Pesticide and Environmental Update
Nimble
Nematodes for Peach Pests
Peaches are a significant part of the South’s fresh-produce industry.
But since several insect pests pose serious threats to southern peach
orchards, growers must often resort to costly pesticides to protect their
fruit.
At ARS’s Southeastern Fruit and Tree Nut Research Laboratory in
Byron, Georgia, entomologists David Shapiro-Ilan and Ted Cottrell are
seeking environmentally friendly alternatives. In cooperation with Russ
Mizell at the University of Florida and Dan Horton at the University of
Georgia, the ARS researchers are evaluating two tiny, soil-dwelling
nematodes as possible biological controls.
Plum curculio, Conotrachelus nenuphar, is a tiny, snout-nosed beetle
and major pest of stone fruits, including peaches. Adult insects damage
peaches through feeding on and laying eggs in the fruit, resulting in
characteristic crescent-shaped wounds on the fruit. Infested fruits often
fall prematurely and are unmarketable. Later, mature larvae emerge from
the fruit and develop in the soil, completing the insect’s life cycle.
The lesser peachtree borer may be pretty, but it isn’t peachy.
(D1068-24)
Shapiro-Ilan and Cottrell found that soil applications of the nematode
Steinernema riobrave can suppress plum curculio larvae by 78 to 100
percent. “Nonfeeding infective juvenile nematodes seek out larval hosts,”
says Shapiro-Ilan. “When one finds a larva, it penetrates its body. Once
inside, it releases a bacterium that multiplies rapidly and kills the
host. The nematode then reproduces while feeding on the bacteria and
insect tissues.”
Curbing Airborne Marauders
Stone fruits are also plagued by clear-winged moths such as the
peachtree borer, Synanthedon exitiosa, and the lesser peachtree borer, S.
pictipes. Another beneficial nematode, St. carpocapsae, is virulent to
both closely related hosts.
At the Southeastern Fruit and Tree Nut Research Laboratory in Byron,
Georgia, entomologists Ted Cottrell (left) and David Shapiro-Ilan examine
damage caused by the lesser peachtree borer. (D1066-19)
With peachtree borers, field applications of the St. carpocapsae
nematode achieved high levels of borer control. That’s in part because
the nematodes were protected from desiccation (drying) and ultraviolet
damage by their subsoil environment.
“We found that a single application of St. carpocapsae provided
88-percent suppression when applied to mature peachtree borer infestations
in springtime,” says Cottrell. “And in a recent field trial, three
applications of St. carpocapsae during the peachtree borer’s fall
egg-laying season completely suppressed all damage.”
Though they knew from laboratory studies that the lesser peachtree
borer is also highly susceptible to St. carpocapsae, Shapiro-Ilan and
Cottrell realized that its control would be more difficult. That’s
because lesser peachtree borers attack trees aboveground, feeding in
galleries within trunks and limbs.
Technician Rebekah Long sprays beneficial nematodes onto a tree wound
to control lesser peachtree borer. Technician Chris Paulsen prepares to
apply a bandage to protect the nematodes and prolong their survival.
(D1067-5)
“Initially, we just applied nematodes to lesser peachtree borer
wounds, and—as expected—the nematodes failed to cause any significant
suppression,” says Shapiro-Ilan. But the researchers then found that
when nematodes were given adequate protection, they provided a high level
of borer control.
To achieve that protection, they applied St. carpocapsae nematodes to
tree wounds and then covered the wounds with moisture-holding bandages.
“In our first trial,” says Cottrell, “we saw 100-percent borer
suppression just 5 days after treatment.”
This suggests that further research will help peach growers make
significant headway against these troublesome pests.—By Sharon Durham,
Agricultural Research Service Information Staff.
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