TY - JOUR
T1 - Learning from learning and memory in bumblebees
AU - Riveros, Andre J.
AU - Gronenberg, Wulfila
N1 - Funding Information:
Our research is currently funded by an NSF grant to WG (IOB-0519483) and by research awards of the Graduate Interdisciplinary Program in Insect Science (University of Arizona) to A.J.R.
PY - 2009
Y1 - 2009
N2 - The difficulty to simultaneously record neural activity and behavior presents a considerable limitation for studying mechanisms of insect learning and memory. The challenge is finding a model suitable for the use of behavioral paradigms under the restrained conditions necessary for neural recording. In honey-bees, Pavlovian conditioning relying on the proboscis extension reflex (PER) has been used with great success to study different aspects of insect cognition. However, it is desirable to combine the advantages of the PER with a more robust model that allows simultaneous electrical or optical recording of neural activity. Here, we briefly discuss the potential use of bumblebees as models for the study of learning and memory under restrained conditions. We base our arguments on the well-known cognitive abilities of bumblebees, their social organization and phylogenetic proximity to honeybees, our recent success using Pavlovian conditioning to study learning in two bumblebee species, and on the recently demonstrated robustness of bumblebees under conditions suitable for electrophysiological recording.
AB - The difficulty to simultaneously record neural activity and behavior presents a considerable limitation for studying mechanisms of insect learning and memory. The challenge is finding a model suitable for the use of behavioral paradigms under the restrained conditions necessary for neural recording. In honey-bees, Pavlovian conditioning relying on the proboscis extension reflex (PER) has been used with great success to study different aspects of insect cognition. However, it is desirable to combine the advantages of the PER with a more robust model that allows simultaneous electrical or optical recording of neural activity. Here, we briefly discuss the potential use of bumblebees as models for the study of learning and memory under restrained conditions. We base our arguments on the well-known cognitive abilities of bumblebees, their social organization and phylogenetic proximity to honeybees, our recent success using Pavlovian conditioning to study learning in two bumblebee species, and on the recently demonstrated robustness of bumblebees under conditions suitable for electrophysiological recording.
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U2 - 10.4161/cib.2.5.9240
DO - 10.4161/cib.2.5.9240
M3 - Research Article
AN - SCOPUS:77951264092
SN - 1942-0889
VL - 2
SP - 437
EP - 440
JO - Communicative and Integrative Biology
JF - Communicative and Integrative Biology
IS - 5
ER -