2 Safeguards
2.1 Artificial lighting
CTU and other storage yards are often illuminated by a number of high light
pylons/towers (see figure 6.1). These are normally fitted with gas discharge lamps.
Due to the height of the towers and the area that they illuminate the lights are
generally "bright" and therefore can attract insect and other pests from some
distance.
Figure 6.1 Lighting
tower
|
2.1.1 Lights that attract
Lights that radiate ultraviolet and blue light attract more insects than other types
of lights. Examples of these types of lights include black lights, metal halide and
fluorescent. Lights that generate heat may attract insects.
2.1.2 Less attractive to bugs
Yellow incandescent, high-pressure sodium and regular incandescent lights radiate
less blue and ultraviolet light, thus reducing the attraction of insects to the
area.
2.1.2.1 Low-pressure sodium lights
Low-pressure sodium lights do not attract insects. They are efficient, and give off
an orange-yellow light. The light gives off less light pollution at night, and is
better for stargazers. The light will change the appearance of colours it
illuminates, though, because of its orange-yellow glow.
2.1.2.2 LED lighting
New versions of light-emitting diode, or LED, lighting are more efficient and attract
fewer flying insects than other traditional lighting. LED lighting has a long
lifespan, but can be more expensive for municipalities to install initially. LED
lamps are more directional and give off less light pollution.
2.1.3 Considerations
Yard lights that do not give off ultraviolet radiation are considered less attractive
to flying insects. Some bugs are attracted to the heat emitted from incandescent
street lighting. Some bugs will be attracted to any light, which is called
positively phototactic. Some insects, like moths, use light for navigation. Moths
use the light from the moon, but when they encounter a brighter source, they move
toward it.
2.2 Seasonal pest emergence
2.2.1 In any given landscape, there may be hundreds of species and cultivars of
native and exotic trees, shrubs, and garden plants. Throughout the growing season,
these plants may be attacked by a similarly diverse assortment of insects, including
wood borers, leafminers, scale insects, plant bugs, and leaf-feeding caterpillars.
2.2.2 Timing is everything when managing landscape pests. To be effective,
insecticides or biological controls should be applied when pests are present and at
their most vulnerable life stage. For example, scale insects are best controlled
after the eggs have hatched but before the crawlers have formed a protective cover.
Controlling wood borers requires treating host trees with insecticides to intercept
the newly hatched larvae before they have penetrated the bark. Leaf-feeding
caterpillars such as bagworms and tent caterpillars are easiest to control when the
larvae are small. Timing is especially important when using short-lived materials
such as summer oils, soaps, and Bacillus thuringiensis.
2.2.3 Frequent in-the-field inspection is the most reliable means to detect insect
problems and time control efforts. Unfortunately, regular monitoring is too
time-consuming for many landscape managers. Field workers may not know when or where
to look for vulnerable life stages or may not recognize them when encountered. Pests
such as the holly leafminer, honeylocust plant bug, and potato leafhopper feed in
advance of any recognizable damage. Pheromone traps are available for monitoring
certain insects (e.g., clearwing borers) but require time and expertise to use
effectively.
2.3 Forecasting using plant phenology
2.3.1 Phenology is the science dealing with the effects of climate on seasonal
biological events, including plant flowering and insect emergence. Insects are
cold-blooded, and like plants, their development will be earlier or later depending
on spring temperatures. Since both plant and insect development are temperature
dependent, seasonal appearance of particular insect pests should follow a
predictable sequence correlated with the flowering of particular landscape plants.
In a three-year research projectfootnote , the seasonal development and emergence of 33
important insect pests were systematically monitored and tracked resulting in the
creation of the timetable below. This information would help landscape managers and
lay persons anticipate the appearance of important insect pests and effectively
schedule control measures.
2.3.2 Using this science it is possible to develop a table which predicts the
sequence and date of emergence of particular insects, pests or other species that
could constitute a biotic threat if transported overseas. Seasonal emergence of each
pest is correlated with the flowering of 34 familiar landscape plants.
2.4 Occasional pest outbreaks
2.4.1 Occasional invaders are insects and other arthropods that sporadically enter
facilities and in particular CTUs, sometimes in large numbers.
2.4.2 By far the most common problem with occasional invaders is that they become an
annoying nuisance. Some can bite, pinch, secrete foul odours, damage plants, stain
indoor furnishings, and damage fabrics. Even after they are dead, the problem may
continue. The bodies of dead insects can attract other pests that feed on them, and
the bodies, shed skins, secretions and faeces of insects can cause allergic
responses and trigger asthma.
2.4.3 Whether they're insects, mites or arthropods, occasional invaders typically
live and reproduce outdoors. They invade structures when conditions indoors are
better for them than outdoor conditions. It is important to know the conditions that
prompt invasions of unwanted pests. Altering environmental conditions can make
structures inhospitable for pests, and is an important component of integrated pest
management.
