The main goals of this study were to document the structural and functional
recovery of differently restored areas, to understand better the relationship
between the two, and to determine which types of measurements are best for
assessing restoration success. To address these questions, an experimental
system was created through topsoil removal and subsequent restoration in a
blocked, completely randomized design using two levels of soil amendment (with or
without 10 kg of leaf mulch per square meter) and three levels of seeding treatment
(no seed, a standard reclamation mix, and an alternative, wildflower dominated
reclamation mix). All measurements were designed to document responses due to
restoration treatment in comparison to adjacent, undisturbed, reference sites.
Vegetation structure in amended sites, as measured by total vegetation cover and
species richness, recovered to levels similar to references within the two years
of the study.
Plant community composition did not develop similarity to references in any
experimental treatments. Both soil amendment and seeding type affected
cellulose decomposition rates, with amended plots showing higher decomposition
rates than unamended, and seeded plots exhibiting higher rates than unseeded.
Enzyme activities were largely determined by soil amendment, but the reference
plots consistently had higher enzymatic activity. Amended sites exhibited
significant increases over time in soil respiration, reaching or surpassing the
rates observed in reference areas. Methane oxidation rates were generally
increased in disturbed plots compared to undisturbed references due to increased
atmospheric diffusion into the soil. Amended areas exhibited depressed rates
relative to unamended, and seeding level had no significant effect on methane
oxidation. Over all measurements, restoration of ecosystem function was most
facilitated by the addition of the soil amendment. Seeding treatment
significantly altered the resultant plant community, which may have substantial,
long-term consequences for succession. The inclusion of functional parameters
into restoration assessment provides for better overall information concerning
ecosystem performance and may add to the ability to predict long-term success of
restoration efforts.
Keywords:
Ecological restoration, plant community recovery, soil enzymes, cellulose decomposition, soil respiration, atmospheric methane uptake, ecosystem services
Availability:
In 3 months.
Public URL:
http://scholar.lib.vt.edu/theses/public/etd-1416152839711171/etd-title.html
List of attached files
| File Name | Size (Bytes) |
| etd.pdf | 471,668 Bytes |
Date item approved:
04/29/97
Fees:
Archiving fee received.
UMI fee received/NA.
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