SPATIAL-TEMPORAL ANALYSIS OF FOREST DEFORESTATION IN LORE-LINDU NATIONAL PARK
Article History
Submited : June 30, 2023
Published : June 30, 2023
Indonesia is listed as one of the countries with a high rate of deforestation. This deforestation occurs in almost all islands in Indonesia, including Sulawesi. Deforestation analysis needs to be carried out to determine the rate of change in forest cover and the factors that cause it, so that forms of forest management can be planned to achieve sustainable forest management This analysis is expected to fulfill the need for information on how the vulnerability of deforestation occurs spatially, where the locations of deforestation occur and what factors encourage deforestation and forest degradation. The study found that the rate of forest decrease from 1990 to 2020 was 328 hectares/year with the highest rate was from 1990 to 2000 with rate of forest decrease 690 hectares/year. The deforestation located in four area that has difference land cover change. Area 1 changed to settlement and dry land agriculture, area 2 changed to cocoa plantation by the local community planted in 2000s, area 3 changed to cocoa plantation by the local community planted in 2010s. Area 4 changed to open area/bareland indicated after ilegal logging occurred since 2000.
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Brown, DW (1994) 'The causes of tropical deforestation: the economic and statistical analysis of factors giving rise to the loss of the tropical forests.' (UBC press:
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Ghimire, KB, Barraclough, SL (2013) 'Agricultural expansion and tropical deforestation: poverty, international trade and land use.' (Routledge:
Jaya, INS (2010) 'Analisis Citra Digital: Perspektif Penginderaan Jarak Jauh untuk Pengelolaan Sumberdaya Alam.' (IPB Press: Bogor)
Myers, N, Mittermeier, RA, Mittermeier, CG, Da Fonseca, GA, Kent, J (2000) Biodiversity hotspots for conservation priorities. Nature 403, 853-858.
Putz, FE, Blate, GM, Redford, KH, Fimbel, R, Robinson, J (2001) Tropical forest management and conservation of biodiversity: an overview. Conservation Biology 15, 7-20.
Van Kooten, GC (2020) 'The economics of nature.' (Blackwells:
Amor, D, Pfaff, A (2008) Early history of the impact of road investments on deforestation in the Mayan forest. In 'Working Paper, Nicholas School of the Environment and Sanford School of Public Policy.' (Duke University Durham, NC, USA:
Angelsen, A, Shitindi, EFK, Aarrestad, J (1999) Why do farmers expand their land into forests? Theories and evidence from Tanzania. Environment Development Economics 4, 313-331.
Brown, DW (1994) 'The causes of tropical deforestation: the economic and statistical analysis of factors giving rise to the loss of the tropical forests.' (UBC press:
Chomitz, KM, Griffiths, CJRPoS, Environmental Consequences of Growth-Oriented Policies, WP (1996) Deforestation, shifting cultivation, and tree crops in Indonesia: nationwide patterns of smallholder agriculture at the forest frontier. 4,
Ghimire, KB, Barraclough, SL (2013) 'Agricultural expansion and tropical deforestation: poverty, international trade and land use.' (Routledge:
Jaya, INS (2010) 'Analisis Citra Digital: Perspektif Penginderaan Jarak Jauh untuk Pengelolaan Sumberdaya Alam.' (IPB Press: Bogor)
Myers, N, Mittermeier, RA, Mittermeier, CG, Da Fonseca, GA, Kent, J (2000) Biodiversity hotspots for conservation priorities. Nature 403, 853-858.
Putz, FE, Blate, GM, Redford, KH, Fimbel, R, Robinson, J (2001) Tropical forest management and conservation of biodiversity: an overview. Conservation Biology 15, 7-20.
Van Kooten, GC (2020) 'The economics of nature.' (Blackwells:
Handayani, MN, Sasmito, B, Wijaya, AP (2017) Analisis hubungan antara perubahan suhu dengan indeks kawasan terbangun menggunakan citra Landsat (studi kasus: kota Surakarta). Jurnal Geodesi Undip 6, 208-2018.
Jaya, INS (2010) 'Analisis Citra Digital: Perspektif Penginderaan Jarak Jauh untuk Pengelolaan Sumberdaya Alam.' (IPB Press: Bogor).
Kumar, R, Nandy, S, Agarwal, R, Kushwaha, S (2014) Forest cover dynamics analysis and prediction modeling using logistic regression model. Ecological indicators 45, 444-455.
