Nest excavators’ learning walks in the Australian desert ant Melophorus bagoti

The Australian red honey ant, Melophorus bagoti , stands out as the most thermophilic ant in Australia, engaging in all outdoor activities during the hottest periods of the day during summer months. This species of desert ants often navigates by means of path integration and learning landmark cues a...

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Published in	Animal cognition Vol. 27; no. 1; p. 39
Main Authors	Deeti, Sudhakar, McLean, Donald James, Cheng, Ken
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 24.05.2024 Springer Nature B.V
Subjects	Animals Ants Ants - physiology Australia Behavioral Sciences Biomedical and Life Sciences Cues Desert Climate Deserts Dumping Excavation Homing Behavior Learning Life Sciences Melophorus bagoti Nesting Behavior Original Paper Outdoor activities Psychology Research Sand Spatial Navigation Walking Zoology Australia Red honey ant Navigation Nest excavation Exploratory walks
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Abstract	The Australian red honey ant, Melophorus bagoti , stands out as the most thermophilic ant in Australia, engaging in all outdoor activities during the hottest periods of the day during summer months. This species of desert ants often navigates by means of path integration and learning landmark cues around the nest. In our study, we observed the outdoor activities of M. bagoti workers engaged in nest excavation, the maintenance of the nest structure, primarily by taking excess sand out of the nest. Before undertaking nest excavation, the ants conducted a single exploratory walk. Following their initial learning expedition, these ants then engaged in nest excavation activities. Consistent with previous findings on pre-foraging learning walks, after just one learning walk, the desert ants in our study demonstrated the ability to return home from locations 2 m away from the nest, although not from locations 4 m away. These findings indicate that even for activities like dumping excavated sand within a range of 5–10 cm outside the nest, these ants learn and utilize the visual landmark panorama around the nest.
AbstractList	The Australian red honey ant, Melophorus bagoti, stands out as the most thermophilic ant in Australia, engaging in all outdoor activities during the hottest periods of the day during summer months. This species of desert ants often navigates by means of path integration and learning landmark cues around the nest. In our study, we observed the outdoor activities of M. bagoti workers engaged in nest excavation, the maintenance of the nest structure, primarily by taking excess sand out of the nest. Before undertaking nest excavation, the ants conducted a single exploratory walk. Following their initial learning expedition, these ants then engaged in nest excavation activities. Consistent with previous findings on pre-foraging learning walks, after just one learning walk, the desert ants in our study demonstrated the ability to return home from locations 2 m away from the nest, although not from locations 4 m away. These findings indicate that even for activities like dumping excavated sand within a range of 5-10 cm outside the nest, these ants learn and utilize the visual landmark panorama around the nest. The Australian red honey ant, Melophorus bagoti , stands out as the most thermophilic ant in Australia, engaging in all outdoor activities during the hottest periods of the day during summer months. This species of desert ants often navigates by means of path integration and learning landmark cues around the nest. In our study, we observed the outdoor activities of M. bagoti workers engaged in nest excavation, the maintenance of the nest structure, primarily by taking excess sand out of the nest. Before undertaking nest excavation, the ants conducted a single exploratory walk. Following their initial learning expedition, these ants then engaged in nest excavation activities. Consistent with previous findings on pre-foraging learning walks, after just one learning walk, the desert ants in our study demonstrated the ability to return home from locations 2 m away from the nest, although not from locations 4 m away. These findings indicate that even for activities like dumping excavated sand within a range of 5–10 cm outside the nest, these ants learn and utilize the visual landmark panorama around the nest. The Australian red honey ant, Melophorus bagoti, stands out as the most thermophilic ant in Australia, engaging in all outdoor activities during the hottest periods of the day during summer months. This species of desert ants often navigates by means of path integration and learning landmark cues around the nest. In our study, we observed the outdoor activities of M. bagoti workers engaged in nest excavation, the maintenance of the nest structure, primarily by taking excess sand out of the nest. Before undertaking nest excavation, the ants conducted a single exploratory walk. Following their initial learning expedition, these ants then engaged in nest excavation activities. Consistent with previous findings on pre-foraging learning walks, after just one learning walk, the desert ants in our study demonstrated the ability to return home from locations 2 m away from the nest, although not from locations 4 m away. These findings indicate that even for activities like dumping excavated sand within a range of 5-10 cm outside the nest, these ants learn and utilize the visual landmark panorama around the nest. Abstract The Australian red honey ant, Melophorus bagoti , stands out as the most thermophilic ant in Australia, engaging in all outdoor activities during the hottest periods of the day during summer months. This species of desert ants often navigates by means of path integration and learning landmark cues around the nest. In our study, we observed the outdoor activities of M. bagoti workers engaged in nest excavation, the maintenance of the nest structure, primarily by taking excess sand out of the nest. Before undertaking nest excavation, the ants conducted a single exploratory walk. Following their initial learning expedition, these ants then engaged in nest excavation activities. Consistent with previous findings on pre-foraging learning walks, after just one learning walk, the desert ants in our study demonstrated the ability to return home from locations 2 m away from the nest, although not from locations 4 m away. These findings indicate that even for activities like dumping excavated sand within a range of 5–10 cm outside the nest, these ants learn and utilize the visual landmark panorama around the nest.
ArticleNumber	39
Author	Deeti, Sudhakar McLean, Donald James Cheng, Ken
Author_xml	– sequence: 1 givenname: Sudhakar surname: Deeti fullname: Deeti, Sudhakar email: Sudhakar.deeti@mq.edu.au, Sudhadeeti@gmail.com organization: School of Natural Sciences, Macquarie University – sequence: 2 givenname: Donald James surname: McLean fullname: McLean, Donald James organization: School of Natural Sciences, Macquarie University – sequence: 3 givenname: Ken surname: Cheng fullname: Cheng, Ken organization: School of Natural Sciences, Macquarie University
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Keywords	Red honey ant Navigation Nest excavation Exploratory walks
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Snippet	The Australian red honey ant, Melophorus bagoti , stands out as the most thermophilic ant in Australia, engaging in all outdoor activities during the hottest... The Australian red honey ant, Melophorus bagoti, stands out as the most thermophilic ant in Australia, engaging in all outdoor activities during the hottest... Abstract The Australian red honey ant, Melophorus bagoti , stands out as the most thermophilic ant in Australia, engaging in all outdoor activities during the...
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SubjectTerms	Animals Ants Ants - physiology Australia Behavioral Sciences Biomedical and Life Sciences Cues Desert Climate Deserts Dumping Excavation Homing Behavior Learning Life Sciences Melophorus bagoti Nesting Behavior Original Paper Outdoor activities Psychology Research Sand Spatial Navigation Walking Zoology
Title	Nest excavators’ learning walks in the Australian desert ant Melophorus bagoti
URI	https://link.springer.com/article/10.1007/s10071-024-01877-3 https://www.ncbi.nlm.nih.gov/pubmed/38789697 https://www.proquest.com/docview/3059666016/abstract/ https://www.proquest.com/docview/3060382026/abstract/ https://pubmed.ncbi.nlm.nih.gov/PMC11126504
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