Strategi optimalisasi jalur hijau dalam peningkatan potensi sekuestrasi CO2 (studi kasus: Jalan Jagir Wonokromo)
Keywords:
green open space, green belt, CO2 sequestration
Abstract
Jalan Jagir Wonokromo in Surabaya City, East Java is a secondary arterial road with an average traffic density of 120,000 units per day and is surrounded by office, residential and commercial areas. The following conditions cause a lot of CO2 emissions resulting from anthropogenic activities that occur. The green line is the right solution and mitigation in tackling this problem, so it is important to know the ability to absorb CO2 from vegetation and the optimization strategy that can be applied. The research was conducted in the range from March to April 2023 with observations of composition and vegetation components as the basis for estimating carbon uptake using an allometric equation approach. Based on the research conducted, the CO2 absorption capability of the Jagir Wonokromo green line vegetation is 250,63 ton CO2-eq/year, which is a sufficient amount for CO2 absorption needs at that location. The optimization strategy undertaken includes intensification, extensification and mitigation.
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References
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Danial, Wahyuni I dan Asyari M. 2019. Pendugaan karbon tersimpan pada permukaan tanah di berbagai jalur hijau Kecamatan Banjarbaru Utara Kota Banjarbaru. Jurnal Sylva Scienteae 2(4) 667–674.
Fletcher WD and Smith CB. 2020. Introduction in reaching net zero. Elsevier. Amsterdam. https://doi.org/10.1016/B978-0-12-823366-5.00001-4
Gebrewahid Y and Meressa E. 2020. Tree species diversity and its relationship with carbon stock in the parkland agroforestry of Northern Ethiopia. Cogent Biology 6(1):1728945. https://doi.org/10.1080/23312025.2020.1728945
Indriani A, Polii BJV and Ogie T. 2021. Potensi daun trembesi (Albizia sama (Jacq.) Merr.) sebagai bioakumulator logam berat timbal (Pb) di Kota Manado. Jurnal Agroekoteknologi Terapan 2(2):21–31.
Ketterings QM, Coe R, van Noordwijk M, Ambagau Y and Palm CA. 2001. Reducing uncertainty in the use of allometric biomass equations for predicting above-ground tree biomass in mixed secondary forests. Forest Ecology and Management 146(1–3):199–209. https://doi.org/10.1016/S0378-1127(00)00460-6
Komolafe ET, Chukwuka KS, Obiakara MC and Osonubi O. 2020. Carbon stock and sequestration potential of Ibodi monkey forest in Atakumosa, Osun state, Nigeria. Trees, Forests and People 2:100031. https://doi.org/10.1016/j.tfp.2020.100031
Lokbere M, Pollo HN dan Tasirin JS. 2017. Estimasi biomassa pohon mahoni di areal UNSRAT. COCOS 9(6):321–329. https://doi.org/https://doi.org/10.35791/cocos.v1i2.20116
Mansur M dan Pratama BA. 2014. Potensi serapan gas karbondioksida (CO2 ) pada jenis-jenis pohon pelindung jalan. Jurnal Biologi Indonesia 10(2):149–158.
Marchi M, Pulselli RM, Marchettini N, Pulselli FM and Bastianoni S. 2015. Carbon dioxide sequestration model of a vertical greenery system. Ecological Modelling 306:46–56. https://doi.org/10.1016/j.ecolmodel.2014.08.013
PerMenPU (Peraturan Menteri Pekerjaan Umum) Nomor 5 Tahun 2008 tentang Pedoman penyediaan dan pemanfaatan ruang terbuka hijau.
Prinajati PD. 2019. Analisis ruang terbuka hijau terhadap penyerapan emisi karbondioksida. Envirosan - Jurnal Teknik Lingkungan 2(1):34–41.
Rahman, Effendi H, Rusmana I, Yulianda F dan Wardiatno Y. 2020. Pengelolaan ekosistem mangrove untuk ruang terbuka hijau sebagai mitigasi gas rumah kaca di kawasan Sungai Tallo Kota Makassar. Jurnal Pengelolaan Sumberdaya Alam dan Lingkungan 10(2):320–328. https://doi.org/10.29244/jpsl.10.2.320-328
Santoso N, Sutopo, Pambudi GP, Danarta VF, Wibisono RA, Astuti TP dan Wicaksono DA. 2021. Pendugaan biomassa dan serapan karbon di beberapa areal Taman Hutan Kota Jakarta, Bekasi, dan Bogor. Jurnal Penelitian Hutan Tanaman 18(1):35–49.
Sinambela NR. 2020. Kajian literatur ruang terbuka hijau terhadap kebutuhan oksigen. Pondasi 25(2):137-156. https://doi.org/10.30659/pondasi.v25i2.13040
Sukmawati T, Fitrihidajati H dan Indah NK. 2015. Penyerapan karbon dioksida pada tanaman hutan kota di Surabaya. Lentera Bio 4(1):108-111. http://ejournal.unesa.ac.id/ index.php/lenterabio
Sutaryo D. 2009. Penghitungan biomassa: Sebuah pengantar untuk studi karbon dan perdagangan karbon. Wetlands International Indonesia Programme. Bogor.
Syafiq M. 2017. Perancangan taman vertikal pada lingkungan koridor padat kota dengan pendekatan konsep sustainable urban landscape (studi kasus: koridor Jalan Basuki Rahmat) [tesis]. Jurusan Arsitektur, Fakultas Teknik Sipil dan Perencanaan, Institut Teknologi Sepuluh Nopember. Surabaya.
Wang P, Wong YH, Tan CY, Li S and Chong WT. 2022. Vertical greening systems: technological benefits, progresses and prospects. Sustainability 14(20):12997. https://doi.org/ 10.3390/su142012997
Published
2023-12-29
How to Cite
Salamah, S., & Cahyonugroho, O. (2023). Strategi optimalisasi jalur hijau dalam peningkatan potensi sekuestrasi CO2 (studi kasus: Jalan Jagir Wonokromo). Jurnal Pengelolaan Lingkungan Berkelanjutan (Journal of Environmental Sustainability Management), 7(3), 233-243. https://doi.org/https://doi.org/10.36813/jplb.7.3.233-243
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