Title: Non-random distribution of weed species abundance in arable fields
Abstract: Many decisions for pest control in agriculture are based on densities, rather than species presence only. Little is known about the distribution of pest abundance and even less when several species present in a field may interact. With the aim of developing an ecologically based approach to weed management, we compared observed co-occurrence patterns with a null model, to test whether the abundances of weed species were randomly assembled. The data set covered the pattern of co-occurrence of abundances of weeds within 200-m2 plots located in 1143 arable fields scattered across France. Our results pinpointed a highly significant ‘similar attraction–dissimilar repulsion’ rule, as species reaching similar abundance levels co-occurred significantly more often than expected under the hypothesis of a random distribution of abundance. A similar analysis applied to the 25% plots that had the highest weed densities indicated that the ‘similar attraction–dissimilar repulsion’ rule held true for low-abundance classes, but not in situations where at least one species was observed at densities above 20 individuals m−2. Our analysis extends the analysis of community beyond the sole species richness index by accounting for their abundance. Overall, weed species interfered or responded similarly to an external biotic or abiotic factor, with resulting adjustment of densities at the scale of the agricultural field. [Borgy B, Gaba S, Petit S & Reboud X (2012). Non-random distribution of weed species abundance in arable fields. Weed Research. on-line 12 May 2012 doi: 10.1111/j.1365-3180.2012.00920.x]