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Roundtable on Sustainable Palm Oil
Reporting GHG Emissions
PT. KENCANA ALAM PERMAI
Sintang District, West Kalimantan Province
Indonesia
Prepared by :
PT. Kencana Alam Permai
2016
2
Table of Contents
1. Assessment process and procedure................................................................................................. 3
1.1. Assessor and their credentials .................................................................................................. 3
1.2. Methods and procedures used for conducting carbon stock and GHG
assessments ...................................................................................................................................... 4
1.3. Responsible team for developing mitigation plan ............................................................ 6
2. Summary of high carbon stock assessment .................................................................................. 8
2.1. Location maps indicating area .................................................................................................. 8
2.2. Land cover stratification .............................................................................................................. 10
2.3. Map and description of all area PT KAP ................................................................................ 12
3. Summary of GHG emission .................................................................................................................. 14
4. References .................................................................................................................................................. 14
5. Summary of management and mitigaton plans .......................................................................... 15
6. Internal responsibility ........................................................................................................................... 19
3
1 Assessment Process and Procedures
1.1 Assesors and their credentials
High Carbon Stock (HCS) Assessment Report in concession HGU PT. Kencana Alam Permai
presented by ALZ (PT. Anugrah Lintas Zaman), consisting of three people. This is brief
description of the name, qualification, skills, and role within the team.
1.1.1 Kresno Dwi Santosa
Name : Kresno Dwi Santosa Place & Date of Birth : Klaten, October 5th 1968 Telephone : 0251 630 901
085247262609 Education : Master of Science on Natural Resources and
Environmental Management from Bogor Agricultural University, 1999
Trainings : Training on “Environmental Audit” in University of Indonesia, 1995.
Training of Trainers Development of the HCV Training Module, collaboration Proforest and
RSPO, 14-15 May 2012, Kuala Lumpur, Malaysia RSPO : List of Team Leader approval E-mail : [email protected]
1.1.2 I Wayan Susi Dharmawan
Name : I Wayan Susi Dharmawan
Place & Date of Birth : Rembang, Central Java / 3 Nopember 1975 Telephone : Phones 62-251-7520067, 8633234 (office), 62-815-
14269522 (mobilephone) Education : Doctor, Graduate School, Bogor Agriculture
University, Bogor, Indonesia, 2012 Master of Science, Forestry Science, Bogor
Agricultural University, Bogor, Indonesia, 2003 Forestry Engineer, Faculty of Forestry, Bogor
Agriculture University, Bogor, Indonesia, 1998 Trainings : Training Course on Minitab and SAS Application
as Statistical Procedures. Statistical Department, Bogor Agricultural University, 2000
Regional Training Course on Biodiversity and Conservation of Bryophytes and Lichens. Seameo-Biotrop-Georg August Universitat Gottingen- National University Of Singapore-Conservation Training And Resource Centre, 2003
Regional Training Course on Forest Health Monitoring to Assess the Sustainability of Tropical Rain Forests. Seameo-Biotrop-ITTO, 2004
Training Course on Remote Sensing and Landscape Analysis. Statistical Department, Bogor Agricultural University – The Pennsylvania
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State University – School of Forest Resources, Pennsylvania, 2006
Basic Training on Policy Analysis using System Dynamics Model. BAPPENAS – Environmental Sector Programme (ESP) DANIDA, 2007
Acid Deposition Training Course. Japan International Cooperation Agency (JICA), 2007
REDD Training. The Nature Conservancy and CI. Nusa Dua, Bali, 2008
IPCC Workshop on Land Use Area Change Assessment: The Experience Of Existing Operational Systems. Coalition for Rainforest Nations. Sao Jose dos Campos, Sao Paulo, Brazil, 2009
Workshop on Forest Landscape Restoration. ITTO, IUCN and Tropen Bos Indonesia. Tabanan, Bali, 2009
Workshop on Next Generation Leadership in Forestry Sector. Right and Resource Initiatives (RRI). Vancouver, Canada, 2012
E-mail : [email protected]
1.1.3 Manjela Eko Hartoyo, G
Name : Manjela Eko Hartoyo, G
Place & Date of Birth : Yogyakarta, Oktober 8th ,1973 Telephone : 08111116212 Education : Graduate of Faculty of Geography Majoring in
Remote Sensing and Cartography Gadjah Mada University (Graduated 2000)
E-mail : [email protected]
1.2 Methods and procedures used for conducting carbon stock and GHG assessments
1.1.1 Methods and procedures High Carbon Stock Assessment
Stages of activity measurement and mapping carbon stocks in the concession
area of PT. KAP grouped into four stages, namely (i) a desk study, (ii) field
surveys, (iii) laboratory analysis and (iv) data analysis, mapping and reporting.
