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Correlation between structural heterogeneity and arthropod biodiversity : implications for management of Pacific Northwest forestsMadson, Stephanie Lee 08 December 1997 (has links)
The "old-growth controversy" in the Pacific Northwest recognized thinning as the
primary silvicultural practice for land managers to produce wildlife habitat while
continuing to produce timber. For the foreseeable future, forest stands will be harvested to
produce forest gaps and a patchwork of trees of different ages. In order to evaluate the
effect of thinning on biodiversity, nine 15-year-old harvests of this type (age=70 years)
were paired with adjacent old-growth and even-aged, unthinned "pole" stands.
Since soil is the crucible of terrestrial biodiversity, it is critical to contrast the
effects upon the forest floor of this future practice with current management. Soil and
litter fauna were monitored along 250 meter transects (pitfall and Berlese sampling at ten-meter
intervals) to meet the following objectives: 1) to determine biological diversity on
public lands, per federal mandate, and use diversity as a management tool; 2) compare
levels of biodiversity between three management strategies; 3) determine best methods to
assay arthropod diversity; and 4) identify structural and environmental determinants of
arthropod diversity and abundance. The study's hypotheses were: 1) old-growth forests
will have greater arthropod diversity than thinned stands; 2) thinned stands will have
greater arthropod diversity than unthinned stands; and 3) species found within old-growth
stands, but not within unthinned pole stands, will also be found in thinned stands.
This study contrasted nine Western Hemlock/Douglas-fir sites each with
contrasting old-growth, thinned and unthinned pole management stands. Sites were
equally blocked in Southern Oregon, the Coast Range, and the Cascade Mountains. No
segment of the arthropod fauna. (i.e., pitfall-trapped epigeic macroarthropods, Berlese-extracted
litter-dwelling meso- and microarthropods, or soil-dwelling microarthropods)
exhibited a management (treatment) effect throughout the entire region. When the regional
blocking was removed, within-region analysis generally revealed that old-growth was most
distinct. Old-growth stands had the highest abundance of individuals, but were comprised
of the fewest species. Thinned stands were characterized by the highest species richness.
Within-region analysis revealed an interaction of management effects and specific locale
effects; locale effects dominated for soil microarthropods and epigeic macroarthropods,
while management options dominated for litter arthropods.
Within the Southern Oregon region, I attempted to correlate arthropod community
structure (canonical correspondence analysis (CCA) of within-stand samples) with a suite
of soil chemical and microbiological descriptors. Full analysis of twelve variables within
one exemplary stand revealed several potential trends (negative: dissolved organic carbon,
soil moisture, distance from the beginning of the transect; positive: total CO��� field
respiration, mineralizable nitrogen, water-induced respiration, substrate-induced
respiration). Relatively shallow slopes and very low r-value coefficients of correlation
characterized all statistical tests. Few of the trends apparent at one site were paralleled at
more than one other site; at all sites potential correlates had very low r-values. No
community revealed separate clouds in CCA analysis, indicating distinct "micro-communities"
of arthropods inhabiting distinct micro-habitats. Lack of distinctive species
assemblages and lack of correlation with microhabitat variables indicated that arthropods
respond on different temporal and/or spatial scales then the microbial-oriented variables,
and that each taxon is responding in an individual manner. / Graduation date: 1998
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