Badan Restorasi Gambut

Page 1

Peatland Restoration Agency, Republic of Indonesia

Restoring Peatland, Restoring Humanity


1.

A

Profile of the BRG

photos: ŠBadan Restorasi Gambut

s a response to the land and forest fires in peatland ecosystem in Indonesia and to meet Indonesia’s commitment to reducing carbon emissions by 29% in 2030, The Government of the Republic of Indonesia instituted Peatland Restoration Agency (Badan Restorasi Gambut, BRG) on January 6th, 2016 through Presidential Regulation Number 1 Year 2016. The BRG is established to accelerate the restoration of peat hydrological function impacted by forest and land fire, in a systematic, integrated and holistic approach. The BRG primary tasks are coordinating and facilitating the restoration of degraded peatland in seven provinces, namely Riau, Jambi, South Sumatra, West Kalimantan, Central Kalimantan, South Kalimantan and Papua, reducing the susceptibility of peatland to fires, and improving the livelihoods of rural communities dependent on peatland environments. Preventing fires and haze will significantly reduce greenhouse gas emissions, protect public health, and promote more resilient, sustainable and socially inclusive economic pathways.

Badan Restorasi Gambut (BRG)

To accomplish the mandated tasks, BRG undertakes the following functions: 1. Strengthening coordination, policy formulation and its implementation for peatland restoration; 2. Planning, controlling and strengthening cooperation in peatland restoration actions; 3. Mapping of peatland hydrological units for their current state, physical structure, and ecosystem integrity at selected provinces; 4. Designating peatlands zone for protection and cultivation; 5. Provide direction, supervision, and construction of peatland rewetting infrastructure and the necessary supporting activities; 6. Reviewing licenses on burnt peatlands; 7. Strengthening communication, socialization and education on peatland restoration; 8. Supervising the operation and maintenance of rewetting and water management of infrastructure in the concession; 9. Conducting other tasks mandated by the President. www.brg.go.id


Within five years period (2016 – 2020) BRG is aiming for restoring 2,4M hectares peatland in seven priority provinces. The BRG has enshrined an Indicative Map of Peatland Restoration with a total coverage area of 2.492,523 hectares. It consists of 684,637 hectares of protected area and 1,410,943 hectares of cultivated area. The remaining 396,943 hectares is unlicensed cultivated area.

UNLICENSED CULTIVATED AREA

PROTECTED AREA

BRG has also identified 6.2 million hectares of undamaged peat dome that should be protected. The BRG is not only commited to restore 2,4M. It is aim to restore as well as protect the whole 12,9M hectares in the sever priority provinces. protected area

The recent cultivated area work of the BRG is concentrated in District of

Pulang Pisau in Central Kalimantan Province, District of Musi Banyuasin and Ogan Komering in South Sumatera Province, and District of Kepulauan Meranti in Riau Province.

unlicensed cultivated area CULTIVATED AREA

In general The BRG applies 3R in order to restoring degraded peatland: R1 – Rewetting, R2 – Revegetation, R3 – Revitalization of livelihood.

Cultivated area at District of Kepulauan Meranti in Riau Province. Photo: ©Badan Restorasi Gambut.

page 2 / 1. Profile of BRG

Peatland Restoration Agency, Republic of Indonesia


Tropical Peatland and Climate Change

2.

Peatlands

P

carbon storage and sink

eatland is representative of global significant stores of soil C that have been accumulating for millennia. Peat has anaerobic properties with very high acidity level. This causes the decomposition of organic materials occurs very slowly on peatlands. The accumulation of organic material makes peatlands became a major store of soil carbon, sink for carbon dioxide and source of atmospheric methane. Page, Rieley and Banks (2011) estimate the area of peatland in Indonesia around 20.7 million hectares with carbon stock of 57,4 Giga tones. The peat C store in some place is being reduced because of fire. Major increases in the area of peatland burned have been documented in recent decades and this may continue in the future if peatlands dry out as a result. In 2015, approximately 875 million hectares peatland in Indonesia were burned.

photos: ŠBadan Restorasi Gambut

Peatland and climate change When peatlands are drained, burned and transformed, carbon will be released to the atmosphere as carbon dioxide (CO2) which causes global climate change. Indeed, not just CO2 that contributes to the greenhouse effect. The ability of CO2 in trapping solar heat 20 times lower than other GHG, but the lifetime of CO2 in the atmosphere is the longest compared to other GHG which can reach 10,000 years. Badan Restorasi Gambut (BRG)

www.brg.go.id


Peatland Fire and Haze From the massive fire and haze along the third quarter of 2015, Indonesia have been one of the world’s top emitter. It released carbon emission at a rate of 15-20 million tons per day whose number is higher than the daily carbon emission released by the USA of 14 million tons of carbon from their super industrialized economic activity. This number has not even included the emissions from peat oxidation. According to the Global Fire Data.org, forest and peatland fire of 2015 had caused carbon emissions withthe total amount of1.75 billion metric tons of CO2. Meanwhile, according to the data by WRI, most of the fires in 2015 occurred on peatlands. Besides emits CO2, all types of fire also emits Methane, a type of greenhouse gasses that is 21 times more harmful than CO2. Worse still, peat fire releasesten times as many methane as other sources of fire release.

