Termite mounds could help prevent spread of deserts

PPlns:o=”urn:schemas-microsoft-com:office:office” xmlns:w=”urn:schemas-microsoft-com:office:word” xmlns:m=”http://schemas.microsoft.com/office/2004/12/omml” xmlns=”http://www.w3.org/TR/REC-html40″

Termites might not top the list of humanity’s favorite insects, but new research suggests that their large dirt mounds are crucial to stopping deserts from spreading into semi-arid ecosystems.

TheĀ results indicate that termite mounds could make these areas more resilient to climate change.

The findings could also inspire a change in how scientists determine the possible effects of climate change on ecosystems.

In the parched grasslands and savannas, or drylands, of Africa, South America and Asia, termite mounds store nutrients and moisture and via internal tunnels, allow water to better penetrate the soil.

As a result, vegetation flourishes on and near termite mounds in ecosystems that are otherwise vulnerable to desertification.

Researchers report in this week’s issue of the journal Science that termites slow the spread of deserts into drylands by providing a moist refuge for vegetation on and around their mounds.

Drylands with termite mounds can survive on significantly less rain than those without termite mounds.

Not all termites are pests

“This study demonstrates that termite mounds create important refugia for plants and help to protect vast landscapes in Africa from the effects of drought,” said Doug Levey, program director in the National Science Foundation’s Division of Environmental Biology, which funded the research.

“Clearly,” said Levey, “not all termites are pests.”

The research was inspired by the fungus-growing termite species, Odontotermes, but the results apply to all types of termites that increase resource availability on or around their mounds.

Corresponding author Corina Tarnita, a Princeton University ecologist and evolutionary biologist, said that termite mounds also preserve seeds and plant life, which helps surrounding areas rebound faster once rainfall resumes.

“Because termites allow water to penetrate the soil better, plants grow on or near the mounds as if there were more rain,” said Tarnita. “The vegetation on and around termite mounds persists longer and declines slower.

“Even when you get to harsh conditions where vegetation disappears from the mounds, re-vegetation is still easier. As long as the mounds are there the ecosystem has a better chance to recover.”

The stages of desertification: Where termites fit in

InĀ grasslands and savannas, five stages mark the transition to desert, each having a distinct pattern of plant growth.

The researchers found that these plant growth patterns exist on a much smaller scale than previously thought. Overlaying them is the pattern of termite mounds covered by dense vegetation.

The termite-mound pattern, however, looks deceptively similar to the last and most critical of the five stages that mark the transition of drylands to desert.

Continue reading at the National Science Foundation.

Termite mound image via Shutterstock.

Leave a Reply