Section 1

INTRODUCTION

Section 5

CSR

Community Involvement and Programmes in PT AMNL

Section 6

CLIPPINGS

In The News: Our Fire-fighting Efforts and Community Engagement

1

Section 4

Desa Siaga Api Programme

9-13

HOW WE MANAGE FIRE

Section 2

Indonesia’s Carbon Dioxide Emissions Opportunity to Reduce CO2 Emissions from Peatlands

PT AMNL Conservation Area

• •

•

3-5

WHY PEATLANDS MATTER

14-17

6-8

Section 3

What is Peat Rehabilitation and Reforestation?

Why Do We Need to Rehabilitate Peatlands? Stages in a Rehabilitation Project

•

• •

PEAT REHABILITATION PROJECT

18-20

TABLE OF

Introduction

Introduction

In 2015, prolonged dry conditions caused by a powerful El Niño weather phenomenon led to fires burning out of control on peat areas and other land, resulting in the worst haze pollution to hit Indonesia and its neighbours since 1997.

Haze worsens health problems such as respiratory ailments; causes low visibility that hinders transportation; disrupts daily lives; prevents children from going to school and contributes to economic slowdown. According to the World Bank, more than 2.6 million ha of forest, peat and other land were damaged by fires across the archipelago from June to October 2015. It also estimates that

Fires on carbon-rich peatlands in Indonesia are the primary cause of massive smoke

pollution commonly referred to as “haze”. It is estimated that 90 percent of haze is caused

by fires on peat areas which release three to six times more particulate matter than fires

on other types of soil

[1]

.

Indonesia’s economy alone suffered a loss of more than USD16 billion due to the fires and haze. In light of this, the Indonesian Government has set up a Peat Restoration Agency and banned the clearance and conversion of peatlands across the country. Many of our own employees and the communities surrounding our plantations are adversely affected by the haze. Recognising this, we adhere strictly to our Zero Burning Policy which has been in place since 1997, and we continue to invest in the long-term prevention, management and suppression of fires. As part of

2

these efforts, in November 2015, we launched the Peat Ecosystem Rehabilitation Project at PT Agro Lestari Mandiri (PT AMNL) in West Kalimantan. Its primary aim is to prevent future haze-causing peat fires and is in line with the Indonesian Government’s focus on revitalising and protecting peat areas.

Section 1

[1]

Section 2

Why Peatlands Matter

4

Why Peatlands Matter

1

Indonesia’s Carbon

Dioxide Emissions

2

Human activities produce carbon dioxide (CO2). Prior to the

2015 haze crisis, Indonesia was ranked the world’s fifth biggest producer of greenhouse gas

emissions[2]. The main contributors of emissions are the transportation and energy sectors and the degradation of peatlands.

The forestry and agricultural sectors in Indonesia have the potential to deliver more than 80 percent of Indonesia’s emission reductions. Peatland conservation is a significant part of that opportunity given the potential for peatlands in Indonesia to release 700MtCO2e

into the atmosphere if developed.

Opportunity to Reduce CO

2

Emissions

from Peatlands

Peatland makes up 12 percent of the Indonesian land area (22.5 Mha)[3]. Peatland is a unique ecosystem formed through the accumulation of partially decayed vegetation or organic matter in waterlogged and acidic conditions over thousands of years.

Peat decomposition as a result of drainage for agriculture produces continuous emissions, while peatland fires contribute infrequent emissions and rapid peat decomposition. Peatland is particularly flammable when it is drained and dried after the vegetation is cleared. Fire is traditionally used to clear land as burning increases the pH level

of the soil which is too acidic to grow crops. Once started, peat fires can smoulder for weeks or months underground.

Prolonged dry seasons and decreased rainfall especially during an El Niño period, causes a sharp increase in emissions as a result of rapid decomposition through peatland fires. Lower water tables during the dry season expose larger carbon stocks to aerobic conditions, increasing decomposition and peat subsidence.

Emissions from peatlands are expected to reach 1.2 Gt CO2e

in 2030 through the continued

[2]_{World Resources Institute. Forests and Landscapes in Indonesia http://www.wri.org/our-work/}

project/forests-and-landscapes-indonesia/climate-change-indonesia

[3]

Section 2

5

development and drainage of peatlands under a business as usual scenario[4]_.

