© Benaki Phytopathological Institute
Albano
et al.
58
ies have shown the importance of pollinat-
ing insects for the improvement of strawber-
ry crop production, in terms of fruit quality
(size, weight and shape) (1, 4, 8, 9, 24).
In Québec, the CRAAQ (Centre de Réfer-
ence en Agriculture et Agroalimentaire du
Québec) recommends strawberry grow-
ers to apply the fungicide chlorothalonil
at
the vegetation and two other sprays of oth-
er registered fungicides for grey mould dur-
ing flowering. As a consequence, only those
flowers that are open during that moment
become protected. After flowering, the fun-
gicide labels recommend several applica-
tions at 7- to 10-day intervals or at 5-day in-
tervals if conditions are favourable for the
spread of the disease. Although some stud-
ies point out the negative consequences of
some fungicides on strawberry pollen ger-
mination (13), these products are most of-
ten used without the knowledge of this
fact. Furthermore, the repulsive behaviour
of those fungicides to pollinators has appar-
ently never been examined. Another identi-
fied problem is the development of resistant
forms of
B. cinerea
to some fungicides used
in strawberry plantations (12).
The present study is part of a wid-
er framework that aims at reducing the
amount of fungicides used to fight the grey
mould fungus, bringing down production
costs and increasing the treatment efficacy
by dispersing selected fungicides that are
non-toxic for pollen and non-repulsive for
pollinators, such as honey bees and bum-
ble bees. This project is pioneering in the
sense that it included the testing of the dis-
persion of a biofungicide and synthetic fun-
gicides in its global scope, using dispensers
that are adapted either to the hives of honey
bees or those of bumble bees. Previous tests
were performed in order to select the non-
toxic and non-repulsive fungicides both for
strawberry pollen and pollinators, respec-
tively. Among these fungicides the biofungi-
cide Rootshield®, a commercial formulation
of the antagonist
Trichoderma harzianum
Ri-
fai, and several synthetic fungicides were se-
lected (10).
T. harzianum
is an antagonistic fungus
of a wide range of pathogens including
B.
cinerea
that is responsible for grey mould
on strawberry (3, 15). There is a diversity of
mechanisms available to
Trichoderma
spp.
for pathogen suppression, including (i) the
production of
antifungal metabolites, (ii)
mycoparasitism, and (iii) competition with
the pathogen for nutrients and space. These
features make this fungus attractive as a bio-
control agent (26).
The scope of the present study includ-
ed the need to demonstrate the efficiency
of the dispersion of fungicides by pollinators
that pass through the dispenser to the flow-
ers that they visited. Because this task is easi-
er and cheaper to achieve using conidia of
T.
harzianum
that can be grown on agar medi-
um, than synthetic fungicides which require
costly analysis, this validationwas performed
only with the Rootshield® biofungicide.
The main purpose of this study - which
intends to satisfy one of the tasks of the wid-
er project that was mentioned above – was
therefore to determine the effectiveness of
honey bees and bumble bees in transmit-
ting the powder formulation of
T. harzianum
from hives-mounted dispensers containing
the biofungicide Rootshield® to flowers in
open field and greenhouse assays.
Materials and Methods
1. Dispensers
The construction of the first dispenser
model for honey bees was based on works
by Gross
et al.
(16) and Kovach
et al.
(17).
Modifications were made to this model by
Emile Houle. After several tests, the original
model was gradually improved before a final
model, now called the Houle-dispenser, was
attained (Figure 1). This later model is entire-
ly made of folded sheets, providing the po-
tential for its fast and easy construction. Fur-
thermore, several holes were incorporated
on the sides in order to avoid internal wa-
ter condensation. The new design allows
the dispenser to be adjusted to the beehive
entry without difficulty. The dispenser has a
system that makes bee entries and exits in-