Abstract
Interactions between plants can have strong effects on community structure and function. Variability in the morphological, developmental, physiological, and biochemical traits of plants can influence the outcome of plant interactions and thus have important ecological consequences. However, the ecological ramifications of trait variability in plants are poorly understood and have rarely been tested in the field. We experimentally tested the effects of morphological variation in root architecture of Quercus douglasii trees in the field on interactions between understory plants and community composition. Our results indicate that variability among Q. douglasii tree root systems initiates a striking reversal in the competitive effects of dominant understory grass species on a less common species. Trees with a deep-rooted morphology facilitated exotic annual grasses and these annual grasses, in turn, competitively excluded the native perennial bunchgrass, Stipapulchra. In contrast, Q. douglasii trees with shallow-rooted morphologies directly suppressed the growth of exotic annual grasses and indirectly released S. pulchra individuals from competition with these annual grasses. Morphological variation in the root architecture of Q. douglasii created substantial conditionality in the outcomes of competition among species which enhanced the potential for indirect interactions to sustain coexistence and increase community diversity.
Highlights
Interactions among plant species can have powerful effects on community composition, productivity, and function (Connell 1983, Callaway et al 1996, Verduand Valiente Banuet 2008)
Relative effects of trees on Stipa pulchra performance.—Stipa pulchra plants grown under shallowrooted trees without neighbors were significantly more suppressed by competition with trees than S. pulchra plants grown under deep-rooted trees without neighbors
We found that morphological variation in Quercus douglasii root architecture had substantial direct and indirect effects on the performance of the native perennial bunchgrass Stipa pulchra in the understory plant community
Summary
Interactions among plant species can have powerful effects on community composition, productivity, and function (Connell 1983, Callaway et al 1996, Verduand Valiente Banuet 2008). When competing with the exotic Carpobrotus edulis the root systems of Haplopappus shift to a much deeper morphology, as they are displaced by the mat-forming exotic (D’Antonio and Mahall 1991). This change in rooting depth by Haplopappus suggests that interacting species can exert strong control over the morphology of their competitors; in this case, causing a Manuscript received 16 September 2013; revised 27 January 2014; accepted 12 February 2014; final version received 14 March 2014.
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