Forest Carbon Monitoring
Breakthrough in Colombia
Washington, D.C.—Using new, highly efficient
techniques, Carnegie and Colombian scientists have developed accurate high-resolution maps of the carbon stocks locked in tropical
vegetation for 40% of the Colombian Amazon (165,000 square kilometers/64,000
square miles), an area about four times the size of Switzerland. Until now, the
inability to accurately quantify carbon stocks at high spatial resolution over
large areas has hindered the United Nations’ Reducing Emissions from
Deforestation and Forest Degradation (REDD+) program, which is aimed at creating
financial value for storing carbon in the forests of tropical countries. In
addition to providing a key boost for implementing REDD+, the results from the
Carnegie/Colombian partnership is a boon to tropical forest management
and conservation.
Colombian President Juan Manuel Santos Calderón remarked: “I
am delighted to see these research results of the Carnegie Institution and our
counterpart institutions working in the Colombian Amazon. We celebrate a true
collaboration that not only advances science and human knowledge, but also
builds our national scientific capacity. In a continuing partnership with
Carnegie we aim at becoming world leaders in the use of state-of-the-art science
and technology for environmental monitoring that can inform our decision making
and planning efforts for managing and protecting our precious natural
resources.”
Many approaches have been pursued for estimating tropical
forest carbon stores at different scales, but the estimates are usually too
coarse for conserving, managing and reporting forest carbon changes at high
spatial resolution. The vastly improved method presented here involves a rapid
and cost-effective combination of airborne Light Detection and Ranging
technology (LiDAR) and a satellite image analysis technology called CLASlite to produce carbon
maps.
LiDAR, mounted on the fixed-wing Carnegie Airborne Observatory (CAO), provides
detailed 3-D images of the forest canopy using laser pulses. CLASlite converts
dense tropical forest cover found in basic satellite images into highly detailed
maps that reveal deforestation, logging, and other forest degradation.
Both the CAO and CLASlite were developed by lead author Greg Asner and his team at
Carnegie’s Department of Global Ecology, and this
project represents the first use of the combined technologies in deep
partnership with Colombian government agencies. Their new methods use a “top
down” approach that dramatically reduces the need for expensive and
time-consuming field data. The study, published in
Biogeosciences, is also the first to use what Asner calls a
universal airborne LiDAR approach that nearly eliminates the need for
traditional plot inventories.
“This new study not only explores a poorly understood region
of the Amazon, it also demonstrates our newest method
for mapping forest carbon stocks at a spatial resolution approaching the size of
the larger individual rainforest trees,” (30 meters x 30 meters, 100 feet x 100
feet) remarked Asner. “With a revised, top-down methodology that combines the
best available technologies, we and our partners achieved new accuracies that
radically advance forest monitoring and carbon policy readiness in
Colombia.”
Despite the fact that the area is relatively flat, the
scientists discovered that slight variations in elevation and natural drainage
systems were important determinants of regional variation of carbon stocks. In
total, they found that the study area had about 1.5 billion metric tons of
carbon stored in the tissues of rainforest plants.
The 165,000-square-kilometer Colombian study area was
designated as a REDD+ pilot project area by the Colombian Institute for
Hydrological, Meteorological, and Environmental Studies (IDEAM). The
region is vast, with varied terrain, and is largely inaccessible due to a lack
of roads or navigable rivers. Inaccessibility issues prevent widespread field
work. The scientific partnership between Carnegie and Colombia was essential to
the success of mapping such a challenging area.
IDEAM reported that during the last
two decades, Colombia has lost about 300,000 hectares (740,000 acres) of forest, creating a
need to strengthen methods for tracking and control of deforestation,
particularly in areas that are difficult to
access.
"This joint work has permitted
IDEAM to complement the information base it has created on deforestation and
forest carbon densities as well as to strengthen national capacities for
applying the latest technology for environmental management in the country,"
said Ricardo José Lozano, the General Director of IDEAM.
Joint efforts by Carnegie and
Colombian government organizations, including the High Presidential Council on
Biodiversity and Environmental Management and IDEAM, realized important advances
in Colombian capacity to map forest carbon with cutting-edge
technologies. With support from the Colombian Air Force, the Agustin
Codazzi Geographic Institute, the Puerto Rastrojo Foundation, and the Ministry
of Environment, the team carried out the project by overcoming complicated data
acquisition conditions.
“Collaborative effort through all stages of scientific
planning, operations, and analysis ensured success among project objectives,”
noted John Clark, a Latin American project
coordinator at Carnegie. “Through knowledge sharing, technology transfer, and
inter-institutional coordination, we jointly improved an approach for
high resolution forest carbon mapping that can be applied anywhere in the
world.”
The scientists are now planning for additional airborne and
satellite mapping to address the challenges of climate change in Colombia and
the western Amazon basin.
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This study was supported by the Gordon and Betty Moore
Foundation. The Carnegie Airborne Observatory is made possible by the Gordon and
Betty Moore Foundation, Grantham Foundation for the Protection of the
Environment, the John D. and Catherine T. MacArthur Foundation, the W.M. Keck
Foundation, and William Hearst III.
The Department of Global Ecology was
established in 2002 to help build the scientific foundations for a sustainable
future. The department is located on the campus of Stanford University, but is
an independent research organization funded by the Carnegie Institution. Its
scientists conduct basic research on a wide range of large-scale environmental
issues, including climate change, ocean acidification, biological invasions, and
changes in biodiversity.
The Carnegie Institution for Science (carnegieScience.edu) has been a pioneering
force in basic scientific research since 1902. It is a private, nonprofit
organization with six research departments throughout the U.S. Carnegie
scientists are leaders in plant biology, developmental biology, astronomy,
materials science, global ecology, and Earth and planetary science.
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