Indonesian Government’s commitment to Emission Reduction To the UNFCCC, Indonesia is committed to reducing GHG emission by 29% of GHG emissions BAU scenario, wherein 2030 GHG emissions projected at around 2,881 GtCO2e. The World Bank’s has stated that Indonesia is capable to meet the target of reducing greenhouse gas emissions by 29% in 2030, just by stopping the annual peatland and forest fires.

page 2 / 2. Tropical Peatland and Climate Change

Peatland Restoration Agency, Republic of Indonesia


Peatland Restoration Intervention

3.

Strategy and Achievements

P

eatlands have the ability to provide many essential ecosystem services like support water regulation, biodiversity conservation, and carbon sequestration and storage. Peatlands also contribute to food security and poverty reduction. To safeguard these services and mitigate climate change, peatlands should be restored and protected from further. Conserving, restoring, and improving the management of peatlands can substantially contribute to reducing atmospheric greenhouse gas (GHG) concentrations. Currently, peatland in Indonesia are being deforested, drained, and burned to make way for palm oil and timber plantations, agriculture, and logging activities. Unlike the emissions associated with forest clearance, which is largely instantaneous, emissions from drained peatlands continue for as long as the peatland remains drained and the peat keeps oxidizing. This can continue for decades and even centuries. The Government of Indonesia has already begin to curb CO2 emission from peat, one of them with established Peatland Restoration Agency (Badan Restorasi Gambut, BRG) to plan and implement the peatland restoration. The BRG has established an approach to restore peatlands in Indonesia to proper conditions. The approach called 3R: Rewetting, Re-vegetation and Revitalization of livelihood.

1. Rewetting Rewetting aims to keep the moisture content of the peat so it is not flammable also would foster the growth of vegetation. Rewetting consist of some activities, namely: • Canal blocking, intended to maintain the water level and water loss prevention. Keep the peatland wet, especially in dry season. • Canal backfilling, similar to the canal blocking aim of the canal backfilling is curb water out of the peat. This activity is made possible in small-scale canals, due to the efficiency of the fund. • Deep wells, is a preventive action as a source of water when the dry season comes.

2. Re-vegetation Re-vegetation should be done after the hydrology system in peatland addressed. Re-vegetation could be done with this following activity: • Seedlings nursery • Seedling transplantation • Natural regeneration

3. Revitalization of livelihood

Photos: ©Badan Restorasi Gambut.

Badan Restorasi Gambut (BRG)

Some local livelihoods depend on peatland, communities are currently cultivating drained peatland with poor water management and also low productivity. BRG has identified some kind of livelihoods that could increase economic level of communities without destroy peatland, such as: • Paludiculture (sagu, palm, gelam, jelutung, talasrawa, etc) • Fishery • Eco-tourism

www.brg.go.id


Achieving Restoration Target will includes general activity conducted by each deputies, namely:

• Research and development management of peatland hydrology • Development of high conservation value forests on peat to support climate change control • Consultation and coordination • Calculation of carbon and MRV in the area of restoration • Monitoring and evaluation

Planning & Coorperation

Research & Development

• Coordination of socialization and education regionally with TRGD • Implementation of Socialization and Education • Enhance participation and support from the community • Consultation and coordination • Monitoring and evaluation

• Develop a master plan of peatland restoration • Regional planning, mapping and zoning of peat • Technical cooperation and funding • Cooperation, Consultation and Coordination with TRGD • Monev planning and cooperation

Construction, Operation & Maintenance

Education, Socialization, Participation & Partnership

• Technical guidelines for water management • Technical guidelines for ecosystem restoration • Construction of infrastructure for rewetting peat • Provide technical guidance for the conservation of peat in protection zone • Monitoring and evaluation

Meanwhile, some progress have been made towards the goal. Some initiatives that have been undertaken for peatland restoration are as following: 1. Issuance of Indicative Map of Peatland Restoration 2. Issuance of Peatland Restoration Guidance Policy 3. Issuance of Guidelines concerning: a. Re-vegetation b. Real Time Water Logger Monitoring c. Deep Well and Canal Blocking Instruction 4. The Pledges of private sectors to protect 450 K hectares of intact peat domes and hydrological restoration of 360 K of degraded peatland. 5. Social intervention in 104 villages (60 villages of Pulang Pisau District, 28 villages of Musi Banyu Asin District and 14 villages of Ogan Komering Ilir District) with intangible social impact within 806 K hectares of peatlands. 6. Redressing community grievance of Pulau Padang, KepulauanMeranti District, Riau Province by conducting conflict resolution. 7. Memorandum of Understanding between BRG and 11 state universities in Indonesia for further deepening the research and development to support the peatland restoration effort.

page 2 / 3. Peatland Restoration Intervention

Peatland Restoration Agency, Republic of Indonesia


Roadmap of BRG

4.

I

ndonesia has the fourth largest peatland in the world. As a result of undeveloped science and lacking climate impact awareness in previous administration, Indonesia had converted a large amount of peatland.

