Page 21 - Volume 2,Issue 2, July 2009
Basic HTML Version
© Benaki Phytopathological Institute
Honey bees and bumble bees as dispersers of a biofungicide
65
Beauveria bassiana
in greenhouse sweet pep-
per.
Biological Control
, 37: 89-97.
Batta, Y.A. 1999. Biological effect of two strains
3.
of microorganisms on
Botrytis cinerea
: causal
organism of gray mold on strawberry.
An-Najah
University Journal for Research
– A (Natural Sci-
ences), 13: 67-83.
Bigey,J.,Vaissière,B.E.,MorisonN.,Longuesserre,
4.
J. and Capy, A. 2002. Fraise/cultures précoces -
Amélioration de la pollinisation.
Réussir Fruits &
Légumes
, 203: 76-78.
Bilu, A., Arnon, D., Yigal, E. and Shafir, S. 2004.
5.
Honeybee dispersal of biocontrol agents: an
evaluation of dispensing devices.
Biocontrol Sci-
ence and Technology
, 14: 607-617.
Bristow, P.R., Mcnicol, J.R. and Williamson, B.
6.
1986. Infection of strawberry flowers by
Botrytis
cinerea
and its relevance to grey mould.
Annals
of Applied Biology
, 109: 545-554.
Butt, T.M., Carreck, N.L., Ibrahim, L. andWilliams,
7.
I.H. 1998. Honey-bee-mediated infection of pol-
len beetle (
Meligethes aeneus
Fab.) by the insect
pathogenic fungus,
Metarhizium anisopliae
.
Bio-
control Science and Technology
, 8: 533-538.
Chagnon, M., Gingras, J. and de Oliveira, D. 1989.
8.
Effect of honeybee (Hymenoptera: Apidae) vis-
its on the pollination rate of strawberries.
Jour-
nal of Economic Entomology
, 82: 1350-1353.
Chagnon, M., Gingras, J. and de Oliveira, D.
9.
1993. Complementary aspects of strawberry
pollination by honey and indigenous bees (Hy-
menoptera).
Journal of Economic Entomology
,
86: 416-420.
Chagnon, M.,
10.
Thibodeau, P-O., de Oliveira, D.,
Albano, S., Boulianne, J. and Cadorette, E. 2006.
Amélioration des rendements et de la qualité des
fraises et framboises par une gestion écologique
et rentable des fongicides et des pollinisateurs.
Project report no.2070. Conseil pour le dével-
oppement de l’agriculture du Québec. 81 pp.
Dedej, S., Delaplane, K.S. and Scherm, H. 2004.
11.
Effectiveness of honeybees in delivering the
biocontrol agent
Bacillus subtilis
to blueberry
flowers to suppress mummy berry disease.
Bio-
logical Control
, 31: 422-427.
Dianez, F., Santos, M., Blanco, R. and Tello J.C.
12.
2002. Fungicide resistance in
Botrytis cinerea
isolates from strawberry crops in Huelva (south-
western Spain).
Phytoparasitica
, 30: 529-534.
Eaton, G.W. and Chen, L.J. 1969. Effect of the
13.
captan on strawberry pollen germination.
Jour-
nal of the American Society of Horticultural Sci-
ences
, 94: 558-560.
Escande, A.R., Laich, F.S. and Pedraza, M.V. 2002.
14.
Field testing of honeybee-dispersed
Trichoder-
ma
spp. to manage sunflower head rot (
Sclero-
tinia sclerotiorium
).
Plant Pathology
, 51: 346-351.
Freeman, S., Minz, D., Kolesnik, I., Barbul, O.,
15.
Zveibil, A. and Maymon, M. 2004.
Trichoder-
ma
biocontrol of
Colletotrichum acutatum
and
Botrytis cinerea
and survival in strawberry.
Euro-
pean Journal of Plant Pathology
, 110: 361-370.
Gross, H.R., Hamm, J.J. and Carpenter, J.E. 1994.
16.
Design and application of a hive-mounted de-
vice that uses honey-bees (Hymenoptera, Ap-
idae) to disseminate
Heliothis
nuclear poly-
hedrosis-virus.
Environmental Entomology
, 23:
492-501.
Kovach, J., Petzoldt, R. and Harman, G.E. 2000.
17.
Use of honeybees and bumblebees to dissem-
inate
T. harzianum
295-22 to strawberries for
Botrytis
control.
Biological Control
, 18: 235-242.
McCandless, L. 1999. Honeybees deliver bene-
18.
ficial fungi to strawberries and increase yield.
New York State Agricultural Experimental Sta-
tion. Cornell University, Geneva, New York [on
line]. Available from
-
nell.edu/pubs/press/1999/bees.html [accessed
5 March 2008].
Maccagnani, B., Mocioni, M., Gullino, M.L. and
19.
Ladurner, E. 1999. Application of
Trichoderma
harzianum
by using
Apis mellifera
as a vector for
the control of grey mould of strawberry, first re-
sults.
IOBC Bulletin
, 22: 161-164.
Maccagnani, B., Ladurner, E., Tesoriero, D., Sgo-
20.
lastra, F. and Burgio, G. 2003. The use of
Osmia
cornuta
(Latreille) (Hymenoptera, Megachilidae)
for pear pollination: a reason to adopt low im-
pact farming system in a landscape manage-
ment perspective.
IOBC Bulletin
, 26: 101-106.
Maccagnani, B., Mocioni, M., Ladurner, E., Gull-
21.
ino, M.L. and Maini, S. 2005. Investigation of
hive-mounted devices for the dissemination
of microbiological preparations by
Bombus ter-
restris
.
Bulletin of Insectology
, 58: 3-8.
Maccagnani, B., Bazzi, C., Biondi, E., Tesoriero,
22.
D. and Maini, S. 2006. Potential of
Osmia cornu-
ta
as a carrier of antagonistic bacteria in biolog-
ical control of the fire blight: A comparison with
Apis mellifera. Acta Horticulturae
, 704: 379-386.
Ngugi, H.K., Dedej, S., Delaplane, K.S., Savelle,
23.
A.T. and Scherm, H. 2005. Effect of flower-ap-
plied Serenade biofungicide (
Bacillus subtilis
) on
pollination-related variables in rabbiteye blue-
berry.
Biological Control
, 33: 32-38.
Paydas, S., Eti, S., Kaftanoglu, O., Yasa, E. and De-
24.
rin, K. 2000. Effects of pollination of strawber-
ries grown in plastic greenhouses by honey-
bees and bumblebees on the yield and quality
of the fruits.
Acta Horticulturae
, 513: 443-451.
Peng, G., Sutton, J.C. and Kevan, P.G. 1992. Ef-
25.
fectiveness of honey-bees for applying the bio-
control agent
Gliocladium roseum
to strawber-
ry flowers to suppress
Botrytis cinerea
.
Canadian
Journal of Plant Pathology
, 14: 117-129.
Perelló, A., Mónaco, C., Simón, M.R., Sisterna,
26.
S. and Dal Bello, G. 2003. Biocontrol efficacy of