These stages are composed of a series of activities as presented in Figure 1
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Figure 1. Stages of activity measurement and mapping carbon stocks in the concession
area of PT. KAP, 2016, Sintang Distric, West Kalimantan.
1.1.2 Methods and procedures GHG assessment
Net GHG emissions are calculated by adding the emissions released during land
clearing, crop production and crop processing, and subtracting from these emissions
the sequestration of carbon in the standing crop and in any conservation areas. Stages
of activity measurement and mapping GHG assessment in the concession area of PT.
KAP as system boundary for the greenhouse gas calculation in Palm GHG. GHG
Calculation stages are divided into input, output agricultural.
This emission sources included in the calculator are :
i) Land clearing;
ii) Manufacture of fertilisers and transport to the plantation;
iii) Nitrous oxide and carbon dioxide resulting from the field application of
fertilisers and mill by-products and other organic sources such as palm
litter;
iv) Fossil fuel used in the field (mainly for harvesting and collection of FFB);
v) Fossil fuel used at the mill;
vi) Methane produced from palm oil mill effluent (POME); and
vii) Carbon dioxide and nitrous oxide generated by the cultivation of peat
soils.
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In addition, the following GHG fixation and credits are considered:
i) Carbon dioxide fixed by oil palm trees, ground cover and carbon
sequestered in plantation litter (see crop sequestration, below);
ii) Carbon dioxide fixed by biomass in conservation areas;
iii) GHG emissions avoided by the selling of mill energy by-products (e.g.
electricity sold to the grid; palm kernel shell sold to industrial furnaces).
Figure.2. System Boundary of Palm GHG
1.3 Responsible team for developing mitigation plan
Monitoring management of GHG emission of PT. KAP in region base, controled by Plantation
Head PT. KAP (PH) along with relevant functional departments. Estate planning process
synergize with program planning and management of High Carbon Stock and GHG
Assessment. The department which involved in management plan and implementation are
figured below.
7
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2. Summary of High Carbon Stock Assessment
2.1 Location Map and Landscape
1. Location Map
Figure 3. Location Map of PT. KAP
PT. Kencana Alam Permai (PT. KAP) is located in Riam Kempadi Village, Sepauk Sub District,
Sintang District, West Kalimantan Province, with Land permit from Sintang Regent No.
525/343/KEP-PERTANAHAN/2014 dated 23 April 2014, for 6,966 ha area and No.
525/703/KEP-PERTANAHAN/2013 dated 22 July 2013, for 1,160 ha area.
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2. Landscape Map
Figure 4. Landscape Map presence protected forest and conservation forest around PT. KAP
Based on review of document/ report/ existing/ maps and field observation indicate the around
concession PT. KAP there is no area of protected forest and conservation area.
3. Area of new planting and time plan for new planting
PT. KAP has planned land use on the total land permit area of 8,126 ha. Total area land permit
used for building nucleus plantation area of 2,015.34 ha, smallholder area of 865.26 ha,
conservation/ HCV area of 892.32 ha.
