Model sensitivity to spatial resolution and explicit light representation for simulation of boreal forests in complex terrain

Authored by Ksenia Brazhnik, H H Shugart

Date Published: 2017

DOI: 10.1016/j.ecolmodel.2017.02.026

Sponsors: United States National Aeronautics and Space Administration (NASA)

Platforms: No platforms listed

Model Documentation: Other Narrative

Model Code URLs: Model code not found

Abstract

A model is a simplification of our understanding of reality, but how much simplification is too much? We assessed model sensitivity for a new spatially-explicit individual-based gap model (IBM) SIBBORK to determine how spatial resolution (i.e., plot size) and explicit representation of light and space affect the simulated vegetation characteristics (e.g., structure and composition). The 3-dimensional (3-D) representation of light is the most computationally-expensive part of the simulation, so it is worthwhile to evaluate whether the time, resource and effort of spatial explicity improve predictive capabilities. In the simulation, gap dynamics occur at the plot-level, wherein a certain level of spatial homogeneity is assumed. Therefore, for the simulation of each ecosystem it is imperative to select the appropriate scale at which gap dynamics are simulated, i.e. the plot size. We conducted these sensitivity analyses and qualitatively compared model output to the descriptions of forest structure and composition at two different sites in central and southern Siberia. We systematically varied the plot size (100-900 m(2)) and found that a 100 m2 plot is most appropriate for the simulation of the central Siberian boreal forest ecosystem. Moreover, we found that the forest structure and composition simulated under the light environment generated using a 3-dimensional light ray tracing subroutine more closely resembled local and regional forest characteristics at both sites, whereas the growth and stand processes computed based on the simplified (1-D) light conditions approximated only large-scale (continental) average forest structure and biomass for the Eurasian boreal forest. (C) 2017 Elsevier B.V. All rights reserved.

Tags

Individual-based model Leaf-area index Central siberia Gap model Tundra ecotone 3-d forest simulator 3-d light regime Plot size Spatial-explicity Model sensitivity Sibbork Western sayan mountains Ecosystem respiration Ground measurements Southern siberia Pinus-sibirica Larix-sibirica