The number and biomass of microorganisms in ancient buried and recent chernozems under different land uses

摘要

The size, number, and biomass of bacteria and microscopic fungi were studied in chernozems of different land uses (forest, fallow, pasture, and cropland), in paleosols under mounds of different ages in the territories adjacent to the background recent chernozems; and in the cultural layer of an ancient settlement of the Bronze Age, Early Iron Age, and Early Middle Age (4100-1050 years ago). The method of cascade filtration revealed that bacterial cells had a diameter from 0.1 to 1.85 mu m; their average volume varied from 0.2 to 1.1 mu m(3). Large bacterial cells predominated in the soils of natural biocenoses; fine cells were dominants in the arable soils and their ancient analogues. The bacterial biomass counted by the method of cascade filtration was first found to be 10-380 times greater than that determined by luminescence microscopy. The maximal bacterial biomass (350-700 mu g/g) was found in the soils of the birch forest edge (similar to 80-year-old) and under the 80-year-old fallow. In the soils of the 15-20 year-old fallows and pastures, the bacterial biomass was 110-180 mu g/g; in the arable soils and soils under the mounds, it was 80-130 and 30-130 mu g/g, respectively. The same sequence was recorded in soils for the content of fungal mycelium and spores, which predominated over the bacterial mass. With the increasing age of the buried paleosols from 1100 to 3900 years, the share of the biomass of fungal spores increased in the total fungal and total microbial biomasses. In the cultural layer of the Berezovaya Luka (Altai region) settlement that had been functioning about 4000 years ago, the maximal biomass and number of fungal spores and the average biomass of bacteria and fungal mycelium comparable to that in the studied soils were revealed. In this cultural layer, the organic matter content was low (Corg, 0.4%), and the content of available phosphorus was high (P2O5, 17 mg/g). These facts attest to the significant saturation of this layer with microbial cenoses 4000 years ago and to their partial preservation up to now owing to the high concentration of ancient human wastes there.