Kentucky, Thompson, Newport, Oranie

Kentucky, Thompson, Newport, Oranienburg; Table 3). Of the
multi-season serovars, some were detected significantly more
often in certain seasons than others. Significance values are
reported only for those seasons where a particular serovar
was detected at least once; that is, seasons with zero detection
were not included in these analyses. S. Derby was detected
more often during summer than spring (p ¼ 0.01), S. Newport
was detected more often during summer than spring
(p ¼ 0.03), fall (p ¼ 0.01), or winter (p ¼ 0.002), S. Rubislaw was
detected more often during summer than fall (p ¼ 0.0001), S.
Kentucky was detected significantly more often during winter
than spring (p ¼ 0.04), but not summer and fall, and S.
Typhimurium was detected significantly more often during
fall than winter (p ¼ 0.01), but not summer and spring.
3.2. Spatially-widespread and temporally-persistent
clinically significant S. enterica serovars in surface water
The incidence of S. enterica serovars isolated from surface
water in the current study was compared with serovars isolated
from samples submitted to public health laboratories in
Canada (NESP, 2010). Each year, the Public Health Agency of
Canada's NESP produces a list of the top 10 serovars reported
as having caused salmonellosis in Canadians for that particular
year (Table S1). Throughout the years of this study, these
lists collectively comprised 13 distinct serovars. All but two of
these important human serovars were isolated in the current
study from at least one of the five watersheds (Table 1), nine of
which were also detected at multiple sites (Table 2). In some