Kb. Johnson et al., Assessment of environmental factors influencing growth and spread of Pantoea agglomerans on and among blossoms of pear and apple, PHYTOPATHOL, 90(11), 2000, pp. 1285-1294
We evaluated effects of both physical and biological components of the envi
ronment on growth of Pantoea agglomerans on inoculated pear and apple bloss
oms and on spread of the bacterium to blossoms on noninoculated trees. The
center three rows of 0.35- to 0.5-ha blocks of four pear cultivars and four
apple cultivars were sprayed with a suspension of streptomycin-resistant P
. agglomerans strain C9-1S (C9-1S) at 20 to 60% and 60 to 90% bloom. Cultiv
ars were chosen to create a sequence of continuous bloom from late March (d
'Anjou pear) through mid-May (Red Rome apple). Each cultivar block was quar
tered into plots; two plots were treated twice with streptomycin sulfate ne
ar mid- and full bloom to suppress populations of indigenous bacterial epip
hytes and the other two plots were treated with water. Colonization of blos
soms by C9-1S and by indigenous bacterial epiphytes were monitored on inocu
lated trees and along transects of noninoculated trees. Immediately after s
praying, C9-1S was detected principally on blossoms sampled from inoculated
trees. As bloom progressed, trees up to 18 m from inoculated trees had hig
h proportions of blossoms colonized by C9-1S. Streptomycin significantly (P
less than or equal to 0.05) reduced incidence of isolation and size of det
ectable populations of culturable bacteria (indigenous bacteria plus C9-1S)
from pear blossoms in 1998 and from apple blossoms in both 1998 and 1999,
but the antibiotic treatment did not affect incidence of isolation, size of
detectable populations, or spread of C9-1S compared to the water-treated c
ontrol in any experiment. Across all cultivars, relative area under the cur
ve for size of detectable populations of C9-1S on inoculated trees and for
incidence of isolation of C9-1S from noninoculated trees was positively cor
related with mean degree hours per day during bloom (r = 0.61 to 0.73) and
negatively correlated with the proportion of days with rain (r = -0.79 to -
0.84). The results indicate that establishment and growth of C9-1S on pome
fruit flowers was not strongly affected by streptomycin or by competition f
rom indigenous bacterial epiphytes and, as with Erwinia amylovora, temperat
ure is an important environmental variable affecting successful spread of t
his biological control agent from blossom to blossom.