Soil properties only weakly affect subterranean ant distribution at small spatial scales

► High ant species turnover was observed at small spatial scale (1m) in Andean forests. ► At regional scale (2km), both ant assemblages and soil properties were distinct. ► Subterranean ant distribution was weakly explained by soil properties heterogeneity. Physico-chemical properties of soils have...

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Bibliographic Details
Published in:Applied soil ecology : a section of Agriculture, ecosystems & environment ecosystems & environment, 2012-11, Vol.62, p.163-169
Main Authors: Jacquemin, Justine, Drouet, Thomas, Delsinne, Thibaut, Roisin, Yves, Leponce, Maurice
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
Altitude
Andes
Ant biodiversity
Ant community
Baiting
Biochemistry and biology
Biological and medical sciences
Chemical, physicochemical, biochemical and biological properties
Climate
Ecuador
Electrical conductivity
Formicidae
Fundamental and applied biological sciences. Psychology
Humification
Minerals
Organic matter
pH effects
Physicochemical properties
Physics, chemistry, biochemistry and biology of agricultural and forest soils
Sampling
Soil fauna
Soil properties
Soil science
Soil texture
Tropical mountain forests
Zoology (interactions between soil fauna and agricultural or forest soils)
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Summary:► High ant species turnover was observed at small spatial scale (1m) in Andean forests. ► At regional scale (2km), both ant assemblages and soil properties were distinct. ► Subterranean ant distribution was weakly explained by soil properties heterogeneity. Physico-chemical properties of soils have an indirect effect on ground-dwelling ant assemblages at regional scale. By contrast, little is known on their effect at the scale of the meter, at which direct interactions between subterranean ants and their environments occur. We aimed to study the effect of soil properties on the small-scale distribution of highly diverse subterranean ant assemblages. We expected ant species to be differentially associated with soil variables. This study was conducted in Bombuscaro and Copalinga (Ecuador), two premontane tropical forests 2km apart, sharing the same climate and altitude. In each site, we delineated a 100m line transect and every meter collected a sample of mineral soil (15cm×15cm×10cm) and the associated ant fauna. Compared with traditional baiting this method should provide a relatively unbiased measure of subterranean ant diversity. Organic matter content, pH, electrical conductivity, degree of humification, soil texture and land slope were measured at each sampling point. Soil attributes of the two sites were contrasting and strongly spatially autocorrelated. The two ant assemblages shared only 12% of their 76 species. Ant diversity was higher in Bombuscaro (Fisher-α=21.7 vs. 16 in Copalinga). Species turnover was remarkably high at both regional (intersite) and local (intrasite) scales. Ant species richness was not correlated with any of the measured variables. Soil properties were not associated with the occurrence of any ant species in Copalinga. In Bombuscaro, Hypoponera sp.01RI was correlated with lower pH values, and Acropyga fuhrmanni to higher clay content. A. fuhrmanni did not show correlation with this variable in Copalinga, where it is the dominant species (present in 48% of the samples). However, this species is associated with higher clay content at Copalinga (36.7±6% SD) compared with Bombuscaro (6.5±2%). Although weakly explained by the soil factors investigated, a high ant species turnover was observed at both small (1m) and regional (2km) spatial scales. The latter observation stresses the importance of designing large nature reserves including mosaics of habitats to conserve subterranean ant diversity in the Andes.
ISSN:0929-1393
1873-0272
DOI:10.1016/j.apsoil.2012.08.008