M. Diazravina et al., SEASONAL-CHANGES IN MICROBIAL BIOMASS AND NUTRIENT FLUSH IN FOREST SOILS, Biology and fertility of soils, 19(2-3), 1995, pp. 220-226
Microbial biomass and N, P, K, and Mg flushes were estimated in spring
, summer, autumn, and winter samples of different forest soils. The mi
crobial biomass showed significant seasonal fluctuations with an avera
ge distribution of 880+/-270 mu g C g(-1) soil in spring, 787+/-356 mu
g C g(-1) soil in winter, 589+/-295 mu g C g(-1) soil in summer, and
560+/-318 mu g C g(-1) soil in autumn. The average annual concentratio
ns of C, N, P, K, and Ca in the microbial biomass were 704, 106, 82, 6
9 and 10 mu g g(-1) soil, respectively. Microbial C represented betwee
n 0.5 and 20% of the organic soil C whereas the percentage of microbia
l N with respect to the total soil N was two- to threefold higher than
that of C; the annual fluctuations in these percentages followed a si
milar trend to that of the microbial biomass. Microbial biomass was po
sitively correlated with soil pH, moisture, organic C, and total N. Th
e mean nutrient flush was 31, 15, 7, and 4 mu g g(-1) soil for N, K, P
, and Mg, respectively, and except for K, the seasonal distribution wa
s autumn greater than or equal to spring much greater than winter grea
ter than or equal to summer. The average increase in available nutrien
ts due to the mineralization of dead microbial cells was 240% for N, a
nd 30, 26, and 14% for P, K, and Mg, respectively. There was a positiv
e relationship between microbial biomass and the N, P, K, and Mg flush
es. All the variables studied were significantly affected by the seaso
n, the type of soil, and the interaction between type of soil and seas
on, but soil type often explained most of the variance.