1.Facultative bacterial endosymbionts can protect their aphid hosts from natural enemies such as hymenopteran parasitoids. As such, they have the capability to modulate interactions between aphids, parasitoids and hyperparasitoids. However, the magnitude of these effects in natural aphid populations and their associated parasitoid communities is currently unknown. Moreover, environmental factors such as plant fertilization and landscape complexity are known to affect aphid‐parasitoid interactions but it remains unclear how such environmental factors affect the interplay between aphids, parasitoids and endosymbionts. 2.Here, we tested whether facultative endosymbionts confer protection to parasitoids in natural populations of the English grain aphid, Sitobion avenae, and if this is affected by plant fertilization and landscape complexity. Furthermore, we examined whether the effects of facultative endosymbionts can cascade up to the hyperparasitoid level and increase primary‐hyperparasitoid food web specialization. 3.Living aphids and mummies were collected in fertilized and unfertilized plots within 13 wheat fields in Central Germany. We assessed the occurrence of primary parasitoid, hyperparasitoid and endosymbiont species in aphids and mummies using a newly established molecular approach. 4.Facultative endosymbiont infection rates were high across fields (~80 %), independent of whether aphids were parasitized or un‐parasitized. Aphid mummies exhibited a significantly lower share of facultative endosymbiont infection (~38 %). These findings suggest that facultative endosymbionts do not affect parasitoid oviposition behavior, but decrease parasitoid survival in the host. Facultative endosymbiont infection rates were lower in mummies collected from fertilized compared to unfertilized plants, indicating that plant fertilization boosts the facultative endosymbiont protective effect. Furthermore, we found strong evidence for species‐specific and negative cascading effects of facultative endosymbionts on primary and hyperparasitoids, respectively. Facultative endosymbionts impacted parasitoid assemblages and increased the specialization of primary‐hyperparasitoid food webs: these effects were independent from and much stronger than other environmental factors. 5.The current findings stongly suggest that facultative endosymbionts act as a driving force in aphid‐parasitoid‐hyperparastioid networks: they shape insect community composition at different trophic levels and modulate, directly and indirectly, the interactions between aphids, parasitoids and their environment. The molecular detection and identification of facultative endosymbionts and parasitoids in field collected Sitobion avenaeThe molecular detection and identification of facultative endosymbionts and parasitoids in field collected Sitobion avenae. Positive and negative detections are represented as “1” and “0”, respectively. Spaces are replaced using “_”.Ye et al. Original data.csv