www.whrc.org/mapping/pantropical/carbon_dataset.html According to a new satellite-based assessment published in the journal Nat...
According to a new satellite-based assessment published in the journal Nature Climate Change tropical rainforests store some 229 billion tonnes of carbon in their vegetation, about 20 per cent more than previously estimated.
The findings could help improve the accuracy of reporting CO2 emissions reductions under the United Nations’ Reducing Emissions from Deforestation and Forest Degradation (REDD( program.
The REDD program aims to compensate tropical countries for cutting deforestation, forest degradation, and peatlands destruction.
The paper is based on a combination of remote sensing and field data across forests, woodlands, and savannas in tropical Africa, Asia, and South America.
They found that Brazilian forests store some 53.2 billion tonnes of carbon, followed by forests in the Democratic Republic of the Congo, with 22 billion tonnes of carbon, and Indonesia, with 18.6 billion tonnes of carbon.
Overall, forests in the Americas stored about 51 per cent of the carbon locked up in tropical vegetation. Africa (28 per cent) and Asia (20 per cent) followed.
“For the first time we were able to derive accurate estimates of carbon densities using satellite LiDAR observations in places that have never been measured,” said study lead author Alessandro Baccini of the Woods Hole Research Center (WHRC).
“This is like having a consistent, very dense pantropical forest inventory.”
The authors used the data to estimate that net emissions from deforestation from 2000 through 2010 amounted to 1.14 billion tonnes of carbon a year, suggesting that deforestation accounted for roughly 13 per cent of greenhouse gas emissions from industrial sources between 2008 and 2010.
“The paper is important for two reasons,” said co-author and WHRC senior scientist Richard A. Houghton.
“First, it provides a high-resolution map of aboveground biomass density for the world’s tropical forests.
“Previous maps were of much coarser resolution and yielded wildly different estimates of both regional totals and spatial distribution.
“Second, the paper calculates a new estimate of carbon emissions from land-use change in the tropics.”
Study co-author Scott Goetz, also a scientist at WHRC, added that a study of this nature could have not been done without technological advancements like LiDAR.