Yearly Target of Peatland Restoration up to 2020 90%

70% 30%

100%

50%

However, the current policy has stated otherwise. The Government of Indonesia has now prioritized peatland ecosystem to tackle the negative impacts of climate change through protecting the remaining intact peatland, restoring the degraded peatland, and promoting sustainable peatland management and policy reformation for protection and sustainable cultivation. The government of Indonesia has also established Peatland Restoration Agency (Badan Restorasi Gambut, BRG) to support this policy. BRG main task is to coordinate and facilitate the restoration of peatlands in seven provinces of Riau, Jambi, South Sumatra, West Kalimantan, Central Kalimantan, South Kalimantan and Papua. The priority areas is designated through Head of Agency Decree No. 5 Year 2016 on Peatland Restoration Indicative Map. : By Government (hectares)

2016

2017

2018

2019

2020

: By Private Sector (hectares)

Government

Private Sector

Non governmental organization

1,000,000 hectares

1,400,000 hectares

Support goverment & corporation

• Conservation Area, by the Central Government of Indonesia (The Ministry of Environment and Forestry & The Ministry of Public Works and Housing) • Protected Forest, by Provincial Government • Cultivation area, by by community and district government • Provincial and disctrict government is supported by the BRG

• Burning peat 2015: Rewetting, through the construction of the canal blocking • Deep Peatland: Changes into various protection functions, Re-wetting, Re-vegetation with endemic and /or adaptive plants

• • • • •

Restoration planning Inventory and mapping Construction of infrastructure restoration Conflict resolution Community development in the peat area • Policy advocacy

Four Classifications of Peatland Restoration Priority Area 1. Peat burnt in 2015 (875,701 hectares). Including the licensed or unlicensed areas of peatland, with or without domedand/or canal, cultivated or protected areas. 2. Peat dome with canals (2,791,070 hectares). Protection zone in peat dome area where canal has been constructed. This area had previously been affected by fire but survived the 2015 peat fire. 3. Intact peat dome (6,174,492 hectares). Protection zone is the area within the peat dome where clearing or construction of canal is not yet determined, in either licensed or unlicensed areas.. This area consists of designated peat areas for regional moratorium (PIPPIB Rev X) and peat licensed area that is still intact. 4. Non-dome peat with canals (3,091,226 hectares). Peat non-dome with canals (cultivation zone) is considered as non-peat dome. This area has been converted tocultivated area, which is indicated by the construction of canals, but area survived any peat fire. The hydrological management of this areaneeds to be monitored closely to prevent them from any cause of fire.

Badan Restorasi Gambut (BRG)

BRG has set 2,492,523 hectares for peatland restoration 1. Protected area: 684,637 hectares 2. Licensed cultivated area: 1,410,943 hectares 3. Unlicensed cultivated area: 396,943 hectares

www.brg.go.id


2016

2017

2018

2019

2020

Government Roles

Mapping and inventarizing

28 districts

20 districts

9 districts

(Re) Zonation

28 districts

20 districts

9 districts

Peatland protection and restoration planning

28 districts

20 districts

9 districts

rewetting 2.163 km

rewetting 3.244 km

rewetting 3.244 km

rewetting 2.163 km

Re-vegetation

10.000 ha

106.000 ha

106.000 ha

106.000 ha

Village empowerment for peatland restoration

75 villages

75 villages

75 villages

75 villages

50 locus

50 locus

30 locus

22 locus

2 company groups conduct mapping verification on 485K ha and 890K ha

Spatial data verification for 1.4 M ha restoration target within concession, factual verification 882,189 ha

Factual verification of 306,175 ha

1 million ha are accommodated within the MoU

400K ha are accommodated within the MoU

2 company groups

40 companies

Rewetting and canal management of 6,000 km

Rewetting and canal management of 2,822 km

Maintenance of rewetting and water management infrastructure

Maintenance of rewetting and water management infrastructure

Hyrdrological restoration

Research and development Policy making

Restoration Guidance, Administrative Management Guidance, Social Safeguards Guidance, etc.

Private Sector Roles

License holder responsible for peatland restoration listing

Verification of restoration area

MoU of peatland restoration Restoration guidance consultation Peatland restoration implementation

90 companies are listed as peatland restoration compulsory license holders

Rewetting and canal management of 3,061 km

Non Governmental Organization Roles • EU-ASEAN • GEF-IFAD

Commitment to support peatland restoration

• USAID Lestari: 440,000 ha in Central Kalimantan Province • MCA-I: 90,000 ha in Jambi Province • UKCCU-Norway-ZSL- South Sumatera Province: 445,000 ha in South Sumatera Province • JICA : Reseacrh

• Norway • German • UK • Canada • Japan • Korea • AusAID

MoU and realization process of MoU Establishment of grant funding for peatland restoration Mapping and inventarizing (Re) Zonation Hydrological restoration

• JICA • ICCTF • WRI • KFS • MCA-I • Norway

Commitment pledge and MoU establishment

Project structures are set up and operate

Implementation of Activities

Implementation of Activities

Finalization of Concept

Socialisation and formulation of policy and institutional set up

Fundraising

Raising and allocating fund

Raising and allocating fund

606,000 ha in 4 peatland hydrological units

820,000 ha in 80 peatland hydrological units

118 peatland hydrological unit

Restoration Planning

80 peatland hydrological units

118 peatland hydrological units

50 villages

50 villages

• GIZ

9 peatland hydrological units 400 deep well construction

Re-vegetation

30 canal blocking infrastructures

Revitalization of livelihood

Wet peat friendly economy alternative development, support, and internalization

Village empowerment to support peatland restoration Research and development Capacity building page 2 / 4. Roadmap of BRG

Social intervention in 104 villages, 806,312 ha

50 villages

50 villages

48 locus Deep well and canal blocking trainings to at least 110 member of peatland local communities

Peatland Restoration Agency, Republic of Indonesia


Investment Model

5.

