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Green
Peach and Potato Aphids
Several
different aphids can be found in potato fields. Aphids of themselves
can cause wilting damage by sucking out nutrients from foliage and
stem tissues and this may be a problem especially in nursery crops.
But, the real problem caused by aphids in commercial fields is their
ability to carry pathogenic viruses. In potato fields, the common
viruses are potato leaf roll virus (PLRV), the mosaic viruses (e.g.,
PVA, PVY) and alfalfa mosaic virus (AMV, “calico virus”). Persistence
is the key to the spread of a virus by aphids in the potato field.
For this reason, the most important of the aphids in potato is the
Green Peach Aphid (GPA) (Myzus persicae) which will persistently
carry PLRV, usually the major viral problem on potato. Other aphids
that will carry viruses non-persistently are Potato Aphids which
may carry PLRV and others as the GPA, and Alfalfa Aphid which carries
the non-persistent AMV/calico.
 Description
GPA
undergo three stages of development: adult, nymph and egg.
Adults
have a tear-drop shape. Winged adults are bright green with a dark
head and thorax, and a greenish abdomen with dark patches. They
secrete a sticky substance called honeydew. In contrast, potato
aphids are larger with more elongated bodies. The best method to
obtain a positive identification is to view under a microscope at
a 10X magnification and observe the head. Look at the shape and
length of the converging tubercules or projections at the base of
the antennae as viewed from above.
Nymphs
are actually wingless female adults. They have a tear-drop shape
and are about 1/10 inch long. During the early part of the season,
they are light yellowish green to pinkish, and later in the season
they are pink to pale orange. Nymphs move around and usually colonize
on lower leaves.
[See
diagrams comparing GPA with the potato aphid adults and nymphs courtesy
of McCain Foods.]
Eggs
are small and oval, and are shiny black.
Life
Cycle
 Eggs
are the overwintering form of GPA. They overwinter in trees of the
Prunus species such as wild plum, chokecherry, apricot. These hosts
have been shown to have different preferences for GPA in different
parts of the country. Harsh winters may kill some of the eggs and
conversely more eggs may survive mild winters. The eggs survive
in the bark of axillary buds. Hatching occurs in the spring just
after full bloom (“green tip” stage) and nymphs, wingless female
adults, emerge feeding for two or three generations on the leaves
of the tree. In late spring, winged adults are produced and migrate
to secondary hosts such as potato. But they are more likely to move
to one of over 100 species of plants that can serve as secondary
hosts. Some of the more common of these hosts include mustards,
nightshades, ground cherries, and several ornamental or vegetable
crops. During spring migration, winged adults travel many miles
to many hosts depositing nymphs in colonies up to 20 on the lower
third of plants. Later these nymph colonies will produce more winged
adults that travel further (summer migration). During this migration
cycle is when viral transmission occurs as the nymphs pick up virus
from the colonized plant and the winged adults then transmit them
to other plants. Many generations can be produced; the turn around
rate reported is every eight to 14 days at 70oF. With the exception
of the overwintering generation, the females give live birth to
only females so their reproductive energy is very streamlined. With
each generation, a greater proportion of winged adults, both male
and female, are produced, and more are flying and spreading viruses.
Toward the end of the season, the winged adults migrate to Prunus
trees to lay the eggs that will overwinter.
Although
the normal life cycle of the GPA involves overwintering in trees,
GPA are also able to remain active all year round, and thereby overwintering,
in greenhouses on bedding plants. An Idaho survey conducted in 1990
showed that over a third of the salable bedding plants were infested
with GPA. These would be capable of escape either from the greenhouse
or from home gardens developed with aphid-infested plants into potato
fields.
Damage
GPA
nymphs ingest sap from leaf veins and, if sufficiently severe, could
cause  some
wilting damage. However, in potato fields, this is not why GPA is
a concern to production. The concern dealing with all aphids that
feed on potato is that they are vectors of pathogenic viruses, that
is, they can carry viruses and inject them into healthy plants.
The main concern with GPA over other aphids is that it can carry
the PLRV persistently. Potato Aphid, for example, does not transmit
PLRV persistently (non-persistent vector). Non-persistence means
that the potato aphid picks up the PLRV, for instance, and injects
all that if picked up on the next plants it feeds on. After that
it must re-infect itself by feeding on another infected plant before
it can spread the virus to another plant. GPA, on the other hand
being a persistent vector, need only to pick up the viruses once
and then it can infect one plant after the other without ever landing
on another infected plant again.
Potato
Leaf Roll (PLRV)
Note
that viral infection and symptoms also occur in plants arising from
seed tubers that are infected with the virus. See Biological Management
-- Seed Certification.
Vine
-- Early season symptoms develop mostly on young leaves. They appear
upright, pale and rolled. Leaves are crisp and stiff, and give a
rattling noise when shaken. Plants are usually stunted and rigid
when the seed tuber or piece was infected. Later in the season,
leaf rolling is increased and all leaflets are affected. The leaf
rolling should be confused with wilts such as Verticillium wilt
(early dying) with which leaflets are limp and browning, and one
side of the plant is initially affected. Black leg will also show
a leaf roll but always look for the infected stem at the base. Plants
invaded with Euro. corn borer will also leaf roll so look an entry
hole of the larva.
