The results in the current study in

The results in the current study indicate clearly that
inoculation with L. buchneri alone or in combination
with a homofermentative LAB improved the aerobic
stability of low-DM corn and sorghum silages. LactobaJournal
of Dairy Science Vol. 86, No. 11, 2003
cillus buchneri or L. buchneri + L. plantarum inoculated
silages had higher levels of acetic acid than the control
and L. plantarum inoculated silages (P < 0.05). Lactobacillus
buchneri was able to protect the aerobic stability
of the low dry matter corn and sorghum silages, even
in the presence of L. plantarum. The explanation for
the aerobic stability-enhancing effect of L. buchneri is
that the activity of yeasts is impaired. Driehuis et al.
(1999a) showed that yeasts are affected in 2 ways. First,
during anaerobic conditions, the survival of yeasts is
reduced. As a result, yeasts counts decrease in L. buchneri
inoculated silages. Second, during the aerobic exposure,
yeast growth is inhibited. These findings are inagreement with those of Driehuis et al. (1999b), Kung
and Ranjit (2001), Oude Elferink et al. (2001), Ranjit
et al. (2002), our previous experiments (Filya, 2001,
2003; Filya et al., 2002), and Weinberg et al. (2002)
with wheat, sorghum, and corn silages. The drop in pH
with time was slower than typically observed in corn
and sorghum silages made at more normal DM content.
The fresh forages had low numbers of lactobacilli, which
may be a reason for the slow fermentation. The fact
that pH dropped slowly even in the inoculated silages
suggests that a high buffer capacity occurred in both
crops. At the end of the ensiling period (d 90), concentration
of lactic acid was the lowest in L. buchneri-inoculated
silages. The combination of L. buchneri and L.
plantarum increased the concentrations of lactic acid
and initial rate of acidification of low-DM corn and sorghum
silages. Lactobacillus buchneri-inoculated silages
had higher ammonia N concentrations and silage
weight losses compared with the control or the L. plantarum-
or L. buchneri + L. plantarum-inoculated silages
(P < 0.05). Driehuis et al. (2001) reported that the increase
in ammonia N concentration in L. buchneri-inoculated
corn silage was associated with the relativelylarge increase in pH taking place during the storage
phase as a result of the high metabolic activity of L.
buchneri in these silages. This finding is in agreement
with my previous experiment (Filya, 2003) with L.
buchneri in wheat, sorghum, and corn silages. The same
trend was shown in this experiment.
The inoculation with L. buchneri, alone or in combination
with L. plantarum, did not affect the in situ
rumen DM, OM, and NDF degradability of corn and
sorghum silages. These findings agree with our previous
experiments (Filya et al., 2002; Filya, 2003) with
wheat, sorghum, and corn silages. Salawu et al. (2001)
found that application of L. buchneri to pea-wheat silage
increased the in situ rumen nitrogen degradability,
reduced the NDF degradability, and did not affect
DM degradability.