When water is scarce, Ecuador laurel trees ramp up their investment in a syrupy treat that sends resident ant defenders into overdrive, protecting the trees from defoliation by leaf-munching pests.
The water-stressed tropical forest trees support the production of more honeydew, a sugary excretion imbibed by the Azteca ants that nest in the laurels' stem cavities. In return, ant colonies boost their numbers and more vigorously defend the life-sustaining foliage.
The mutually beneficial interaction between laurels and ants, which also involves tiny, sap-sucking bugs called scale insects that make the honeydew, is a well-known example of what ecologists call a mutualism. Theoretical studies predict that mutualisms should be stronger under resource-poor conditions, but until now there was little evidence to support that theory.
In a paper published online Nov. 5 in the journal PLOS Biology, U-M ecologist Elizabeth Pringle and her colleagues identify a clear-cut case of a stress-strengthened ant-tree mutualism and suggest a possible mechanism underlying it, one based on interspecies carbon exchange. Their results suggest that trees at drier sites buy insurance for their leaves, in the form of beefed-up ant protection, and pay for it with carbon, the coin of the realm.
All plant-animal mutualisms may employ a similar "insurance model," according to Pringle, a postdoctoral fellow in the Michigan Society of Fellows and an assistant professor in the Department of Ecology and Evolutionary Biology and at the School of Natural Resources and Environment. And the type of water-mediated stress response observed in the study may be more common in the future, if droughts become more severe with climate change, she said.
Michigan News press release