Tuber
-- PLRV can affect tuber quality. This symptom is called net necrosis
and appears as translucent spots from the tuber center extending
ray-like. This is a concern because when fried these spots will
turn brown resulting in polka-dotted french fries and potato chips.
Note that this symptom can also be confused with freezing damage
(see physiological disorders).
PLRV
Transmission
Several
species of aphids can transmit PLRV, but the GPA is by far the most
efficient vector of this virus. PLRV transmission is more complicated
compared to other potato viruses. PLRV is concentrated in the phloem
of the plant. To pick up this virus an aphid must feed from the
phloem which occurs only if the plant is a host plant. When the
aphid ingests the virus, the virus will pass through the wall of
the gut into the blood of the aphid. The virus will eventually move
to the salivary gland where it can potentially be transmitted to
the next plant the aphid injects saliva into. The virus can be picked
up in less than 30 minutes of feeding, but there is a lag time of
12 to 36 hours before the virus will enter the salivary gland and
be able to be passed on to the next plant. A major aspect of this
type of transmission is that it is persistent and the aphid will
be able to transmit the virus for the rest of its life.
Note:
PLRV and other potato viruses are NOT passed from aphid to aphid.
Each nymph must obtain the virus from an infected plant. These viruses
also are NOT passed on from generation to generation. Each spring,
the nymphs must pick up new virus fresh from emerged hosts which
include many weeds such as nightshades, plants growing from infected
seed tubers, plants growing in cull piles from infected discarded
tubers, or from infected volunteer potatoes growing in the field
of last year’s crop.
Monitoring
The
inability to predict the occurrence of GPA populations causes difficulty
in aphid and viral management. Several sampling tools have been
used to aid in predicting GPA populations in potato. Large suction
traps and smaller yellow pan traps have been used. However, current
evidence indicates that these may not work best. Recommendations
for GPA population monitoring rely on regular leaf sampling for
aphid presence. Regular monitoring for GPA will allow the grower
to identify the presence of the aphid at the earliest possible time.
Beginning early in the season, monitor nearby Prunus trees and weed
hosts such as mustards, nightshades and ground cherry. GPA infestations
tend to begin or be higher near the edges of fields, particularly
the windward side of the field and near building and shelter belts;
special monitoring of these areas may provide warning on the early
presence of aphids. Home gardeners and truck farmers should also
be monitoring, not only their potato plants but also other garden
plants and weeds in the area.
As
soon as full leaves are out on the potato plant, sampling should
be initiated in seed fields. GPA are more likely to be found on
the lower third of the plant, so leaves should be chosen from this
area of the plant. The entire field should be covered with a cris-cross
or diagonal pattern when sampling. It is important to properly identify
them so it’s best to collect them for later identification under
magnification and note the form of the aphids, winged or wingless.
The form of the aphids indicates the status of the aphid population
in the field. If wingless aphids are present, colonies are likely
to have been established in the field. However, if only winged aphids
are present, the aphids found likely arrived only recently into
the field. A minimum of 50 leaves should be sampled from across
a field, but a 100-leaf sample will give an even better estimate
of their potential presence. Monitoring for the aphids should continue
as long as the vines are green and growing.
Leaf-sample
thresholds vary a great deal depending on the type of potato being
grown. For seed potato, a threshold of 10 wingless GPA per 100 leaves
has been established in the upper Midwest. This threshold is used
to eliminate treatments that are of little value. Some other seed
producing areas use a zero-tolerance threshold. Thresholds to reduce
net necrosis vary between different production regions. Idaho indicates
that their threshold is 10 wingless aphids per 50 leaves, while
the upper Midwest (MN, ND, WI) threshold is set at 30 wingless aphids
per 100 leaves.
Management
Potato
Seed Certification -- GPA and other aphids are not a major problem
as long as they do not pick up potato viruses be they PLRV or mosaic
viruses. A major source, though not the only source, of these pathogens
is infected seed tubers that are planted. Keeping the viral load
to a minimum is achieved primarily through testing of seed tubers
and growing those which were found to be viral free. This job is
done through the States’ Potato Certification Associations. Viral
levels in nuclear and early generations of certified seed are low
enough to prevent problems from developing if aphid populations
are managed properly. Therefore, it is crucial to plant certified
seed. This is also true home gardeners and small acreage growers.
Biological
-- Several other cultural practices can be undertaken to reduce
the potential for developing PLRV and other viruses. The virus pool
can be reduced by eliminating cull piles and volunteer potatoes
growing in the previous years’ potato fields. If possible, seed
potato producing areas should be isolated from production areas.
