slot gacor slot gacor hari ini slot gacor 2025 demo slot pg slot gacor slot gacor
ANALISIS PENCEMARAN KUALITAS KIMIA AIR SUMUR DANGKAL DI PERMUKIMAN KUMUH RW IV KELURAHAN BANGKA JAKARTA SELATAN | Muzdalifa | Jurnal Kesehatan Masyarakat skip to main content

ANALISIS PENCEMARAN KUALITAS KIMIA AIR SUMUR DANGKAL DI PERMUKIMAN KUMUH RW IV KELURAHAN BANGKA JAKARTA SELATAN

*El Muzdalifa  -  Fakultas Kesehatan Masyarakat, Universitas Diponegoro, Jl. Prof. Sudarto, SH, Tembalang, Semarang, Indonesia 50275 | Universitas Diponegoro, Indonesia
Nurjazuli Nurjazuli  -  Fakultas Kesehatan Masyarakat, Universitas Diponegoro, Jl. Prof. Sudarto, SH, Tembalang, Semarang, Indonesia 50275 | Universitas Diponegoro, Indonesia
Tri Joko  -  Fakultas Kesehatan Masyarakat, Universitas Diponegoro, Jl. Prof. Sudarto, SH, Tembalang, Semarang, Indonesia 50275 | Universitas Diponegoro, Indonesia
Received: 27 Dec 2021; Revised: 4 Apr 2022; Accepted: 25 May 2022; Available online: 28 May 2022; Published: 30 May 2022.

Citation Format:
Abstract

Use of groundwater as a water source in South Jakarta is quite high with a usage value of 3,768,226 m3. Most of the shallow groundwater in RW IV Bangka village are at a depth of <25 mbgl, so they have the potential to be polluted.. Moreover that village categorized as slums area, where there is high risk to be polluted by poor environment. . This study aims to analyze the level quality of Fe and CaCO3 pollution and their correlation with the risk factors in shallow well water in RW IV Bangka Village. This type of research is analytic observational with a cross sectional approach. The research population was the total number of wells in the residential area of RW IV, with the research sample using purposive random sampling of 30 shallow wells. The results showed that 100% of the samples met the requirements for pH (x̄= 8,0) and CaCO3 (x̄= 253 mg/l) levels. Meanwhile, for Fe (x̄= 0,29 mg/l) value , there were 7 samples (23,2%) that did not meet the requirements. Chi-square statistical analysis showed that there was no relationship between latrine distance (p=0,666), distance of other pollutants (p=0,675), standing water around the well (p=1,00), and SPAL conditions (p=0,304) with the Fe quality in shallow well water. However, based on the prevalence ratio (PR), the highest risk was found in other pollutant distance factors compare to others (PR=1,524).  The conclusion that, although the levels of Fe and CaCO3 in shallow well water are quite high, statistical analysis shows that there is no correlation from environment risk factors for these two value levels by reason, most of well type for sampling is bore well type which is low for contamination.

Note: This article has supplementary file(s).

Fulltext View|Download |  article approval
ANALISIS TINGKAT PENCEMARAN AIR SUMUR DANGKAL DI LOKASI PERMUKIMAN KUMUH RW IV KELURAHAN BANGKA JAKARTA SELATAN
Subject Shallow Wells, Pollution, Slums, Water Quality.
Type article approval
  Download (58KB)    Indexing metadata
 common.other
ANALISIS TINGKAT PENCEMARAN AIR SUMUR DANGKAL DI LOKASI PERMUKIMAN KUMUH RW IV KELURAHAN BANGKA JAKARTA SELATAN
Subject Article Affirmation
Type Other
  Download (646KB)    Indexing metadata
Keywords: Shallow wells; water pollution; slums area

Article Metrics:

