In other words, the P. oleracea ext

In other words, the P. oleracea extracts could improve
daily gain of broilers. It was seen that the addition of
different proportions of P. oleracea extracts had different
effects on the BWG and FCR. Table 2 showed that
0.2% of P. oleracea extracts supplement could promote
the growth performance of broilers on d 28 and 42, but
the supplementation had no significant effects on broilers
on d 14. In our later research, we will focus on the
effect of P. oleracea extracts administered at different
phases, to decide reasonable application of this herb
additive.
Bai et al. (2003) stated that one of the shortcomings
of herbal medicine as feed additive was excessive
dosage. The general additive dosage was up to 1 to
2%. This dosage not only increases production cost, but
also affects the nutrition ratio of feed. So it is suggested
that a dosage lower than 0.5% would be appropriate.
The current study showed that from d 14 to 28, the
BWG of the group fed with 0.2% P. oleracea extract
additive were highest, and FCR were lowest. Meanwhile,
from d 28 to 42, there was no significant difference
in the growth performance between POL-0.4 and
POL-0.2. These results indicate that a higher dosage of
herbal medicine as a feed additive does not always have
better effects, which is consistent with the reports of
Zhu et al. (2004).
Table 2 shows significant differences in BW between
different groups at d 42. However, a closer look at the
results reveals that the SE of the control group was
greater than the other groups. This is due to the greater
variance in the BW among individuals in the control
group, whereas the herbal-treated groups showed
smaller BW variance among individuals. The greater
variance of BW in the control group may be caused
by the stress of repeated handling in the experiment,
indicating a potential antistress effect of the herb P.
oleracea extracts (Wang and Yang, 2010a), and this
observation will be the focus of future research.
The current study revealed that different additive
dosages of P. oleracea extracts in daily ration would
bring different effects on cecal Lactobacillus and E. coli
(Table 3). On d 28, E. coli number of POL-0.2 and
POL-0.4 was significantly lower than that of CON,
whereas Bifidobacterium and Lactobacillus were higher
than in CON. The results showed that using P. oleracea
in broilers could achieve beneficial effects of intestinal
microbiota, which is in agreement with the opinions
of other researchers. Wang et al. (1999) and Ke et al.
(2003) reported that P. oleracea extract additives in
daily ration could promote the increase of the broiler intestinal
Lactobacillus and Bifidobacterium and restrain
the growth of E. coli and Salmonella. Zhang and Bao
(2006) reported that oligosaccharide in P. oleracea had
functions of promoting the growth of Bifidobacterium
in the intestine, improving the intestinal flora structure
and inhibiting the formation of harmful metabolic byproducts.
In this experiment, P. oleracea extracts on
intestinal microecology reduced the population of E.
coli and increased the populations of Lactobacillus and
Bifidobacterium, and also improve growth performance
of birds. However, the values of microorganism population
were small at the time of the experiment, which is
consistent with the change of pH of ileum and cecum
contents. These results indicated that there may be
other mechanisms for P. oleracea extracts in improving
growth. Nevertheless, the mechanism of P. oleracea improving
the intestinal flora structure remains unclear;
it has been suggested that P. oleracea could be an alternative
to the use of antibiotics as growth promoters
in poultry production.
The results of growth performance and microbial
populations have shown that with increased dosages of
P. oleracea extracts, more is not always better. Adding
0.2% P. oleracea extracts to broiler feeds improved
BWG and decreased FCR. The extracts could also increase
the populations of the beneficial bacteria Lactobacillus
and Bifidobacterium in the cecum and resulted
in a major reduction in E. coli. The growth-promoting
effect of P. oleracea extracts is related to its effect of
improving the intestinal microecology. However, there
may be some other mechanisms of which we are not
aware such as an anti-stress effect, which remain to be
confirmed by further study.
ACKNOWLEDGMENTS
This study was financially supported by the Ministry
of Science and Technology of China (No.
2011BAD34B02).