Liu, Q, Huang, C, Shi, Z, Zhang, S (2020) Probabilistic River Water Mapping from Landsat-8 Using the Support Vector Machine Method. Remote Sensing 12, 1374.
Mas, JF, Lemoine Rodríguez, R, González López, R, López Sánchez, J, Piña Garduño, A, Herrera Flores, E (2017) Land use/land cover change detection combining automatic processing and visual interpretation. European Journal of Remote Sensing 50, 626-635.
Murray, JP, Grenyer, R, Wunder, S, Raes, N, Jones, JP (2015) Spatial patterns of carbon, biodiversity, deforestation threat, and REDD+ projects in Indonesia. Conservation Biology 29, 1434-1445.
Nawir, A, Rumboko, L (2008) Sejarah dan kondisi deforestasi dan degradasi lahan. In 'Rehabilitasi hutan di Indonesia akan kemanakah arahnya setelah lebih dari tiga dasawarsa.' pp. 13-32. (CIFOR: Bogor)
Prasetyo, LB, Wijaya, CI, Setiawan, Y (2013) Spatial model approach for deforestation: case study in Java Island, Indonesia. In 'Geographic Information Systems: Concepts, Methodologies, Tools, and Applications.' pp. 1901-1912. (IGI Global:
Sampurno, RM, 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 10,
Sasaki, N, Asner, GP, Knorr, W, Durst, PB, Priyadi, HR, Putz, FE (2011) Approaches to classifying and restoring degraded tropical forests for the anticipated REDD+ climate change mitigation mechanism. Forest-Biogeosciences Forestry 4, 1.
Strassburg, B, Turner, RK, Fisher, B, Schaeffer, R, Lovett, A (2009) Reducing emissions from deforestation—The “combined incentives” mechanism and empirical simulations. Global Environmental Change 19, 265-278.
Sulistiyono, N, Jaya, INS, Prasetyo, LB, Tiryana, T (2015) Spatial model of deforestation in Sumatra Islands using typological approach. Jurnal Manajemen Hutan Tropika 21, 99-109.
Sunderlin, WD, Resosudarmo, IAP (1996) 'Rates and causes of deforestation in Indonesia: towards a resolution of the ambiguities.' (CIFOR:
Viera, AJ, Garrett, JM (2005) Understanding interobserver agreement: the kappa statistic. J Fam med 37, 360-363.
Angelsen, A, Shitindi, EFK, Aarrestad, J (1999) Why do farmers expand their land into forests? Theories and evidence from Tanzania. Environment Development Economics 4, 313-331.
Brown, DW (1994) 'The causes of tropical deforestation: the economic and statistical analysis of factors giving rise to the loss of the tropical forests.' (UBC press:
Chomitz, KM, Griffiths, CJRPoS, Environmental Consequences of Growth-Oriented Policies, WP (1996) Deforestation, shifting cultivation, and tree crops in Indonesia: nationwide patterns of smallholder agriculture at the forest frontier. 4,
Ghimire, KB, Barraclough, SL (2013) 'Agricultural expansion and tropical deforestation: poverty, international trade and land use.' (Routledge:
Jaya, INS (2010) 'Analisis Citra Digital: Perspektif Penginderaan Jarak Jauh untuk Pengelolaan Sumberdaya Alam.' (IPB Press: Bogor)
Myers, N, Mittermeier, RA, Mittermeier, CG, Da Fonseca, GA, Kent, J (2000) Biodiversity hotspots for conservation priorities. Nature 403, 853-858.
Putz, FE, Blate, GM, Redford, KH, Fimbel, R, Robinson, J (2001) Tropical forest management and conservation of biodiversity: an overview. Conservation Biology 15, 7-20.
Van Kooten, GC (2020) 'The economics of nature.' (Blackwells:
Amor, D, Pfaff, A (2008) Early history of the impact of road investments on deforestation in the Mayan forest. In 'Working Paper, Nicholas School of the Environment and Sanford School of Public Policy.' (Duke University Durham, NC, USA:
Angelsen, A, Shitindi, EFK, Aarrestad, J (1999) Why do farmers expand their land into forests? Theories and evidence from Tanzania. Environment Development Economics 4, 313-331.
