Green Road Vegetation CO2 Sequestration Potential on Transportation Co2 Emissions

Article Sidebar

PDF
Issue
Vol. 20 No. 2 (2023): Jurnal Kesehatan Lingkungan Volume 20 No. 2, Juli 2023
Published: Jul 1, 2023
Keywords:
CO2 sequestration,
Transport emissions,
Tier II,
Box models

Main Article Content

Shalzafatihah Salamah
National Development University "Veteran" East Java, Department of Environmental Engineering
Okik Hendriyanto Cahyonugroho
National Development University "Veteran" East Java, Department of Environmental Engineering

Abstract

Transportation is one of the anthropogenic activities that emit CO2. Its existence is essential for human mobilization, which causes the need for mitigation and solutions that can support the continuity of activities while minimizing the impact of emissions. In this case, the green belt of Jalan Jagir Wonokromo contains a mixture of road protection and CO2-absorbing vegetation that can reduce emissions. For this reason, a study was conducted to determine the CO2 absorption potential of green belt vegetation to provide information and a reference for optimizing green open space. The research was conducted using a quantitative descriptive method, which included measuring road ambient CO2 concentrations, calculating vehicle volume, measuring breast height diameter as a biomass component, and researching correcting CO2 absorption by vegetation. According to the research results, the average ambient concentration of CO2 on roads is 785 mg/m3. The transport CO2 concentration was calculated using a Tier II approach and yielded a value of 186.87 kg/hour, contributing 79% to the ambient CO2 concentration.Furthermore, a box model is used to analyze the concentration of CO2 that will be absorbed by vegetation, resulting in 103.47 tons per year. Meanwhile, the ability to absorb CO2 from vegetation is 152.74 tons/year after being corrected by a pilot-scale study that considers vegetation's age and physiological factors. All emissions on Jalan Jagir Wonokromo can still be absorbed by vegetation, but optimization needs to be done in the form of intensification, extensification, and mitigation.

Article Details

Section
Articles
Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

(CC BY-SA) : This license allows to Share — copy and redistribute the material in any medium or format, Adapt — remix, transform, and build upon the material, for any purpose, even commercially.

The copyright of the received article shall be assigned to the journal as the publisher of the journal. The intended copyright includes the right to publish the article in various forms (including reprints). The journal maintains the publishing rights to the published articles.

Authors are permitted to disseminate published articles by sharing the link/DOI of the article at the journal. Authors are allowed to use their articles for any legal purposes deemed necessary without written permission from the journal with an acknowledgment of initial publication to this journal.

References

Irundu D, Beddu MA, Najmawati N. Potensi Biomassa Dan Karbon Tersimpan Tegakan di Ruang Terbuka Hijau Kota Polewali, Sulawesi Barat. J Hutan dan Masy [Internet]. 30 Juli 2020;12(1):49. Tersedia pada: http://journal.unhas.ac.id/index.php/jhm/article/view/9675

Indrajaya Y, Mulyana S. Simpanan KArbon Dalam Biomassa Pohon Di Hutan Kota Kebun Binatang Bandung. In: Prosiding Seminar Nasional Geografi UMS. 2017. hal. 550–60.

Putra BP, Nawawi M. Vegetasi Sebagai Pereduksi Co 2 Udara Ambien Tepi Jalan Vegetatation for Reducing Co 2 Roadside Ambient Air. 2013;

Marisha S. Analisis Kemampuan Pohon dalam Menyerap CO2 dan Menyimpan Karbon pada Jalur Hijau Jalan di Subwilayah Kota Tegalega, Kota Bandung. IOP Conf Ser Earth Environ Sci [Internet]. 1 Juli 2020;528(1):012035. Tersedia pada: https://iopscience.iop.org/article/10.1088/1755-1315/528/1/012035

Dinas Lingkungan Hidup Kota Surabaya. Profil Keanekaragaman Hayati Kota Surabaya. 2021. hal. 209–15.

Trisandy AY. Analisis Perhitungan Ruang Terbuka Hijau Penyerap Gas CO2 di Koridor Ahmad Yani Surabaya. 2018.

Gracia AS. Kajian Kecukupan Ruang Terbuka Hijau Untuk Menyerap Gas Karbon Dioksida (CO2) Dari Kendaraan Bermotor Di Jalan Dr. Ir. H. Soekarno, Surabaya (Merr IIC). 2016.

Badan Standarisasi Nasional. SNI 7724:2011 Pengukuran dan Penghitungan Cadangan Karbon – Pengukuran Lapangan untuk Penaksiran Cadangan Karbon Hutan (Ground Based Forest Carbon Accounting ). 2011. hal. 1–24.

Shishegaran A, Shishegaran A, Najari M, Ghotbi A, Boushehri AN. Effect of plants on an environment with high carbon dioxide concentration. Clean Eng Technol [Internet]. 2020;1(September):100002. Tersedia pada: https://doi.org/10.1016/j.clet.2020.100002

Dacosta YO, Daningsih E. Ketebalan Daun dan Laju Transpirasi Pada Tanaman Hias Dikotil. J Ilmu Pertan Indones [Internet]. 12 Januari 2022;27(1):40–7. Tersedia pada: https://journal.ipb.ac.id/index.php/JIPI/article/view/38470

Utomo IW, Widaningsih T, Napitupulu F. Representasi Feminisme di Bidang Olahraga Dalam Film The Queen ’ s Gambit ( Analisis Semiotika Roland Barthes ) Jurnal Media Penyiaran. 2022;02:40–5.

