Disturbance Alters the Relative Importance of Topographic and Biogeochemical Controls on Microbial Activity in Temperate Montane Forests

Fire and pathogen-induced tree mortality are the two dominant forms of disturbance in Western U.S. montane forests. We investigated the consequences of both disturbance types on the controls of microbial activity in soils from 56 plots across a topographic gradient one year after the 2012 High Park...

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Bibliographic Details
Published in:Forests 2018-02, Vol.9 (2), p.97
Main Authors: Lybrand, Rebecca, Gallery, Rachel, Trahan, Nicole, Moore, David
Format: Article
Language:English
Subjects:
Biogeochemistry
Biological activity
carbon
Carbon dioxide
Dissolved organic carbon
Disturbance
disturbance ecology
Efflux
exoenzyme activity (EEA)
extracellular enzymes
fire
Forests
Mathematical models
Microbial activity
Microorganisms
Moisture content
Montane environments
Mountain forests
Mountain Pine Bark Beetle
Nitrogen
pH effects
Ponderosa pine (Pinus ponderosae)
SAGA wetness index
Soil chemistry
soil microbial community
Soil moisture
Soil pH
Temperate forests
topographic wetness index
Topography
Topsoil
Wildfires
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Summary:Fire and pathogen-induced tree mortality are the two dominant forms of disturbance in Western U.S. montane forests. We investigated the consequences of both disturbance types on the controls of microbial activity in soils from 56 plots across a topographic gradient one year after the 2012 High Park wildfire in Colorado. Topsoil biogeochemistry, soil CO2 efflux, potential exoenzyme activities, and microbial biomass were quantified in plots that experienced fire disturbance, beetle disturbance, or both fire and beetle disturbance, and in plots where there was no recent evidence of disturbance. Soil CO2 efflux, N-, and P-degrading exoenzyme activities in undisturbed plots were positively correlated with soil moisture, estimated from a topographic wetness index; coefficient of determinations ranged from 0.5 to 0.65. Conversely, the same estimates of microbial activities from fire-disturbed and beetle-disturbed soils showed little correspondence to topographically inferred wetness, but demonstrated mostly negative relationships with soil pH (fire only) and mostly positive relationships with DOC/TDN (dissolved organic carbon/total dissolved nitrogen) ratios for both disturbance types. The coefficient of determination for regressions of microbial activity with soil pH and DOC/TDN reached 0.8 and 0.63 in fire- and beetle-disturbed forests, respectively. Drivers of soil microbial activity change as a function of disturbance type, suggesting simple mathematical models are insufficient in capturing the impact of disturbance in forests.
ISSN:1999-4907
1999-4907
DOI:10.3390/f9020097