Sustainable Investment for Peatlands Restoration The BRG supports peatland management in three general forms

Protect Intact Peatlands by reducing emissions from deforestation/ forest degradation, fostering conservation, managing forest sustainably or enhancing carbon stock

Types of Existing condition of Peatland

Support ecosystem restoration concessions to ensure the ecological integrity of a landscape throuh restoration and protection

Intact

Activities in need of Protection, there are many public-private approaches to protect peat, including reducing emissions from investment deforestation/forest degradation, fostering conservation, managing forest sustainably, or enhancing forest carbon stock (REDD+)

Public-private • Grant to NGO partners (help monitor and increase the investment potential

ecological integrity of key areas) • Government agencies could use private co-funding to redesign spatial plans, build management capacity and create monitoring and enforcement systems for the peat moratorium • Private funder can investing in Ecosystem Restoration Concessions (ERCs)

Degraded

Cultivated

Restoration, there are additional funding needs where peat has been burned, drained or degraded. These including blocking canals, rewetting land, re-vegetation, enforcing the area’s boundary and monitoring result

Production, Transitioning to a more sustainable approach to production requires investment. Communities are currently cultivating drained peatland with poor management system and low productivity

• Funding might help some farmer shift to crop that naturally grow on flooded peatlands.

• Funding might help some farmer shift to crop that naturally grow on flooded peatlands. • Supporting agriculture on nearby mineral soil or financing a wide range of development project outside the agricultural sector.

Areas and mitigation conserving 4 million hectares peat- restoring 692 thousand ha potential dome and strict water management protected areas and postof 749 thousand hectares of production areas on peatland with mitigation potential of 313.3 – 549 MtCO2e/year

Badan Restorasi Gambut (BRG)

Coordination with local communities to develop alternative livelihoods through integrated farming system which includes, inter alia, capacity building, developing market infrastructure access from local communities

burnt production areas and converting 1.1 million hectares peat-dome in production areas into conservation zone with mitigation potential of 249.6 MtCO2e/year

restoring post-burnt areas and cultivation areas under management of community and private entities or open access of 3.9 million hectares with mitigation potential of 223.7 MtCO2e/year

www.brg.go.id


Financial Structure The appropriate financial structure will help deploy capital to support these activities. These are signs that some of these structures are beginning to emerge, others still need to be created:

3. Commercial investment •

1. Grant funding: • • •

Include both private philanthropic contributions and government contributions; Help strengthen capacity and cover-up front costs for risky but valuable projects; Currently being used to build a pipeline of investable projects to ranging from business planning for ERCs to organizing smallholder farmers into credit-worthy agricultural cooperatives.

2. Concessionary investment and impact investment: •

Lower interest rates are valuable where disproportionate social returns are available but financial return do not meet market expectations; Foundation program-related investment could find impactful deals in Indonesia, both directly on peat conservation and on related development project; Blended model like the Sustainable Land Bond, where impact-oriented funders catalyze market-rate loan by buying down cost for Indonesian borrowers.

Commercial loans can cover stable and proven investments at scale, especially in contexts where a guarantor is available. A current example of how market rate loans are being implemented in this field is the Tropical Landscape Bond, a $1 billion effort by UNEP, ADM Capital, and BNP Paribas to long-term capital for low carbon growth at market rates; A parallel technical assistance fund will make grants to help source projects (which could potentially include economic development in some of BRG’s priority areas).

4. Bilateral pay-for-performance agreements: • •

Existing agreements between governments offer funding for activities that result in demonstrated emissions reductions; These payments could help catalyze and fund some eligible peat projects, serving as a helpful “bridge” to a future where larger revenue sources like carbon markets are available; The Norway-Indonesia $1 billion commitment is the most prominent example of a pay-for-performance agreement.

5. Carbon market •

Currently, demand for carbon offsets comes from relatively small-scale voluntary carbon markets (e.g., from companies who have pledged to reach 100% renewable power under RE100); Over a much longer timeframe, new policies could create large compliance markets for offsets (e.g., through the International Civil Aviation Organization). This would transform the market by giving peat projects reliable revenue streams that do not require repayment.

By the end of 2020, together with the contribution of all stakeholders, the BRG would potentially reduce 123 million tones of CO2 equivalent. The future peatland investment shall contribute to the protection of environment and human rights as well to empower local people. Investment, which the BRG support, will have to fully consider their impact on social and environmental justice. The achievement of the Paris Agreement and the Suistainable Development Goals is central in this regard. photo: ©Badan Restorasi Gambut

page 2 / 5. Investment Model

Peatland Restoration Agency, Republic of Indonesia


Priority Regions

6.

