Degraded Peatlands and Their Utilization Opportunities in Kepulauan Meranti Regency, Riau Province, Indonesia

https://doi.org/10.22146/ijg.84986

Turmudi Turmudi(1*), Bambang Hero Saharjo(2), Lilik Budi Prasetyo(3), Boedi Tjahjono(4)

(1) Sekolah Pasca Sarjana Program Studi Pengelolaan Sumberdaya Alam dan Lingkungan Hidup IPB University. Kampus IPB Baranangsiang Bogor
(2) Department of Silviculture, Faculty of Forestry IPB
(3) Department Forest Resources Conservation & Ecotourism, Forestry Faculty, Bogor Agricultural University Kampus IPB Darmaga PO.Box 168 Bogor-Indonesia
(4) Department Soil Science and Land Redources, Faperta Bogor Agricultural University Kampus IPB Darmaga Bogor Indonesiaty ty of Geography, Universitas Gadjah Mada, Indonesia
(*) Corresponding Author

Abstract


Degraded peatlands are caused by various factors, including land fires, water mismanagement, and mining activities. Indicators of degraded peatlands can be identified through the type of land cover observed in the field, which commonly includes shrubs and barren land (open areas of ex-mining land). Therefore, this study aimed to determine the dynamics of the existence of degraded land and its utilization opportunities using spatial, image, and time series analysis methodDepartment Forest Resources Conservation & Ecotourism, Forestry Faculty, Bogor Agricultural University Kampus IPB Darmaga PO.Box 168 Bogor-Indonesias. To conduct the analysis, various data sources were employed, including Landsat imagery, the Regional Spatial Planning (RTRW) map, hotspots data, rainfall data, landforms maps, peatlands data, and soil information. The results of the study showed that between 1999 and 2019, the average area of degraded peatlands amounted to 198,084.54 hectares. Furthermore, the optimal area of degraded peatlands utilized for agriculture amounted to 7,122.45 hectares . Inventory of degraded peatland using the land cover approach can be obtained faster, cheaper, easier than the terrestrial method. Opportunities for using degraded land for agricultural purposes were also identified through the selection of plant species that exhibited adaptability to peatlands and held economic value. These selected plants, including sago, rubber, areca nut, and liberika coffee, were developed within the Meranti Islands Regency.

 


Keywords


Degraded Peatlands, Shrubs; Hotspots; Land Cover; Regional Spatial Plan

Full Text:

PDF


References

Adrianto, H. A., Spracklen, D. V., & Arnold, S. R (2019). Relationship between fire and forest cover loss in Riau Province, Indonesia between 2001 and 2012, Forests, 10(10), 889.

Agus, F., Wahyunto, S. H., Subiksa, I., Setyanto, P., Dariah, A., Maswar, N., & Las, I (2014). Pengelolaan berkelanjutan lahan gambut terdegradasi: trade off keuntungan ekonomi dan aspek lingkungan’, In: Prosiding Seminar Nasional Pengelolaan Berkelanjutan Lahan Gambut Terdegradasi untuk Mitigasi Emisi GRK dan Peningkatan Nilai Ekonomi. Jakarta: Badan Penelitian dan Pengembangan Pertanian. hlm (pp. 1-23).

Applegate, G., Freeman, B., Tular, B (2022). Application of agroforestry business models to tropical peatland restoration. https://doi.org/10.1007/s13280-021- 01595-x

Ardiyani, F (2014). Potensi Perbanyakan Kopi Liberika dengan Metode Somatik Embriogenesis Jember: Warta Pusat Penelitian kopi dan Kakao, 26:14-20

Birnbaum, C., Wood, J., Lilleskov, E., Lamit, L. J., Shannon, J., Brewer, M., & Grover, S (2022). Peatland Degradation Reduces Microbial Richness and Alters Microbial Functions in an Australian Peatland. DOI:https://doi. org/10.21203/rs.3.rs-1252261/v1.

BPS (2021). Kabupaten Kepulauan Meranti Dalam Angka 2020.

Dohong, A., Aziz, A. A., & Dargusch, P (2017). A review of the drivers of tropical peatland degradation in South-East Asia. Land use policy, 69, 349-360.

