Abstract
We tested the impact of colony density and climatic conditions on the level of queen polyandry in different wild populations of the honeybee (Apis mellifera jemenitica). We identified the mating frequency of queens by genotyping worker offspring (n = 672) of 28 wild colonies with microsatellite DNA markers. The populations sampled in different climatic regions in Sudan showed a high variance for the queen mating frequency ranging from 9 to 23 estimated matings with an average of 14.00 +/- A 3.94 (13.16 +/- A 4.87 effective matings). The degree of polyandry was highly significantly correlated with the rainfall in the various regions. In general, more rainfall resulted in lower mating frequencies. Polyandry did not correlate with colony density or with genetic diversity of the local sample populations. This suggests that variation in polyandry in wild honeybee populations of Sudan is primarily driven by climatic differences among ecosystem variation rather than by the absolute or effective local honeybee population size.