If animals are trained with two similar stimuli such that one is rewarding (S+) and one punishing (S-), then following training animals show a greatest preference not for the S+, but for a novel stimulus that is slightly more different from the S- than the S+ is. This peak shift phenomenon has been widely reported for vertebrates and has recently been demonstrated for bumblebees and honey bees. To explore the nature of peak shift in invertebrates further, here we examined the properties of peak shift in honey bees trained in a free-flight olfactory learning assay. Hexanal and heptanol were mixed in different ratios to create a continuum of odour stimuli. Bees were trained to artificial flowers such that one odour mixture was rewarded with 2...
Individual animals allowed the opportunity to learn generally outperform those prevented from learni...
Honeybees (Apis mellifera) can be trained to associate an odor stimulus with a sucrose reward. The n...
The question of whether or not neural activity patterns recorded in the olfactory centres of the bra...
The capacity of honey bees (Apis mellifera) to detect bitter substances is controversial because the...
The honeybee has to detect, process and learn numerous complex odours from her natural environment o...
The question of how animals process stimulus mixtures remains controversial as opposing views propos...
A sophisticated form of nonelemental learning is provided by occasion setting. In this paradigm, ani...
In natural environments, stimuli and events learned by animals usually occur in a combination of mor...
Invertebrates have contributed greatly to our understanding of associative learning because they all...
Animals use odors as signals for mate, kin, and food recognition, a strategy which appears ubiquitou...
In an appetitive context, honeybees (Apis mellifera) learn to associate odors with a reward of sucro...
Proboscis extension conditioning of honeybee workers was used to study the processing of odorants wh...
We investigated the effect of associative learning on early sensory processing, by combining classic...
We investigated the capability of honeybees to discriminate between single odorants, binary olfactor...
The question of how animals process stimulus mixtures remains controversial as opposing views propos...
Individual animals allowed the opportunity to learn generally outperform those prevented from learni...
Honeybees (Apis mellifera) can be trained to associate an odor stimulus with a sucrose reward. The n...
The question of whether or not neural activity patterns recorded in the olfactory centres of the bra...
The capacity of honey bees (Apis mellifera) to detect bitter substances is controversial because the...
The honeybee has to detect, process and learn numerous complex odours from her natural environment o...
The question of how animals process stimulus mixtures remains controversial as opposing views propos...
A sophisticated form of nonelemental learning is provided by occasion setting. In this paradigm, ani...
In natural environments, stimuli and events learned by animals usually occur in a combination of mor...
Invertebrates have contributed greatly to our understanding of associative learning because they all...
Animals use odors as signals for mate, kin, and food recognition, a strategy which appears ubiquitou...
In an appetitive context, honeybees (Apis mellifera) learn to associate odors with a reward of sucro...
Proboscis extension conditioning of honeybee workers was used to study the processing of odorants wh...
We investigated the effect of associative learning on early sensory processing, by combining classic...
We investigated the capability of honeybees to discriminate between single odorants, binary olfactor...
The question of how animals process stimulus mixtures remains controversial as opposing views propos...
Individual animals allowed the opportunity to learn generally outperform those prevented from learni...
Honeybees (Apis mellifera) can be trained to associate an odor stimulus with a sucrose reward. The n...
The question of whether or not neural activity patterns recorded in the olfactory centres of the bra...