Synthesizing Global and Local Datasets to Estimate Jurisdictional Forest Carbon Fluxes in Berau, Indonesia

Synthesizing Global and Local Datasets to Estimate Jurisdictional Forest Carbon Fluxes in Berau, Indonesia

Forest conservation efforts are increasingly being implemented at the scale of sub-national jurisdictions in order to mitigate global climate change and provide other ecosystem services. We see an urgent need for robust estimates of historic forest carbon emissions at this scale, as the basis for cr...

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Bibliographic Details
Published in:PloS one Vol. 11; no. 1; p. e0146357
Main Authors: Griscom, Bronson W, Ellis, Peter W, Baccini, Alessandro, Marthinus, Delon, Evans, Jeffrey S, Ruslandi
Format: Journal Article
Language:English
Published: United States Public Library of Science 11-01-2016
Public Library of Science (PLoS)
Subjects:
Acacia
Agriculture
Analysis
Biomass
Carbon - analysis
Carbon Cycle
Carbon dioxide
Carbon dioxide emissions
Carbon emissions
Climate change
Conservation
Databases as Topic
Datasets
Deforestation
Ecosystem services
Ecosystems
Emissions
Emissions (Pollution)
Environmental changes
Estimates
Fluxes
Forest conservation
Forest management
Forests
Geography
Global climate
Global temperature changes
Indonesia
Internationality
Jurisdiction
Land degradation
Logging
Parameter uncertainty
Plantations
Uncertainty
Uncertainty analysis
Indonesia
Borneo
United States > US
Virginia
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Summary:Forest conservation efforts are increasingly being implemented at the scale of sub-national jurisdictions in order to mitigate global climate change and provide other ecosystem services. We see an urgent need for robust estimates of historic forest carbon emissions at this scale, as the basis for credible measures of climate and other benefits achieved. Despite the arrival of a new generation of global datasets on forest area change and biomass, confusion remains about how to produce credible jurisdictional estimates of forest emissions. We demonstrate a method for estimating the relevant historic forest carbon fluxes within the Regency of Berau in eastern Borneo, Indonesia. Our method integrates best available global and local datasets, and includes a comprehensive analysis of uncertainty at the regency scale. We find that Berau generated 8.91 ± 1.99 million tonnes of net CO2 emissions per year during 2000-2010. Berau is an early frontier landscape where gross emissions are 12 times higher than gross sequestration. Yet most (85%) of Berau's original forests are still standing. The majority of net emissions were due to conversion of native forests to unspecified agriculture (43% of total), oil palm (28%), and fiber plantations (9%). Most of the remainder was due to legal commercial selective logging (17%). Our overall uncertainty estimate offers an independent basis for assessing three other estimates for Berau. Two other estimates were above the upper end of our uncertainty range. We emphasize the importance of including an uncertainty range for all parameters of the emissions equation to generate a comprehensive uncertainty estimate-which has not been done before. We believe comprehensive estimates of carbon flux uncertainty are increasingly important as national and international institutions are challenged with comparing alternative estimates and identifying a credible range of historic emissions values.
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Conceived and designed the experiments: BWG PWE. Analyzed the data: PWE BWG AB DM JSE R. Wrote the paper: BWG PWE DM JSE.
Competing Interests: This research was made possible by funding to The Nature Conservancy in support of the Berau Forest Carbon Program from the United States Agency for International Development (USAID), the Norwegian Agency for Development Cooperation (NORAD), Xerox Corporation, and Boeing Corporation. Funding we have received from commercial sources (Xerox Corporation and Boeing Corporation), or any other funding source, does not alter the authors' adherence to PLOS ONE policies on sharing data and materials.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0146357