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Figure 5 . Area of New Planting PT. KAP
2.2 Land Cover Stratification
Implementation of high carbon stock assessment in the concession area of PT KAP using
methods that have been scientifically recognized and guidelines are based on international
standards (IPCC), the RSPO and national (SNI). Footage plot consists of 4 strata of vegetation,
namely HS (secondary forest), BT (old shrub), BM (young shrub), LT (Open Land) and BA
(water body). The amount of carbon in the scale of this plot into a parameter extrapolation
(Upscaling) to map the distribution of spare carbon on a scale concession area of PT KAP,
mainly sourced from biomass.
Extrapolation high carbon stocks for concession area of PT KAP use the resulting
equation of correlation between the value of the biomass AGB in each plot with the
data spectral radiance Band 6 derived from extrapolation data Landsat satellite 8. The
results are then converted into the value of the biomass carbon stock and its
distribution mapped. As a base mapping is the classification of biomass carbon stocks
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are also to describe the condition of land cover. Classification of biomass carbon
stocks divides the study area of PT. KAP into five classes, namely:
Range Carbon Estimation (tonC/Ha)
Very Low < 28.13
Low 28.13 46.90
Medium 46.91 70.23
High 70.24 93.61
Very High > 93.61
Table 1 shows land cover stratification in concession PT. KAP on September 2015.
Condition land cover stratification divides seven strata, namely PLK (Dry Cultivated
Land), HS (secondary forest), PO (Palm Oil), RB (Rubber), and BL (shrub). Dominant
strata in Rubber (38.85 %). Only a small portion in the form of Dry Cultivated Land (10
%).
Table 1. Land cover classification in concession PT KAP , 2016
No Strata Ecosystem Area (ha)
1 HS (secondary forest) 1,511.93
2 PO (Palm Oil) 2,139.08
3 RB (Rubber) 3,197.83
4 BL (shrub) 639.14
5 PLK (Dry Cultivated Land) 736.07
6 WB (Water Bodies) 5.31
Jumlah 8,229.4
Table 2 shows a summary of biomass (AGB) in the secondary forest plots an average smaller
when compared to the default value Palm GHG (Disturbed forest: 128 ton / ha, Shrubland: 46 ton
/ ha). The carbon stock in the Secondary Forest in PT KAP is 100.59 ton-C / ha, an Agroforestry
is 35 ton-C / ha, Forest Plantations is 53 ton-C / ha. This value is the basis for mapping the carbon
stocks for the whole area of the study area within the concession area of PT. KAP.
The amount of biomass carbon reserves in the concession area of PT KAP is 250.59 kilo tons-C
with an average of broad unity is 20.88 Ton-C / ha.
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Table 2. Total carbon stock and classifications for each land cover type in concession PT PUL 2015
No Strata Ecosystem Carbon Stock
(kilo ton C) Area (ha)
Average (TonC/ha)
1 HS (secondary forest) 96.44 1,511.93 13.59
2 PO (Palm Oil) 42.21 2,139.08 63.79
3 RB (Rubber) 18 3,197.83 19.73
4 BL (shrub) 25 639.14 5.63
5 PLK (Dry Cultivated Land) 10 736.07 39.12
6 WB (Water Bodies) 0 5.31 -
Jumlah 149.44 8,229.4
2.3 Map and description of significant carbon stocks in concession PT. KAP
The amount of carbon stock mapping of all the carbon source for the entire area PT KAP is 149.44
kilo ton – C. The amount of carbon stocks from the AGB is was 119.58 ton - C / ha.
Table 3. Summary carbon stock of 2016 in concession PT. KAP
Pool Carbon Carbon Stock (tonC/ha) %
Seddling 0.58 0.43
Sapling 11.01 9.20
Poles 19.23 16.08
Tree 88.83 74.28
Total (tonC/ha) 119.58 100
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Figure 4. Map of the distribution of carbon stocks in concession PT. KAP
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3. Summary of GHG Emissions
3.1 Description of all areas of significant sources of GHG emisions and
sequestration related to the proposed development
This emission sources included in the calculation are:
a. Land clearing;
b. Manufacture of fertilisers and transport to the plantation;
c. Nitrous oxide and carbon dioxide resulting from the field application of fertilisers and
mill by-products and other organic sources such as palm litter;
d. Fossil fuel used in the field (mainly for harvesting and collection of FFB);
e. Carbon dioxide and nitrous oxide generated by the cultivation of peat soils.
