… algae-algae eating fish food chain. The bioaccumulation of nano-TiO 2 (P25 – nTiO 2 ),
nano-ZnO (nZnO), and triclosan (… algae, Asterococcus superbus, to fish, Gyrinocheilus aymonieri. …

… toxicity of BAC than triclosan and triclocarban when investigated in both fish (Danio rerio) …
first evidence for the trophic transfer of PCPs from green algae (Asterococcus superbus) to fish (…

… The trophic transfer, bioaccumulation and bio-enrichment of MNMs via the food web would
… nTiO2 induced changes in intracellular composition and nutrient stoichiometry in primary …

… levels of Ce trophic transfer and possible food chain contamination. … trophic transfer may
increase the amount of Au NMs internalized and that NPs in the soil may impact the food chain…

… These heavy metals can be transmitted between aquatic organisms of different trophic
levels through the food chain. Higher trophic level aquatic organisms often exhibit enhanced …

… in decreased sorption of PPCPs like triclosan and IBP 90,127 . … nanoparticles such as nTiO2
and nZnO accumulated more in … in the algae compared to those exposed only to nTiO2 167 . …

… OPFRs in fish with greater nutritional levels can enter the food chain through bio-enrichment
and bio-amplification, and thus enter the human body through food intake (Xin et al., 2021). …

… the base of the trophic chain is of ecological significance. … the aquatic food chain, bioavailability,
and potential toxicity of … Furthermore, other metal oxide ENPs, eg, nZnO and nTiO 2 , …

… Furthermore, other metal oxide ENPs, eg, nZnO and nTiO2, were observed to enhance …
Trophic transfer potential of nTiO2, nZnO, and triclosan in an algae-algae eating fish food chain…

… However, algae exist at the bottom of the aquatic food chain as single-celled organisms,
and are extensively consumed by higher organisms. Pesticide residues in aquatic organisms …