Field-grown pearl millet (Pennisetum americanum) and guinea grass (Panicum maximum), lightly fertilized and inoculated with Spirillum lipoferum, produced significantly higher yields of dry matter than did uninoculated controls. Up to 42 and 39 kilograms of nitrogen per hectare were replaced by inoculation for pearl millet and guinea grass, respectively. The data demonstrate that nitrogen fixation by these grass-Spirillum systems is efficient and is achieved at a reasonable energy cost to the plant.
We have isolated Azospirillum (Spirullum lipoferum) from roots of grasses of several genera collected from a number of tropical and subtropical-temperate locations. Pure cultures were obtained from a small percentage of samples; no higher percentage was secured from tropical than from other grasses. Acetylene reduction and distinctive growth in N-free soft agar deeps were inadequate to identify this genus, although helpful in initial screening. Fluorescent antibody tests with antiserum against characterized strains were helpful. There is some evidence that this genus of bacteria may be favored in the rhizoplane.
Three field inoculation experiments, two in Florida and one in New Mexico, were conducted with
Azospirillum brasilense
Cd. Each of the Florida experiments evaluated two crop species. One species in each of the Florida experiments responded to inoculation with a significant dry matter yield increases of 11 to 24% and nitrogen yield increases of 9 to 39%. No inoculation response was noted in the New Mexico experiment. The responding species were
Sorghum bicolor
(L.) Moench (sorghum) and the interspecific hybrid between
Pennisetum americanum
(L.) K. Schum. (pearl millet) and
P. purpureum
Schumach. (napiergrass). Nonresponding species were pearl millet (Florida) and
Sorghum sudanense
(Piper) Staph. (New Mexico). Acetylene reduction activity of inoculated plots in Florida was low, showing no increase over the natural uninoculated background rates and, in one case, was negatively correlated with yield. Acetylene reduction activity was not measured in New Mexico. In Florida,
A. brasilense
populations were found to decline from 5 × 10
3
to 5 × 10
2
bacteria g of soil
−1
in about 3 weeks (quadratic regressions). Continued decline to less than 10
2
by week 5 indicated that the inoculated bacteria did not become established in the soil in high numbers. The
A. brasilense
population declined at about the same rate in the New Mexico experiment. The erractic inoculation responses in these experiments are similar to those observed in earlier work at the University of Florida. The lack of acetylene reduction activity response to inoculation and the rapid population decline of the inoculated bacteria suggest that N
2
fixation is not the major mechanism causing yield responses after inoculation.
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