Singh, P.; Baruah, G.; Muller, C.

Intraspecific behavioral variation in prey could alter predator prey interactions, yet its effects on temporal dynamics and food web persistence remain underexplored. Pea aphids (Acyrthosiphon pisum) exhibit dropping behavior in response to predators like the seven spot ladybird (Coccinella septempunctata). This response could be an effective anti predator defense but could be costly in terms of energy expenditure and time not available for feeding. To investigate the impact of behavioral variation on food-chain persistence and dynamics, we used a tri trophic experimental system with Vicia faba (plant), pea aphids (prey), and seven spot ladybirds (predator), implementing three aphid behavioral treatments: droppers, non droppers, and a mix of both droppers and non droppers. To minimize genetic differences, we used clonal aphid populations across all treatments. We then tracked predator prey population dynamics and species persistence over 25 days. Our results showed that aphid dropping behavior reduced food chain persistence, with extinction risk significantly higher in dropper treatments than in the mix or non dropper treatments. Ladybirds persisted across treatments, although they showed a steeper decline in abundance in the dropper treatment. In the mixed behavioral treatment, they had an intermediate persistence, suggesting a buffering effect of behavioral variation. Trophic food chain state transitions also differed by treatment, with tri trophic states most stable in the non dropper, and least frequent in the dropper treatment. Furthermore, our results showed a trend of dropper treatments becoming more stable and robust towards the end of the experiment. These results demonstrate that prey behavior influences the persistence and dynamics of food chains, with important implications for behavior-driven community dynamics.