Acclimation in ants: Interference of communication and waterproofing through cuticular hydrocarbons in a multifunctional trait

Wittke, Marti; Baumgart, Lucas; Menzel, Florian

doi:10.1111/1365-2435.14104

Cited by 6 publications

(1 citation statement)

References 55 publications

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“…Cuticular hydrocarbons play an important role in ant communication, particularly in recognition of nestmates, but also in waterproofing and defense against pathogens (Lenoir et al 2009). L. platythorax cuticular hydrocarbons are characterised by a high abundance of dimethyl and trimethyl alkanes with relatively high chain lengths (mostly between C33 and C37), and so are longer than those of L. niger (Wittke, Baumgart, and Menzel 2022;Baumgart et al 2022).…”

Section: Introductionmentioning

confidence: 99%

Reference genome of the antLasius platythorax

Feldmeyer

Guiglielmoni

Kirangwa

et al. 2023

Preprint

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Ants are a highly diversified insect family of the order Hymenoptera, with many fascinating characteristics such as eusociality, chemical communication, farming, or social parasitism. Moreover, ants frequent a wide variety of habitats from dry deserts, grasslands and savannas to cold temperate forests. The ability of ants to inhabit such diverse habitat ranges demonstrates their adaptability and ecological resilience. However, little is known about the genetic underpinnings of this vast array of traits and their adaptive potential. Here, we generated a high-quality genome assembly for the ant species Lasius platythorax usingsing long-read PacBio HiFi in combination with chromatin conformation capture (Hi-C) sequencing. We successfully assembled the genome into 15 chromosome-level scaffolds ranging from 7.9 to 19.2 Mb and encompassing 204.6 Mb out of 235.3 Mb (total assembly), and a BUSCO score of 86% (Hymenoptera_odb10). Comparative genomics between the two sister species will provide insights into the genomic basis of trait differentiation.

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Section: Introductionmentioning

confidence: 99%

Reference genome of the antLasius platythorax

Feldmeyer

Guiglielmoni

Kirangwa

et al. 2023

Preprint

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Differential Effects of Ephemeral and Stable Predator Chemical Cues on Spider Antipredator Behaviour

Narimanov,

Heuschele,

Entling

et al. 2024

J Chem Ecol

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Semiochemicals left by predators in their foraging area can be utilised by prey to avoid predation. The range of predators’ chemical cues with contrasting degradation rates might provide information of different quality, potentially allowing prey to differentiate between the immediate and the longer-term presence of predators in a location. So far, knowledge about the roles of volatile versus stable chemical cues in informing predation risk is limited. We here seek to disentangle the role of ephemeral trail pheromones compared to persistent cuticular hydrocarbons of ants (predators) on the antipredator behaviour of juvenile spiders (prey), with the expectation that volatile semiochemicals induce avoidance behaviour in spiders at a higher rate compared to stable cues. We allowed the spiders to choose between sites with and without ant cues separately for volatile trail pheromones and stable hydrocarbons. Unexpectedly, spiders avoided the presence of persistent cuticular hydrocarbons more clearly than the highly volatile trail pheromone. This underscores the widespread impact of these stable cues on the avoidance behaviour of potential intraguild prey. The response to trail pheromones was unclear, possibly because spiders always encounter these cues simultaneously with visual and vibratory cues from ants; hence, trail pheromones may not contain any additional information, hindering the evolution of the ability to detect them.

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