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Soil saturation effects on forest dynamics: scaling across a southern boreal/northern hardwood landscape (1999)

Weishampel, John F. ; Knox, Robert G. ; Levine, Elissa R.

Springer

Landscape ecology 14 (1999), S. 121-135

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ISSN: 1572-9761

Keywords: aggregation ; biomass ; drainage class ; GIS ; soil maps ; succession model ; waterlogging

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Patch modeling can be used to scale-up processes to portray landscape-level dynamics. Via direct extrapolation, a heterogeneous landscape is divided into its constituent patches; dynamics are simulated on each representative patch and are weighted and aggregated to formulate the higher level response. Further extrapolation may be attained by coarsening the resolution of or lumping environmental data (e.g., climatic, edaphic, hydrologic, topographic) used to delimit a patch. Forest patterns at the southern boreal/northern hardwood transition zone are often defined by soil heterogeneity, determined primarily by the extent and duration of soil saturation. To determine how landscape-level dynamics predicted from direct extrapolation compare when coarsening soil parameters, we simulated forest dynamics for soil series representing a range of drainage classes from east- central Maine. Responses were aggregated according to the distribution of soil associations comprising a 600 ha area based on local- (1:12,000), county- (1:120,000) and state- (1:250,000) scale soil maps. At the patch level, simulated aboveground biomass accumulated more slowly in poorer draining soils. Different soil series yielded different communities comprised of species with various tolerances for soil saturation. When aggregated, removal of waterlogging caused a 20–60% increase in biomass accumulation during the first 50 years of simulation. However, this early successional increase and the maximum level of biomass accumulation over a 200 year period varied by as much as 40% depending on the geospatial data. This marked discrepancy suggests caution when extrapolating with forest patch models by coarsening parameters and demonstrates how rules used to rescale environmental data need to be evaluated for consistency.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1008031817730

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Bootstrapped ordination: a method for estimating sampling effects in indirect gradient analysis (1989)

Knox, Robert G. ; Peet, Robert K.

Springer

Plant ecology 80 (1989), S. 153-165

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ISSN: 1573-5052

Keywords: Detrended correspondence analysis ; Ordination ; Procrustes rotation ; Resampling ; Rotational instability ; Scaled rank variance

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Indirect gradient analysis, or ordination, is primarily a method of exploratory data analysis. However, to support biological interpretations of resulting axes as vegetation gradients, or later confirmatory analyses and statistical tests, these axes need to be stable or at least robust into minor sampling effects. We develop a computer-intensive bootstrap (resampling) approach to estimate sampling effects on solutions from nonlinear ordination. We apply this approach to simulated data and to three forest data sets from North Carolina, USA and examine the resulting patterns of local and global instability in detrended correspondence analysis (DCA) solutions. We propose a bootstrap coefficient, scaled rank variance (SRV), to estimate remaining instability in species ranks after rotating axes to a common global orientation. In analysis of simulated data, bootstrap SRV was generally consistent with an equivalent estimate from repeated sampling. In an example using field data SRV, bootstrapped DCA showed good recovery of the order of common species along the first two axes, but poor recovery of later axes. We also suggest some criteria to use with the SRV to decide how many axes to retain and attempt to interpret.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00048039

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