Scaffolds 99 index
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FACES IN THE PARADE
(Art Agnello ama4@nysaes.cornell.edu,
Entomology, Geneva)
Obliquebanded Leafroller
No obliquebanded leafroller adults have been caught yet in western
N.Y., but it won't be too much longer before the first moths start showing
up, considering this spring's warm trend. As usual, larvae can be found
now in many stages of development, from the very tiny to the pupal stage
in some of the more advanced sites. This would obviously be an advisable
time to hang a wing-type pheromone trap in problem apple blocks, to fix
the date of first emergence in your specific area. Recall that we recommend
sampling at 600 DD (base 43°F) after the first adult catch, to determine
the need and timing for treatment. It pays to keep an eye on the daily
highs and lows for your area if you are doing your own trapping, as it's
likely that our "normal" sampling date of July 5 will turn out to be too
late this year.
Larvae of the first OBLR summer brood cause two kinds of damage --
foliar feeding injury and rolling of the leaves,
Foliar terminal damage caused by obliquebanded leafroller larval feeding
and more importantly, injury caused by feeding on the surface of the
developing fruits. This fruit damage is usually more serious than the
spring feeding by overwintered larvae, because more of the fruit injured
late in the season remains on the tree at harvest.
Late season fruit feeding injury caused by second brood obliquebanded
leafroller larvae
Despite the rather extreme measures some growers wage in the spring against
the early generation larvae, you should remember that even an excellent
control program against the overwintered brood does not eliminate the
possibility of a problem summer population. To maximize the effectiveness
of any sprays against the first summer generation OBLR infestation, you
should sample leaf and fruit clusters at the proper time. The value of
knowing the precise date of first adult flight on your own farm cannot
be emphasized too strongly, and maintaining a few pheromone traps is not
terribly difficult or time consuming. Check traps two or three times a
week until the first adult is caught. Wait for 600 degree-days (43°F
base) after this date to begin sampling for 2nd- or 3rd-instar larvae.
Degree-day (DD) values can be obtained for some locations from NEWA (Northeast
Weather Association) or from Cooperative Extension service letters. Most
conveniently, you can also just look them up in the DD charts that appear
on pp. 109-112 in the 1999 Recommends by using the daily high and low
temperatures, or else estimate them each day by using the following formula:
Degree Days for 1 Day = 1/2 x [Daily Maximum Temp. +
Daily Minimum Temp.] - 43.
Guidelines for sampling can be found on pp. 84, 92-93, 96 and 101
of the Recommends.
Sample from random trees that are representative of the entire block,
examining 10 expanding leaf terminals per tree. It is not necessary to
pick the terminals. Record the number of samples infested with live larvae;
do not count actual numbers of larvae in an infested terminal, and do
not count damaged terminals that have no OBLR in them, or those containing
only dead OBLR. To minimize bias, choose half of your samples from inside
the tree canopy, including some watersprouts, and the other half from
near the outside of the canopy. If the tree is more than 10 ft tall, try
to include some clusters from the mid- to upper canopy area. Use the 3%
infestation threshold for fresh fruit, and 10% for processing fruit. A
"Stop Sampling and Treat" decision means that a spray to control OBLR
is recommended at this time. A "Stop Sampling, Don't Treat" decision indicates
that you should return in 3-5 days, after 100 more degree-days have accumulated,
and repeat the sample. Recommended materials include SpinTor, a B.t. product
(such as Dipel, Biobit, Javelin, Agree, etc.), Lorsban, Lannate, or possibly
Asana or Penncap-M, depending on the population pressure, field history,
and resistance/tolerance particulars of your orchards.
Because of the difficulty of adequately controlling problem OBLR
in NY, the preferred spray strategy in blocks with a history of heavy
populations is to forgo the sampling and make three applications based
on DD accumulation (base 43°F) after the first sustained moth catch.
The recommended application timings are: 200-300 (about 5-7 days after
first catch), 500-600, and 800-900 after first catch of adults.
Summer Oil for European Red Mite
In situations where European red mite pressure or the crop's sensitivity
to them haven't necessarily justified the expense of an early season treatment
with Agri-Mek, Apollo or Savey, this is the time of year when a summer
oil program might be considered as an alternative preventive approach.
Field research trials conducted in commercial and experimental apple orchards
in western N.Y. have shown the effectiveness of using a highly refined
oil in a seasonal program to control mites throughout the summer. Some
examples of these products are Sunspray Ultra Fine Spray Oil (Sun Refining
& Marketing, Philadelphia), and Stylet-Oil (JMS Flower Farms, Vero
Beach, FL); others are labeled and may be available, although we haven't
tested all brands.
Our approach is to make three applications, on a preventive schedule,
immediately after the bloom period, before mite populations have a chance
to build. The first application can be any time from petal fall to 1-2
weeks later, followed by two additional sprays at 10-14 day intervals.
