cinnabarinus (Boisduval) can also be controlled
with this predator. This predatory mite is often
mixed with vermiculite and put in shaker bot-
tles. They need to be sprinkled on the leaves.
Extra predatory mites should be placed in spi-
der-mite hot spots (Koppert, 1994). For opti-
mal development of the predator population,
the relative humidity should not be under 75%
and the temperature needs to be regularly
above 20°C. P. persimilisis supplied in units of
1000 or 2000 mites, although a few producers
offer a smaller quantity of 100 or 250 mites.
Entomopathogenic Nematodes
Members of the families of Steinernematidae
and Heterorhabditidae are important ento-
mopathogenic nematodes of scarabaeid larvae
or lepidopteran caterpillars in soil. Desirable
assets, such as ease of mass production, effi-
cacy and safety for non-target organisms, have
evoked commercial interest in these nema-
todes (Parwinder and Georgis, 1994). The
nematodes kill their host by releasing symbi-
otic bacteria (Xenorhabdusspp.), which are car-
ried in their alimentary tract. These bacteria
multiply rapidly inside the insect’s
haemolymph and kill their host within 48 h.
The symbiotic bacteria convert host tissue into
products that can easily be taken up by the
nematodes. Inside the beetle cadaver, the
nematodes reproduce. As soon as the nema-
todes reach the infectious third-juvenile stage,
they leave the old host and start searching for
new weevil larvae. Usually billions of nema-
todes should be released per hectare.
Steinernema carpocapsaeWeiser
This is the most widely available ento-
mopathogenic nematode and is easy to rear,
store and handle. It is sold to control a wide
range of insects.
Steinernema feltiae(Filipjev)
This species is an entomopathogen of
Sciaridae, but other target pests are also
under investigation. This entomopathogenic
nematode infects larval/nymphal, prepupal
and pupal stages of insects that spend (part)
of their life cycle in the soil (Tomalak, 1994),
so they may be used for controlling thrips
and leafminers.
Heterorhabditis megidesPoinar
This nematode is used for control of the vine
weevil Otiorhynchus sulcatus(F.). One pro-
ducer supplies the nematodes, together with
inert carrying material, in a 250 ml package,
containing 50 million nematodes. This
should be sufficient for 100 m^2 (for a blanket
treatment) or for 10 m^3 soil (Koppert, 1994).
Entomopathogenic Fungi, Bacteria
and Viruses
Currently, a number of entomopathogenic
fungi, bacteria and viruses are on the market
and can be used for control of pests. Because
of their special character, way of production
and application compared with the ‘macrobi-
ological’ control agents, such as predators
and parasitoids, they are not treated in detail
here. To date, there are five nucleopolyhe-
droviruses (NPViruses), five Bacillus
species/strains and ten species of fungi
available for insect control in greenhouses
(Lipa and Smits, 1999). For a review of these
microbial natural enemies, refer to Lipa and
Smits (1999).
Discussion and Conclusions
One way to express the importance of the dif-
ferent categories of natural enemies is by speci-
fying the surface area on which they are
applied. Although this is not an easy task (see
Chapter 1 and van Lenteren, 2000), the roughly
estimated areas under augmentative forms of
biological control are given in Fig. 11.1.
The relative importance of the different
natural enemies can be also expressed by
their monetary value. Reliable data are avail-
able for biological control agents used in
greenhouses (Bolckmans, 1999), but are lack-
ing for field applications, although it is esti-
176 J.C. van Lenteren