI). The HPI for river water was 131, whereas groundwater was 93. River water with an HPI value of more than 100 is highly polluted, indicating that it is unsafe for human consumption and has negative health consequences. Data verification with heavy metals in sediments reveals the presence of heavy metals coming from geogenic circumstances in various locations in the upstream area. Heavy metals in downstream areas result from geological factors and anthropogenic activities in the surrounding area. The long-term effects of heavy metal pollution along the riparian zone will become apparent. More research is needed on communities that depend on groundwater supplies along the Cirasea watershed.",

keywords = "anthropogenic, geogenic, groundwater, heavy metals, river water",

author = "Rizka Maria and Astuti, {Ratna Dwi Puji} and Rusydi, {Anna Fadliah} and Dyah Marganingrum and Asep Mulyono and Heri Nurohman and Dida, {Eki Naidania} and Retno Damayanti and Shoedarto, {Riostantieka Mayandari} and Yudi Rahayudin and Adie Taufiqurrahman and Ferdiano, {Muhammad Rio} and Nugraha, {Detizca Melia}",

year = "2024",

doi = "10.22146/ijc.93326",

language = "English",

volume = "24",

pages = "1331--1348",

journal = "Indonesian Journal of Chemistry",

issn = "1411-9420",

publisher = "Gadjah Mada University",

number = "5",

}

Maria, R, Astuti, RDP, Rusydi, AF, Marganingrum, D, Mulyono, A, Nurohman, H, Dida, EN, Damayanti, R, Shoedarto, RM, Rahayudin, Y, Taufiqurrahman, A, Ferdiano, MR & Nugraha, DM 2024, 'Heavy Metal Identification in Water Resources and the Surrounding Environment of the Cirasea Riparian Zone, Indonesia', Indonesian Journal of Chemistry, vol. 24, no. 5, pp. 1331-1348. https://doi.org/10.22146/ijc.93326

TY - JOUR

T1 - Heavy Metal Identification in Water Resources and the Surrounding Environment of the Cirasea Riparian Zone, Indonesia

AU - Maria, Rizka

AU - Astuti, Ratna Dwi Puji

AU - Rusydi, Anna Fadliah

AU - Marganingrum, Dyah

AU - Mulyono, Asep

AU - Nurohman, Heri

AU - Dida, Eki Naidania

AU - Damayanti, Retno

AU - Shoedarto, Riostantieka Mayandari

AU - Rahayudin, Yudi

AU - Taufiqurrahman, Adie

AU - Ferdiano, Muhammad Rio

AU - Nugraha, Detizca Melia

PY - 2024

Y1 - 2024

N2 - The Cirasea River can provide water for both the Bandung basin and agricultural irrigation. Intensive agriculture, industry, and land use changes could have an impact on water quality. The purpose of this study is to look at the origins of heavy metals in riparian water resources. Heavy metal analysis was performed on 13 groundwater and river water samples. Heavy metals in water sources were compared with sediment and soil. The samples were analyzed for heavy metals using an AAS instrument. The research method employs statistical, geographical, and heavy metal pollution index (HPI). The HPI for river water was 131, whereas groundwater was 93. River water with an HPI value of more than 100 is highly polluted, indicating that it is unsafe for human consumption and has negative health consequences. Data verification with heavy metals in sediments reveals the presence of heavy metals coming from geogenic circumstances in various locations in the upstream area. Heavy metals in downstream areas result from geological factors and anthropogenic activities in the surrounding area. The long-term effects of heavy metal pollution along the riparian zone will become apparent. More research is needed on communities that depend on groundwater supplies along the Cirasea watershed.

AB - The Cirasea River can provide water for both the Bandung basin and agricultural irrigation. Intensive agriculture, industry, and land use changes could have an impact on water quality. The purpose of this study is to look at the origins of heavy metals in riparian water resources. Heavy metal analysis was performed on 13 groundwater and river water samples. Heavy metals in water sources were compared with sediment and soil. The samples were analyzed for heavy metals using an AAS instrument. The research method employs statistical, geographical, and heavy metal pollution index (HPI). The HPI for river water was 131, whereas groundwater was 93. River water with an HPI value of more than 100 is highly polluted, indicating that it is unsafe for human consumption and has negative health consequences. Data verification with heavy metals in sediments reveals the presence of heavy metals coming from geogenic circumstances in various locations in the upstream area. Heavy metals in downstream areas result from geological factors and anthropogenic activities in the surrounding area. The long-term effects of heavy metal pollution along the riparian zone will become apparent. More research is needed on communities that depend on groundwater supplies along the Cirasea watershed.

KW - anthropogenic

KW - geogenic

KW - groundwater

KW - heavy metals

KW - river water

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U2 - 10.22146/ijc.93326

DO - 10.22146/ijc.93326

M3 - Article

AN - SCOPUS:85207279586

SN - 1411-9420

VL - 24

SP - 1331

EP - 1348

JO - Indonesian Journal of Chemistry

JF - Indonesian Journal of Chemistry

IS - 5

ER -

Heavy Metal Identification in Water Resources and the Surrounding Environment of the Cirasea Riparian Zone, Indonesia

Abstract

Keywords

UN SDGs

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