The oil is not concentrated in the tank, but rather mixed on the basis
of a rate per 100 gallons of finish spray solution; for instance, at the
1 gal. rate, a spray tank holding 500 gallons receives 5 gallons of oil.
The sprays are applied at a volume sufficient to obtain adequate coverage
of the canopies; in most cases, we recommend 100 gal. per acre. Dosages
that we have tested are 6.5 oz., 1 qt., and 1, 2, and 3 gal./100 gal.
of finish spray solution. Results of our tests can be summarized as follows:
the 2 and 3 gal. rates effectively controlled mite populations for the
entire season in all but the most extreme cases; the 1 gal. rate maintained
control of moderate populations but was not effective against severe mite
pressure (a fourth spray was necessary later in July); and the lower rates
provided only minimal control (light population pressure), permitting
unacceptable mite numbers by mid-July in orchards with moderate or severe
populations.
Overall, the results of this work have demonstrated that summer oil
applications can be used to effectively control European red mite populations
in many orchard situations. So far, mites have not demonstrated an ability
to develop a resistance to oil, and oil is less toxic to at least some
beneficial species than are traditional toxicants. Although it is possible
to kill some predator mites by directly spraying them, overall mortality
is not very high. Some potential drawbacks to keep in mind if using this
management strategy:
• potential compatibility problems with some fungicides needed
to control summer diseases, particularly captan.
• small necrotic leaf lesions in some situations or on certain
varieties, especially when high-rate (>2%) applications take place
under poor drying conditions (not too much of a threat this year so far).
• a tendency for increased "scarf skin" in some varieties such
as Red Rome and Jonathan.
Cherry Fruit Flies
No adults have been reported caught on sticky board traps yet, but
because of the zero tolerance in cherries for insect damage or presence,
it's prudent to begin sprays in your cherries now (for this pest as well
as for curculio).
Cherry fruit fly adult
Guthion, Imidan (tart cherries only), Sevin, the pyrethroids, or Penncap-M
are all effective treatments. Sevin, Imidan and Penncap-M will also control
black cherry aphid.
Lesser Peachtree Borer
Remember to get your trunk and scaffold sprays on peaches and cherries
during the first week of June if borers are a problem in your blocks.
This pest increases the severity of Cytospora canker infections in peaches
and is often found within the canker; by feeding in the callous tissues,
it interferes with the tree's natural defenses against the disease. Infestations
can be determined by the presence of the insect's frass, which resembles
sawdust, in the gum exuded from the wound. In peaches, you can use Lorsban,
Thiodan, Asana, Ambush, Pounce, or Penncap-M for this application. In
cherries, use Lorsban 4E, Thiodan 50WP, Asana, or Ambush 25WP as a trunk
spray ONLY; do not spray the fruit.
Leaf Weevil
This is about the time of year that a bright metallic green snout
beetle about 1/5" in length appears in apple orchards and strawberry fields,
sometimes in considerable numbers. This weevil is most likely Polydrusus
impressifrons, also called simply the leaf weevil. It is of European origin
and was first reported in New York in 1906. The larvae live in soil, where
they feed on roots of various plants. The adult weevils feed on the foliage
of many host plants, including birch, poplar, and willow, but also apple,
pear, and strawberry. Leaf feeding is usually not extensive enough to
justify special sprays. In commercial orchards, the normal cover spray
program will take care of this problem. If the weevil appears in great
numbers in a nursery, control using an OP may be necessary.
PLUM CURCULIO
(Deb Breth dib1@cornell.edu, Lake
Ontario Fruit Team, Albion)
Activity has picked up with these warm, damp conditions. If Petal
Fall was on May 18 in early sites in McIntosh, we have accumulated about
140 DD (base 50°F). Control sprays for plum curculio are no longer
necessary if the last spray has been applied within 10-14 days after the
accumulation of 340 DD from Petal Fall. With average temperatures in the
70's, it could be another 10 days before we reach 340. It is time to re-apply
if it has been 10-14 days since your last treatment. Border sprays may
be adequate if they cover 3-4 rows around the edges, but in orchards with
high curculio pressure, a full cover spray would be more appropriate.
MODEL UPDATE
The Michigan model for predicting this insect's development gives
fairly accurate predictions of codling moth activity in N.Y. As many as
two insecticide applications may be made for each of the two generations
per year, depending on the severity of pressure. Degree days are accumulated
from the date of first sustained moth catch, and the first spray is applied
at 250 DD (base 50°F), which corresponds with predicted 3% egg hatch.
A second spray may be applied 10-14 days later. If pressure is not too
severe, one spray will suffice, applied instead at 360 DD after the biofix
date (which we're calling May 13 in Geneva and May 2 in Highland). To
control the second generation, the timing is 1260 DD after this same biofix
date. Degree days (base 50°F) accumulated so far in Geneva = 228,
and in Highland = 334.
End of current issue: Scaffolds 1999 index |
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