2.4.4 How to stop occasional invaders
2.4.4.1 Exclusion is the first step to prevent all occasional invaders. Exclude them
by ensuring that CTU doors are kept closed and that the seals are properly position.
However, the vents found on many CTUs will permit insects to gain entry. It is
therefore important to inspect CTUs interiors before use and/or movement.
2.4.4.2 Habitat modification is another important control method. A plant-free band
of rock, gravel or other inorganic material extending away from the facility
essentially puts a barrier between occasional invaders and the CTUs. Organic
material, such as soil, leaves, mulch, bark, grass and ground covers, retain
moisture which attracts pests and also provides food and shelter for them. Leaky
pipes, faucets, misdirected downspouts and faulty grades can also provide moisture
that attracts not just occasional invaders but many other pests including termites.
The environment around a structure also can be manipulated by reducing outdoor
lighting. Mercury vapour lights can be replaced with sodium vapour lights which are
less attractive to insects. Low-wattage, yellow "bug light" bulbs can be used and
shielded to reduce pest attraction. Indoors, windows and doors should be shaded so
little or no light is visible from outside.
2.4.4.3 Various mechanical controls also can be employed. When pests enter in
significant numbers, it is best to remove them with a vacuum cleaner. After
vacuuming, seal them in bags and dispose of them promptly. Pests that cluster
outdoors can sometimes be deterred, or at least discouraged, by spraying them with a
water hose.
2.4.4.4 Traps are another useful mechanical control. Insect monitors, or sticky
traps, can be purchased at local hardware stores, home and garden centres, from some
pest control suppliers, or through the Internet. Sticky traps are simply cardboard
with an adhesive that pests stick to when walking across them. When positioned
indoors at likely entry points, on either side of doors, for instance, they can help
monitor for pest intrusions. When numerous pests are caught on sticky traps in the
garage, it may be time to apply additional methods before things get worse.
2.4.4.5 For pests attracted to lights, commercial light traps can be used, or
makeshift light traps can be assembled for rooms where invaders congregate. Surround
the lights with sticky traps.
2.4.5 Chemical control with pesticides also can be integrated into pest management
plans, but consider using pesticides only after other methods fail. Baits, dusts and
granular formulations, can be used in some situations (see discussions above).
Total-release aerosols (known as "bombs" or "foggers") are generally of little use
in combating occasional invaders. These products may not penetrate deeply enough
into cracks and voids to contact the pests hiding there. Pesticide application
directly into nooks and crannies that harbour pests such as boxelder bugs and lady
beetles is also often recommended, but treatment of wall and window frame voids,
above false ceilings, etc., can be counterproductive. First, pests killed in these
spots are often difficult to remove and are attractive to pests that feed on dead
insects. Also, when exposed to accumulations of insects, some people develop
allergic reactions to the insect fragments, shed skins and faeces. As an alternative
to the direct treatment of voids, pests can be allowed to overwinter in them and
emerge when temperatures warm up, at which time they can be killed and collected.
2.4.6 In most cases, the most effective and least hazardous pesticide applications
for control of occasional invaders are outdoor applications. These involve residual
pesticides applied in a band to the ground immediately around the foundation, the
foundation wall, and sometimes around other potential points of entry including door
and window frames, around vents, and where utility lines enter.
2.4.7 Microencapsulate, wettable powder, and suspended concentrate products work well
for perimeter treatment because they don't soak in to porous surfaces as much as
other formulations and adhere more easily to pests. But the timing of perimeter
treatments is critical to success. Applications at times when pests are not likely
to enter the structure, after pests have already entered, or with ineffective
products, can needlessly expose people, pets and other non-target organisms to
pesticides while providing little or no control. The use of pesticides may be best
left up to pest management professionals.
NOTE: When pesticides are used, it is the applicator's legal responsibility to
read and follow directions on the product label. Not following label directions,
even if they conflict with information provided herein, may be a violation of local
regulations.
3 Pests, insects, animals etc. that can cause recontamination
3.1 Soil
3.1.1 Soil can contain spores, seed and eggs of one or more invasive alien species,
and therefore should not be carried on or in the CTU internationally. Soil can be
found at floor level in the internal corrugations of the side wall, in the internal
angles of the corner posts and externally in the corner fitting apertures and body,
fork pocket openings and on the upper surfaces of the cross rail bottom flanges (see
figures 6.2 and 6.3).
Figure 6.2 Mud in
corner fitting
|
Figure 6.3 Mud in fork
pocket
|
3.1.2 Recontamination of the CTU will generally result from positioning the CTU on
mud, or a soft surface. Care should be taken to prevent the CTU from scraping across
the ground surface.
3.1.3 Soil can also enter the CTU on the feet of persons, on the wheels of handling
equipment and on the packages or goods themselves.
3.1.4 Soil should be swept out and bagged for incineration or washed out using a high
pressure spray.
