Biodiversity associations of soil fauna and plants depend on plant life form and are accounted for by rare taxa along an elevational gradient

This study aimed at exploring the alpha and beta diversity associations between plants and soil fauna along an elevational gradient while systematically considering rare to abundant plants and animals, and different plant life forms. We sampled soil fauna (litter fauna and rhizosphere fauna of trees, shrubs and herbs) and investigated plant diversity in 119 plots along an elevational gradient (from 1,020 to 1,770 asl) on Dongling Mountain, China. We calculated alpha diversity from both Rényi's generalized entropy function and Jost's effective species numbers assigning different weights to abundant and rare taxa. Beta diversity was obtained based on a presence–absence metric (beta-sim) and an abundance-based metric (beta-morisita). Abundant litter fauna showed decreasing alpha diversity patterns with increasing elevation, whereas rare litter fauna showed hump-shaped patterns. Abundant litter fauna diversity was positively correlated with abundant tree diversity, but rare litter fauna were negatively correlated with abundant shrub diversity. The diversity of rare fauna associated with the herb rhizosphere showed hump-shaped elevational patterns, whereas no patterns were found for abundant fauna associated with the herb rhizosphere. Rare fauna diversity associated with the herb rhizosphere was negatively correlated with rare herb diversity. No beta diversity correlations between rhizosphere fauna and plants were detected, whereas the beta-sim diversity of litter fauna was pos...
Source: Soil Biology and Biochemistry - Category: Biology Source Type: research