Brown, DW (1994) 'The causes of tropical deforestation: the economic and statistical analysis of factors giving rise to the loss of the tropical forests.' (UBC press:
Chomitz, KM, Griffiths, CJRPoS, Environmental Consequences of Growth-Oriented Policies, WP (1996) Deforestation, shifting cultivation, and tree crops in Indonesia: nationwide patterns of smallholder agriculture at the forest frontier. 4,
Ghimire, KB, Barraclough, SL (2013) 'Agricultural expansion and tropical deforestation: poverty, international trade and land use.' (Routledge:
Jaya, INS (2010) 'Analisis Citra Digital: Perspektif Penginderaan Jarak Jauh untuk Pengelolaan Sumberdaya Alam.' (IPB Press: Bogor)
Myers, N, Mittermeier, RA, Mittermeier, CG, Da Fonseca, GA, Kent, J (2000) Biodiversity hotspots for conservation priorities. Nature 403, 853-858.
Putz, FE, Blate, GM, Redford, KH, Fimbel, R, Robinson, J (2001) Tropical forest management and conservation of biodiversity: an overview. Conservation Biology 15, 7-20.
Van Kooten, GC (2020) 'The economics of nature.' (Blackwells:
Handayani, MN, Sasmito, B, Wijaya, AP (2017) Analisis hubungan antara perubahan suhu dengan indeks kawasan terbangun menggunakan citra Landsat (studi kasus: kota Surakarta). Jurnal Geodesi Undip 6, 208-2018.
Jaya, INS (2010) 'Analisis Citra Digital: Perspektif Penginderaan Jarak Jauh untuk Pengelolaan Sumberdaya Alam.' (IPB Press: Bogor).
Kumar, R, Nandy, S, Agarwal, R, Kushwaha, S (2014) Forest cover dynamics analysis and prediction modeling using logistic regression model. Ecological indicators 45, 444-455.
Liu, Q, Huang, C, Shi, Z, Zhang, S (2020) Probabilistic River Water Mapping from Landsat-8 Using the Support Vector Machine Method. Remote Sensing 12, 1374.
Mas, JF, Lemoine Rodríguez, R, González López, R, López Sánchez, J, Piña Garduño, A, Herrera Flores, E (2017) Land use/land cover change detection combining automatic processing and visual interpretation. European Journal of Remote Sensing 50, 626-635.
Murray, JP, Grenyer, R, Wunder, S, Raes, N, Jones, JP (2015) Spatial patterns of carbon, biodiversity, deforestation threat, and REDD+ projects in Indonesia. Conservation Biology 29, 1434-1445.
Nawir, A, Rumboko, L (2008) Sejarah dan kondisi deforestasi dan degradasi lahan. In 'Rehabilitasi hutan di Indonesia akan kemanakah arahnya setelah lebih dari tiga dasawarsa.' pp. 13-32. (CIFOR: Bogor)
Prasetyo, LB, Wijaya, CI, Setiawan, Y (2013) Spatial model approach for deforestation: case study in Java Island, Indonesia. In 'Geographic Information Systems: Concepts, Methodologies, Tools, and Applications.' pp. 1901-1912. (IGI Global:
Sampurno, RM, 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 10,
Sasaki, N, Asner, GP, Knorr, W, Durst, PB, Priyadi, HR, Putz, FE (2011) Approaches to classifying and restoring degraded tropical forests for the anticipated REDD+ climate change mitigation mechanism. Forest-Biogeosciences Forestry 4, 1.
Strassburg, B, Turner, RK, Fisher, B, Schaeffer, R, Lovett, A (2009) Reducing emissions from deforestation—The “combined incentives” mechanism and empirical simulations. Global Environmental Change 19, 265-278.
Sulistiyono, N, Jaya, INS, Prasetyo, LB, Tiryana, T (2015) Spatial model of deforestation in Sumatra Islands using typological approach. Jurnal Manajemen Hutan Tropika 21, 99-109.
Sunderlin, WD, Resosudarmo, IAP (1996) 'Rates and causes of deforestation in Indonesia: towards a resolution of the ambiguities.' (CIFOR:
Viera, AJ, Garrett, JM (2005) Understanding interobserver agreement: the kappa statistic. J Fam med 37, 360-363.
Malik, A., Santi, N. A., Misra, M., & Hamka, H. (2023). SPATIAL-TEMPORAL ANALYSIS OF FOREST DEFORESTATION IN LORE-LINDU NATIONAL PARK. AGROLAND The Agricultural Sciences Journal (e-Journal), 10(1), 58 - 69. https://doi.org/10.22487/agroland.v10i1.1750
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