Giglio, L., Schroeder, W., Hall, J.V., Justice, C.O (2020). MODIS Collection 6 Active Fire Product User’s Guide Revision C. National Oceanic and Atmospheric Administration. https://lpdaac.usgs.gov/documents/876/MOD14_User_ Guide_v6.

Gusfarina (2014). Mengenal Kopi Liberika Tungkal (Libtukom) BPTP Provinsi Jambi.

Jia, K., Wei, X., Gu, X., Yao, Y., Xie, X., & Li, B (2014). Land cover classification using Landsat 8 operational land imager data in Bei’jing, China’, Geocarto international, 29(8), 941-951.

Kubangun,S.H., Haridjaja, O., & Gandasasmita, K (2016). Model perubahan penutupan/ penggunaan lahan untuk identifikasi lahan kritis di Kabupaten Bogor, Kabupaten Cianjur, dan Kabupaten Sukabumi’, Majalah Ilmiah Globë, 18(1), 21-32.

Kamlun, K. U., Arndt, R. B., & Phua, M. H (2016). Monitoring deforestation in Malaysia between 1985 and 2013: Insight from South-Western Sabah and its protected peat swamp area’, Land Use Policy, 57, 418-430.

Lailan, Syaufina., Rinenggo, Siwi., dan Nurhayati, A.D (2014). Perbandingan Sumber Hotspot sebagai Indikator Kebakaran Hutan dan Lahan Gambut dan Korelasinya dengan Curah Hujan di Desa Sepahat, Kabupaten Bengkalis, Riau Jurnal Silvikultur Tropika Vol. 05 No. 2 Agustus 2014, Hal 113-118ISSN: 2086-82

Leifeld, J., Klein, K., & Wüst-Galley, C (2020). Soil organic matter stoichiometry as indicator for peatland degradation. Scientific reports, 10(1), 1-9. https://doi.org/10.1038/s41598-020-64275-y

Liu, H., Rezanezhad, F., & Lennartz, B (2022). Impact of land management on available water capacity and water storage of peatlands. Geoderma, 406, 115521

Masganti, M., Marpoyan, P., Wahyunto, W., & Dariah, A. (2014). Karakteristik dan potensi pemanfaatan lahan gambut terdegradasi di Provinsi Riau.

Miettinen, J., Shi, C., & Liew, S. C. (2016). Land cover distribution in the peatlands of Peninsular Malaysia, Sumatra and Borneo in 2015 with changes since 1990. Global Ecology and Conservation, 6, 67-78.

Miller, M. A. (2022). Market‐based commons: Social agroforestry, fire mitigation strategies, and green supply chains in Indonesia’s peatlands. Transactions of the Institute of British Geographers, 47(1), 77-91.

Olofsson, P., Foody, G. M., Herold, M., Stehman, S. V., Woodcock, C. E., & Wulder, M.A (2014). Good practices for estimating area and assessing accuracy of land change. Remote sensing of Environment, 148, 42-57.

Prasetyo, L. B., Setiawan, Y., Condro, A. A., Kustiyo, K., Putra, E. I., Hayati, N., ... & Murdiyarso, D (2022). Assessing Sumatran Peat Vulnerability to Fire under Various Condition of ENSO Phases Using Machine Learning Approaches. Forests, 13(6), 828

Prince, S., Von Maltitz, G., Zhang, F., Byrne, K., Driscoll, C., Eshel, G., & Zhao, C (2018). Status and trends of land degradation and restoration and associated changes in biodiversity and ecosystem functions. Intergovernmental Science- Policy Platform on Biodiversity and Ecosystem Services (IPBES).

Putra, E. I., Cochrane, M. A., Vetrita, Y., Graham, L., & Saharjo, B. H. (2018). Determining critical groundwater level to prevent degraded peatland from severe peat fire. In IOP Conference Series: Earth and Environmental Science (Vol. 149, No. 1, p. 012027). IOP Publishing.

Saharjo, B. H (2016). Pengendalian Kebakaran Hutan dan atau Lahan Indonesia. Bogor. IPB Press.

Sampurno, R. M., & Thoriq, A (2016). Klasifikasi tutupan lahan menggunakan citra landsat 8 operational land imager (OLI) di Kabupaten Sumedang (land cover classification using landsat 8 operational land imager (OLI) data in Sumedang Regency). Jurnal Teknotan Vol, 10(2).

