Identification of Cuticular And Web Lipids of The Spider Argiope Bruennichi

Abstract Emerging evidence shows that the cuticular and silk lipids of spiders are structurally more diverse than those of insects, although only a relatively low number of species have been investigated so far. As in insects, such lipids might play a role as signals in various context. The wasp spider Argiope bruennichi has probably the best investigated chemical communication system within spiders, including the known structure of the female sex pheromone. Recently we showed that kin-recognition in A. bruennichi is mediated through the cuticular compounds consisting of hydrocarbons and to a much larger proportion of wax esters. By use of MS and various derivatization methods these esters were identified here to be esters of 2,4-dimethylalkanoates with varying chain length and 1-alkanols, such as tetradecyl 2,4‑dimethylheptadecanoate. A representative enantioselectively synthesis to this compound was performed which proved the identifications and allowed to postulate the natural enantiomer to have (2R,4R)-configuration. Cuticular profiles of the silk and cuticula of females were similar, while male cuticular profiles differed quantitatively from those of females. In addition, minor female specific 4-methylalkyl esters were detected.

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Identification of Cuticular and Web Lipids of the Spider Argiope bruennichi

Journal of Chemical Ecology ◽

10.1007/s10886-021-01338-y ◽

2022 ◽

Author(s):

Moritz Gerbaulet ◽

Anton Möllerke ◽

Katharina Weiss ◽

Satya Chinta ◽

Jutta M. Schneider ◽

...

Keyword(s):

Mass Spectrometry ◽

Kin Recognition ◽

Enantioselective Synthesis ◽

Cuticular Lipids ◽

Female Sex Pheromone ◽

Chemical Profiles ◽

Natural Enantiomer ◽

Cuticular Profiles ◽

Female Specific ◽

Chain Lengths

AbstractEmerging evidence shows that the cuticular and silk lipids of spiders are structurally more diverse than those of insects, although only a relatively low number of species have been investigated so far. As in insects, such lipids might play a role as signals in various contexts. The wasp spider Argiope bruennichi has probably the best investigated chemical communication system within spiders, including the known structure of the female sex pheromone. Recently we showed that kin-recognition in A. bruennichi could be mediated through the cuticular compounds consisting of hydrocarbons and, to a much larger proportion, of wax esters. By use of mass spectrometry and various derivatization methods, these were identified as esters of 2,4-dimethylalkanoic acids and 1-alkanols of varying chain lengths, such as tetradecyl 2,4-dimethylheptadecanoate. A representative enantioselective synthesis of this compound was performed which proved the identifications and allowed us to postulate that the natural enantiomer likely has the (2R,4R)-configuration. Chemical profiles of the silk and cuticular lipids of females were similar, while male cuticular profiles differed from those of females. Major components of the male cuticular lipids were tridecyl 2,4-dimethyl-C17-19 alkanoates, whereas those of females were slightly longer, comprising tridecyl 2,4-dimethyl-C19-21 alkanoates. In addition, minor female-specific 4-methylalkyl esters were detected.

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Pheromone communication among sexes of the garden cross spider Araneus diadematus

The Science of Nature ◽

10.1007/s00114-021-01747-9 ◽

2021 ◽

Vol 108 (5) ◽

Author(s):

Andreas Fischer ◽

Stefan Schulz ◽

Manfred Ayasse ◽

Gabriele Uhl

Keyword(s):

Sex Pheromone ◽

Chemical Communication ◽

Habitat Quality ◽

Female Sex Pheromone ◽

Reproductive Competition ◽

Pheromone Communication ◽

Contact Pheromones ◽

Adult Females ◽

Conspecific Adult ◽

Araneus Diadematus

AbstractChemical communication plays a fundamental role in many aspects of an animal’s life from assessing habitat quality to finding mating partners. Behavioural observations show that chemical communication likewise plays an important role in spiders, but the contexts and the substances involved are little explored. Here, we investigate the chemical communication in the garden cross spider Araneus diadematus (Clerck, 1757) between and within the sexes. Using choice trials, we demonstrate that males are attracted to odours of adult females, but not to those of subadult females. Our data further suggest that adult females avoid odours of conspecific adult females, possibly in order to reduce reproductive competition with other females. Cuticle and silk extracts as well as headspace samples of subadult and adult virgin females were analysed via GC–MS. Available candidate compounds for the female sex pheromone were tested via electroantennography on palps (electropalpography) of adult virgin females and on females in behavioural trials. We propose sulcatone (6-methyl-5-hepten-2-one) as a candidate substance for the female volatile pheromone and several long-chained alkanes and alcohols as candidates for contact pheromones. Apart from demonstrating that attraction of males to females depends on the latter’s developmental stage, our study suggests that pheromones can also play an important role between females, an aspect that requires further attention.

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