Articles
POTENTIAL OF OSMIA CORNUTA AS A CARRIER OF ANTAGONIST BACTERIA IN BIOLOGICAL CONTROL OF FIRE BLIGHT: A COMPARISON WITH APIS MELLIFERA
Article number
704_59
Pages
379 – 386
Language
English
Abstract
Studies were carried out in 2002 and 2003 to evaluate the suitability of the highly efficient pollinator of pear Osmia cornuta (Hymenoptera Megachilidae) as a carrier of a rifampicin resistant mutant of the Bacillus subtilis strain BS-F4 (BS-F4rif) on pear flowers cultivar Abbé Fétel for the biological control of fire blight, and its capacity was compared with that of Apis mellifera. A dispenser for the spread of bacteria by O. cornuta was successfully developed.
Females exited and entered the dispenser through the proper pathways 81.4% and 97.7% of the attempts, respectively, and the number of BS-F4rif reisolated from the body of O. cornuta exiting the dispenser ranged from 104 to 107 CFU/insect.
Individuals of A. mellifera carried an average population of 104 CFU/insect.
In net screened tunnel conditions, the efficiency of O. cornuta to carry and deposit the BS-F4rif on pear flowers during a single visit was higher than that of A. mellifera. Both in 2002 and 2003, the dispersal ability of bees was assessed in a 7 ha pear orchard.
Trees were labelled at 2, 10, 50, 110 m from the nesting shelter, in the direction of the four cardinal points.
Flowers on branches covered with fine netting acted as controls.
Mason bees distributed 30 g of the biocontrol agent (BCA). Fifty flowers from both exposed and netted branches were sampled at 3, 7 and 10 days (the latter only in 2003) after the beginning of distribution.
BS-F4rif was not recovered from any of the flowers on net-covered branches, whereas the bacterium was consistently recovered on the flowers of non-screened plants.
Variation in distribution and population density of the BCA among flowers were observed, with greater colonisation in 2002 than 2003. We conclude that O. cornuta may serve as a carrier for the dispersal of powdered BCA formulations to pear flowers.
Females exited and entered the dispenser through the proper pathways 81.4% and 97.7% of the attempts, respectively, and the number of BS-F4rif reisolated from the body of O. cornuta exiting the dispenser ranged from 104 to 107 CFU/insect.
Individuals of A. mellifera carried an average population of 104 CFU/insect.
In net screened tunnel conditions, the efficiency of O. cornuta to carry and deposit the BS-F4rif on pear flowers during a single visit was higher than that of A. mellifera. Both in 2002 and 2003, the dispersal ability of bees was assessed in a 7 ha pear orchard.
Trees were labelled at 2, 10, 50, 110 m from the nesting shelter, in the direction of the four cardinal points.
Flowers on branches covered with fine netting acted as controls.
Mason bees distributed 30 g of the biocontrol agent (BCA). Fifty flowers from both exposed and netted branches were sampled at 3, 7 and 10 days (the latter only in 2003) after the beginning of distribution.
BS-F4rif was not recovered from any of the flowers on net-covered branches, whereas the bacterium was consistently recovered on the flowers of non-screened plants.
Variation in distribution and population density of the BCA among flowers were observed, with greater colonisation in 2002 than 2003. We conclude that O. cornuta may serve as a carrier for the dispersal of powdered BCA formulations to pear flowers.
Publication
Authors
B. Maccagnani, C. Bazzi, E. Biondi, D. Tesoriero, S. Maini
Keywords
Erwinia amylovora, Bacillus subtilis, rifampicin-resistant mutant, pollinating insects, bacterial distribution, carrier, pear flowers, colonisation
Online Articles (93)
EA1HCONTROL OF FIRE BLIGHT WITH A LYSOZYME FROM THE ERWINIA AMYLOVORA PHAGE EA1H