Neuropeptides as potential modulators of behavioral transitions in the ant <scp><i>Cataglyphis nodus</i></scp>

Habenstein, Jens; Thamm, Markus; Rößler, Wolfgang

doi:10.1002/cne.25166

Cited by 13 publications

(16 citation statements)

References 125 publications

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“…The ant brain, particularly synaptic relay stations in high-order integration centers along two visual pathways, undergoes plastic changes during the iLW phase (Grob et al 2017 , 2019 ; Rössler 2019 ; Stieb et al 2012 ). Furthermore, the transition from interior to exterior worker is accompanied by changes in the expression levels of neuropeptides playing an important role in behavior control (Habenstein et al 2021 ). This neuroplasticity supports the fact that novices perform visual learning and calibrate their visual guidance systems to acquire all information for orientation during foraging, e.g.…”

Section: Discussionmentioning

confidence: 99%

“…Cataglyphis ants use up to 3 days to perform learning walks (LWs) to acquire all information for orientation during foraging far away from the nest (Fleischmann et al 2016 , 2018b ; Stieb et al 2012 ; Wehner et al 2004 ; for a review: Zeil and Fleischmann 2019 ). The transition from interior to exterior worker is not only characterized by changes in behavior, but also leads to neuroplastic changes along visual pathways in the ant brain (Grob et al 2017 ; Habenstein et al 2021 ; Schmitt et al 2016 ; Stieb et al 2012 ; for reviews: Grob et al 2019 ; Rössler 2019 ). The iLWs include pirouettes, rotational body movements that are full or partial turns during which the novices stop several times (Fleischmann et al 2017 ).…”

Section: Introductionmentioning

confidence: 99%

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Magnetosensation during re-learning walks in desert ants (Cataglyphis nodus)

2021

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At the beginning of their foraging careers, Cataglyphis desert ants calibrate their compass systems and learn the visual panorama surrounding the nest entrance. For that, they perform well-structured initial learning walks. During rotational body movements (pirouettes), naïve ants (novices) gaze back to the nest entrance to memorize their way back to the nest. To align their gaze directions, they rely on the geomagnetic field as a compass cue. In contrast, experienced ants (foragers) use celestial compass cues for path integration during food search. If the panorama at the nest entrance is changed, foragers perform re-learning walks prior to heading out on new foraging excursions. Here, we show that initial learning walks and re-learning walks are structurally different. During re-learning walks, foragers circle around the nest entrance before leaving the nest area to search for food. During pirouettes, they do not gaze back to the nest entrance. In addition, foragers do not use the magnetic field as a compass cue to align their gaze directions during re-learning walk pirouettes. Nevertheless, magnetic alterations during re-learning walks under manipulated panoramic conditions induce changes in nest-directed views indicating that foragers are still magnetosensitive in a cue conflict situation.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Magnetosensation during re-learning walks in desert ants (Cataglyphis nodus)

2021

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“…In addition to the neuroanatomical studies, analyses of neuropeptides and their localization in the Cataglyphis brain have recently been performed. For this, transcriptomal analyses were combined with mass spectrometry detection and localization to reveal the most comprehensive neuropeptidome that has been obtained from an ant's brain so far (Habenstein et al 2021a(Habenstein et al , 2021bSchmitt et al 2017). Both the neuroanatomical and neuropeptidome databases provide rich sources for future structure-function analyses in the brain of Cataglyphis ants, for example, to detect life-stage dependent changes in brain neuropils and neuromodulators, and for comparison of those attributes with other ant species.…”

Section: The Brain Of Cataglyphis and Sensory Pathways Associated Wit...mentioning

confidence: 99%

The role of learning-walk related multisensory experience in rewiring visual circuits in the desert ant brain