I

ndicative Mapping of Peatland Restoration in seven provinces in Indonesia which are:

Riau, Jambi, South Sumatra, West Kalimantan, Central Kalimantan, South Kalimantan and Papua. 0

SUMATRA

250

5007

0

50

250

750

km mil

Basemap Source: Map No. 4110 Rev.4 UN, January 2004 Infographic: Arief Darmawan

KALIMANTAN

PAPUA Jakarta

101°0'0"E

102°0'0"E

103°0'0"E

104°0'0"E

PETA INDIKATIF PRIORITAS RESTORASI PROVINSI RIAU

Riau Province

KAB. BENGKALIS

KOTA DUMAI

U

h

Legend 2°0'0"N

2°0'0"N

MALAYSIA

0 5 10 20 30 40

Km Post-Fire 2015 Restoration Priority 5°0'N

KAB. ROKAN HILIR

110°0'E

115°0'E

Peat Dome with Canal Restoration Priority (Protection Zone) 0°0'

0°0'

P. Bengkalis

105°0'E

5°0'N

DIAGRAM LOKASI

100°0'E

P. Tebing Tinggi

KAB. SIAK

Peat Dome without Canal Restoration Priority (Protection Zone)

100°0'E

LEGENDA

P. Rangsang

KAB. ROKAN HULU

Lokasi Yang Dipetakan

Kabupaten/Kota Kab. Bengkalis

110°0'E

115°0'E

Kelas Prioritas Restorasi (Ha)

1

2

3

Luas (Ha)

4

37,141

160,053

194,851

169,973

562,017

6,364

486,588

74,006

335,739

902,697

Kab. Indragiri Hulu

4,523

52,146

110,363

39,417

206,449

Kab. Kampar

4,909

43,011

7,016

50,867

105,803

3,865

75,684

126,707

126,209

332,465

12,679

223,047

172,452

272,975

681,152

18,938

131,786

100,111

180,969

33

38,092

1,097

13,614

52,836

5,114

127,220

92,457

179,101

403,891

9,949

59,415

63,319

45,816

178,499

784

-

-

3,004

3,789

Kab. Pelalaw an Kab. Rokan Hilir Kab. Rokan Hulu

P. Mendol

105°0'E

Kab. Indragiri Hilir

Kab. Kepulauan Meranti

KOTA PEKANBARU

5°0'S

KAB. KEPULAUAN MERANTI 1°0'0"N

1°0'0"N

P. Pedang

5°0'S

SINGAPURA KAB. BENGKALIS

Kab. Siak Kota Dumai Kota Pekanbaru Riau

Non-Domed Peat with Canal Restoration Priority (Cultivation Zone) 104,299 1,397,042

431,803

942,378 1,417,682 3,861,401

Keterangan :

KAB. KAMPAR

1

Prioritas Restorasi Pasca Kebakaran 2015

2

Prioritas Restorasi Kubah Gambut berkanal (zona lindung)

3

Prioritas Restorasi Kubah Gambut tidak berkanal (zona lindung)

4

Prioritas Restorasi Gambut berkanal (zona budidaya)

0°0'0"

0°0'0"

PELALAWAN

Proyeksi Sistem Grid Datum Horizontal

KAB. INDRAGIRI HILIR

: ............... Mercartor : ............... Grid Geografi : ............... WGS84

Sumber Data : 1. Batas Wilayah Administrasi Kabupaten/Kota Indikatif, PPBW Badan Informasi Geospasial, 2015 2. Gambut Skala 1:250.000, Balai Besar Litbang Sumberdaya Lahan Pertanian Kementerian Pertanian, 2013 3. Kebakaran Hutan dan Lahan 2015, Kementerian Lingkungan Hidup dan Kehutanan, 2015 4. Penutup Lahan 2015, Kementerian Lingkungan Hidup dan Kehutanan, 2015

SUMATERA BARAT

101°0'0"E

Badan Restorasi Gambut (BRG)

KAB. INDRAGIRI HULU

102°0'0"E

Tanggal : Disahkan oleh :

103°0'0"E

JAMBI

104°0'0"E

September 2016 edition EDISI SEPTEMBER 2016

Nazir Foead Kepala Badan Restorasi Gambut

www.brg.go.id


103°0'0"E

Jambi Province

104°0'0"E

RIAU KAB. INDRAGIRI HILIR

KAB. TANJUNG JABUNG BARAT

5°0'N

Post-Fire 2015 Restoration Priority

1°0'0"S

1°0'0"S

Legend

KAB. INDRAGIRI HULU

Peat Dome with Canal Restoration Priority (Protection Zone)

0°0'

5°0'S

KAB. TANJUNG JABUNG TIMUR

Peat Dome without Canal Restoration Priority (Protection Zone)

KAB. TEBO

LEGE

K

Kab. Mer

KAB. MUARO JAMBI

KOTA JAMBI

Kab. Mua

Kab. Saro

Kab. Tan

Non-Domed Peat with Canal Restoration Priority (Cultivation Zone)

