. . "3"^^ . "RIV/60077344:_____/11:00359918!RIV12-MSM-60077344" . "RIV/60077344:_____/11:00359918" . "Inputs of nitrogen and organic matter govern the composition of fungal communities in soil disturbed by overwintering cattle"@en . "\u0160imek, Miloslav" . "205011" . . . . "3"^^ . "Inputs of nitrogen and organic matter govern the composition of fungal communities in soil disturbed by overwintering cattle" . "cattle overwintering; upland pasture; soil fungal community"@en . "Soil Biology and Biochemistry" . . "000287435300020" . . . "10.1016/j.soilbio.2010.12.001" . "Inputs of nitrogen and organic matter govern the composition of fungal communities in soil disturbed by overwintering cattle"@en . . . . "Elhottov\u00E1, Dana" . . . . "10"^^ . . "Overwintering cattle outdoors causes soil surface disturbance, substantial increases of soil Ntot, Corg, and P and a shift in pH to alkaline levels. Since fungi predominate in unfertilized soils with acidic pH and have filamentous hyphae, we hypothesized that changes caused by overwintering cattle outdoors (trampling, excreta returns, and changes in soil chemistry) will lead to suppressed species richness, lower biomass, and alter the structure of fungal communities. The research was conducted on an upland pasture used more than 10 years for cattle overwintering. Both culture-dependent and -independent methods were used for the determination of either fungal species composition (cultivation; DGGE) or biomass (numbers of CFU; concentration of fungal PLFA marker 18:2w6,9). Soils under three different levels of cattle disturbance (S - severe, M - moderate, C - no disturbance/control) were investigated during three subsequent years." . . . "[B1367175CDD1]" . "GB - Spojen\u00E9 kr\u00E1lovstv\u00ED Velk\u00E9 Brit\u00E1nie a Severn\u00EDho Irska" . . "P(GA526/09/1570), P(LC06066), V, Z(AV0Z60660521)" . "Overwintering cattle outdoors causes soil surface disturbance, substantial increases of soil Ntot, Corg, and P and a shift in pH to alkaline levels. Since fungi predominate in unfertilized soils with acidic pH and have filamentous hyphae, we hypothesized that changes caused by overwintering cattle outdoors (trampling, excreta returns, and changes in soil chemistry) will lead to suppressed species richness, lower biomass, and alter the structure of fungal communities. The research was conducted on an upland pasture used more than 10 years for cattle overwintering. Both culture-dependent and -independent methods were used for the determination of either fungal species composition (cultivation; DGGE) or biomass (numbers of CFU; concentration of fungal PLFA marker 18:2w6,9). Soils under three different levels of cattle disturbance (S - severe, M - moderate, C - no disturbance/control) were investigated during three subsequent years."@en . "43" . "Jirout, Ji\u0159\u00ED" . "3" . . . . "Inputs of nitrogen and organic matter govern the composition of fungal communities in soil disturbed by overwintering cattle" . . "0038-0717" .