In addition, the following GHG fixation and credits are considered:
f. Carbon dioxide fixed by oil palm trees, ground cover and carbon sequestered in
plantation litter (see crop sequestration, below);
g. Carbon dioxide fixed by biomass in conservation areas;
Items that are not included in the budget are the nursery stage, pesticide treatments, fuel
used for land clearing, emissions embedded in infrastructures and machines, and the
sequestration of carbon in palm products and by-products
4. References
a. Analisis Mengenai Dampak Lingkungan (AMDAL) authorized by Bupati Sintang date on July
12, 2011 No. SK 732/2011
b. High Conservation Value Assessment (HCVA) report conducted of PT. Anugrah Lintas
Zaman date on Oktober 2014
c. Land Use Change (LUC) report conducted of PT. Anugrah Lintas Zaman date on Desember
2014
d. High Carbon Stock Assessment (HCS) report conducted of PT. Anugrah Lintas Zaman date
on February 2016
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5. Summary of Management and Mitigation Plans (Carbon Stocks and GHG Emissions)
5.1 Plan of the new development which indicates the carbon stock and presence of peat
soil.
No peat soil on PT KAP concesion area. New development of PT KAP will be set up for 5 years,
from 2016 – 2020. For minimize GHG emission from land clearing, the new development plan
will be starting at land cover which have a low carbon stock.
5.2 The results of scenario testing showing GHG emissions
a. GHG Emission from land clearing on 2015 = 4.46 t CO2 e/year/ha (Simplified Palm GHG C7.8 Usage-Aug 2015)
b. GHG Emission from fertilizer usage and N2O on 2015 = 16.32 t CO2 e/year/ha (Simplified Palm GHG C7.8 Usage-Aug 2015)
c. GHG Emission from fosil fuel on 2015 = 0.72 t CO2 e/year/ha (Simplified Palm GHG C7.8 Usage-Aug 2015)
d. GHG sequestration from palm oil 0n 2015 = - 9.29 ton CO2 e/year/Ha (Simplified Palm GHG C7.8 Usage-Aug 2015)
e. Net GHG emission PT KAP on 2015 = 12.21 ton CO2 e/year/Ha
5.3 PT KAP scenario with relevant spatial map
Based on HCS Assessment conducted by PT Anugrah Lintas Zaman , then planting plan in PT
KAP will be prioritized in the area of open land, shrubs, and bushes.
New planting plan of PT KAP from 2016 – 2019 are presented in the table below.
Table 5. New Planting Plan of PT KAP on 2016 – 2019 and realized planting on 2015
Year Planting Acreage (Ha)
Total (Ha) Own Plantation Small Holder
2015 1,007.98 448.15 1,456.13
2016 - - -
2017 - - -
2018 - - -
2019 - - -
2020 - - -
Total 1,007.98 448.15 1,456.13
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5.4 The Measurement taken to maintain and enhance carbon stocks within the new
development areas.
Several stages to high carbon stock assessment and ghg assessment can be used to prepare a
management plan carbon stock conservation area and HCV are integrated with management
oil plan plantation, as follow:
i. Establish an important area for reserve high carbon sourced from biomass equal to the
average value of carbon palm oil.
Results of previous studies show that the average value of carbon stocks of palm oil in one
cycle is 60 ton - C/ha . Within the area concession of PT KAP there is an area of 8,229.4 ha
of biomass carbon stocks that have > 60 ton - C / ha (Very High Carbon Stock 936.23 ha
and High Carbon Stock 498.90 ha).
ii. Integrating the carbon stock areas with HCV area
Locations that have been assessed as the areal Areal HCV in Permission location PT KAP
Mostly have a reserve of carbon > 60 ton - C / ha. The area of HCV in Areal High Carbon
Stock Assessment Report of PT Kencana Alam Permai is 282.83 ha. These areas can be
defined as the area with high carbon stock , although the amount is less than the area which
has biomass carbon stocks > 60 ton - C / ha . Proper management and natural succession
into areas with higher vegetation cover would increase reserves carbon in the HCV area.
