facilities), Cuba (more than 200 facilities),
Mexico (30 facilities) and Peru (more than 20
facilities). For prices of natural enemies in
Europe and the USA, see van Lenteren et al.
(1997) and Cranshaw et al.(1996), respec-
tively.
Commercial natural-enemy producers rear
mainly predators and parasitoids (see Table
1.1). Only a few companies produce microbial
agents, such as nematodes, entomopatho-
genic fungi, bacteria or viruses. Chemical
companies are the main producers of micro-
bial agents and it is expected that all activities
in this area will in the future be exclusively
the domain of the pesticide industry. Mass-
rearing methods for parasitoids and predators
are usually developed on an ad hoc basis, an
approach that may result in natural enemies
of poor quality. The technology for rearing
natural enemies on ‘unnatural’ hosts and host
plants or on artificial diets is not yet well
developed (see Chapter 9) and seems to be
hampered not only by physiological problems
but also by ethological and ecological ones
(requirements for associative learning of host-
habitat and host-finding cues (see Chapters 3
and 4)). Conflicts between attributes favoured
in mass-rearing programmes and those
needed for field performance form another
obstacle for the cost-effective production of
natural enemies. Artificial selection that
occurs during mass rearing may lead to
reduced performance of natural enemies (see
below, and Chapters 6 and 7). The suggested
cures for this problem are often expensive and
time-consuming and are therefore very sel-
domly applied.
Professional natural-enemy producers
may have research facilities, procedures for
monitoring product quality, an international
distribution network, promotional activities
and an advisory service. The market for
high-quality, effective natural enemies will
certainly increase with the growing demand
for unsprayed food and a cleaner environ-
ment. The growing pesticide-resistance prob-
lems will also move growers to adopt
biological control methods.
Initial developments in the area of mass
production, quality control, storage, ship-
ment and release of natural enemies
(Chapter 12) have decreased production
costs and led to better product quality, but
much more can be done. Innovations in
long-term storage (e.g. through induction of
diapause), shipment and release methods
may lead to a further increase in natural-
enemy quality, with a concurrent reduction
in costs, thereby making biological control
easier and economically more attractive to
apply. Even if the natural enemies leave the
insectary in good condition, shipment and
handling by the producers, distributors and
growers may result in deterioration of the
biological control agents before they are
released.
Quality control programmes that address
not only natural-enemy numbers but also
natural-enemy quality (field performance)
are a necessity. Simple and reliable quality
control programmes for natural enemies are
now emerging as a result of intensive coop-
eration between researchers and the biologi-
cal control practitioners, and it is expected
that these developments will result in a
rapid improvement of the biological control
industry.The International Organization for Biological
Control/European Community (IOBC/EC)
initiative on quality controlAlthough augmentative types of biological
control of arthropod pests have been applied
since 1926, large-scale production of natural
enemies began only after the Second World
War (DeBach, 1964; van Lenteren and Woets,
1988). Initial mass-rearing efforts involved
the production of not more than several
thousand individuals per week of three nat-
ural enemies: the spider-mite predator P. per-
similis, the whitefly parasitoid E. formosa
and the lepidopteran egg parasitoid
Trichogramma sp. None of the early publica-
tions on commercial aspects of biological
control mention the topic of quality control
of natural enemies (e.g. Hussey and
Bravenboer, 1971). Quality control is men-
tioned in relation to biological control only in
the mid-1980s, and shortly after that the
topic gained more interest (van Lenteren,
1986a,b). The Fifth Workshop of the IOBC
Global Working Group, ‘Quality Control ofNeed for Quality Control of Biocontrol Agents 5