Abstract
Soils developed on relict hydrothermally altered soils throughout the Western United States present unique opportunities to study the role of geology on above and belowground biotic activity and composition. Soil and vegetation samples were taken at three unaltered andesite and three hydrothermally altered (acid-sulfate) sites located in and around Lassen Volcanoes National Park in northeastern California. In addition, three different types of disturbed areas (clearcut, thinned, pipeline) were sampled in acid-sulfate altered sites. Soils were sampled (0 to 15 centimeters) in mid-summer 2010 from both under-canopy and between-canopy areas within each of the sites. Soils were analyzed for numerous physical and chemical properties along with soil enzyme assays, carbon and nitrogen mineralization potential, microbial biomass-carbon and carbon-substrate utilization. Field vegetation measurements consisted of canopy cover by life form (tree, shrub, forb, grass), tree and shrub density, and above-ground net primary productivity of the understory. Overall, parameters at the clearcut sites were more similar to the unaltered sites, while parameters at the thinned and pipeline sites were more similar to the altered sites. We employed principal components analysis to develop two soil quality indices to help quantify the differences among the sites: one based on the correlation between soil parameters and canopy cover, and the second based on six sub-indices. Soil quality indices developed in these systems could provide a means for monitoring and identifying key relations between the vegetation, soils and microorganisms.
Highlights
Soils developed on relict hydrothermally altered soils throughout the Western USA present unique opportunities to study the role of geology on above and belowground biotic activity and composition
We employed principal components analysis (PCA) to develop two soil quality indices (SQI) to help quantify the differences among the sites: one based on the correlation between soil parameters and canopy cover, and the second based on six sub-indices
Soil–plant–microbial relationships within humid ecosystems associated with hydrothermally altered rock in the Western USA have not been extensively studied; soil–plant relationships in similar, more arid Western USA ecosystems have shown that inherently low soil pH and fertility help drive the occurrence of open pine forests in altered soils compared with sagebrush dominated communities on nearby unaltered soils (Billings, 1950; Salisbury, 1954; Schlesinger et al, 1989)
Summary
Soils developed on relict hydrothermally altered soils throughout the Western USA present unique opportunities to study the role of geology on above and belowground biotic activity and composition. Soil and vegetation samples were taken at three unaltered andesite and three hydrothermally altered (acid-sulfate) sites located in and around Lassen VolcanicNational Park in northeastern California. Three different types of disturbed areas (clearcut, thinned, and pipeline) were sampled in acid-sulfate altered sites. Recent work at semiarid sagebrush/conifer, hydrothermally altered andesite locations in NV and CA examined differences in microbial activity between altered and unaltered soils (Blecker et al, 2010). The addition of key chemical (e.g., pH, electrical conductivity (EC), metals and macronutrients) and physical (e.g., soil texture) parameters can provide further detail, with an even more complete picture of recovery gained through measures of soil microbial activity (Mummey et al, 2002; RuizJaen and Aide, 2005; Haney et al, 2008). One means of distilling such a wide array of information is by developing soil or ecosystem quality indices (SQIs), which can provide a link between science and land management
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