Indonesia is the single largest emitter of CO2 from ongoing peat

decomposition in the world, with Kalimantan being the largest emitter in the country.

CO2 emissions from the peat

sector can be reduced by stopping deforestation and forest degradation, re-wetting and rehabilitating the peatland, as well as through fire management.

3

PT AMNL Conservation Area

In PT AMNL, GAR manages a conservation area exceeding 2,600 ha. Around mid-2015, GAR conducted a field survey, which showed that there were three vegetation types in the area: peat swamp forest, dry lowland forest and freshwater swamp. More than 300 species of plants and 170 species of wildlife (birds, mammals, reptiles, and fishes) were found in the survey area. More than 85 percent of the plots

surveyed have biomass of over 100 t/ha. Unfortunately reassessment of the area via satellite imaging after the dry season in late 2015 indicated that almost all remaining forest cover has been affected by fires.

GAR decided to take immediate steps to rehabilitate the area in order to help prevent the recurrence of fires and avoid emissions in the future.

[4]_{Forest Climate Center. Fact sheet – Indonesia Greenhouse Gas Emission Cost Curve. 27 August}

2009. http://forestclimatecenter.org/files/2009-08-27% 20Fact% 20Sheet%

Section 3

Peat Rehabilitation Project

Peat Rehabilitation Project

What is Peat Rehabilitation

and Reforestation?

Why Do We Need to

Rehabilitate Peatlands?

efforts to help the forest recover some of its original characteristics or properties; often by replacing some of the trees and vegetation lost through logging or other forms of damage.

To reduce vulnerability to fires To improve the quality of the forest after disturbance/ damage To improve the productivity of the forest after disturbance To improve the forest as a habitat for birds and other animals

To reintroduce species lost by forest disturbance

To improve the microclimate within the forest after disturbance

To reduce soil erosion and improve hydrology • • • • • • •

Rehabilitation:

efforts to plant trees – usually of commercial species – in areas where trees have been mostly lost or removed, such as alang-alang

grasslands.

Reforestation:

GAR began work with third-party technical experts on the first rehabilitation stage in December 2015. Public consultations engaged the local community to involve them in the conservation effort. GAR also engaged the local government to obtain their support and participation.

Section 3

Stages in a

Rehabilitation Project

for rehabilitation by carrying out conservation area and biodiversity surveys.

Determine status/condition

of the area

in the rehabilitation project and conservation efforts.

Engage the community

for building stock of plants for planting out in the area.

Establish nursery

to restore as much species diversity as possible as well as the physical appearance of the forest stand. Wildlife food plants such as Ficus and Artocarpus

will also be included.

Select important

native species

by controlling drainage canals and maintaining a high water table.

Restore hydrology

of peat area

of selected species.

Collect seeds and

seedlings

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Section 4

How We Manage Fire

How We Manage Fire

More than 10,000 Emergency Response Team personnel have been trained and are stationed across all our plantations, ready to be deployed in a fire emergency.

We have set up a Fire Command Post at HQ in Jakarta to coordinate fire management and suppression with the teams on the ground.

GAR’s Standard Operating Procedure (SOP) for fire management requires

a wide range of measures to prevent fires in our plantations.

On the ground, we have been:

Keeping the peat areas moist by re-wetting the areas with water from rivers and ponds which were constructed for that purpose.

Transferring 6-tonne water container tanks to areas that are burning. Preparing Emergency

Response Teams consisting of about 30 to 40 personnel per team to handle fire suppression.

Preparing water reservoirs around conservation areas to ensure adequate supply of water during a fire.

Stationing fire engines at the plantation.

10

Ensuring adequate number of portable pumps to be used for fire suppression.

Using high-capacity pumps to pump water from the nearest river/ stream to put out fires.

Increasing the frequency of fire-monitoring patrols and involving the community in fire monitoring.

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Section 4

To prevent fires in the long run, GAR is stepping up efforts to encourage the community to stop using fire to clear land.

We have consistently engaged farmers and the community to advocate no-burning.

Long-term Prevention

We plan to launch programmes that offer the community sustainable alternatives when clearing land. Such programmes will involve building up community awareness and involving the community in fire management and prevention.

This is an initiative that shifts the focus from response and suppression to fire prevention. The programme is aimed at creating fire-free villages through collaboration with communities, enforcement agencies and NGOs. The objective is to prevent fires in a five kilometre area around GAR concessions.