3.2 Plants/plant parts/debris and seeds
3.2.1 Plants can grow on CTUs if residual seed has been allowed to germinate with or
without contaminating soil (see figure 6.4). Other plant matter found on CTUs
includes leaves and other plant parts. Leaves can harbour spores and bacteria that
can harm crops at the destination.
Figure 6.4 Previous cargo
debris
|
3.2.1.1 Moths
Figure 6.5 shows examples of moths.
Figure 6.5 Asian gipsy
moth
|
3.2.1.2 Snails and slugs
Figure 6.6 shows examples of snails.
Figure 6.6 Giant African
snail
|
3.3 Ants
3.3.1 Some ant species are considered pests, and because of the adaptive nature of
ant colonies, eliminating the entire colony is nearly impossible. Pest management is
therefore a matter of controlling local populations, instead of eliminating an
entire colony, and most attempts at control are temporary solutions.
Figure 6.7 Pharaoh
ant
|
Figure 6.8 Carpenter
ant nest
|
3.3.2 Ants classified as pests include the pavement ant, yellow crazy ant, sugar
ants, the Pharaoh ant (see figure 6.7), carpenter ants (see figure 6.8), Argentine
ant, odorous house ants, red imported fire ant and European fire ant. Populations
are controlled using insecticide baits, either in granule or liquid formulations.
Bait is gathered by the ants as food and brought back to the nest where the poison
is inadvertently spread to other colony members through trophallaxis. Boric acid and
borax are often used as insecticides that are relatively safe for humans. Bait may
be broadcast over a large area to control species like the red fire ant that occupy
large areas.
3.3.3 Individual ants should be swept out of CTUs if possible, but larger colonies or
infestations, require the entire colony to be destroyed and removed for
incineration.
3.4 Bees and wasps
Figures 6.9 and 6.10 show examples of wasp and wasp nest.
Figure 6.9 Sirex
wasp
|
Figure 6.10 Sirex
wasp nest
|
3.5 Mould and fungi
When CTUs are left in damp, dark conditions fungi and other airborne spores can lodge
and grow on the residual soil left on surfaces of a CTU.
3.6 Spiders
Figures 6.11 and 6.12 show examples of spider and spider eggs.
Figure 6.11 Wolf
spider
|
Figure 6.12 Spider
eggs
|
3.7 Frass
3.7.1 Frass is the fine powdery material phytophagous (plant-eating) insects pass as
waste after digesting plant parts. It causes plants to excrete chitinase due to high
chitin levels, it is a natural bloom stimulant, and has high nutrient levels. Frass
is known to have abundant amoeba, beneficial bacteria, and fungi content. Frass is a
microbial inoculant, also known as a soil inoculant, which promotes plant health
using beneficial microbes. It is a large nutrient contributor to the rainforest, and
it can often be seen in leaf mines.
3.7.2 Frass can also refer to the excavated wood shavings that insects like the
carpenter ants kick out of their galleries during the mining process. Carpenter ants
do not eat wood, so they discard the shavings as they tunnel (see figure 6.13).
Figure 6.13 Wood
frass from boring insect
|
3.7.3 Frass is a general sign of the presence of a wood boring or another insect and
therefore in need of cleaning. It is essential that affected plants or timber be
removed and incinerated.
3.8 Animals (including frogs)
Figure 6.14 shows examples of animals.
Figure 6.14 Squirrels
and frogs
|
4 Contaminant treatment
4.1 The contaminant treatment method should be that most effective for the
contamination present. Consideration should be given to containment and treatment of
pests that have a potential for spread. In some cases national authorities may
request the specimen be collected for identification purposes.
4.2 If a CTU is found to have a minor recontamination, cleaning can be effected using
one of the following methods:
4.3 If a live animal or insect is found which can be swept or washed out then this
should be done. Bodies of animals should be disposed of safely by bagging and
incineration. If the animal is considered as too dangerous to remove, then close the
CTU's doors and inform the CTU supplier.
4.4 Intermodal operators may have contracts with pest control organizations who may
be employed to remove serious recontamination.
4.5 Examples of contaminant disposal methods
4.5.1 Bagging
Most operators within the supply chain can only resort to this option, where any pest
or animal waste is placed within bag, sealed and then into a sealable containment
bin for collection by a suitable pest control organization (see figure 6.15). It is
essential that there is no opportunity for the sealed bags to be attacked by other
animals which could spread the pest contamination.
Figure 6.15 Quarantine
waste
|
4.5.2 Incineration
4.5.2.1 High temperature
High temperature incineration requires a temperature of 10,000 °C and is unlikely
that operators will have a facility to achieve this. Therefore any waste that should
be incinerated using high temperature should be passed onto a suitable facility.
4.5.2.2 Low temperature
Incineration within a local incinerator for general waste may be suitable for timber
and other non-animal waste.
4.5.3 Deep burial
Deep burial requires quarantine waste to be buried below at least 2 m of
non-quarantine waste. It is unlikely that this disposal method for supply chain
operators.