Indonesia’s Forest Resource Monitoring

https://doi.org/10.22146/ijg.12496

Belinda Arunarwati Margono(1*), Ahmad Basyirudin Usman(2), Budiharto .(3), Ruandha Agung Sugardiman(4)

(1) Ministry of Environment and Forestry, Manggala Wanabhakti Bld, Jakarta 10270 Indonesia
(2) Ministry of Environment and Forestry, Manggala Wanabhakti Bld, Jakarta 10270 Indonesia
(3) Ministry of Environment and Forestry, Manggala Wanabhakti Bld, Jakarta 10270 Indonesia
(4) Ministry of Environment and Forestry, Manggala Wanabhakti Bld, Jakarta 10270 Indonesia
(*) Corresponding Author

Abstract


Forest cover in term of distribution, extent and types, is major information required to manage the forest resources. Notably for Indonesia, which covers by approximately 98 Mha (>50%) forests, consist of 93 Mha (49.6%) natural forest and 5 Mha (2.6%) plantations forest. The forests are invaluable, including significantly preserve carbon, maintain unique biodiversity, support water and mineral cycle, as well as support local and global community. Here we report efforts have been made for years in the Ministry of Forestry for providing land cover information. Those efforts are including early development, data sources selection, method employed, techniques, and classification scheme, as well as problem encountered and approach for improvements.

Keywords


Land cover;Forest;Forest monitoring;Remote sensing;Indonesia

Full Text:

PDF


References

Achard F, Eva HD, Stibig HJ, Mayaux P, Gallego J, Achard F, Eva HD, Stibig HJ, Mayaux P, Gallego J, Richards T & Malingreau JP. (2002). Determination of Deforestation rates of the world’s humid tropical forests. Science. 297(5583), 999-1002.

Broich M, Hansen MC, Stolle F, Potapov P, Arunarwati MB & Adusei B. (2011). Remotely Sensed Forest Cover Loss shows High Spatial and Temporal Variation across Sumatera and Kalimantan. Indonesia 2000-2008. Environmental Research letters, 6, 014010.

DeFries R, Achard F, Brown S, Herold M, Murdiyarso D, Schlamadinger B & Souza C. (2007). Earth observations for estimating greenhouse gas emissions from deforestation in developing countries. Environmental Science and Policy. 10, 385-394.

Hansen MC, DeFries RS, Townshend JRG, Carrol M, Dimicelli C & Sohlberg RA. (2003). Global percent tree cover at a spatial resolution of 500 meters: first results of the MODIS vegetation continuous fields algorithm. Earth Interaction. 7(10),15.

Hansen MC & DeFries RS. (2004). Detecting long-term global forest change using continuous field of tree-cover maps from 8-km Advanced Very High Resolution Radiometer (AVHRR) data for the years 1982-99. Ecosystem.7: 695-716.

Hansen et al (2006). Trial of using MODIS data for quantifying Indonesia’s forests. Un-published report. The Ministry of Forestry and South Dakota State University.

Hansen MC, Roy DP, Lindquist E, Adusei B, Justice CO & Alstatt A. (2008a). Method for Integrating MODIS and Landsat Data for Systematic Monitoring of Forest Cover and Change in the Congo Basin. Remote Sens. Environ. 112, 2495–513.

Hansen MC. et al. (2008b). Humid Tropical Forest Clearing from 2000 to 2005 Quantified by Using Multitemporal and Multiresolution Remotely Sensed Data. Proc. Natl Acad. Sci., 105, 9439–44.

Hansen MC, Stehman SV, Potapov PV, Pittman KW, Margono Arunarwati B & Stolle F. (2009). Quantifying Changes in The Rates of Forest Clearing in Indonesia from 1990 to 2005 Using Remotely Sensed Data sets. Environ. Res. Lett. 4, 034001.

Hansen MC & Loveland TR. (2012). A review of large area monitoring of land cover change using Landsat data. Remote Sensing of Environment, 122, 66-74.

Hoekman DH. (1997). Radar monitoring system for sustainable forest management in Indonesia. Geoscience and remote sensing. 4 (augst), 1731-1733.

Holmes D. (2000a). Deforestation in Indonesia: A review of the situation in Sumatra. Kalimantan and Sulawesi. Jakarta: The World Bank).

Holmes D. (2000b). Where have all the forest gone? Environment and social development east Asia and Pacific region. Discussion paper. Jakarta: The World Bank).

Margono BA et al. (2012). Mapping and monitoring deforestation and forest degradation in Sumatra (Indonesia)using Landsat time series data sets from 1990 to 2010. Environ. Res Letters. 7(034010 )16.

Margono BA, Potapov PV, Turubanova SA, Stolle F, & Hansen MC. (2014a). Primary forest cover loss in Indonesia over 2000–2012. Nature Climate Change. 4, 730–735.

Margono BA. (2014b). Advancing Indonesia Forest Resource Monitoring using multi source remotely sensed-imagery. PhD Dissertation submitted to the University of Maryland. ProQuest.

