VegNet Vol. 14,
No. 5.
On the WEB at: http://vegnet.osu.edu
If experiencing problems receiving this
fax, Call 614-292-3857
In This Issue
1. More Cold Air
2. Imidacloprid, Bees and Vegetables
3. Crop Report
More Cold Air
Nothing like last time, but there are some more opportunities for
frost in the next several days. Over the weekend, a big Nor’easter will set up
off the east coast and this will help create a superhighway for cold air to
funnel into our region on Saturday and Sunday night with the potential for
frost on both nights followed by a warm up.
Late next week, around Thursday and Friday, the potential for
frost returns again.
These will only be one or two day events with temperatures in the
low 30’s and nothing like we had over Easter weekend. As before, follow local
NWS forecasts for up to date information.
Imidacloprid, Bees and Vegetables by Gerald
M. Ghidiu, Ph.D., Specialist in Vegetable Entomology. From:
Plant and Pest Advisory,
Imidacloprid, originally sold as Admire, Provado, and
Gaucho, has been reported to be responsible for high losses in honeybees. High
bee losses have been reported throughout
Even though the data does not present a clear cause-and-effect relationship,
vegetable growers can opt to use non-imidacloprid treatments
that are just as effective in many vegetable crops as preplant,
in-furrow or seed treatments. These include Bifentrhin
(a pyrethroid), Counter, Cruiser (thiamethoxam),
diazinon, lindane seed
treatments, Fortress (chloreythoxyfos), Furadan (carbofuran), Lorsban (chlorpyrifos), Mocap (ethoprop), Permethrin, Platinum (thiamethoxyam),
Thimet (phorate), Trigard (cyromazine), and Venom (dinotefuron) are labeled on certain vegetables.
Before using any preplant, in-furrow or
seed treatment, refer to the manufacturer’s
label for complete listing of
crops, directions, restrictions and safety information.
Crop
Report by
Brad Bergefurd,
Sweet Corn Freeze Injury
I have been in several fields this morning where emerged sweet corn even
planted under clear plastic has received some cold injury the past few nights.
Corn emerged in unprotected non plastic fields are showing much worse injury
than the plastic planted corn. How will this corn injury effect plant growth
and survivability? Since these plants are still at the just emerged seedling
stage the growing point is still below the soil surface about 1/2 to 3/4 inch,
however the next few nights forecast in the teens could freeze the soil to this
depth especially in non plastic fields resulting in death of the growing point.
The health and condition of the corn plant’s growing point region plays a major
role in determining whether a damaged corn plant will recover or not. A damaged
plant with a healthy, undamaged growing point (apical meristem)
will survive. Damage to the growing point area will either kill the plant or
severely stunt its recovery. Corn's growing point is initially located 1/4 to
3/4 inch below the soil surface, near the crown. The growing point remains
below ground until about the V6 stage. While corn younger than V6 can tolerate
a fair degree of above-ground damage to leaf tissue by frost, lethal cold
temperatures (32F or less for several hours) can 'penetrate' the upper soil
surface and damage or kill the growing point of a young corn plant.Damaged corn fields need to be left alone for several
days after the damage occurs to give them some time to initiate recovery.
Recovery from the whorl will appear within 3 to 10 days, depending on
temperature and soil moisture. Warmer temperatures and adequate soil moisture
encourage rapid recovery, while cooler temperatures and/or drought stress
restrict the rate of recovery. The stalk tissue near the growing point region
should remain firm and yellowish-white. Injury occurring close to the growing
point may alter normal hormonal activity and cause deformed regrowth.
After three to five days, surviving corn plants should be showing new leaf
tissue expanding from the whorls, while dead corn plants will still look dead.
Yield loss to frost damage in corn younger than V6 is related primarily to the
degree of stand loss, not to the degree of leaf damage.
For more information see the OSU Extension CORN Newsletter from 2002, http://corn.osu.edu/archive/2002/may/02-14.html
, that covers cold weather injury to corn from that year.
