Research reveals deep ties between diverse tropical rainforests

January 7, 2016
The consistency found in size structure across tropical rainforests appears to be driven by competition for light among small individual trees following a break in the canopy cover. Credit: Caroline Farrior

Tropical rainforests play a vital role in the well-being of our planet, soaking up carbon dioxide and helping stabilize the global climate. Understanding the science of rainforests—the "lungs" of the planet—is critical to maintaining the fragile balance of Earth's ecosystems.

A study from a team of researchers at the National Institute for Mathematical and Biological Synthesis, Princeton University, and the Smithsonian Tropical Research Institute reveals striking new findings about the structure of rainforests and how the trees in them interact with one another. The study, published today in the journal Science, suggests important new recommendations for how scientists study and model tropical rainforests.

Despite important differences in the climate and species composition of tropical rainforests, tropical rainforests worldwide typically exhibit a consistent size structure. Extensive field work in forest dynamics plots across the tropics has documented this consistency. By mapping and measuring every tree over one centimeter in stem size in plots as large as 100 football fields, the ecologists have noted striking similarities in the patterns of numbers of trees by their size. However, researchers have not yet found a simple biological explanation for the striking pattern.

Using data on tree sizes within the tropical forest on Barro Colorado Island in the middle of the Panama Canal, the research team on the new study proposed a new hypothesis for the consistent pattern. Their study verified the mechanism with a mathematical model, finding that the consistent pattern appears to be driven by the trees that lose in competition with other trees for light.

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In this Science Minute from NIMBioS, Dr. Caroline Farrior explains how findings from her new study reveal deep ties between diverse tropical rainforests. Credit: NIMBioS

"When a large tree dies, it creates a gap allowing sunlight to hit the forest floor. Then many small trees exposed to the full sun grow quickly until they begin to overtop each other. The unlucky individuals then begin to grow very slowly, effectively stuck at their size when overtopped," explained lead author and NIMBioS postdoctoral fellow Caroline Farrior. "It is the process of competition among for light following a gap disturbance that leaves behind a characteristic pattern of tree sizes, explaining the consistency in tree size distributions across otherwise very different tropical forests."

The study's findings have significant implications for how are modeled. This is especially important now as modelers are trying to predict the sustainability of the tropical forest carbon sink - a service provided by that currently slows the rate of atmospheric increase in by about one-sixth.

"Without reproducing this size distribution for the right reasons, models are likely to get the wrong answer when used to predict into the future," Farrior said.

Explore further: Trees employ similar strategies to outcompete their neighbors

More information: "Dominance of the suppressed: Power-law size structure in tropical forests,"

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