Kab. Tan

Kota Jam

Keteranga

KAB. BATANGHARI

1

P

2

P

3

P

4

P

KAB. MERANGIN

2°0'0"S

2°0'0"S

KAB. BANYUASIN

SUMATERA SELATAN

Proyeksi Sistem Gr Datum Ho

Sumber D

KAB. SAROLANGUN

1. Batas W Geospa

KAB. MUSI BANYUASIN

2. Gambu

Kemen

3. Kebaka 2015

4. Penutu

N KAB. BANYUASIN

KAB. MUSI RAWAS UTARA

103°0'0"E

103°0'0"E

South Sumatra Province

EDISI S

104°0'0"E

104°0'0"E

105°0'0"E

106°0'0"E

PRO

Projection : ....................... Mercator Grid system : .......... Grid Geography Horizontal Datum : ........................ WGS84

JAMBI

2°0'0"S

2°0'0"S

Pulau Bangka

0°0'

Data Source: 1. District administrative Border, Geospatial Information Agency, 2015 2. Scale of Peatland Area 1:250.000, Research and Development of Agricultural Land Resources Agency, Ministry of Agriculture, 2013 3. Forest and Land Fires 2015, Ministry of Environment and Forestry, 2015 4. Land Coverage 2015, Ministry of Environment and Forestry, 2015

KAB. MUSI BANYUASIN

5°0'S

BANGKA BELITUNG

KAB. BANYUASIN

LEGE

KAB. MUSI RAWAS UTARA

K

Kab. Ban

Kab. Mua

Kab. Mus

3°0'0"S

3°0'0"S

Kab. Mus

KOTA PALEMBANG

Kab. Mus

Kab. Oga

Kab. Pen

Su

Keteranga

KAB. MUSI RAWAS

KAB. PENUKAL ABAB LEMATANG ILIR

KAB. LUBUK LINGGAU

KAB.

1

P

2

P

3

P

4

P

KAB. OGAN KOMERING ILIR KOTA PRABUMULIH

KAB. OGAN ILIR

KAB. MUARA ENIM

Proyeksi Sistem Gr Datum Ho

Sumber D

KAB. EMPAT LAWANG

1. Batas W Geospa

KAB. LAHAT

KOTA PAGAR ALAM

September 2016 edition

page 2 / 6. Priority Regions

KAB. OGAN KOMERING ULU

4°0'0"S

4°0'0"S

2. Gambu

KAB. OGAN KOMERING ULU TIMUR

LAMPUNG

BENGKULU KAB. OGAN KOMERING ULU SELATAN 103°0'0"E

Kemen

3. Kebaka 2015

4. Penutu

104°0'0"E

105°0'0"E

106°0'0"E

Peatland Restoration Agency, Republic of Indonesia

EDISI S


109°0'0"E

110°0'0"E

111°0'0"E

112°0'0"E

113°0'0"E

PETA INDIKATIF West Kalimantan Province PRIORITAS RESTORASI

PROVINSI KALIMANTAN BARAT

MALAYSIA

KAB. SAMBAS

U

h

1°0'0"N

1°0'0"N

Legend KAB. BENGKAYANG KOTA SINGKAWANG

0 10 20

40

60

80

Post-Fire 2015Km Restoration Priority

KAB. KAPUAS HULU

DIAGRAM LOKASI

105°0'E

KAB. LANDAK

KAB. SINTANG

Lokasi Yang Dipetakan

105°0'E

LEGENDA

KAB. KUBU RAYA

Peat Dome without Canal Restoration Priority (Protection Zone) 110°0'E

1

Kab. Kayong Utara Kab. Ketapang

Kab. Kubu Raya

Kab. Landak

Kab. Melaw i Kab. Pontianak

1°0'0"S

1°0'0"S

KAB. KUBU RAYA

KAB. KAYONG UTARA KAB. KAYONG UTARA

Kab. Sambas Kab. Sanggau Kab. Sekadau

115°0'E

120°0'E

Kelas Prioritas Restorasi (Ha)

Kabupaten/Kota Kab. Bengkayang Kab. Kapuas Hulu

KAB. MELAWI

120°0'E

5°0'S

KAB. SEKADAU

5°0'S

KOTA PONTIANAK

0°0'0"

0°0'0"

KAB. SANGGAU

115°0'E

0°0'

0°0'

KAB. PONTIANAK

110°0'E

Peat Dome with Canal Restoration Priority (Protection Zone)

2

3

Luas (Ha)

4

-

15,906

4,676

22,920

348

4,225

230,707

30,336

43,502

265,615

12,304

8,003

134,561

61,282

216,150

5,512

27,553

162,651

59,659

255,374

11,704

136,952

215,358

162,369

526,382

Non-Domed Peat with Canal Restoration Priority (Cultivation Zone) -

8,571

18,095

28,199

54,865

827

-

192

4,399

103

10,110

36,134

19,942

66,288

915

23,567

26,181

27,594

78,257

1

10,288

34,838

38,927

84,054

-

5,419

-

73

11,187

11,260

Kab. Sintang

82

9,191

23,405

32,855

65,534

Kota Pontianak

16

2,810

1,039

3,022

6,886

-

1

213

151

365

31,811

257,176

888,122

Kota Singkaw ang Kalim antan Barat

502,840 1,679,950

Keterangan :

KAB. KAYONG UTARA

KAB. KETAPANG

2°0'0"S

2°0'0"S

KALIMANTAN TENGAH

1

Prioritas Restorasi Pasca Kebakaran 2015

2

Prioritas Restorasi Kubah Gambut berkanal (zona lindung)

