The recent ban of the most efficient chemical nematicides has left growers without methods for controlling the carrot cyst nematode Heterodera carotae. This phytoparasitic nematode species has a very narrow host range and causes severe crop losses in the main carrot‐growing regions worldwide. The development of alternative means of management of H. carotae is thus essential, and knowledge is required about the adaptive abilities of H. carotae, which mainly depend on gene flow among populations. The goal of this study was to describe the genetic structure of H. carotae populations at the spatial scale of the main infested French carrot‐producing region, i.e. Lower Normandy, and to disentangle the causes of the heterozygote deficit in this polyvoltine species. Microsatellite genotyping of populations collected at both the plant and field scales showed that: (i) the heterozygote deficit is mainly due to substructure; and (ii) there is strong gene flow among populations, leading to low FST and to no clear genetic structure at the spatial scale explored here. Soil transport through both agricultural machinery and the transport of leek seedlings is probably responsible for the very strong H. carotae migration among fields and production areas. Measures should be considered to limit the passive spread of H. carotae.
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