Quality of leachate and soil in the dry season in the temporary transit system at the lanfill in environmentally frienly trash cans for the environmental sampel settlements, District of Koja North Jakarta

Paper Details

Research Paper 03/10/2022
Views (682) Download (57)
current_issue_feature_image
publication_file

Quality of leachate and soil in the dry season in the temporary transit system at the lanfill in environmentally frienly trash cans for the environmental sampel settlements, District of Koja North Jakarta

Wartiniyati Wartiniyati, Agus Tjahjono, Trijoko Trijoko, Elanda Fikri, Pangestu Pangestu, Yusniar Hanani Darundati, Slamet Isworo, Mardjan Mardjan
J. Bio. Env. Sci.21( 4), 35-41, October 2022.
Certificate: JBES 2022 [Generate Certificate]

Abstract

The quality of leachate, soil in the dry season reaching to 240 m3/day/88 tons/day, Dipo due to limited land, so use the operating system after rhythm by scavengers. That is accordance with DKI Jakarta Regional Regulation No.1 of 2012 concerning Regional Spatial Planning to improve integrated solid waste system. But it still has not equipped with waste treatment facilities, taking and of land availability, for buffer zones. This research was aimed analysis the physics concentration, chemistry on leachate, while on the soil tested based on chemical parameters. The research design used a descriptive quantitative approach. Leachate sampling using the grab sample technique. Test soil using TCLP government regulation No.85/1999, standard reference using USEPA D1311/1992 and Standard Method 23RD Edition:3111B,3112 B and 3113B 2017. The result of the study in the dry season showed that the concentration of heavy metals in the soil was below the specified limit <0,032mg/l from 1,0mg/l. Lead <0,059mg/l than specified 5,0mg/l, Arsen <0,001mg/l. While leachate is classified as bad at being at a high threshold value referring to government regulation No.82 of 2001.That is on BOD5 up to 568,58mg/l, COD 5544mg/l, H2S 0,832mg/l. The findings in this study are a transit system, there is a high concentration of leachate in certain parameters, soil quality is still safe. The government needs to conduct a review of the availability of land to accommodate temporary waste that meets environmental and aesthetic aspects so that it does not pose potential risks to human and the environment by taking into account the health impacts on the surrounding environment and preventing leakage or seepage into environmental media.

VIEWS 116

A Kasasi. 2008. Soil contamination by heavy metals. Measurements from a closed unlined landfill. Bioresource Technology 99(18), 8578-8584.

Agatha Bartkowiak. 2018. Assessment of the effect of uncontrolled landfill sites on the content of available forms of selected macro and microelements iss forest soil. Internasional journal of environmental research 12, 901-907.

Alice Morita AM. 2021. Pollution threat to water and soil quality by dumpsites and non-sanitary landfills in Brazil: A review. Waste Management 131, 163-176.

Antoniua. 2012. Evaluasi kelayakan lokasi Tempat Pembuangan Sampah di Kecamatan Manokwari Selatan.

Bhalla B, Saini MS, Jha MK. 2012 Characteristik of Leachate from Municipal Solid Waste (MSW) Landfilling Sites of Ludhiana,India:A Comparative Study. Internaional Journal of Engineering Research and Applications (IJERA) 2(6), 732-745.

Buana Ghana. 2018. Aliran kali Asem diduga tercemar Air Lindi Sumur Batu. Media Indonesia.

Eremin IVN,  Reshetnikov  MV, Sheshnev AS. 2017. Impact of waste landfills in the Saratov region on the sanitary condition of the soil. Gig Sanit 96(2), 117-21.

Hamza El Fadili. 2022. Ecotoxicological and pre-remedial risk assessment of heavy metals in municipal solid waste dumpsite impacted soil in morocco. Journal Environmental Nanotechnology, monitoring & Management vol. 17, May 2022,100640.

Harjito Suntoro, Totok Gunawan, Maskuri M. 2018. Undergroun Leacate Distribution Based on Elektrical Resisitivity Tomography in Piyungan Landfill, Bantul Indonsia Journal of Geografy 50(1), 34-40

Herison, Ahmad. 2009. Desain Prototipe Instalasi Koagulasi dan Kolam Fakultatif untuk pengolahan Air Lindi (Studi Kasus TPA Bakung Bandar Lampung). Jurnal rekayasa Fakultas Teknik Universitas Lampung 13(1). ISSN 0852-7733

Iravaniah A, Ravari sh O. 2020. Types of contamination in landfills and effects on the environment : A review study. IOF Conf. Series: Earth and Environmental Science 614, 1755-1315

Laely Priatna. 2019. Pengelolaan sampah di tempat pembuangan akhir (TPA) Gunung Tugel, Desa Kedungrandu, Kecamatan Patikraja, Kabupaten Banyumas.Prosiding seminar nasional dan call for papers pengembangan sumber daya pedesaan dan kearifan local berkelanjutan IX, 19-20 November 2019, Purwokerto.