Weeds such as mustards and nightshades that may host GPA in the
spring should be controlled in and around potato fields. Roguing
of infected plants can help to reduce the level of viruses in the
field. Proper roguing techniques should include the removal of the
infected plant, plus the adjacent plants on all four sides of the
infected plant. Some predation of nymphs (wingless females) by beneficial
insects is possible especially during mid season. Until recent uninformed
political pressure, genetically-modified (GMO) potato were being
developed that were immune to infection by PLRV by not allowing
the virus to replicate itself through disruption of its protein
coat. Hopefully, this politicized climate will change as more people
become better informed.
Varietal
Sensitivity
| Variety |
Leaf
Roll |
Net
Necrosis |
| Atlantic |
susceptible |
resistant |
| Centennial
Rus. |
resistant/susceptible |
resistant |
| Century
Rus. |
susceptible |
? |
| Chieftan |
? |
resistant |
| Chipeta |
susceptible |
? |
| Frontier
Rus. |
susceptible |
resistant/susceptible |
| Gemchip |
susceptible |
? |
| HiLite
Rus. |
resistant |
resistant |
| Kennebec |
? |
resistant |
| Lemhi
Rus. |
susceptible |
? |
| Norchip |
susceptible |
? |
| Norgold
Rus. |
susceptible |
? |
| Norking
Rus. |
susceptible |
resistant |
| Norland |
susceptible |
? |
| Ranger
Rus. |
susceptible |
resistant |
| Rus.
Burbank |
susceptible |
susceptible |
| Rus.
Norkotah |
susceptible |
susceptible |
| Sangre |
resistant |
resistant |
| Sebago |
? |
resistant |
| Shepody |
susceptible |
resistant |
| Superior |
susceptible |
resistant |
| Yukon
Gold |
resistant |
? |
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(sources:
"North American Potato Varieties" PAA, "Characteristics
of Potato Varieties" PNW #454, "San Luis Valley Production
Manual" XCM-181.)
Chemical
-- As with all vectored viruses, PLRV is managed by managing the
vector along with minimizing the viral pool. If possible, nearby
Prunus trees that may harbor overwintering eggs and be the first
hosts in the spring should be treated for GPA. Optimizing GPA management
requires regular monitoring, proper insecticide timing and use of
the most effective insecticides. So, a major management tool for
PLRV is insecticidal control of the GPA. Usually some type of systemic,
broad-spectrum, soil-applied product is applied at planting protecting
plants against several insects including GPA, Colorado potato beetles
and potato psyllids. Recent products containing imidacloprid or
thiamethoxam last up to 13 weeks after planting. Phorate, a commonly
used inexpensive product, gives sporadic control of GPA and offers
up to eight weeks of protection. Later season foliar treatments
have been largely relied upon in the past to control GPA. Without
doubt, Monitor is the best GPA control product currently registered
but shows poor control of Colorado potato beetle. Multiple applications
of Monitor in a year are to be avoided so selection pressure on
the aphid population can be lessened and resistance to the product
developed by GPA. If additional treatments are needed, Thiodan and
Provado are rated as good products for both GPA and Col. potato
beetle. Provado should not be used on fields where Admire was used
at planting since they are both imidacloprid. Pyrethroids in general
along with Sevin and methyl parathion are listed as products that
will likely encourage the development of severe GPA problems. There
are other products that are labeled for potato aphid but NOT for
green peach aphid; they also may not very effective against either.
Resistance
A
very important consideration for insecticidal control of GPA is
to avoid the development of aphid resistance which has developed
in several States on the East Coast and in the Great Lakes region.
GPA is one of a few species of insects like the Colorado potato
beetle that has developed resistance to all major insecticide classes.
In some areas such as Nebraska, resistance by GPA or Col. potato
beetle has not appeared yet. To delay or prevent resistance developments,
it is crucial to keep the number of application of all types of
insecticides to a minimum, to rotate between insecticide types within
the year, and to apply products that will affect more than one pest
with application. The latter requires careful monitoring and application
timing as well as choosing the right product. Treatments should
be chosen to minimize selection pressure.
Quick
Review
Appearance:
- Adult
(winged) - bright green with dark head and thorax, and dark patches
on abdomen; tear-drop body shape; 1/10 inch long
- Nymph
(wingless adult) - light yellowish green to pinkish to pale orange;
like adult but wingless
- Egg
- small, black and oval, found only on Prunus trees
Life
Cycle:
- Overwinters
as egg in Prunus trees
- Many
generations during the season starting in April/May
Damage:
- Aphid
- possible slight wilting
- Carries
viruses especially potato leaf roll (PLRV)
- PLRV
- stunting, leaf roll, tuber yield and quality loss
Management:
- Plant
certified seed
- Locate
away from Prunus trees
- Control/treat
spring hosts including trees and weeds
- Eliminate
cull piles and volunteer potatoes
- Beneficial
insects
- Monitor
in field, on bedding plants and in gardens
- Roguing
- Systemic
soil and foliar insecticides
- GMO
potato engineered with reverse viral coat protein
Sources:
- GPA
- Prunus trees, bedding plants, migration, gardens, nurseries
- PLRV
- seed tubers, weed hosts, cull piles, volunteer plants, bedding
plants, gardens, nurseries
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