2022

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Efficient spatial orientation in the natural environment is crucial for the survival of most animal species. Cataglyphis desert ants possess excellent navigational skills. After far-ranging foraging excursions, the ants return to their inconspicuous nest entrance using celestial and panoramic cues. This review focuses on the question about how naïve ants acquire the necessary spatial information and adjust their visual compass systems. Naïve ants perform structured learning walks during their transition from the dark nest interior to foraging under bright sunlight. During initial learning walks, the ants perform rotational movements with nest-directed views using the earth’s magnetic field as an earthbound compass reference. Experimental manipulations demonstrate that specific sky compass cues trigger structural neuronal plasticity in visual circuits to integration centers in the central complex and mushroom bodies. During learning walks, rotation of the sky-polarization pattern is required for an increase in volume and synaptic complexes in both integration centers. In contrast, passive light exposure triggers light-spectrum (especially UV light) dependent changes in synaptic complexes upstream of the central complex. We discuss a multisensory circuit model in the ant brain for pathways mediating structural neuroplasticity at different levels following passive light exposure and multisensory experience during the performance of learning walks.

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“…[22][23] More recently, evidence has also been reported that TRPs modulate both olfactory sensitivity and locomotor activity. 24,25 The insect MS neuropeptide inhibits visceral muscle contractions, while stimulating skeletal muscle contraction and enzyme secretion from digestive tissue. 26 In cockroaches, MS inhibits contractions of the foregut and hindgut.…”

Section: Introductionmentioning

confidence: 99%

“…TRPs have been shown to stimulate Malpighian tubules writhing in the locust Locusta migratoria , and stimulate diuretic activity in tubules of the locust Schistocerca gregaria 22–23 . More recently, evidence has also been reported that TRPs modulate both olfactory sensitivity and locomotor activity 24,25 . The insect MS neuropeptide inhibits visceral muscle contractions, while stimulating skeletal muscle contraction and enzyme secretion from digestive tissue 26 .…”

Section: Introductionmentioning

confidence: 99%

Insecticidal efficacy and risk assessment of different neuropeptide analog combinations against the peach‐potato aphid following topical exposure

Shi

Nachman

et al. 2022

Pest Management Science

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Background: Insect neuropeptides control essential physiological metabolic activities. In our previous studies, Capability/ CAP2b (PK/CAPA) analog 1895 applied alone or as a combination of CAPA analogs (1895 + 2315) was reported to decrease aphid fitness. While this was obtained with the combination of two peptide analogs of the same neuropeptide class, the effect of combining peptide analogs of different neuropeptide classes has not been explored so far.Results: In this study, we assessed the effect of combinations of the PK/CAPA analog 1895 with neuropeptide analogs of four different classes [adipokinetic hormone (AKH) analog: 2271; myosuppressin analog: 2434; kinin analog: 2460; tachykininrelated peptide analog: 2463] on the fitness of aphids. We found that the combination of 1895 and AKH analog 2271 was the most effective one to control Myzus persicae. The triple combination 1895 + 2271 + 2315 provided a synergistic effect by further increasing aphid mortality and reducing reproduction relative to 1895 + 2315. Additionally, a biosafety assessment of the combination 1895 + 2271 + 2315 showed no significant lethal nor sub-lethal effects on survival rates and food intake for the pollinator (Bombus terrestris) and the two representative natural enemies (Harmonia axyridis and Nasonia vitripennis).Conclusion: These results could facilitate establishment of the triple combination 1895 + 2271 + 2315, and/or inclusion of second generation analogs, as alternatives to broad spectrum and less friendly insecticides.

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Neuropeptides as potential modulators of behavioral transitions in the ant Cataglyphis nodus

Cited by 13 publications

References 125 publications

Magnetosensation during re-learning walks in desert ants (Cataglyphis nodus)

Magnetosensation during re-learning walks in desert ants (Cataglyphis nodus)

The role of learning-walk related multisensory experience in rewiring visual circuits in the desert ant brain

Insecticidal efficacy and risk assessment of different neuropeptide analog combinations against the peach‐potato aphid following topical exposure

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