Laerts G, Santika SS. 1987. Metode Penelitian Air. Usaha Nasional Surabaya.

Lelim Yelli Kurnianti. 2020. Analisis beban dan status pencemaran BOD dan COD di Kali Asin Semarang. Journal of Fisheries and Marine Research 4(3), 379-388.

Magdalena Daria Vaverkova. 2017. Environmental impact of landfill on soils – the example of the Czech republic. Article in Polish Journal of Soil Science. Doi 10.17951 /pjss. 2017.50.1.93

Munirah Husein, Kenichi Yoneda, Zuhaidah Moh-Zaki, Amnorzahira Amir, Nor Azizi Othman. 2020. Heavy metals in leachate, impacted soils and natural soils of different landfills in Malaysia: An alarming threat. Chemosphere 267, March 2021,128874

Nindhianingtyas widyasari. 2013. Analysis of potential lead pollution on soil,leachate and ground water (Monitoring wells) in Pakusari Landfill Jember. Fakultas Kesehatan Masyarakat, Universitas Jember/UNEJ.

Nurhasanah. 2007. Efektifitas pemberian udara berkecepatan tinggi dalam menurunkan pollutan leachate TPA sampah. Studi kasus sampah Galuga Kota Bogor. Jurnal Forum Fasca Sarjana 34(1), 61-76

Nusa Idaman Said. 2010. Metode penghilangan logam berat (As,Cd,Cr,Ag,Cu,Pb,Ni dan Zn) di dalam air limbah Industri. JAI 6(2), 2010.

Purwanti Heny. 2014. Kajian Dampak Saluran Lindi terhadap Lingkungan Ditinjau dari Aspek Pengoperasian TPA Galuga (Studi Kasus: TPA Galuga, Kecamatan Cibungbulang, Kabupaten Bogor. Jurnal Teknologi Fakultas Teknik Universitas Pakuan 1(25). ISSN 1411-5972

Ramadhan, Arya DKK. 2016. Pendugaan Distribusi Air Lindi dengan Geolistrik Metode ERT. Majalah Geografi Indonesia 33(1). ISSN 2540-945

Sembiring, Elsa Try Julita, Muntalif, Barti Setiani. 2011. Optimasi Efesiensi Pengolahan Lindi dengan mengguunakan Constructed Wetland. Jurnal Teknik Lingkungan 17(2). ISSN 0854-9796

Siti Nur Syahirah Binti Mohd Adnan. 2013. Soil chemistry and pollution study of a closed landfill site at Ampar Tenang, Selangor, Malaysia. Waste manajemen & Reearch 31(60), 599-612.

Sudheer Kumar Yantrapalli. 2013. A study on influence of real municipal solid waste leachate on properties of soils in Warangal, India. Journal of Geoscience Engineering, Environment, and Technology 3(1), (2018): JGEET Vol.03 No.01: March (2018) Research Article

Suganda E, Atmodiwirjo. 2009. Pengelolaan lingkungan dan kondisi masyarakat pada wilayah hilir sungai.

Sulistyoningrum, Dewi Retno. 2018. tudi literature remediasi tanah tercemar lindi di TPA sampah menggunakan Mixed Terrestrial Plants. Thesis. Institut Teknologi Sepuluh Nopember. Surabaya.

Usman, Sarip; Santosa, Imam. 2014. “Pengolahan Air Limbah Sampah (Lindi) dari TPA (Tempat Pembuangan Akhir Sampah) Menggunakan Metode Constructed Wetland”. Jurnal Kesehatan Politeknik Kesehatan Kementerian Kesehatan Tanjung Karang 5(2). ISSN 2548-5695.

Wartiniyati. 2016. Asessment of leachate quality by comparing WQI to saprobic index in plankton. Journal of Biodiversity and Environmental Science (JBES). ISSN: 2220-6663 8(3), p. 96-106.2016.