AbstractControversial glyphosate-based herbicides (GBHs) are the most frequently used herbicides across the globe. In an increasing number of studies, researchers have identified GBH residues in soil, water, crops, and food products exposing non-target organisms to health risks; these organisms include wildlife, livestock, and humans. However, GBH-related parental effects are poorly understood. In the case of birds, GBHs may be transferred directly from mother to developing offspring (i.e. direct effects) via eggs, or they may indirectly influence offspring performance by altered maternal condition or resource allocation to eggs, for example. We experimentally exposed a parental generation of Japanese quails (Coturnix japonica) to GBHs or respective controls, recorded egg quality and glyphosate residues in eggs, and studied embryonic development and oxidative biomarkers. Glyphosate accumulated in eggs (ca 0.76 kg/mg). Embryonic development tended to be lower in eggs of GBH-exposed parents compared to control parents. Embryonic brain tissue from GBH-exposed parents tended to express more lipid damage. Given that we detected no differences in egg quality (egg, yolk, or shell mass, or egg hormone concentration) across the treatment groups, our results suggest these are likely direct effects of GBHs on offspring rather than indirect effects via altered maternal allocation of resources or hormonal signals.CapsuleExperimental, long-term parental exposure to GBHs tends to hinder offspring embryonic development and increase embryonic oxidative damage to lipids in a bird model.
Metabolomic analysis of the egg yolk during the embryonic development of broilers
