How to Identify Degraded Land for Sustainable Palm Oil in Indonesiaby , , , , , , , , and -
This WRI/Sekala Working Paper demonstrates how to implement a quick and cost-effective method for identifying potentially suitable “degraded land” for sustainable palm oil production in Indonesia and presents results from the application of the method in West Kalimantan and Central Kalimantan. The method consists of a desktop analysis as well as field assessments. The desktop portion of the method will be made easily replicable through an interactive Kalimantan-wide Suitability Mapper website
Palm oil production in Indonesia has the potential to generate local benefits if oil palm cultivation expansion follows sustainable planning and management practices, including respect for local interests and rights. Potential benefits include increased incomes, profits, and government revenues, reduced poverty, and improved natural resource management. Whether this potential is achieved will depend on how new areas for oil palm cultivation are identified.
This working paper demonstrates how to implement a quick and cost-effective method for identifying potentially suitable areas for oil palm cultivation. The method is designed in accordance with established standards for sustainable palm oil production, such as those of the Roundtable on Sustainable Palm Oil (RSPO); incorporates relevant Indonesian laws and policies; and is consistent with proposed national REDD+ strategies to support palm oil production on low carbon degraded land. The method consists of a desktop analysis using readily available data and rapid field assessments. It is based on a set of indicators related to selected environmental, economic, social, and legal considerations.
This method can be used by companies as a first step in a site selection process for a certified sustainable plantation and can inform government officials and nongovernmental organizations (NGOs) in assessing land use policy options to support the expansion of sustainable palm oil production on degraded land. However, since it is designed primarily to rapidly identify the highest priority areas for further investigation, it should not be used to predetermine where oil palm cultivation expansion should occur.
Using this method as a first step in a site selection process can reduce the costs of implementing the additional due diligence activities required to confirm the suitability of a potential site for oil palm cultivation. These activities, which are outside the scope of this paper, include community mapping to document community claims and rights, conducting high conservation value (HCV) and social impact assessments, implementing a comprehensive free prior and informed consent (FPIC) process, and fulfilling legal requirements.
The World Resources Institute (WRI) and Sekala applied this method to identify nine potentially suitable areas in the Indonesian province of West Kalimantan for a pilot sustainable palm oil project under Project POTICO. These nine sites were identified through targeted field assessments of high priority sites identified through the desktop analysis using project-specific criteria and do not represent all potentially suitable areas in the province.
The desktop analysis, the first step in this method, classified a total of approximately seven million hectares of land in the provinces of West Kalimantan and Central Kalimantan as potentially suitable, using the best publicly available data at the time of publication.
This desktop analysis, associated data, and other supplemental materials will be made easily accessible on a “Suitability Mapper” application to be available on this website in mid-2012. The application will allow users to replicate the desktop portion of this analysis or generate their own suitability maps—using parameters of their choice—to guide their own targeted field assessments.