Sitorus, S. R. P., Jalaluddin, M., & Panuju, D. R (2012). Analisis kesesuaian dan ketersediaan lahan serta arahan pengembangan komoditas pertanian di Kabupaten Kepulauan Meranti Provinsi Riau. Jurnal Ilmu Tanah Dan Lingkungan, 14(2), 45- 55.

Shofiana, D. A., & Sitanggang, I. S. (2021). Confidence Analysis of Hotspot as Peat Forest Fire Indicator. In Journal of Physics: Conference Series (Vol. 1751, No. 1, p. 012035). IOP Publishing.

Subiksa, I. G. M., Hartatik, W., & Agus, F (2011). Pengelolaan lahan gambut secara berkelanjutan. Balai Penelitian Tanah. Balai Besar Penelitian dan Pengembangan Sumberdaya Lahan Pertanian. Badan Litbang Pertanian. Kementerian Pertanian. Bogor, 16.

Suripatty, B. A., Poedjirahajoe, E., Pudyatmoko, S., & Budiadi, B (2016). Pertumbuhan Sagu (Metroxylon sp) Di Hutan Alam Papua. Jurnal Hutan Pulau-Pulau Kecil, 1(2), 151-159.

Sutanto (2013). Metode Penelitian Penginderaan Jauh,Penerbit Ombak, Yogyakarta.

Suryani, E., Sulaeman, E., Bachri, S., Adhy, W (2020). Laporan Tahunan BBSDLP 2019. Inovasi Teknologi Sumberdaya Lahan Untuk Pertanian Berkelanjutan. Balai Besar Penelitian Dan Pengembangan Sumberdaya Lahan Pertanian Badan Penelitian Dan Pengembangan Pertanian Kementerian Pertanian 2020

Uda, S. K., Hein, L., & Adventa, A (2020). Towards better use of Indonesian peatlands with paludiculture and low-drainage food crops. Wetlands Ecology and Management, 28(3), 509-526.

Usup, A., Hashimoto, Y., Takahashi, H., & Hayasaka, H (2004). Combustion and thermal characteristics of peat fire in tropical peatland in Central Kalimantan, Indonesia. Tropics, 14(1), 1-19.

Volkova, L., Adinugroho, W. C., Krisnawati, H., Imanuddin, R., & Weston, C. J (2021). Loss and Recovery of Carbon in Repeatedly Burned Degraded Peatlands of Kalimantan, Indonesia. Fire, 4(4), 64.

Wahyunto, dan Daira, A. I. (2014). Degradasi lahan di Indonesia: Kondisi existing, karakteristik, dan penyeragaman definisi mendukung gerakan menuju satu peta. Jurnal Sumberdaya Lahan. 8(2): 81-93.

Waluyo, E. A., & Nurlia, A. (2017). Potensi Pengembangan Kopi Liberika (Coffea libericca) Pola Agroforestry dan Prospek Pemasarannya untuk Mendukung Restorasi Lahan Gambut di Sumatera Selatan. Pengembangan Ilmu dan Teknologi Pertanian Bersama Petani Lokal Untuk Optimasi Lahan Sub Optimal. In Prosiding Seminar Nasional Lahan Suboptimal (pp. 255-264).

Lupascu, M., & Wijedasa, L. S (2021). Paludiculture as a sustainable land use alternative for tropical peatlands: A review. Science of the Total Environment, 753, 142111.

Wilson, R. M., Hough, M. A., Verbeke, B. A., Hodgkins, S. B., Tyson, G., Sullivan, M. B., & Tfaily, M. M (2022). Plant organic matter inputs exert a strong control on soil organic matter decomposition in a thawing permafrost peatland. Science of the Total Environment, 820, 152757.





DOI: https://doi.org/10.22146/ijg.84986

Article Metrics

Abstract views : 732 | views : 850

Refbacks

  • There are currently no refbacks.




Copyright (c) 2023 Turmudi Turmudi

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

Accredited Journal, Based on Decree of the Minister of Research, Technology and Higher Education, Republic of Indonesia Number 225/E/KPT/2022, Vol 54 No 1 the Year 2022 - Vol 58 No 2 the Year 2026 (accreditation certificate download)

ISSN 2354-9114 (online), ISSN 0024-9521 (print)

Web
Analytics IJG STATISTIC