Cascading effects of caffeine intake by primary consumers to the upper trophic level

Abstract: Secondary metabolites are central to understanding the evolution of plant–animal interactions. Direct effects on phytophagous animals are well-known, but how secondary consumers adjust their behavioural and physiological responses to the herbivore's diet remains more scarcely explored for some metabolites. Caffeine is a neuroactive compound that affects both the behaviour and physiology of several animal species, from humans to insects. It is an alkaloid present in nectar, leaves and even sap of numerous speci… Show more

“…As a result, we hypothesize that S. manilae may exhibit higher physiological performance and locomotion ability by consuming a suitable dose of caffeine solution. However, most literature has shown that caffeine and other secondary metabolites might have some negative effects on parasitoids (Hall et al., 2021; Poyet et al., 2017; Thurston & Fox, 1972; Tougeron & Hance, 2021), with a few studies revealing that alkaloids might have no effects on parasitoids (Kostenko et al., 2013; Krauss et al., 2007; Urrutia et al., 2007), which is in contrast to our findings. The main reason for the difference is that previous papers concentrated on the tri‐trophic or multi‐trophic level (Tougeron & Hance, 2021).…”

“…However, most literature has shown that caffeine and other secondary metabolites might have some negative effects on parasitoids (Hall et al., 2021; Poyet et al., 2017; Thurston & Fox, 1972; Tougeron & Hance, 2021), with a few studies revealing that alkaloids might have no effects on parasitoids (Kostenko et al., 2013; Krauss et al., 2007; Urrutia et al., 2007), which is in contrast to our findings. The main reason for the difference is that previous papers concentrated on the tri‐trophic or multi‐trophic level (Tougeron & Hance, 2021). For these trophic‐level studies, the experiments were tested on the parasitoids that parasitized the herbivores that fed on diets or plants containing alkaloids (Barker & Addison, 1996; Bultman et al., 2009, 2012; Campbell & Duffey, 1979).…”

“…However, only a few studies focus on the plant secondary metabolites feeding response of adult parasitoids. Despite the fact that caffeine is primarily regarded as a plant defence mechanism and can be toxic to herbivorous pests (Kim et al., 2006) and even parasitoids larvae (Tougeron & Hance, 2021), it is still worthy to investigate its potential benefits for the adult stage.…”

Enhancing natural enemy performance through plant secondary metabolites: The role of caffeine for the parasitoid Snellenius manilae

“…As a result, we hypothesize that S. manilae may exhibit higher physiological performance and locomotion ability by consuming a suitable dose of caffeine solution. However, most literature has shown that caffeine and other secondary metabolites might have some negative effects on parasitoids (Hall et al., 2021; Poyet et al., 2017; Thurston & Fox, 1972; Tougeron & Hance, 2021), with a few studies revealing that alkaloids might have no effects on parasitoids (Kostenko et al., 2013; Krauss et al., 2007; Urrutia et al., 2007), which is in contrast to our findings. The main reason for the difference is that previous papers concentrated on the tri‐trophic or multi‐trophic level (Tougeron & Hance, 2021).…”

“…However, most literature has shown that caffeine and other secondary metabolites might have some negative effects on parasitoids (Hall et al., 2021; Poyet et al., 2017; Thurston & Fox, 1972; Tougeron & Hance, 2021), with a few studies revealing that alkaloids might have no effects on parasitoids (Kostenko et al., 2013; Krauss et al., 2007; Urrutia et al., 2007), which is in contrast to our findings. The main reason for the difference is that previous papers concentrated on the tri‐trophic or multi‐trophic level (Tougeron & Hance, 2021). For these trophic‐level studies, the experiments were tested on the parasitoids that parasitized the herbivores that fed on diets or plants containing alkaloids (Barker & Addison, 1996; Bultman et al., 2009, 2012; Campbell & Duffey, 1979).…”

“…However, only a few studies focus on the plant secondary metabolites feeding response of adult parasitoids. Despite the fact that caffeine is primarily regarded as a plant defence mechanism and can be toxic to herbivorous pests (Kim et al., 2006) and even parasitoids larvae (Tougeron & Hance, 2021), it is still worthy to investigate its potential benefits for the adult stage.…”

Enhancing natural enemy performance through plant secondary metabolites: The role of caffeine for the parasitoid Snellenius manilae

Pests and diseases regulation in coffee agroecosystems by management systems and resistance in changing climate conditions: a review