Biomedical Engineering Reference
In-Depth Information
Balderrama N (1980) One trial learning in the American cockroach,
Periplaneta americana
.
J Insect Physiol 26:499-504
Bitterman ME, Menzel R, Fietz A, Schäfer S (1983) Classical conditioning of proboscis extension
in honeybees (
Apis mellifera
). J Comp Psychol 97:107-119
Daly KC, Smith BH (2000) Associative olfactory learning in the moth
Manduca sexta
. J Exp Biol
203:2025-2038
de Brito Sanchez MG, Giurfa M, de Paula Mota TR, Gauthier M (2005) Electrophysiological and
behavioural characterization of gustatory responses to antennal 'bitter' taste in honeybees. Eur
J Neurosci 22:3161-3170
de Brito Sanchez MG, Chen C, Li J, Liu F, Gauthier M, Giurfa M (2008) Behavioral studies on
tarsal gustation in honeybees: sucrose responsiveness and sucrose-mediated olfactory condi-
tioning. J Comp Physiol A 194:861-869
Denker M, Finke R, Schaupp F, Grün S, Menzel R (2010) Neural correlates of odor learning in the
honeybee antennal lobe. Eur J Neurosci 31:119-133
Devaud JM, Blunk A, Podufall J, Giurfa M, Grünewald B (2007) Using local anaesthetics to block
neuronal activity and map specifi c learning tasks to the mushroom bodies of an insect brain.
Eur J Neurosci 26:3193-3206
Deisig N, Lachnit H, Hellstern F, Giurfa M (2001) Confi gural olfactory learning in honeybees:
negative and positive patterning discrimination. Learn Mem 8:70-78
Deisig N, Lachnit H, Giurfa M (2002) The effect of similarity between elemental stimuli and
compounds in olfactory patterning discriminations. Learn Mem 9:112-121
Deisig N, Lachnit H, Sandoz JC, Lober K, Giurfa M (2003) A modifi ed version of the unique cue
theory accounts for olfactory compound processing in honeybees. Learn Mem 10:199-208
Dupuy F, Sandoz JC, Giurfa M, Josens R (2006) Individual olfactory learning in
Camponotus
ants.
Anim Behav 72:1081-1091
Erber J, Masuhr T, Menzel R (1980) Localization of short-term memory in the brain of the bee,
Apis mellifera
. Physiol Entomol 5:343-358
Faber T, Joerges J, Menzel R (1999) Associative learning modifi es neural representations of odors
in the insect brain. Nat Neurosci 2:74-78
Farina WM, Núñez JA (1991) Trophallaxis in the honeybee, Apis mellifera(L) as related to the
profi tability of food sources. Anim Behav 42:389-394
Friedrich A, Thomas U, Müller U (2004) Learning at different satiation levels reveals parallel
functions for the cAMP-protein kinase A cascade in formation of long-term memory.
J Neurosci 24:4460-4468
Frings H (1944) The loci of olfactory end-organs in the honey-bee,
Apis mellifera
Linn. J Exp Zool
97:123-134
Frings H, Frings M (1949) The loci of contact chemoreceptors in insects. A review with new evi-
dence. Am Midl Nat 41:602-658
Frost EH, Shutler D, Hillier NK (2011) Effects of cold immobilization and recovery period on
honeybee learning, memory, and responsiveness to sucrose. J Insect Physiol 57:1385-1390
Galizia CG, Joerges J, Küttner A, Faber T, Menzel R (1997) A semi-in-vivo preparation for optical
recording of the insect brain. J Neurosci Methods 76:61-69
Gauthier M, Dacher M, Thany SH, Niggebrugge C, Deglise P, Kljucevic P, Armengaud C,
Grunewald B (2006) Involvement of
-bungarotoxin-sensitive nicotinic receptors in long-
term memory formation in the honeybee (
Apis mellifera
). Neurobiol Learn Mem
86:164-174
Gerber B, Ullrich J (1999) No evidence for olfactory blocking in honeybee classical conditioning.
J Exp Biol 202:1839-1854
Giurfa M (2007) Behavioral and neural analysis of associative learning in the honeybee: a taste
from the magic well. J Comp Physiol A 193:801-824
Giurfa M, Malun D (2004) Associative mechanosensory conditioning of the proboscis extension
refl ex in honeybees. Learn Mem 11:294-302
Giurfa M, Menzel R (1997) Insect visual perception: complex abilities of simple nervous systems.
Curr Opin Neurobiol 7:505-513
α