Figure 5. Map of the integrated HCV and HCS in concession PT. KAP
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iii. Determination of baseline carbon stocks and GHG mitigation measure
Baseline carbon stocks in the concession area of PT KAP is required to assess the success
of mitigation efforts GHG (P & C 7.8 3.6 RSPO and ISPO). GHG mitigation efforts will be
successful if the value is negative net emissions. which means the amount of carbon stocks
is greater than the emissions.
The net GHG emission value is the value of a dynamic where the calculation process is
carried out a comparison between the amount of emissions from activities such as
aquaculture farm management (fertilization), Land management (drainage of peatlands).
Transportation, Carbon stocks themselves are also dynamic. Whose value can be increased
or decreased. The addition of carbon stocks was obtained from the results of
photosynthesis (biomass increase) of vegetation in accordance with the development and
growth of plants. Both from the area of cultivation and conservation area carbon. While
the reduction in carbon stocks can occur from land clearing activities (reduction of
biomass) and aerobic decomposition. Especially in peat and nekromass source.
In order to determine the success of mitigation of GHG emissions, the value of carbon
stocks can now be used as a baseline derived from AGB and nekromas. As a benchmark for
successful management is the increase in carbon stocks derived from biomass. For the
carbon stocks of nekromass can not be used as a benchmark, because the value of the
carbon stocks will be reduced in line with the process of decomposition.
iv. Management to maintain and increase carbon stocks
Efforts to maintain and increase the amount of carbon stocks is equal to the effort to increase
the total amount of biomass C. Some practical ways are as follows:
Increase the density of vegetation in areas that are not open palm planting area. For
example in residential areas in the garden, greening along the open road.
Increase the density of vegetation in areas that have been designated as HCV area
Implement best practice so that the plantation cultivation of oil palm growth and
development can take place with the maximum and high biomass yield per plant
organs.
Applying fertilizer application that can increase soil organic C content. For example
with the application of organic manure and compost.
Implementing rorak applications in the area of mineral soil or bumpy areas that can be
filled with litter or organic waste from oil palm plantations, thus increasing soil organic
C.
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Preventing any form of fires in all types of strata / land cover.
Perform mitigation of illegal logging in the area of secondary forest, especially in the
area defined as high carbon stocks.
5.5 GHG Emissions Mitigation Plan of PT KAP
The mitigation plan are associated with oil palm cultivation & processing in the new
development of plantation and mill operation.
Land clearing for plantations will be prioritized in areas with low carbon stocks. The efforts
to minimize GHG emissions, the efficient use of fuel through the engine maintenance and
selection of technology which more efficient fuel usage, an accurate fertilizer
recommendations, maximize the use of biological agents for pest control, etc.
5.6 The Plan for monitoring the implementation of selected scenario for new
development including measures for enhancing carbon stock and minimising GHG
emissions
i. Monitoring and Evaluation of the conservation of carbon stocks (Monev)
In order to determine the successful management of carbon stocks and GHG mitigation , it
is necessary to the efforts of monitoring and periodic evaluation . Related to the results of
this study, the efforts of monitoring and evaluation can be carried out as follows :
Establishment of permanent plots vegetation analysis in the conservation area carbon
or HCV (areas with carbon stock values > 60 ton C / ha ) and in the areas planted with
oil palm. Number of permanent plots is proportional to the level and extent of land
cover
Perform analysis of vegetation in each of the permanent plots periodically ( eg, every
6-12 months ) to determine the value of biomass and its nekromassa .
Creating a recapitulation of the biomass is harvested when the plant oil palm has
produced
Perform estimation and calculation of carbon stock every year based on the results of
the above measurements .
Creating a carbon balance every year, so that can know the value of net GHG
emissions .
Evaluate any form of management based on the value of benchmarks and targets set
(total AGB )