MoF (Ministry of Forestry)-FAO. (1992). Langkah-langkah Prosedur Sampling Lapangan untuk proyek Inventarisasi Hutan Nasional (step by step of field plot procedure for National Forest Inventory). Jakarta. Indonesia.

MoF (Ministry of Forestry of Indonesia) (2003a). Rekalkulasi Sumber Daya Hutan (Forest Resource Recalculation) Indonesia Tahun 2003. Jakarta: Badan Planology Kehutanan Departemen Kehutanan Indonesia.

MoF (Ministry of Forestry of Indonesia) (2003b). Pembakuan Standar Penafsiran Citra Satelit Resolusi Sedang (Standarization for Land Cover Classification using Medium resolution Satellite Imagery). (Jakarta: Badan Planology Kehutanan Departemen Kehutanan Indonesia of the MoF- Geospatial Information Agency /BIG of Indonesia).

MoF (Ministry of Forestry of Indonesia) (2004). Pembakuan Standar Penafsiran Citra Satelit Resolusi Tinggi (Standarization for Land Cover Classification using High resolution Satellite Imagery). (Jakarta: Badan Planology Kehutanan Departemen Kehutanan Indonesia of the MoF- Geospatial Information Agency /BIG of Indonesia).

MoF (Ministry of Forestry of Indonesia) (2005). Rekalkulasi Penutupan Lahan (Land Cover Recalculation) Indonesia Tahun 2005 (Jakarta: Badan Planology Kehutanan Departemen Kehutanan Indonesia).(in indonesia)

MoF (Ministry of Forestry of Indonesia) (2008). Rekalkulasi Penutupan Lahan (Forest Resource Recalculation) Indonesia Tahun 2008. (Jakarta: Badan Planology Kehutanan Departemen Kehutanan Indonesia) (in indonesia)

MoF (Ministry of Forestry of Indonesia) (2011). Rekalkulasi Penutupan Lahan (Forest Resource Recalculation) Indonesia Tahun 2009/2010.Jakarta: Badan Planology Kehutanan Departemen Kehutanan Indonesia.(in indonesia)

MoF (Ministry of Forestry of Indonesia) (2012). Rekalkulasi Penutupan Lahan (Forest Resource Recalculation) Indonesia Tahun 2011. Jakarta: Badan Planology Kehutanan Departemen Kehutanan Indonesia.

Nugroho (2005). Integration of Multi Remotely Sensed Data and Geodatabases for Forestry Management in Indonesia. Dissertation. Wageningen University, the Netherland. Tropenbos Kalimantan series 11.

Roy DP, Ju J, Mbow C, Frost P, & Loveland T. (2010). Accessing free Landsat data via the internet: Africa’s challenge. Remote Sensing Letters. 1(2). 111-117.

Revilla JAV and Liang DH. (1989). The National Forest Inventory (NFI) of Indonesia. Food and Agriculture Organization of the U. N. (Italy) FAO.

Revilla JAV & Liang DH. (1992). Supplementary Field Sampling Instructions (no. 2) for the NFI [National Forest Inventory] Project. Food and Agriculture Organization of the U. N. (Italy) FAO.

Skole D & Tucker C. (1993). Tropical deforestation and habitat fragmentation in the Amazon: satellite data from 1978 to 1988. Science New Series. 260 (5116), 1905-1910.

SNI (Standar Nasional Indonesia - National Standard of Indonesia) SNI 7645:2010.(2010). Klasifikasi penutupan lahan (Land cover classification). Badan Standardisasi Nasional BSN. Jakarta Indonesia.

Wulder MA, Masek JG, Cohen WB, Loveland TR, & Woodcock CE. (2012). Opening the archive: how free data has enabled the science and monitoring promise of Landsat. Remote Sensing of Environment.122(july), 2-10.

Revilla JAV & Liang DH. (1989). The National Forest Inventory (NFI) of Indonesia. Food and Agriculture Organization of the U. N. (Italy) FAO.

Revilla JAV & Liang DH. (1992). Supplementary Field Sampling Instructions (no. 2) for the NFI [National Forest Inventory] Project. Food and Agriculture Organization of the U. N. (Italy) FAO.

Skole D & Tucker C. (1993). Tropical deforestation and habitat fragmentation in the Amazon: satellite data from 1978 to 1988. Science New Series. 260 (5116), 1905-1910.

SNI (Standar Nasional Indonesia - National Standard of Indonesia) SNI 7645:2010. (2010). Klasifikasi penutupan lahan (Land cover classification). Badan Standardisasi Nasional BSN. Jakarta Indonesia.

Wulder MA, Masek JG, Cohen WB, Loveland TR, & Woodcock CE. (2012). Opening the archive: how free data has enabled the science and monitoring promise of Landsat. Remote Sensing of Environment. 122 (july), 2-10.



DOI: https://doi.org/10.22146/ijg.12496

Article Metrics

Abstract views : 7093 | views : 7569

Refbacks

  • There are currently no refbacks.


Bookmark and Share


Copyright (c) 2016 Indonesian Journal of Geography

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