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1 April 2007 Species richness and soil properties in Pinus ponderosa forests: A structural equation modeling analysis
Daniel C. Laughlin, Scott R. Abella, W. Wallace Covington, James B. Grace
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Abstract

Question: How are the effects of mineral soil properties on understory plant species richness propagated through a network of processes involving the forest overstory, soil organic matter, soil nitrogen, and understory plant abundance?

Location: North-central Arizona, USA.

Methods: We sampled 75 0.05-ha plots across a broad soil gradient in a Pinus ponderosa (ponderosa pine) forest ecosystem. We evaluated multivariate models of plant species richness using structural equation modeling.

Results: Richness was highest at intermediate levels of understory plant cover, suggesting that both colonization success and competitive exclusion can limit richness in this system. We did not detect a reciprocal positive effect of richness on plant cover. Richness was strongly related to soil nitrogen in the model, with evidence for both a direct negative effect and an indirect non-linear relationship mediated through understory plant cover. Soil organic matter appeared to have a positive influence on understory richness that was independent of soil nitrogen. Richness was lowest where the forest overstory was densest, which can be explained through indirect effects on soil organic matter, soil nitrogen and understory cover. Finally, model results suggest a variety of direct and indirect processes whereby mineral soil properties can influence richness.

Conclusions: Understory plant species richness and plant cover in P. ponderosa forests appear to be significantly influenced by soil organic matter and nitrogen, which are, in turn, related to overstory density and composition and mineral soil properties. Thus, soil properties can impose direct and indirect constraints on local species diversity in ponderosa pine forests.

Daniel C. Laughlin, Scott R. Abella, W. Wallace Covington, and James B. Grace "Species richness and soil properties in Pinus ponderosa forests: A structural equation modeling analysis," Journal of Vegetation Science 18(2), 231-242, (1 April 2007). https://doi.org/10.1658/1100-9233(2007)18[231:SRASPI]2.0.CO;2
Received: 11 May 2006; Accepted: 1 October 2006; Published: 1 April 2007
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KEYWORDS
diversity
nitrogen
organic matter
Populus tremuloides
soil texture
Structural equation modeling
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