Record ID No. |
779 |
Author(s) |
Nikonov,V.V., Lukina,N.V., Polyanskaya,L.M., Fomicheva,O.A., Isaeva,L.G., Zvyagintsev,D.G , 2006 |
Affiliation |
Centre for Problems of Ecology and Forest Productivity RAN, 117997, Moscow, Russia. |
Title |
Population and biomass of microorganisms in soils of pyrogenic succession in the northern taiga pine forests. |
Source. Vol.(no):Page |
Pochvovedenie, (4), 484-494p. |
Categories |
Mycorrhiza General |
Subjects |
Soil plant relations |
Sub-subjects |
Miscellaneous |
Host |
Pine |
Organism |
Basidiomycetes, Actinomycete mycelium |
Country |
Russia, Asia |
Abstracts |
In the organic horizons of Al-Fe-humus podzols under old pine forests of the northern taiga, the biomass of all the groups of microorganisms, the length of the fungal and actinomycete mycelium, the number of fungal spores, and the bacterial population were a maximum (13 mg/g) irrespective of the stage of pyrogenic succession. The share of fungi (mainly, of basidiomycetes) exceeded 90%. In the mineral root-inhabited soil horizons, the biomass of microorganisms was not greater than 1.0 mg/g. The soil under the lichen pine forest had the smallest biomass of microorganisms as compared to the soil under the pine forests that were not exposed to fire for a long time. At all the stages of the pyrogenic succession, the most favorable conditions for the functioning of microorganisms were in the root-inhabited horizons of the soils in near-stem sites due to the accumulation of nutrients there. In the soils of these zones, the basidiomycete biomass was greater than that in the soils of the gaps. In the mineral soil horizons, buckleless micromycetes demonstrated the same trend. No distinct parcella differences, with respect to the soil nutrient regime, were found only for the prokaryotes. The fungi in the Al-Fe-humus podzols may be used as indicators for the pyrogenic succession stages of forest ecosystems. At the early stages, micromycetes without buckles prevailed, and, in the course of succession, the share of basidiomycetes clearly increased. The density and structure of mycorrhiza were closely related to the nutrient regime of the soils. The increase in the concentration of available biogenic elements in the root-inhabited soil horizons did not cause the necessity of developing complex mycorrhiza forms. |