Pest problemsPasta factories, as an

Pest problems
Pasta factories, as any other food industry, can
be infested by insects, leading to negative
economic and commercial consequences (Süss
and Locatelli, 1996; Riudavets et al., 2002;
Trematerra, 2002, 2004; Barros et al., 2003;
Stejskal et al., 2004). Considering the importance
of Italy as a producer and exporter, alimentary
paste has been the subject of much research
(Frilli, 1965; Dal Monte, 1985; Süss and
Locatelli, 1996, 1997; Trematerra, 2002, 2004).
Pasta factories use semolina, a raw material
obtained from hard wheat (Triticum durum
Desf.), which comes directly from the mill.
Because of the structure of the building, the
possible use of infested cereals and the large
quantity of dust always present, semolina is the
main source of reproduction and diffusion of
pests. Consequently, the same pests [Ephestia
kuehniella Z., Plodia interpunctella (Hb.),
Cryptolestes spp., Gnathocerus cornutus (F.),
Lasioderma serricorne (F.), Oryzaephilus spp.,
Rhyzopertha dominica (F.), Sitophilus spp.,
Stegobium paniceum (L.), Tribolium spp.]
present in warehouses, silos and mills are carried
into the pasta factories where they can multiply.
Sometimes the pasta factory and mill may
constitute an industrial unity where the abovementioned
species can also fly and penetrate into
the processing and packaging departments if the
simplest prevention standards reported in the
HACCP procedures are lacking. Moreover,
during the summer period some of these pests
are able to multiply outside the industrial
facilities, hidden under semolina encrustations
or on rejected products (Figures 1 to 7).
The first critical step in a pasta factory is to
examine the quality of raw material; however, it
is difficult to detect an infestation that is in
progress. In fact, random samples of semolina
on large bags and trucks cannot be considered
reliable sources, especially in the case of eggs
and larvae. The presence of Cryptolestes and
Tribolium adults on the surface of semolina can
be easily verified by inspection only when the
raw materials come from heavily infested mills.
Once the flour is purchased, insects and their
fragments are stored and become part of the first
steps in the processing cycle which is similar in
the pasta factory and modern mills.
It has been observed that kneading machines
and die plates, in particular, represent an
unsurmountable obstacle to living insects and
eggs. The kneading, subsequent pressure and
stretching of the mass and high temperature do
not permit insect survival. However, only insect
fragments remain, testifying to the bad quality
of raw material or the infestations present in the
factory. From the desiccation process onwards,
alimentary pasta can suffer from insect attacks
that are easily detected by consumers. Even when
using the most modern desiccation equipment,
alimentary pasta wastes often fall on the floor,
especially at the end of belt carriers.
However, in the pasta factory, high temperature
and humidity favour the development of Blatta
orientalis L., Thermobia domestica (Packard),
and Musca domestica (L.); if moulds are
particularly conspicuous, saprophagous and
mycetophagous insects, such as Typhaea
stercorea (L.) and mites (Glycyphagus spp. and
Tyrophagus spp.), can also be observed.
Neglected places such as belt carriers, hoppers
and electrical devices allow the growth of insects,
which lay eggs on ensiled alimentary pasta. Short
pasta, in particular, stored for longer periods
before packaging can become heavily infested.
Wood silos, which are common in Italy, provide
many crevices in which insects can nest. Insects
can reach these places by flying or crawling on
the floor, pipes and on machinery.
The first barrier to pest infestation is the use
of closed doors and windows. The risk of
packaging infested alimentary pasta can occur
even if insects are not yet present. Packaging
departments must be kept clean and placed under
surveillance to prevent infestations.
Infestations (mainly larvae of P. interpunctella
and adults of R. dominica, Sitophilus and
Tribolium) can occur during the storage process
in industries, warehouses, general stores and
retail shops already colonized by insects deriving
from other products. The shelf-life of pasta is
particularly long (in general 2 years, but also up
to 3 years); in this period, insects can easily
penetrate into the packaging and reproduce many
generations (Locatelli and Süss, 2002). They
often enter through the micro-holes that have
been made to remove air during packaging. The
product can be attacked by P. interpunctella
(larvae), R. dominica and Sitophilus spp. (adults)
[mainly S. oryzae (L.)], L. serricorne and S.
paniceum (adults) when it is placed on the shelf
near infested rice and other foodstuffs (Süss and
Trematerra, 2003). In this respect, in a survey
conducted over a period of several years, it was
observed that complaints and returns by
customers were due to attacks generally
occurring after the product left the factory.
Inspections carried out in all of Italy, in several
shops where infested alimentary pastas were
bought (general stores, small and big department
stores), showed that usually the stores were
neglected and the shelves dusty with infestations
in progress (unpubl. data).
In Italy, pasta factories are usually subject to
one or two yearly treatments of general
fumigation (conducted during April or August)
using methyl bromide (25-30 g/m3 for 48-72
hours); however, these treatments are generally
not sufficient to prevent the growth of infestations
(Süss and Trematerra, 2003).
Opening doors and windows for degassing can
favour the arrival of adult E. cautella, E.
kuehniella, P. interpunctella, R. dominica,
Sitophilus spp., Lasioderma and Stegobium.
Moreover, treatments with toxic gasses do not
always provide successful results. Often the
structures are inadequately sealed and gas does
not reach the proper concentrations;
consequently, results are unsatisfactory in spite
of high treatment costs.
Specimens of Sitophilus and Tribolium may
also be present in the raw materials delivered.