  1. Putra II. Penggunaan Air Tanah di DKI Jakarta Meningkat di Tahun 2019 [Internet]. Statistik.Jakarta.Go.Id. 2019 [Cited 2021 Jun 26]
  2. Mukhtar O, Pranantya PA, Hadian SD. Manajemen Air Tanah di Cekungan Air Tanah DKI Jakarta. In: Seminar Nasional Ke-III Fakultas Teknik Geologi Universitas Padjajaran. 2012
  3. Seizarwati W, Prasetya D. Penentuan Jaringan Sumur Pantau Primer Dengan Metode Inverse Distance Weighting di Cekungan Air Tanah Jakarta. Jurnal Sumber Daya Air. 2019;15(2):107–20
  4. Shivakoti BR. Groundwater - Wash Nexus In Asian Cities : Hanoi , Kathmandu And Khulna. Hayama, Japan; 2016
  5. Nyoman RN, Amri I, Harun H. Perbandingan Kadar Kesadahan Air PDAM dan Air Sumur Suntik Kelurahan Tondo Kota Palu Tahun 2017. Med TADULAKO (Jurnal Ilm Kedokteran). 2018;5(3):12–21
  6. Sunarsih E, Faisya AF, Windusari Y, Trisnaini I, Arista D, Septiawati D, et al. Analisis Paparan Kadmium, Besi dan Mangan pada Air Terhadap Gangguan Kulit pada Masyarakat Desa Ibul Besar Kecamatan Indralaya Selatan Kabupaten Ogan Ilir. J Kesehat Lingkung Indones. 2018;17(2):68–73
  7. Febrina, Laila dan Ayuna, Astrid. Studi Penurunan Kadar Fe dan Mn dalam air tanah menggunakan Saringan Keramik
  8. Nuryana SD, Hidartan, Yuda HF, Riyandhani CP. Penyaringan Unsur-Unsur Logam (Fe, Mn) Air Tanah Dangkal Di Kelurahan Jembatan Lima, Tambora Jakarta Barat. J Abdi Masyarakat Indonesia. 2019;1(3)
  9. Naryanto HS, Prohartanto, Ganesha D. Groundwater and Rover Wate Quality Assessment in Serang Flood Area Related to Providing Clean Water Supply Jurnal Teknologi Lingkungan. 2019; 20(1) : 45-56
  10. Ristiana N, Astuti D, Kurniawan TP. Keefektifan Ketebalan Kombinasi Zeolit dengan Arang Aktif dalam Menurunkan Kadar Kesadahan Air Sumur di Karangtengah Weru Kabupaten Sukoharjo. Jurnal Kesehatan. 2009;2(1):91–102
  11. Kurniawan TP. Kualitas Kimia Air Sumur di Perum Pondok Baru Permai Desa Bulak Rejo Kecamatan Sukoharjo Kabupaten Sukoharjo, Tahun 2015. Sanitasi J Kesehatan Lingkungan. 2017;9(1):26–30
  12. Marwati NM, Mardani NK, Sundra IK. Kualitas Air Sumur Gali Ditinjau dari Kondisi Lingkungan Fisik dan Perilaku Masyarakat di Wilayah Puskesmas I Denpasar Selatan. J ECOTROPHIC. 2008;5(1):63–9
  13. Fahmi MA, Evayanti R. Analisis Laju Infiltrasi Tanah Dangkal Pada Sub-Das Pelangan Kabupaten Lombok Barat. Jurnal Handasah (Jurnal Ilm Tek Sipil). 2021;1(6–12)
  14. Sasongko EB, Widyastuti E, Priyono RE. Kajian Kualitas Air dan Penggunaan Sumur Gali Oleh Masyarakat di Sekitar Sungai Kaliyasa Kabupaten Cilacap. J Ilmu Lingkungan. 2014;12(2):72–82
  15. Kurniawan AP, Kadir S, Amalia L. Faktor- Faktor yang Mempengaruhi Kadar Besi (Fe) pada Air Sumur Gali (Studi Kasus di Desa Beringin Jaya Kecamatan Bolano Kabupaten Parigi Moutong Provinsi Sulawesi Tengah. Universitas Negeri Gorontalo; 2015
  16. Arba HN. Identifikasi Logam Besi (Fe) Pada Zonasi Radius 1-5 Km Tempat Pembuangan Akhir (Tpa) Antang Makassar Terhadap Pengaruh Kualitas Air Sumur Gali. Universitas Islam Negeri Alauddin Makassar; 2017
  17. Celesta AG, Fitriyah N. Overview Basic Sanitation In Payaman Village, Bojonegoro District 2016. J Kesehat Lingkung. 2019;11(2):83
  18. Suparman, Desimal I. Hubungan Kualitas Saluran Pembuangan Air Limbah (SPAL) Dengan Kualitas Fisik Air Sumur Gali di Desa Beleka Kecamatan Praya Timur Kabupaten Lombok Tengah Tahun 2015. J Sangkareang Mataram. 2016;2(3):24–6
  19. Anggraini R. Analisis Kualitas Air Sumur Gali Penduduk di Desa Perkebunan Teluk Panji Kecamatan Kampung Rakyat Kabupaten Labuhan Batu Selatan. Universitas Negeri Medan; 2018
  20. Setioningrum R, Sulistyorini L, Rahayu WI. Gambaran Kualitas Air Bersih Kawasan Domestik di Jawa Timur Pada Tahun 2019. Jurnal Ikesma. 2020;16(2):87

Last update:

No citation recorded.

Last update:

No citation recorded.