Full and effective participation of indigenous peoples in forest monitoring for reducing emissions from deforestation and forest degradation (REDD+): Trial in Panama's Darién

Javier Mateo-Vega, Catherine Potvin, José Monteza, José Bacorizo, Joselito Barrigón, Raúl Barrigón, Nakibeler López, Lupita Omi, Mariano Opua, Juan Serrano, K. C. Cushman, Chris Meyer

Research output: Contribution to journalArticlepeer-review

14 Scopus citations

Abstract

A primary technical requirement of the climate change mitigation mechanism, reducing emissions from deforestation and forest degradation (REDD+), is to calculate emissions factors, that is, the amount of CO2 emissions or removals per hectare from land use and land-use change. Emissions factors are calculated from baseline estimates of the aboveground biomass (AGB) stored in different vegetation types. Ground-based methods for estimating AGB, such as forest inventories, despite being relatively accurate and necessary for calibrating remotely sensed data such as satellite or airborne Light Detection and Ranging, tend to be expensive and time-consuming. Thus, calls have been made to improve the cost-efficiency of these methods within the context of REDD+. Also as part of REDD+, there have been calls for the legitimate inclusion of indigenous peoples and rural communities in various aspects of the mechanism. To address both of these issues, we devised a participatory, rapid, forest inventorying method and tested it across the heterogeneous forest landscape of Darién, Panama. This effort took place within a project that was administratively and logistically managed entirely by an indigenous organization working in collaboration with indigenous authorities in Darién, with funding from the World Bank. A group of 24 indigenous technicians were trained on forest inventorying methods. They established and measured thirty 1-ha plots under our direct supervision. We tested for various sources of error in tree diameter and height measurements. We also tested the scalability of our tree-level biomass estimates to the plot level by comparing our results with simulations conducted on the Barro Colorado Island 50-ha permanent plot data. Results indicate that our rapid, participatory, forest inventorying method effectively captures plot-level AGB, while guaranteeing the full and effective participation of indigenous peoples. The benefits of our method in terms of cost-efficiency and access to remote forest areas are discussed, as well as those accrued by indigenous peoples.

Original languageEnglish
Article numbere01635
JournalEcosphere
Volume8
Issue number2
DOIs
StatePublished - Feb 2017
Externally publishedYes

Funding

This study was possible due to financial support from the Forest Carbon Partnership Facility of the World Bank. We also thank McGill University, STRI, and the Margaret A. Cargill Foundation for fellowships and support awarded to JM-V. The Barro Colorado Island forest dynamics research project was founded by S.P. Hubbell and R.B. Foster and is now managed by R. Condit, S. Lao, and R. Perez under the Center for Tropical Forest Science and the Smithsonian Tropical Research in Panama. Numerous organizations have provided funding, principally the U.S. National Science Foundation, and hundreds of field-workers have contributed.

FundersFunder number
Barro Colorado Island
Forest Carbon Partnership Facility of the World Bank
Smithsonian Tropical Research in Panama
National Science Foundation
McGill University
Smithsonian Tropical Research Institute
Margaret A. Cargill Foundation

    Keywords

    • Darién
    • Forest above-ground biomass
    • Indigenous peoples
    • Panama
    • Participatory forest monitoring
    • Reducing emissions from deforestation and forest degradation (REDD+)

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