Tree-of-heaven’s prolific seed production adds to its invasive potential
Tree-of-heaven — or Ailanthus — is an invasive triple threat, according to a team of plant pathologists. The species produces seeds early in its lifespan, tends to make millions of viable seeds during its life, and continues to produce seeds for decades and, in some cases, for more than a century.
In a study, researchers, who report their findings in the current issue of Forests, found that an Ailanthus tree that lives around 40 years can produce approximately 10 million seeds during its lifetime, while Ailanthus trees that live over a 100 years can produce about 52 million seeds.
Little was known about the actual lifespan and seed viability — the percentage of seeds that germinate — of Ailanthus, a species that is now considered a growing invasive threat in numerous spots in the United States, according to Matt Kasson, assistant professor of forest pathology, West Virginia University, who began his study of Ailanthus at Penn State. He added that the species' prolific ability to reproduce is thought to be key to its invasive success.
"What really got us interested in the seed production of these trees is trying to determine what is the cumulative impact of Ailanthus — what's the cumulative seed production and output that could eventually lead to secondary invasions," said Kasson. "Knowing how many seeds can be produced is really only half the story. It's important, but we needed to know something about viability of the tree because if a tree was producing a million seeds, but only 3 percent are viable, then it doesn't pose as much of a threat."
To study the effect of size and age on seed reproduction, the researchers examined 55 seed-bearing Ailanthus trees in southcentral Pennsylvania. In addition, the researchers used data from 25 seed-bearing Ailanthus trees from France, and two other historic trees in Pennsylvania, but because the ages of these trees were not known, the researchers only examined the relationship between size and seed production for these particular trees.
Kristen Wickert, a doctoral candidate in the division of plant and soil sciences, also at West Virginia University, who worked with Kasson, said that the viability of the Ailanthus varies. For example, a 7-year-old tree, one of the youngest trees in the study, had 78 percent of its seeds germinate, while one of the oldest, a 104-year-old tree, had 66 percent of its seeds germinate.
Few species — native or invasive — in the U.S. compare to Ailanthus' seed viability, according to Wickert. Only 9 percent of a tulip poplar's annual seed production is viable, for example. She added that Ailanthus is different from other tree species because of its ability to maintain seed viability over its lifetime.
"Sometimes you find that trees, as they age, much like humans, lose their reproductive ability," said Wickert. "With tree-of-heaven, it actually seems to be the the exception."
The cumulative ability to produce so many seeds makes Ailanthus a threat to not just Pennsylvania forests, but many forest areas located throughout the United States, said Don Davis, forest pathologist at Penn State, who added that he is even receiving calls for assistance on Ailanthus from Europe.
"The invasive spread of Ailanthus is more significant now," said Davis, who also worked on the study. "It's right at the top of the list of invasive species in Pennsylvania, including trees like the Norway maple, and shrubs like honeysuckles. All these invasive species are important now because they are really affecting the forests and forest regeneration, especially."
Kasson said that Ailanthus also has other traits that enhance its invasive ability.
"It's also allelopathic, which means it produces chemicals that inhibit the germination of other native species that are growing in the same forest," said Kasson. "So, in addition to its ability to grow rapidly and produce seed early, it has the ability to stunt the growth of those competitors."
Ailanthus came to the United States as a collector's item for plant enthusiasts and amateur botanists.
"It came to the United States, in the Philadelphia area, in around 1784," said Davis. "It was strictly brought in as an ornamental — it's a beautiful tree that became popular in the Philadelphia area. Initially, collectors just brought in cuttings from male plants, but then they brought in seeds — and eventually, it took off."
Currently, the researchers are continuing to investigate the use of a native soil-borne fungus to kill Ailanthus and better control its spread, according to Kasson.
Eric S. O'Neal, a former graduate student in plant pathology at Penn State, also worked on the study.
The United States Department of Agriculture Forest Service supported this work.