The Effect of Soil on the Growth Performance of Tropical Species with Contrasting Distributions

Within the tropics, a marked gradient in rainfall between dry and wet forests correlates with a well documented turnover of plant species. While water availability along these gradients is an important determinant of species distributions, other abiotic and biotic factors correlate with rainfall and...

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Bibliographic Details
Published in:Oikos 2008-10, Vol.117 (10), p.1453-1460
Main Authors: Brenes-Arguedas, Tania, Ríos, Marcos, Rivas-Torres, Gonzalo, Blundo, Cecilia, Coley, Phyllis D., Kursar, Thomas A.
Format: Article
Language:English
Subjects:
Acid soils
Forest soils
Forest trees
Leaf area
Rain
Seedlings
Soil fertility
Soil quality
Soil treatment
Trees
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Summary:Within the tropics, a marked gradient in rainfall between dry and wet forests correlates with a well documented turnover of plant species. While water availability along these gradients is an important determinant of species distributions, other abiotic and biotic factors correlate with rainfall and may also contribute to limit species distribution. One of these is soil fertility, which is often lower in the wetter forests. To test its possible role in species distribution along a rainfall gradient, we performed a screen-house experiment where we measured the growth performance of seedlings of 23 species with contrasting distributions across the Isthmus of Panama. We grew seedlings in soils collected from the drier Pacific side and the wetter Atlantic side. Differences in soil fertility across the Isthmus were large enough to significandy influence the growth performance of the seedlings. However, we found no evidence of home-soil advantage among species with contrasting distributions. Dry-distribution species grew on average slower than wet-distribution species suggesting a cost to drought adaptations. The response to soil differences correlated with the growth rate of the species, such that fastgrowing species responded more to changes in soil quality. We hypothesize that inherendy slow growth rates of some drydistribution tropical species may be a more important factor limiting their colonization of wetter sites along the rainfall gradient.
ISSN:0030-1299
1600-0706
DOI:10.1111/j.2008.0030-1299.16903.x