U. WASHINGTON (US) — Seeds gobbled by birds and dispersed across the landscape have a better chance of surviving, and new research may explain why.
Scientists have long known that those seeds that are carried in birds’ bellies tend to fare better than those that fall near parent plants where seed-hungry predators and pathogens are more concentrated.
A recent study shows that seeds from a wild chili pepper plant found in South America, after being eaten and passed through the digestive tract of small-billed Elaenias, emerge with less of the odor that attracts seed-eating ants and carry fewer seed-killing pathogens.
Passing through bird guts increased seed survival 370 percent, regardless of how far the seeds were dispersed from its parent, says Evan Fricke, a doctoral student in biology at the University of Washington and lead author of a paper published in Ecology Letters.
“Ecologists have not been considering gut processing as a factor when they find seeds having less predation or infection away from parent plants, but they should,” Fricke says. “If similar mechanisms are happening with other species, then ecologists have been missing some major benefits of seed dispersal mutualism between plants and animals.”
The assumption has been that the better success was all a matter of distance. And in some cases it is. There have been previous experiments, for example, where seeds from a single plant were planted right by the plant and others at some distance away—no passing through an animal gut, just planted by hand. The seeds farther away survived better.
Not all plants benefit when seeds are far from the parent plant, including the chili pepper in the study. The scientists found there was little survival difference between gut-passed seeds planted near other wild chili peppers and those planted some distance away.
This could lead to the mistaken idea that the short-billed Elaenia is not important for the wild chili pepper if, as previously assumed, the main value of a bird carrying seeds is to get them away from predators and pathogens around parent plants, Fricke says.
The plant in the study, Capsicum chacoense, grows to 5 feet (1.5 meters) tall and produces half-inch (centimeter) peppers that are red when ripe and hotter-tasting than jalapenos. It grows wild in Bolivia, Paraguay, and Argentina. The bird, Elaenia parvirostris, is the most common consumer of chilies at the study site in southeast Bolivia.
While still on the plant, insects infect some peppers with a kind of fungi that kills seeds. Laboratory examination of seeds that had passed through birds showed the fungal load of infected seeds was reduced by more than 30 percent. Growing under natural conditions, gut-passed seeds had twice the survival rate of seeds taken directly from peppers.
When it came to hungry ants—a major predator of pepper seeds at the study site—seeds straight from peppers were twice as likely to be carried off as were gut-passed seeds, at least for the first two days. After that the ants went after both kinds of seeds about equally.
The scientists suspected some sort of chemical dynamic and lab investigations showed seeds that hadn’t passed through birds emitted volatile compounds, especially during the first two days, that attracted ants.
Other researchers from University of Washington, Penn State, and the National Science Foundation are co-authors on the study, which was funded by the National Science Foundation and National Geographic Society.
Source: University of Washington