Aziz MF, Abdurrachman A, Chandra I, Majid LI, Vaicdan F, Salam RA. Pemantauan Konsentrasi Gas ( Co pada Struktur Horizontal di Kawasan Dayeuhkolot , Cekungan Udara Bandung Raya. 2020;18(1):1–12.

Efbertias S, Muhammad IM, David S, Asmuliani R, Erni M, Irwan S, et al. Pengantar Ilmu Lingkungan. Medan: Yayasan Kita Menulis; 2022.

Wardhani AK, Budianto B, Sugiarto Y. The Role of Vegetation in Reducing Anthropogenic CO2 in Bogor City. Agromet. 2018;32(1):42.

Nurjanah N. Emisi CO2 akibat Kendaraan Bermotor di Kota Denpasar. Puslitbang Perhub Darat dan Perkeretaapi. 2014;4(2014):9–15.

Ginting AL, Mirwan M. Analisis Kualitas Udara Berdasarkan Volume Lalu Lintas di Jalan Kedung Cowek Surabaya. INSOLOGI J Sains dan Teknol. 2022;1(5):603–13.

Savio N, Lone FA, Bhat JIA, Kirmani NA, Nazir N. Study on the effect of vehicular pollution on the ambient concentrations of particulate matter and carbon dioxide in Srinagar City. Environ Monit Assess [Internet]. 2022;194(6):1–19. Tersedia pada: https://doi.org/10.1007/s10661-022-09927-4

Sudiadnyana IW, Aryana IK, Sali IW. Hubungan faktor meteorologis dan kepadatan lalu lintas dengan kualitas udara di kota tabanan. 2022;12(2):93–8.

Lokbere M, Pollo HN, Tasirin JS. Estimasi Biomassa Pohon Mahoni di Areal UNSRAT. COCOS. 2017;9(6):321–9.

Sahuri. Potensi Peningkatan Penyerapan Karbon Melalui Sistem Tanaman Sela Berbasis Karet. Bumi Lestari J Environ. 2018;18(1):33.

Santoso N, Sutopo, Pambudi GP, Danarta VF, Wibisono RA, Astuti TP, et al. Pendugaan biomassa dan serapan karbon di beberapa areal Taman Hutan Kota Jakarta, Bekasi, dan Bogor. J Penelit Hutan Tanam. 2021;18(1):35–49.

Hidayati N, Mansur M, Juhaeti T. Variasi serapan karbondioksida (CO2 ) jenis-jenis pohon di “ecopark”, cibinong dan kaitannya dengan potensi mitigasi gas rumah kaca. Bul Kebun Raya. 2013;16(1):38–50.

Iqbal M, Hermawan R, N Dahlan E. POTENSI SERAPAN KARBONDIOKSIDA BEBERAPA JENIS DAUN TANAMAN DI JALUR HIJAU JALAN RAYA PAJAJARAN, BOGOR. J Penelit Sos dan Ekon Kehutan [Internet]. 31 Maret 2015;12(1):67–76. Tersedia pada: http://ejournal.forda-mof.org/ejournal-litbang/index.php/JPSEK/article/view/709

Hidayanti SR. Analisis Karakteristik Stomata, Kadar Klorofil Dan Kandungan Logam Berat Pada Daun Pohon Pelindung Jalan Kawasan Lumpur Porong Sidoarjo [Internet]. Fakultas Sinstek Dan Teknologi Universitas Islam Negeri Malang Malang. 2009. Tersedia pada: http://etheses.uin-malang.ac.id/995/1/02520020 Skripsi.pdf

Taluta HE, Rampe HL, Rumondor MJ. Pengukuran Panjang dan Lebar Pori Stomata Daun Beberapa Varietas Tanaman Kacang Tanah (Arachis hypogaea L.). J MIPA. 2017;6(2):1.

de Villiers C, Chen S, jin C, Zhu Y. Carbon sequestered in the trees on a university campus: A case study. Sustain Accounting, Manag Policy J. 2014;5(2):149–71.

Lukaszkiewicz J, Kosmala M. Determining the age of streetside trees with diameter at breast height-based multifactorial model. Arboric Urban For. 2008;34(3):137–43.

Syafiq M. Perancangan Taman Vertikal pada Lingkungan Koridor Padat Kota dengan Pendekatan Konsep Sustainable Urban Landscape (Studi Kasus: Koridor Jalan Basuki Rahmat). Institut Teknologi Sepuluh Nopember. 2017.

Saputra DH. KEMAMPUAN RTH SEBAGAI PENYERAP EMISI GAS CO 2 KENDARAAN BERMOTOR PADA KAWASAN PERDAGANGAN DAN JASA KINGS (BLOK BALONGGEDE). FTSP Ser Semin Nas dan Disem Tugas Akhir 2022. 2022;278–86.

Sari MP. Walkable City untuk Kota Berkelanjutan dengan Emisi Nol Karbon [Internet]. Badan Pengembanagn Infrastruktur Wilayah. 2021. Tersedia pada: https://bpiw.pu.go.id/article/detail/walkable-city-untuk-kota-berkelanjutan-dengan-emisi-nol-karbon