Detecting Treatment Differences in Soil Carbon and Nitrogen Resulting from Forest Manipulations

Detecting Treatment Differences in Soil Carbon and Nitrogen Resulting from Forest Manipulations

Forest management practices may alter soil properties, but experimental evaluation of treatment effects is often difficult because large soil variability yields poor statistical sensitivity. This study was conducted to determine if pretreatment soil sampling enhances our ability to detect treatment...

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Bibliographic Details
Published in:Soil Science Society of America journal Vol. 65; no. 2; pp. 463 - 469
Main Authors: Homann, P.S., Bormann, B.T., Boyle, J.R.
Format: Journal Article
Language:English
Published: Madison Soil Science Society 01-03-2001
Soil Science Society of America
American Society of Agronomy
Subjects:
Agronomy. Soil science and plant productions
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Carbon
Earth sciences
Earth, ocean, space
Exact sciences and technology
Forest management
Forest practices
Forests
Fundamental and applied biological sciences. Psychology
Geochemistry
Methods and techniques
Nitrogen
Soil and rock geochemistry
Soil properties
Soil science
Soils
Synecology
Terrestrial ecosystems
Oregon
United States
North America
America
INE, USA, Pacific Northwest
Forests
Chemical analysis
Variability
Measurement result
Forest management
Forest soil
Sampling design
Statistical simulation
Pseudotsuga menziesii
Sample preparation
Carbon content
Dead wood
Softwood forest tree
Gymnospermae
Soil science
Chemical composition
Chemical concentration
Pretreatment
Debris
Method study
Analytical chemistry
Data analysis
Experimental data
Sample handling
Nitrogen
Carbon
Statistical study
Mass
Biogeochemistry
Analysis method
Treatment
Forestry
Coniferales
Spermatophyta
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Description
Summary:Forest management practices may alter soil properties, but experimental evaluation of treatment effects is often difficult because large soil variability yields poor statistical sensitivity. This study was conducted to determine if pretreatment soil sampling enhances our ability to detect treatment differences in Pacific Northwest forests. We used statistical simulation and data from 271 pretreatment 30‐cm‐deep soil cores taken from 70‐ to 100‐yr‐old post‐fire Douglas‐fir [Pseudotsuga menziesii (Mirb.) Franco] stands at the Siskiyou National Forest in southwestern Oregon. At this site, an unmanipulated control and six treatments of overstory species and woody debris are being established on 6‐ha plots and replicated in three blocks. If only post‐treatment measurements were made, the minimum detectable difference (MDD) between extreme treatments would be 26 to 57% of current soil C and N concentrations (g kg−1) and masses (kg m−2), with C generally having smaller relative MDDs than N. In contrast, if the differences between post‐ and pretreatment were evaluated, relative MDDs for C properties would remain the same, but those for N would decrease by as much as one‐half because N has greater pretreatment variability among plots than C. Masses of C and N, which incorporate information about rock volume and either soil mass or bulk density, have relative MDDs as small as one‐half of those associated with concentrations. Evaluation of other sites is required to determine if these observations are consistent for forests in general and, thus, applicable to the design of sampling strategies in large‐scale experiments.
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ISSN:0361-5995
1435-0661
DOI:10.2136/sssaj2001.652463x