TY  - JOUR
A1  - Habenstein, Jens
A1  - Amini, Emad
A1  - Grübel, Kornelia
A1  - el Jundi, Basil
A1  - Rössler, Wolfgang
T1  - The brain of Cataglyphis ants: Neuronal organization and visual projections
JF  - Journal of Comparative Neurology
N2  - Cataglyphis ants are known for their outstanding navigational abilities. They return to their inconspicuous nest after far‐reaching foraging trips using path integration, and whenever available, learn and memorize visual features of panoramic sceneries. To achieve this, the ants combine directional visual information from celestial cues and panoramic scenes with distance information from an intrinsic odometer. The largely vision‐based navigation in Cataglyphis requires sophisticated neuronal networks to process the broad repertoire of visual stimuli. Although Cataglyphis ants have been subjected to many neuroethological studies, little is known about the general neuronal organization of their central brain and the visual pathways beyond major circuits. Here, we provide a comprehensive, three‐dimensional neuronal map of synapse‐rich neuropils in the brain of Cataglyphis nodus including major connecting fiber systems. In addition, we examined neuronal tracts underlying the processing of visual information in more detail. This study revealed a total of 33 brain neuropils and 30 neuronal fiber tracts including six distinct tracts between the optic lobes and the cerebrum. We also discuss the importance of comparative studies on insect brain architecture for a profound understanding of neuronal networks and their function.
KW  - 3D reconstruction
KW  - ant brain
KW  - antennal lobes
KW  - central complex
KW  - insect
KW  - mushroom bodies
KW  - optical tracts
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-218212
VL  - 528
IS  - 18
SP  - 3479
EP  - 3506
ER  - 
TY  - JOUR
A1  - Groh, Claudia
A1  - Rössler, Wolfgang
T1  - Analysis of Synaptic Microcircuits in the Mushroom Bodies of the Honeybee
JF  - Insects
N2  - Mushroom bodies (MBs) are multisensory integration centers in the insect brain involved in learning and memory formation. In the honeybee, the main sensory input region (calyx) of MBs is comparatively large and receives input from mainly olfactory and visual senses, but also from gustatory/tactile modalities. Behavioral plasticity following differential brood care, changes in sensory exposure or the formation of associative long-term memory (LTM) was shown to be associated with structural plasticity in synaptic microcircuits (microglomeruli) within olfactory and visual compartments of the MB calyx. In the same line, physiological studies have demonstrated that MB-calyx microcircuits change response properties after associative learning. The aim of this review is to provide an update and synthesis of recent research on the plasticity of microcircuits in the MB calyx of the honeybee, specifically looking at the synaptic connectivity between sensory projection neurons (PNs) and MB intrinsic neurons (Kenyon cells). We focus on the honeybee as a favorable experimental insect for studying neuronal mechanisms underlying complex social behavior, but also compare it with other insect species for certain aspects. This review concludes by highlighting open questions and promising routes for future research aimed at understanding the causal relationships between neuronal and behavioral plasticity in this charismatic social insect.
KW  - mushroom body
KW  - microglomeruli
KW  - projection neurons
KW  - Kenyon cells
KW  - dendritic specializations
KW  - structural synaptic plasticity
KW  - behavioral plasticity
KW  - vision
KW  - olfaction
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-200774
SN  - 2075-4450
VL  - 11
IS  - 1
ER  - 
TY  - JOUR
A1  - Fleischmann, Pauline N.
A1  - Grob, Robin
A1  - Rössler, Wolfgang
T1  - Kompass im Kopf : wie Wüstenameisen lernen heimzukehren
JF  - Biologie in unserer Zeit
N2  - Erfolgreiche räumliche Orientierung ist für viele Tiere eine alltägliche Herausforderung. Cataglyphis‐Wüstenameisen sind bekannt für ihre Navigationsfähigkeiten, mit deren Hilfe sie nach langen Futtersuchläufen problemlos zum Nest zurückfinden. Wie aber nehmen naive Ameisen ihre Navigationssysteme in Betrieb? Nach mehrwöchigem Innendienst im dunklen Nest werden sie zu Sammlerinnen bei hellem Sonnenschein. Dieser Wechsel erfordert einen drastischen Wandel im Verhalten sowie neuronale Veränderungen im Gehirn. Erfahrene Ameisen orientieren sich vor allem visuell, sie nutzen einen Himmelskompass und Landmarkenpanoramen. Daher absolvieren naive Ameisen stereotype Lernläufe, um ihren Kompass zu kalibrieren und die Nestumgebung kennenzulernen. Während der Lernläufe blicken sie wiederholt zum Nesteingang zurück und prägen sich so ihren Heimweg ein. Zur Ausrichtung ihrer Blicke nutzen sie das Erdmagnetfeld als Kompassreferenz. Cataglyphis‐Ameisen besitzen hierfür einen Magnetkompass, der bislang unbekannt war.
N2  - Successful spatial orientation is a daily challenge for many animals. Cataglyphis desert ants are famous for their navi­gational performances. They return to the nest after exten­sive foraging trips without any problems. How do ants take their navigational systems into operation? After conducting different tasks in the dark nest for several weeks, they  be­come foragers under bright sun light. This transition re­quires both a drastic switch in behavior and neuronal changes in the brain. Experienced foragers mainly rely on visual cues. They use a celestial compass and landmark panoramas. For that reason, naïve ants perform stereotype learning walks to calibrate their compass systems and ac­quire information about the nest’s surroundings. During their learning walks, the ants frequently look back to the nest entrance to learn the homing direction. For aligning their gazes, they use the  earth’s magnetic field as a com­pass reference. This magnetic compass in Cataglyphis ants was previously unknown.
KW  - Cataglyphis-Wüstenameisen
KW  - Magnetkompass
KW  - Insektennavigation
KW  - Himmelskompass
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-219260
SN  - 1521-415X
VL  - 50
IS  - 2
ER  -