The Carbon Stocks Estimation on The Green Belt of Mataram City
DOI:
10.29303/jbt.v23i2.6304Published:
2023-12-27Downloads
Abstract
Greenhouse Gases is a phenomenon where infrared radiation from sunlight is partly trapped in the atmosphere by greenhouse gases such as carbon dioxide (CO2), nitrogen oxide (N2O), and other gases, so that it can cause an increase in the temperature of the earth's surface. which results in climate change. This research aims to estimate carbon reserves in the Lingkar Selatan Green Belt of Mataram City. This research uses quantitative descriptive methods. The data collected is vegetation data. Vegetation data is collected by measuring the diameter and height of all vegetation or using the census method. Carbon stocks are estimated using allometric equations. The carbon reserves in the vegetation on the Lingkar Selatan Green Belt are 112.63 tons with 1432 individuals, with a stake level of 0.67 tons, a pole level of 13.75 tons, and a tree level of 98.13 tons. The highest amount of carbon reserves was found in the Canary (Canarium indicum) type at 33.91 ton and the lowest was in the matoa (Pometia pinnata) at 0.0012 ton.
Keywords:
Carbon dioxide, carbon stocks, green bel.References
Arild, A., & Stibniati, A. (2008). Melangkah Maju dengan REDD isu, pilihan dan implikasi.
Badan Standardisasi Nasional. (2011). Pengukuran dan Penghitungan Cadangan Karbon–Pengukuran Lapangan untuk Penaksiran Cadangan Karbon Hutan (Akuntansi Karbon Hutan Berbasis Tanah).
Dryad. (2009). Global Wood Density Database. URL: https://datadryad.org/stash/dataset/doi:10.5061/dryad.234
Farmen, H., Panjaitan, P. B., Abdul Rahman Rusli, D., & Rahman Rusli, A. (2014). Pendugaan cadangan karbon di atas permukaan tanah areal Kampus Universitas Nusa Bangsa. Journal Nusa Sylva, 14(1), 10–19.
Global Forest Watch. (2021). key statistics about forests in Indonesia.
Indriyanto. (2015). Dendrologi Teori dan praktik menyidik pohon.
Khair, U. (2020). Penggunaan Daun Tanjung (Mimusops elengi L.) dan Seng (Zn) Di Jalan Kota Banda Aceh. Universitas Islam Negeri Ar-Raniry.
Ma’arif, A. (2016). Analisis Kebutuhan Ruang Terbuka Hijau Untuk Menyerap Emisi CO2 Kendaraan Bermotor Di Surabaya (Studi Kasus: Koridor Jalan Tandes Hingga Benowo). Jurnal Teknik ITS, 5(2). DOI: https://doi.org/10.12962/j23373539.v5i2.18853
Mardiatmoko, G., Pieterz, J. H., & Boreel, A. (2014). Ilmu Ukur Kayu Dan Inventarisasi Hutan. In Suparyanto dan Rosad.
Nurfadillah. (2022). Pemodelan Emisi Gas Rumah Kaca Pada Lahan Sawah Menggunakan Sistem Dinamik Di Kabupaten Bone.
PERDA Nomor 8 Kota Mataram. (2015). PERDA Nomor 8 Tahun 2015 tentang Pengelolaan Ruang Terbuka Hijau.pdf (p. 17).
Pinontoan, O. R., Sumampouw, O. J., & Nelwan, J. E. (2022). Perubahan Iklim Dan Pemanasan Global. Deepublish.
Safitri Agus, Dwi, A., & Burhannudin. (2017). Pendugaan Cadangan Karbon Pada Pohon Di Jalur Hijau Di Beberapa Kelas Jalan Kota Pontianak Kalimantan Barat. Jurnal Hutan Lestari, 5(1), 126–134.
Sari, D. P., Webliana B, K., & Syaputra, M. (2021). Estimasi Simpanan Karbon dan Serapan Karbon Dioksida (CO2) pada Ruang Terbuka Hijau Jalan Langko Kota Mataram. Journal of Sustainable Development Research, 1(1), 1–8.
Sutaryo, D. (2009). Penghitungan Biomassa: Sebuah pengantar untuk studi karbon dan perdagangan karbon. 1–38.
Undang Undang Republik Indonesia Nomor 11 Tahun 2020 Tentang Cipta Kerja. (2020). Undang Undang Republik Indonesia Nomor 11 Tahun 2020 Tentang Cipta Kerja. Peraturan.Bpk.Go.Id, 052692, 1–1187.
Worldometer. (2020). Indonesian Population. https://www.worldometers.info/world-population/indonesia-population/
Yusuf, M., Sulistyawati, E., & Suhaya, Y. (2014). Distribusi biomassa di atas dan bawah permukaan dari surian (Toona Sinensis Roem .). Jurnal Matematika&Sains, 19(2), 69–75.
Yuswandi, Y. (2022). Serapan Karbon di Beberapa Taman Publik dan Jalur Hijau Kecamatan Palabuhanratu, Kabupaten Sukabumi, Provinsi Jawa Barat. Braz Dent J., 33(1), 1–12.
Zulkaidhah, Z., Rahma, M., Wardah, W., Wahyu, D., & Hapid, A. (2022). Respon Pertumbuhan Semai Tanjung (Mimusops elengi Linn.) terhadap Intensitas Cahaya (Response of Seedling Growth of Tanjung (Mimusops elengi Linn.) to Light Intensity). Jurnal Penelitian Hutan Tanaman, 19(2), 137–148. DOI: https://doi.org/10.20886/jpht.2022.19.2.137-148
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