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The key components of the programme includes: 1.

2.

3.

Assisting the community with sustainable land-clearing without the use of fire.

Offering CSR incentive

programmes as No Burn Village Rewards to villages that manage to achieve fire-free goals.

Increasing Community Awareness of the dangers of fire and haze to health.

4.

5.

Fire Team Empowerment with participation from the community. Air Quality Monitoring to develop a baseline to inform a new air quality monitoring programme.

Desa Siaga Api

Programme

13

Section 4

The villages will be categorised into three: 1.

2.

3.

DESA SIAGA are villages that remain fire free. They will receive social infrastructure development aid.

DESA TANGGAP are villages that are able to extinguish fire in less than 24 hours on a burnt area of less than one hectare.

They will receive social infrastructure development assistance.

DESA PEDULI are villages that are able to extinguish fire in less than 24 hours on a burnt area of more than one hectare. They will be placed under supervision.

CSR

Community involvement and

programmes in PT AMNL

Section 5

15

Communities are motivated by economic reasons to clear land using fire,

as it is the cheapest way to prepare land for crops.

GAR aims to target these economic causes of fire by improving the livelihoods of the community through CSR programmes. In the long run, the goal is to create zero-burning communities and community-based conservation.

Our CSR activities cover

five aspects:

Income

Generation

Infrastructure

Socio-culture

Education

Health

GAR aims to build mutually

beneficial relationships with local communities.

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GAR allocated more than Rp 13.5bn for CSR

programmes in PT AMNL in activities including:

Increasing and improving access to basic transportation, including maintenance and repair of village roads.

In 2014 and 2015,

Providing free computer courses to students in Nanga Tayap.

Building a mosque at Dusun Tanjung Toba.

Partnering with Tzu Chi Foundation to offer free medication for the community, enhancing Integrated Health Service Point (Posyandu) and assisting with the provision of clean water.

Providing general health care and respiratory infection treatment in Nanga Tayap, and in partnership with Tzu Chi Foundation, free health care in Simpang Tiga Sembelangaan & Tanjung Medan villages.

Building of a mushola (praying room), a madrasa, and a church in Nanga Tayap.

Supporting religious celebrations.

Supporting traditional ceremony, sapat tahun

in Nanga Tayap. Granting scholarships for students.

As the head of Sembelangaan Hamlet, I really appreciate and support Sinar Mas’

programme to protect the river by replanting plants, especially fruit-producing plants that

can be used by the villagers. We’re taught not to poison nor electrocute the fish to catch

them. We hope that the villagers will be more involved in reforestation programmes along

the river because it will bring sustainable benefits for generations to come.”

Bapak Sartimin

Section 5

17

Praise be to Allah…we are really grateful for the building of the 12 x 23 m

multipurpose building because it will be very useful to us. For instance, if we want

to celebrate a wedding, hold a social event or organize other activities, we no longer

need to use tents. The building can also be used for sports, such as badminton.

We hope that from now on, the relationship between the company and us can be

even more harmonious.”

Bapak Kelik

Resident of Sungai Kelik Village

Sinar Mas has done quite a lot of CSR activities that have positively impacted us,

but for me (the building of church) is the one most impressive gesture. Worshipping

has become convenient for me and for my fellow villagers. We invite all Catholic

staff of Sinar Mas to worship with us too, to strengthen the bond between us.”

Bapak Musi

Clippings

In The News: Our Fire-fighting Efforts and Community Engagement (news clippings)

Section 6

19

As a good neighbour and corporate citizen GAR has a responsibility to contribute to fire fighting and fire prevention efforts in high risk areas,

especially peatlands. Our commitment to the Peat Ecosystem Rehabilitation Project is driven by that sense of responsibility. Media coverage of these

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Golden Agri-Resources Ltd (GAR)

108 Pasir Panjang Road, #06-00 Golden Agri Plaza, Singapore 118535

t

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+65 6590 0800 www.goldenagri.com.sg

sustainability@goldenagri.com.sg

PT Sinar Mas Agro Resources and Technology Tbk (PT SMART Tbk)

Sinar Mas Land Plaza, Tower II, 30th Floor Jl. MH Thamrin No. 51, Jakarta 10350, Indonesia

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