3

Prioritas Restorasi Kubah Gambut tidak berkanal (zona lindung)

4

Prioritas Restorasi Gambut berkanal (zona budidaya)

Proyeksi Sistem Grid Datum Horizontal

: ............... Mercartor : ............... Grid Geografi : ............... WGS84

Sumber Data : 1. Batas Wilayah Administrasi Kabupaten/Kota Indikatif, PPBW Badan Informasi Geospasial, 2015 2. Gambut Skala 1:250.000, Balai Besar Litbang Sumberdaya Lahan Pertanian Kementerian Pertanian, 2013 3. Kebakaran Hutan dan Lahan 2015, Kementerian Lingkungan Hidup dan Kehutanan, 2015 4. Penutup Lahan 2015, Kementerian Lingkungan Hidup dan Kehutanan, 2015

Tanggal : Disahkan oleh :

109°0'0"E

111°0'0"E

110°0'0"E

111°0'0"E

112°0'0"E

112°0'0"E

113°0'0"E

114°0'0"E

113°0'0"E

3°0'0"S

3°0'0"S

N

Nazir Foead Kepala Badan Restorasi Gambut

EDISI SEPTEMBER 2016

115°0'0"E

PETA INDIKATIF Central Kalimantan Province PRIORITAS RESTORASI 0°0'0"

0°0'0"

PROVINSI KALIMANTAN TENGAH

KALIMANTAN BARAT

KAB. MURUNG RAYA

U

h

Projection : ....................... Mercator Grid system : .......... Grid Geography 0 510 20 30 40 Horizontal Datum :Km........................ WGS84 DIAGRAM LOKASI 105°0'E Data Source:

115°0'E

120°0'E

0°0'

0°0'

1. District administrative Border, Geospatial Information Agency, 2015 2. Scale of Peatland Area 1:250.000, Research and Development of Agricultural Land Resources Agency, Lokasi Yang Ministry ofDipetakan Agriculture, 2013 105°0'E 110°0'E 115°0'E 120°0'E 3. Forest and Land Fires 2015, Ministry of LEGENDA Environment and Forestry, 2015 4. Kabupaten/Kota Land CoverageKelas 2015, Prioritas Ministry Restorasi (Ha) of Environment and Luas (Ha) 1 2 3 4 Forestry, 2015 Kab. Barito Selatan 13,374 12,540 130,247 19,293 175,454

KAB. BARITO SELATAN KAB. KATINGAN

Kab. Barito Timur Kab. Kapuas

KOTA PALANGKARAYA

KAB. BARITO TIMUR

KAB. KOTAWARINGIN TIMUR

2°0'0"S

KAB. KAPUAS

KAB. LAMANDAU

2°0'0"S

5°0'S

5°0'S

1°0'0"S

1°0'0"S

KAB. BARITO UTARA KAB. GUNUNG MAS

110°0'E

1,002

867

31,854

98,054

22,076

8,196

185,114

85,705

32,141 400,727

Kab. Katingan

28,589

5,020

359,707

84,364

477,680

Kab. Kotaw aringin Barat

22,474

8,390

160,928

66,941

258,732

Kab. Kotaw aringin Timur Kab. Lamandau

22,969

54,523

106,606

143,350

-

246

323

105,037

243,303

147,104

660,140

19,250

3,922

114,708

113,848

251,728

Kab. Sukamara

20,358

1,391

29,599

51,927

103,276

1,397

57,614

53,801

123,428

Kab. Pulangpisau

Kota Palangkaraya

10,616

Kalim antan Tengah

335,194

66

327,448

11 164,697

Kab. Seruyan

291,142 1,409,969

774,773 2,811,078

Keterangan :

KAB. SERUYAN

KAB. KOTAWARINGIN BARAT

1

Prioritas Restorasi Pasca Kebakaran 2015

2

Prioritas Restorasi Kubah Gambut berkanal (zona lindung)

3

Prioritas Restorasi Kubah Gambut tidak berkanal (zona lindung)

4

Prioritas Restorasi Gambut berkanal (zona budidaya)

KAB. PULANGPISAU

KALIMANTAN SELATAN

3°0'0"S

3°0'0"S

KAB. SUKAMARA

Proyeksi Sistem Grid Datum Horizontal

: ............... Mercartor : ............... Grid Geografi : ............... WGS84

Sumber Data : 1. Batas Wilayah Administrasi Kabupaten/Kota Indikatif, PPBW Badan Informasi Geospasial, 2015 2. Gambut Skala 1:250.000, Balai Besar Litbang Sumberdaya Lahan Pertanian Kementerian Pertanian, 2013 3. Kebakaran Hutan dan Lahan 2015, Kementerian Lingkungan Hidup dan Kehutanan, 2015 4. Penutup Lahan 2015, Kementerian Lingkungan Hidup dan Kehutanan, 2015

Tanggal : Disahkan oleh :

