Properly installed insect screening restricts the entry of
insects and pests and reduces pesticide use.
The disadvantages of insect screening include increasing
sizing and fastening problems, decreased ventilation, reduced access to the
greenhouse and added maintenance. In addition, screens can keep insects in as
well as out.
Screens with small holes are more effective in excluding
pests but are more resistant to airflow. A screen with too much restriction of
airflow can cause higher static pressure drops, inadequate air exchange,
increased energy consumption by the fans, excessive wear on the fan motors and
higher greenhouse temperatures.
Yes, correctly installing screens, which have been properly
chosen for new construction or retrofitted to existing greenhouses, can exclude
insects and pests while still allowing for adequate airflow.
There are many different screens for reduction of almost any
type of insect or pest. The challenge lies in matching the type of screen to
the insect or pest you wish to control. For crops that suffer from pests during
a limited part of the growing season, lighter-duty, less expensive screens will
work. For handling multiple pests at different points in the growing season
(e.g., aphids in spring, thrips in summer and whiteflies in fall) select a more
Lighter screens can also be used for short-term, interior
zones and for periodic use when pests appear in larger numbers. Heavier, more
rigid screens can provide protection against sun, wind, rain, hail, snow and
wear and tear from equipment and workers brushing against it.
Even though thrips are small enough to fit through most
screens with good airflow, it has been shown in many cases that they can be
dramatically reduced with the white screens designed for whiteflies. It is
theorized that these screens are effective due to the color of the screens and
the thrips’ inability to recognize the material as something to feed on.
Insects range in size from 215 micrometers (western flower
thrips), which is barely visible to the naked eye, to 608 micrometers
(serpentine leaf miner), which is easily diverted by screens.
The most common screen, most often seen in homes, is made of
stainless steel and brass. While being the longest-lasting, it is the most
There are two types of polyethylene screens. One is
monofilament, woven with solid strands similar in appearance to fishing line,
which is very rigid and strong. The other type is made of film that is punched
full of “micro holes” and used as a crude, but low-priced, insect
barrier. Drawbacks include weak construction and low UV protection as well as
very restricted airflow.
A third type is polyethylene/acrylic. This material is made
of many fibers, “multi-filament,” which causes resistance to smooth
yarns sliding together and thereby maintains the integrity of the holes.
A fourth type is nylon. This type is good for shorter-term,
low-cost and light-duty applications; it is more restrictive to air flow.
There are three manners in which screens are constructed.
Weave, the most common, provides a trade-off between hole size and airflow. Be
sure to always check the tightness of the weave and apply lateral tension to
see if the hole distorts. Knit means that each thread is tied around the next,
creating a durable network resistant to tearing and raveling. Extra loops and
knots may cause greater air restriction. Film can be punched full of micro
holes creating an insect barrier that is very restrictive to airflow and must
be applied with the correct side out.
Willits (1993) recommends an air exchange of 11-17 cubic
feet per minute per square foot. These low rates are based on a study conducted
using no alternate cooling devices, e.g., cooling pads, shade cloth, white
The first step in retrofitting with insect screen is to
check the current ventilation system. Measure the difference in static pressure
in the structure with all the fans off and then with all the fans running. Use
that pressure drop when consulting the manufacturer’s specification chart
to estimate the total amount of air moving through the greenhouse. Interpolate
between 0.0-inch, 0.05-inch and 0.01-inch volumes given for the various fans
and motors. (For example, a 0.025-inch pressure drop is halfway between the
0-inch and the 0.05-inch. Thus, the volume of air moved would be halfway
between the volumes given for 0 and 0.05.) Then add up all the volumes of the
fans together. Divide this total by the number of square feet of the
greenhouse; the quotient should equal an air exchange of 11-17 cubic feet per
minute per square foot. Certainly if the volume of air exchanged is below 8
cubic feet per minute, the structure is likely to overheat during hot, bright
weather. If the total volume of air exchange is well above 17 cubic feet per
square foot, the selection of screening fabric may be limited and transpiration
and evaporation will be excessive.
In a naturally ventilated greenhouse, the speed of the air
is neither as rapid nor as constant as that of greenhouses ventilated with
fans. Therefore, there is no formula for determining how the greenhouse will
function when screened. Naturally ventilated greenhouses can be successfully
screened if the following guidelines are considered.
When does the crop suffer from insect damage? Is it at a
time when heat loads are critically high for the crop? You may consider not
screening all vents, monitoring temperatures closely and removing the screen
when the pest threat is past and the weather grows warmer.
If the greenhouse is already at its upper limit for
temperature, you have three options. One, increase the open area of your vents
and replace solid poly walls with walls made of insect screen and covered by
roll-up poly film. If you are unsure of heat gain, experiment with one section
at a time until you are comfortable with the application. Second, you could
screen only the side that faces the wind, since most insects are carried by
wind; this method has been shown to reduce insect populations. Three, consider
the color of shade cloth used to shade the greenhouse. Black shade cloths,
although they have a long UV life, tend to create excessive heat transfer,
radiating heat into the house. By using an aluminized shade cloth ,you can
negate the additional heat gain associated with the insect screen.
Yes, the screens need to be cleaned or dirt and dust will
alter the static pressure in the greenhouse. Although you should check with the
manufacturer for proper cleaning guidelines, the following suggestions may be
used for most screens. Clean the screens from the inside out with a hose and nozzle pressure. Never use high-pressure cleaners or brushes as they will alter the holes’ size and make the screening useless. Screening should not be
cleaned during ventilation, as the water can fill the openings and completely
stop airflow. The best time to clean is in the evening when ventilation is
There are three options when fastening your screen: poly
fastener, spring lock or lath. Remember that keeping the screen snug and
avoiding abrasion are your main goals when attaching the screen. Contact your
NGMA greenhouse manufacturer for recommendations, as they may have ready-made
Average grower: The average grower, one that grows and sells
to market or end users, usually wants good control of insects and will be
content with a 70-90-percent decrease in pests. These results can be achieved
by screening the air inlet only.
Primary propagator and research facilities: Propagators have
a high demand from their customers to provide insect-free plants, and research
greenhouses need full control of the environment. In these two instances, the
following things need to be screened: the air inlets, vents and fans. In addition
to screening, the doors need to be air-locked and all leaks or gaps in the
house need to be sealed.
The need for insect screens will continue to increase due to
reduced availability of insecticides and the demand for high-quality,
insect-free plants. With this increase, we will see more applications for
insect screens. As the NGMA members would like to encourage their successful
use, they have written a considerations document specific to insect screens.
Contact the NGMA office for a free copy or download it off the web at
With the latest whitefly infestation fresh in your mind, now might be the perfect time to add another layer of protection to your greenhouse — insect screening.