The announcement last month that the
emerald ash borer, an invasive beetle that kills native ash trees, had been
found in Rhode Island has raised questions about how to eradicate the invader
before it wreaks havoc on the attractive trees found in parks, roadsides and
forests.
One strategy being employed against
many other invasive species is biocontrol, the use of one organism to control
another. And while it may be too late to use it to fight the emerald ash borer
and save area trees in many locations, the strategy may help combat the beetle in
the future so the next generation of ash trees can thrive.
“Biocontrol is essentially reuniting
natural enemies with a target organism,” said Lisa
Tewksbury, an entomologist
at the University of Rhode Island who manages the URI Biocontrol Lab. “They
have an evolutionary relationship in which one organism feeds on another
organism. So through biocontrol we’re re-establishing that relationship.”
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| Emerald ash borer |
Typically, that means finding an
insect in the region where the pest originated – often Europe or Asia – testing
to make sure the insect only feeds on the pest, seeking a permit from the
government, releasing the insect wherever the pest resides, and letting nature
take its course. It’s considered an effective alternative to the widespread use
of pesticides.
In July, for example, Tewksbury
announced that she had released a moth from Eastern Europe whose caterpillar
eats nothing but invasive black and pale swallow-wort vines. The vines were
introduced to North America in the 19th century and quickly spread
throughout the East Coast. Not only do the vines outcompete native species and alter soil chemistry, they harm monarch butterfly populations. If monarchs lay their eggs on swallow-wort leaves instead of the closely related milkweed, the larvae that hatch are unable to survive.
Tewksbury and her students spent 10
years testing a Hypena moth to ensure that its caterpillars do not eat any
native plants in the U.S. – only the invasive swallow-worts – before getting a
government permit to release it in Charlestown and on an island in Buzzard’s
Bay last year.
The practice of biocontrol has its critics, however, who worry that the release of non-native insects could create additional harm to native wildlife in the United States. They point to several unregulated horror stories from a century ago, including the release of mongooses in Hawaii and cane toads in Australia. But for many invasive pests that are well established, there is no alternative to biocontrol.
The practice of biocontrol has its critics, however, who worry that the release of non-native insects could create additional harm to native wildlife in the United States. They point to several unregulated horror stories from a century ago, including the release of mongooses in Hawaii and cane toads in Australia. But for many invasive pests that are well established, there is no alternative to biocontrol.
URI has been conducting biocontrol
research for several decades and has released numerous pest enemies through the
years. Many of those pests are no longer a significant concern, thanks to the
arrival of the pests’ natural enemies.
Birch Leafminer
A parasitic wasp from Europe was
tested and released in North Kingstown by Tewksbury and her colleagues in 1989
to combat the birch leafminer, an invasive insect that “mines” between the
surfaces of birch tree leaves. The leafminer was a significant pest in the
Northeast in the 1970s and 80s, turning leaves brown in about 80 percent of the
region’s birch trees, though killing very few. The wasp lays its eggs in the
leafminer, and when the eggs hatch, the wasp larvae consume the leafminer from
the inside.
In addition to the Rhode Island
site, the wasp was released in many other locations throughout the Northeast in
the 1980s and 90s. Birch leafminers are no longer considered a pest in the
region, and damage from the insects has not been observed in Rhode Island since
2004.
Purple Loosestrife
A leaf-eating beetle native to
Europe was released at Roger Williams Park Zoo and other locations in Rhode
Island to control the spread of the invasive wetland plant purple loosestrife
in the late 1990s. The beetles reproduced so well at a site in North Kingstown
that some were collected there and redistributed elsewhere.
“In areas that had large
infestations of purple loosestrife, the beetles have cut it back quite a bit,”
Tewksbury said. “The beetle does best in open water areas, but the plant is
still growing in shady areas like along rivers. It’s been a nice long-term
success at keeping loosestrife under control, but it hasn’t eradicated it.
Biocontrol of weeds doesn’t typically eliminate the pest, but just provides long-term
management.”
Lily Leaf Beetle
A beetle that consumes ornamental
lilies was accidentally introduced in Cambridge, Mass., in 1992, and many
gardeners in southern New England gave up trying to grow lilies due to the
damage from the beetle. URI scientists identified three parasitic wasps from
Europe that control the lily leaf beetle, tested them in their lab for several
years, and released the wasps at many locations in Rhode Island, Massachusetts,
New Hampshire and Maine.
According to Tewksbury, anecdotal
evidence suggests that the beetle is no longer a significant problem in Rhode
Island, though it can still be found in a few isolated gardens. She continues
to raise the wasps in her lab to provide to colleagues in other states as the
beetle continues to spread elsewhere.
Winter Moth
The caterpillars of invasive winter
moths, which are native to Europe, have defoliated tens of thousands of acres
of trees in Rhode Island in recent years, but a European fly introduced at
about eight sites in the state since 2011 has helped to keep the moth
population under control.
According to entomologist Heather
Faubert, a URI colleague of Tewksbury, the fly lays its eggs on tree leaves at
about the same time that the caterpillars are feeding on the leaves. When the
caterpillars consume the fly eggs, the eggs hatch inside the caterpillar and
the fly larvae feeds on the inside of the caterpillar.
“Moth numbers have really come down,
and they don’t seem to defoliate much anymore, other than blueberry and apple trees,”
she said. “Some of that is due to the fly, but I’m also seeing mice and beetles
eating a lot of moth pupa, and birds love to eat the caterpillars.”
Phragmites
Two moths whose caterpillars feed
inside the stems of the invasive wetland plant phragmites are being tested at
the URI lab, and Tewksbury will soon seek government approval to release them
in the area. Phragmites is often controlled with the application of herbicides,
which should not be used in salt marshes and other coastal locations where
phragmites grows extensively.
Mile-a-Minute Vine
A weevil native to the Far East is
the weapon of choice in the fight against a fast-growing invasive vine that was
first found on Block Island in 2008 and has spread to at least seven communities
in the state. Tewksbury has released more than 60,000 weevils – some she has
reared herself, others she obtained from a biocontrol lab in New Jersey – and
she is continuing annual releases at many of the sites.
“The weevils are definitely
established and having an impact,” she said. “I can see the feeding damage
they’re having. But this plant is a really tough one to combat, and I’m not
sure how well it’s going to do. It will probably prevent the vine’s spread, but
I don’t see populations going away any time soon.”
Regardless of the level of success
the weevil has achieved against mile-a-minute vine, most scientists agree that
biocontrol is a vital option in the battle against invasive species.
“Having this lab enables us to have
an impact on a lot of natural areas in Rhode Island by controlling introduced
pests without using pesticides,” Tewksbury said. “The costs are low compared to
chemical methods, and you hope for a long-term ecological solution.”
This article first appeared on EcoRI.org on September 5, 2018.
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