111°0'0"E

112°0'0"E

page 3 / 6. Priority Regions

113°0'0"E

114°0'0"E

115°0'0"E

September 2016 edition EDISI SEPTEMBER 2016

Nazir Foead Kepala Badan Restorasi Gambut

Peatland Restoration Agency, Republic of Indonesia


115°0'0"E

South Kalimantan Province

116°0'0"E

PRO

KALIMANTAN TENGAH

Legend

KALIMANTAN TIMUR

KAB. TABALONG

KAB. BARITO TIMUR

KAB. BARITO SELATAN

KAB. BALANGAN

Post-Fire 2015 Restoration Priority

KAB. HULU SUNGAI UTARA

KAB. KAPUAS

Peat Dome with Canal Restoration Priority (Protection Zone)

0°0'

5°0'S

KAB. KOTABARU

LEGE KAB. TAPIN

3°0'0"S

Peat Dome without Canal Restoration Priority (Protection Zone)

KAB. HULU SUNGAI SELATAN

3°0'0"S

KAB. HULU SUNGAI TENGAH

K

Kab. Bala

Kab. Ban

Kab. Bari

Non-Domed Peat with Canal Restoration Priority (Cultivation Zone)

Kab. Hulu

KAB. BARITOKUALA

Kab. Hulu

Kab. Hulu

Kab. Tab

Kab. Tap

Kal

Keteranga

KOTA BANJARMASIN

KAB. BANJAR

1

P

2

P

3

P

4

P

KAB. TANAHBUMBU KOTA BANJARBARU

Proyeksi Sistem Gr Datum Ho

Sumber D

KAB. KOTABARU

1. Batas W Geospa

2. Gambu

Kemen

3. Kebaka 2015

4. Penutu

KAB. TANAH LAUT

133°0'0"E

134°0'0"E

116°0'0"E

135°0'0"E

136°0'0"E

137°0'0"E

138°0'0"E

139°0'0"E

2°0'0"S

KAB. KEPULAUAN YAPEN

KAB. JAYAPURA KAB. PUNCAK JAYA

0°0'

3°0'0"S

KOTA JAYAPURA

KAB. WAROPEN

PAPUA BARAT

Data Source:

KAB. KEEROM

KAB. YALIMO

KAB. PANIAI

4°0'0"S

4°0'0"S

10°0'S

KAB. MAMBERAMO TENGAH

KAB. PUNCAK

KAB. DOGIYAI

5°0'S

KAB. TOLIKARA KAB. INTAN JAYA

KAB. NABIRE

KAB. LANNY JAYA KAB. JAYAWIJAYA

KAB. DEIYAI

LEGE

K

KAB. MIMIKA

KAB. NDUGA

KAB. YAHUKIMO

Kab. Asm

KAB. PEGUNUNGAN BINTANG

Kab. Biak

Kab. Bov

Kab. Deiy

5°0'0"S

Kab. Dog

5°0'0"S

1. District administrative Border, Geospatial Information Agency, 2015 2. Scale of Peatland Area 1:250.000, Research and Development of Agricultural Land Resources Agency, Ministry of Agriculture, 2013 3. Forest and Land Fires 2015, Ministry of Environment and Forestry, 2015 4. Land Coverage 2015, Ministry of Environment and Forestry, 2015

KAB. SARMI

KAB. MAMBERAMO RAYA

3°0'0"S

Projection : ....................... Mercator Grid system : .......... Grid Geography Horizontal Datum : ........................ WGS84

EDISI S

140°0'0"E

2°0'0"S

Papua Province

115°0'0"E

4°0'0"S

4°0'0"S

N

Kab. Jay

Kab. Kee

Kab. Kep

Kab. Lan

Kab. Mam

Kab. Mam

KAB. ASMAT

Kab. Map

Kab. Mer

Kab. Mim

Kab. Nab

Kab. Pan

6°0'0"S

6°0'0"S

Kab. Pun

KAB. BOVEN DIGOEL

Kab. Pun Kab. Sar

Kab. Sup

Kab. Tolik

Kab. War

Kab. Yali Kota Jay

KAB. MAPPI

7°0'0"S

7°0'0"S

Keteranga

KAB. MAPPI

1

P

2

P

3

P

4

P

Proyeksi Sistem Gr Datum Ho

Sumber D

1. Batas W Geospa

2. Gambu

Kemen

3. Kebaka 2015

KAB. MERAUKE

September 2016 edition

page 4 / 6. Priority Regions

133°0'0"E

134°0'0"E

135°0'0"E

136°0'0"E

137°0'0"E

138°0'0"E

8°0'0"S

8°0'0"S

KAB. MERAUKE

139°0'0"E

140°0'0"E

Peatland Restoration Agency, Republic of Indonesia

4. Penutu

EDISI S


Peatland Restoration Agency, Republic of Indonesia Office: Gedung Sekretariat Negara Jl. Teuku Umar No. 10 Jakarta Pusat Jakarta 10350, Indonesia www.brg.go.id Badan Restorasi Gambut @BRG_Indonesia Badan Restorasi Gambut - BRG @BRG_Indonesia Badan Restorasi Gambut - BRG The Peatland Restoration Agency, Republic of Indonesia (the BRG) is an ad hoc governmental body whose mission is restoring 2 million hectares of degraded peatland impacted by peat fires in a systematic and comprehensive manner. The BRG was instituted on January 6, 2016, through Presidential Regulation No. 1 Year 2016 concerning Peatland Restoration Agency.

All photos: Š Badan Restorasi Gambut.


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