Slope aspect influences plant association patterns in the Mediterranean matorral of central Chile

The most important processes shaping communities are likely to leave observable imprints on their spatial structure. The net outcome of positive and negative interactions among plants has been proposed to vary inversely with environmental harshness. In the Mediterranean-type matorral of central Chil...

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Bibliographic Details
Published in:Journal of arid environments 2005-07, Vol.62 (1), p.93-108
Main Authors: Badano, E.I., Cavieres, L.A., Molina-Montenegro, M.A., Quiroz, C.L.
Format: Article
Language:English
Subjects:
Community diversity
dry environmental conditions
Environmental gradients
interspecific competition
Mediterranean climate
Mediterranean matorral
Negative interactions
plant communities
Positive interactions
slope
spatial distribution
species diversity
wet environmental conditions
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Summary:The most important processes shaping communities are likely to leave observable imprints on their spatial structure. The net outcome of positive and negative interactions among plants has been proposed to vary inversely with environmental harshness. In the Mediterranean-type matorral of central Chile, slope aspect strongly influences mesoclimatic conditions: equatorial-facing slope are xeric and are dominated by spiny shrubs and cacti, while evergreen sclerophyllous trees dominate polar-facing slopes due to their more mesic conditions. Here we use spatial pattern analyses to infer on the interactions that shape community structure in this matorral. We sampled the vegetation on two polar- and equatorial-facing slopes and assessed the dominant interaction at each slope through: (1) a species co-occurrence index ( C-score) for the entire community; (2) the frequencies of negative and positive associations between species pairs; and (3) the species richness at each slope. Our results indicated that negative spatial associations dominated plant assemblages on all slopes, but the importance of negative associations decreased from mesic (∼30%) to xeric slopes (∼16%). Species richness was higher on xeric than on mesic slopes. Although competition seems to be the main biotic force structuring communities on both mesic and xeric slopes, we suggest that the decrease in importance of negative interactions from mesic to xeric habitats could produce an increase in diversity.
ISSN:0140-1963
1095-922X
DOI:10.1016/j.jaridenv.2004.10.012