Greenhouse pollutant or other Injury to greenhouse transplants
I have been in several greenhouses this morning and yesterday where we have
identified transplant injury due to heaters not properly functioning. With the
past few nights of very low temperatures and the forecast for at least 10 more
days and nights of high heat demand in greenhouses growers should be aware of
potential air pollutant injury potential in their greenhouses. I observe this
injury at least once each year and this could be avoided if growers took a few
simple precautionary steps.
Transplants we have identified that have been affected, injured, stunted and
killed include seedling peppers, lettuce seedlings, cabbage seedlings and
tomato seedlings. In the past we have identified high tunnel tomatoes in bloom
aborting and dropping their blooms from poorly functioning heaters and the
grower lost their first two valuable sets of fruit .
Growers should consider placing carbon monoxide alarms around their greenhouse
heaters which measure the parts per million of carbon monoxide in the
greenhouse air and also several brands will trigger an alarm when levels are
accelerated.
Air pollutants
The most common and serious forms of greenhouse
pollution are combustion gases generated by faulty heat exchangers, dirty fuel
openings and incomplete fuel combustion. Poor combustion not only reduces the
efficiency of the heater, the fuel that is not combusted contains pollutants
such as carbon monoxide, sulfur dioxide, nitric oxide and ethylene. Ethylene,
sulfur dioxide and nitric oxide, even in small quantities, can harm
tender young seedlings.Well-sealed, energy efficient
greenhouses have added to the problem by reducing outside air exchanges. Leaks
of fuel such as propane and methane must be fairly large to be hazardous for
human health, but even small leaks can adversely affect plants. Similarly,
ethylene is only dangerous to humans at high concentrations, but ethylene
levels of less than 0.05 ppm can make tomato leaves
bend downward (epinasty). With chronic exposure,
stems may thicken, branching may increase, and flower buds may abort or develop
into malformed fruit. Under chronic low exposures, however, symptoms may be
hard to recognize, especially if clean air grown plants are not available for
comparison. Diagnosis is also difficult because of the time lag between the
period of ethylene exposure and the time damage is noted. The safest practice
is to maintain proper ventilation, even at the expense of energy conservation,
and observe plants closely for signs of damage when heaters first come on in
the fall and during periods of unusually cold weather in the winter.
Problems arise when inadequate combustion air within the greenhouse prevents
complete combustion and proper venting of combustion gases. These gases can
leak into the greenhouse from the draft diverter on the heater. Proper venting
is also essential to prevent exhaust gases from being drawn back into the
house. Proper maintenance also prevents problems. Adjustment and checking for
gas leaks is best done by professionals before the start of the heating season.
Maintenance should include cleaning the unit heater and fuel orifice at least
twice a year and regularly inspecting the flame for changes in appearance.
Propane flames should have a small yellow tip while natural gas flames should
be soft blue, with a well-defined inner cone. Another problem is the use of old
burners. If there are holes in the combustion chamber, surface exhaust can be
sucked directly into the greenhouse through the heat circulation fan attached
to the heater furnace. A properly sized draft induce fan, installed in the
chimney can prevent this problem.
Unburned Fuels
Unburned hydrocarbon fuels, such as those from gas supply lines and
direct-fired heaters or burners for C02 generation, can be hazardous. This will
occur if the burner operation is faulty (e.g. open gas valve when pilot light
is off) or when the pipe fittings are leaking. The latter occurs more often
after alterations to the gas supply lines and inadequate checks (pressure tests
or soaping the fittings) have been made for leakage. Symptoms are similar to
those described for ethylene.
For more information on Greenhouse air pollution injury to greenhouse crops see
the fact sheet located at http://www.ces.ncsu.edu/depts/hort/greenhouse_veg/more_info_/stress2.html
for more information. Best thing is to have a certified Heater technician
inspect the heaters at the beginning of each season for proper operation.
If you suspect injury to plants get a sample to your