0851996884.pdf

needs or products or services intended for
the same functional use’ (ANSI/ASQC,
1987). In other words, a standard is the level
of quality at which a specification is written.
A specification for a natural enemy can be
written at a required standard of quality
based on biological, production and market
options. The natural enemy is typically
characterized according to its species
description (identity and purity), life his-
tory and behaviour. For example, a particu-
lar species of parasitoid may oviposit a
maximum of 500 eggs per female but we
specify that females from our colony must
produce an average (
SD) of 250
25 eggs.
This specification becomes the standard by
which we measure our success in producing
the natural enemy. If this standard is too
difficult or expensive to achieve in practice,
it can be lowered to 200
50 eggs.
Standards are relative to requirements or
expectations, which should be realistic
(Boller and Chambers, 1977).

What are Production, Process and

Product Control?

The functions of production, process and
product control are performed within the
production and quality control subdivi-
sions of the production system for natural
enemies (Fig. 2.1). Since they are applied
and interpreted differently in various
industrial manufacturing fields (Besterfield,
1986), they must be defined specifically for
use in mass-rearing arthropods. Production
is responsible for most inputs and therefore
performs production control. Process and
product control are performed by the qual-
ity control subdivision as functions that
support production. It is important to dis-
tinguish between the functions of the pro-
duction and quality control subdivisions
because, rather than inputs, the quality
control subdivision generally monitors out-
puts. The quality of processes and products
is determined by sampling insects, measur-
ing key characteristics and comparing the
results to established specifications and

standards, usually by means of process-

control charts.

Production control is the monitoring and

maintenance of all rearing inputs in terms

of personnel, materials, equipment, sched-

ules, environments, SOPs and so forth.

Most production failures can be traced to

deficiencies in production control and are

due to errors caused by workers, unpre-

dictable changes in materials or loss of envi-

ronmental control. Consequently, problems

are prevented and troubleshooting initiated

by first focusing on the performance of pro-

duction SOPs, abnormal appearance of the

materials and arthropod stages and envi-

ronmental deviations.

Process control is the evaluation of key

components of the manufacturing processes

as they are employed along the production

line (Feigenbaum, 1983). In rearing systems,

process control is accomplished by determin-

ing the constancy of immature arthropod

stages as a means of predicting quality and

identifying sources of increased efficiency. It

is particularly important when unforeseen,

detrimental changes occur or inputs are mod-

ified intentionally. The process-control infor-

mation is used by the production subdivision

to make any necessary adjustments. A com-

mon example is the addition of more females

to an oviposition cage as the number of fertile

eggs per female declines, before determining

and correcting the cause of the decline.

Product control is the same in arthropod

rearing as it is in other industrial processes:

the control of products at the source of

production and through field service, so that

departures from the quality specification can be

corrected before defective or non-conforming

products are manufactured and the proper

service can be maintained in the field.

(Feigenbaum, 1983)

Thus, the performance of natural enemies is

measured and evaluated at the production

facility and critical points during their trans-

portation, application and impact on the tar-

get pest. Feedback is provided to optimize

production, field performance and customer

satisfaction.

22 N.C. Leppla