Ecosystem Services Certification Document (Carbon Sequestration and Storage)

Ecosystem Services Certification Document

Declaration of the ecosystem services for Carbon Sequestration and Storage

1. Description of the current condition of the declared ecosystem service(s) and the area that is being managed to maintain and/or enhance the ecosystem service(s) within the management unit (Step 2)

(Table 1).

Table 1.Zonation areas in forest concession on Ratah Timber. (Management plan 2013; Work Plan Revision 2010

Ratah Timber is already managedfor timber production. They have already implemented reduce impact logging (RIL) practices, and developed management plan for biodiversity.
East Kalimantan is one of the provinces in Indonesia with a high focus on  REDD+ , the local government is leading the REDD activities
in each sector. Ratah Timber is one of sites with highest potential to be part of REDD implementation and the activities in Ratah can
contribute to the regional strategy. The emission levels in East Kalimantan are calculatedbased on annual series and driver causes to determine program objectives. Consequently,, Ratahcan contribute to reducing emisions and setting examples for the province, both in terms of management activities and carbon accounting methods ( based on Kyoto University and WWF Indonesia)

2. Threats to the declared ecosystem service(s) within and outside of the management unit (Step 3)


Based on the ES activities, Ratah Timber concession has identified the major threats for carbon sequestration and storage.1. Encroachment of forest concession conducted by local people. Activities to mitigate threats

A. Encroachment of forest concession conducted by local people. Activities to mitigate threats

  1. Patrol and monitoring in the forest concession.
  2. Install information boards about the prohibition to convert forests and related punishment c. Raise awareness about the regulation that prohibits conversion to farm.
  3. Collaborate s with communities to implement reforestation activities in opened areas e. Monitoring and ground checktheforest cover areas in the concession.

B. Illegal loggings activities by local communities. . Activities to mitigate threats

  1. Patrol and monitoring in the forest concession.
  2. Raise awareness about the regulation that prohibits illegal logging in the forest concessions.
  3. Install information boards about the prohibition of illegal logging and related punishment Check by satellite Landsat the location of deforestation areas.

C. Forest fire. Activities to mitigate threats

  1. Patrol and monitoring in the areas with fire potential.
  2. Raise awareness about the regulation that prohibits to start forest with the fire (burning forest), especially in areas with high risk.
  3. Put the prohibition for forest areas with high risk fire (hot spot fire).
  4. Ground check and monitoring with Landsat satellite to identify hot spot in the dry forest (low land and peat land).
  5. Implement an early warning system.

3. Description of the baseline for the selected outcome indicator(s) (Step 6)

Carbon
The baseline for carbon stock was set in July 2010 and it is based on 50 circular plots based on stratum 1 until 5. The difference between the baseline and the measurement in February 2015 was later compared to the regional reference level.
Here, impacts on carbon were estimated based on a counterfactual approach, as described in the PRO-30-006 V1-0 draft 1-0. The baseline of carbon emission was based on the statistical data provided by (IndonesianNational Carbon Accounting System) INCAS in 2015 and used as a reference level here. The INCAS’ databaseis primarily designed to estimate GHG emissions and removals at the national and subnational levels. The INCAS utilizes the best available data and information, and transparent methods, definitions, and assumptions. The results are not based on site specific data nor direct measurements.

4. Description of the method used to demonstrate the impact for each selected claim (Step 7)

The methodology for the activities related to forest carbon  was developed by a Kyoto University team. The team from Kyoto University, staff from WWF Indonesia and from Ratah P.T. placed temporary plots in the concessionaccording to different types of strata . The Methodology referring based on Technical Report: Evaluation of ecosystem services provided by the PT. Ratah Timber, East Kalimantan, Indonesia. Prepared by the Kyoto University Research Group. 2016

5.   Description of the verifiable targets related to maintenance and/or enhancement of declared ecosystem services (Step 5)

Carbon

The results of carbon emission reductions show better results than the sub-national reference level in East Kalimantan (INCAS).

6.   Detailed results of the evaluation of impact (to supplement statement of results), including monitoring results (Step 8)

Carbon

Estimated carbon densities (ton/ha) within the management unit of the PT. Ratah Timber as of 2010 and 2015 are indicatedin figure 2. Mean carbon density of the entire management unit including the eastern section allocated to local communities is estimated to be 224
(±163) ton/ha as of 2015. It is estimated that the total amount of carbon is 22.03 million tons in the total area of the management unit.  Mean (±standard deviation) carbon density of the area for 2010 and 2015 was 227 (±172) ton/ha and 224 (±163) ton/ha, respectively.

Based on this information, there was a decrease in number for average carbon from 2010 to 2015 by 10.0ton/ha excluding the Eastern Area, and by2.8 ton/ha including the eastern areas.

Carbon density is low in the eastern section allocated to local communities obviously due to the past forest fires and current shifting cultivation practices by local communities. Much greater densities of carbon are stocked in the western sections that are all ocated to log production and conservation. These values are estimated on a pixel basis (meaning that carbon density was estimated for each Land-sat pixel, 30 x 30 m, and mean and standard deviation were derived per total pixels).

If a t-test is applied straightforwardly to the pixel-basis values, the reduction of mean carbon density from 2010 to 2015 is statistically significant (p < 2.2e-16) irrespective of including or excluding the eastern areas.A histogram indicating the frequency distributions of carbon densities for 2010 and 2015 is shown in figure 2.

Figure 2. Frequency distributions of carbon densities for 2010 and 2015 with Standard Deviation (ton/ha)

Figure 3. Indication of carbon density period from 2010 and 2015

The result of regional reference level of carbon emissions in East Kalimantan using some published reference (INCAS 2015) Dur ing the years 2005 – 2012 (see baseline section).

On average East Kalimantan has lost due to logging 60.2 tons of carbon per hectare per year from 2001 to 2012, while Ratah only lost 2.8 tons/ha cumulatively in the last 5 years when excluding the eastern area allocated to local communities.Total area of Ratah is 93.425 Ha. The total carbon loss for the entire area was 2.8 x 93.425 Ha= 261.590 ton for five years. Total logging area was now
correctly 11.761,86 Ha. Therefore, carbon loss per Ha in logged forests was 261.590 divided by 11.761,86 Ha = 22.24ton/Ha, which is for the five years between 2010 and 2015. If five years, then 22.24 ton/Ha divided by 5 year = 4.68 ton/Ha/yr, the number is low compared with60.2 ton carbon/Ha (INCAS baseline.

Documentation Ecosystem Services Certification Assesment.