Your search keyword '"Scent Glands chemistry"' showing total 70 results

1. Bioactivities of scent gland chemicals from Mictis fuscipes Hsiao (Hemiptera: Coreidae) on Solenopsis invicta Buren (Hymenoptera: Formicidae).

Author

Zhong J, Fox EGP, Ling S, Yan Z, Xu J, Yang H, Hong Z, Qin C, and Qiu H

Subjects

Animals, Female, Male, Heteroptera drug effects, Heteroptera physiology, Hemiptera drug effects, Hemiptera physiology, Fire Ants, Ants drug effects, Scent Glands chemistry

Abstract

Background: Given the chemical diversity within stink bugs scent glands, they can be convenient models for bioprospecting novel pest control products. Preliminary behaviour observations indicated that adult Mictis fuscipes stink bugs secrete liquid droplets when defending against Solenopsis invicta fire ants, killing them within minutes. Hence, this study aimed to analyse the chemical composition of the metathoracic scent gland secretions of M. fuscipes adults, as well as assess their biological activities against fire ants., Results: Bioassaying fire ants against secretions of several local stink bugs confirmed that the defensive secretions of two Mictis species are significantly more lethal, where M. fuscipes was the most lethal. Volatiles chromatography analysis indicated the secretions of female and male M. fuscipes stink bugs contains 20 and 26 components, respectively, chiefly hexanoic acid and hexyl hexanoate. Five compounds were consistently present in the secretion of female adults: hexyl hexanoate, hexanoic acid, hexyl acetate, hexyl butyrate, and eugenol. These yielded a strong electrophysiological antennal (EAD) response from S. invicta workers, female alates and males, where hexyl acetate showed the strongest response. The combination of these five compounds proved strongly repellent to S. invicta. When tested singly, hexanoic acid, hexyl butyrate, hexyl hexanoate, and eugenol were repellent to S. invicta, but hexyl acetate seemed slightly attractive. Additionally, the same mixture of five components exhibited strong contact and fumigant toxicity towards S. invicta workers, eugenol being the strongest., Conclusion: Defensive chemicals of M. fuscipes exhibit robust biological activity against S. invicta and could inspire the development of biopesticides. © 2024 Society of Chemical Industry., (© 2024 Society of Chemical Industry.)

Published

2024

2. Variation of Clasper Scent Gland Composition of Heliconius Butterflies from a Biodiversity Hotspot.

Author

Ehlers S, Blow R, Szczerbowski D, Jiggins C, and Schulz S

Subjects

Animals, Male, Female, Scent Glands chemistry, Phylogeny, Pheromones, Odorants analysis, Butterflies

Abstract

Male Heliconius butterflies possess two pheromone emitting structures, wing androconia and abdominal clasper scent glands. The composition of the clasper scent gland of males of 17 Heliconius and Eueides species from an overlapping area in Ecuador, comprising three mimicry groups, was investigated by GC/MS. The chemical signal serves as an anti-aphrodisiac signal that is transferred from males to females during mating, indicating the mating status of the female to prevent them from harassment by other males. In addition, the odour may also serve in predator defence. There is potential for convergence driven by mimicry, although, such convergence might be detrimental for species recognition of the butterflies within the mimicry ring, making mating more difficult. More than 500 compounds were detected, consisting of volatile, semi-volatile or non-volatile compounds, including terpenes, fatty acid esters or aromatic compounds. Several novel esters were identified by GC/MS and GC/IR data, microderivatisation and synthesis, including butyl (Z)-3-dodecenoate and other (Z)-3-alkenoates, 3-oxohexyl citronellate and 5-methylhexa-3,5-dienyl (E)-2,3-dihydrofarnesoate. The secretions were found to be species specific, potentially allowing for species differentiation. Statistical analysis of the compounds showed differentiation by phylogenetic clade and species, but not by mimicry group., (© 2023 The Authors. ChemBioChem published by Wiley-VCH GmbH.)

Published

2023

3. The scent chemistry of butterflies.

Author

Ehlers S and Schulz S

Subjects

Animals, Alkaloids chemistry, Alkaloids metabolism, Phylogeny, Scent Glands chemistry, Scent Glands metabolism, Smell, Pheromones chemistry, Pheromones metabolism, Butterflies chemistry, Butterflies genetics, Butterflies metabolism, Odorants

Abstract

Covering: 1990 up to 2022 Contrary to popular opinion, butterflies exhibit a rich chemistry and elaborate use of volatile compounds, especially for sexual communication, but also for defence. In contrast to night flying moths, in which commonly females are the producers of pheromones, male scent emission is prevalent in butterflies. While visual signals are generally important for long-range attraction, butterfly scent signals are often active only within a short range. Another feature of butterfly scent chemistry is the wide variety of compounds used, including alkaloids, terpenoids, fatty acid derivatives and aromatic compounds, sometimes with unique structures. This contrasts the strucutrally more restricted pheromone chemistry of moths. In this review, the compounds emitted predominately from male butterflies will be discussed and their ecological function explained, if known. The review includes material from 1990 to date, but will also cover older material to provide a necessary background.

Published

2023

4. Identification and Synthesis of a Macrolide as an Anti-aphrodisiac Pheromone from Males of Heliconius erato phyllis .

Author

Melo DJ, Borges EO, Szczerbowski D, Vidal DM, Schulz S, and Zarbin PHG

Subjects

Animals, Aphrodisiacs chemistry, Female, Male, Butterflies chemistry, Macrolides chemistry, Pheromones chemistry, Scent Glands chemistry

Abstract

Investigation of the contents of the scent glands of the heliconiine butterfly Heliconius erato phyllis via gas chromatography/electroantennography revealed an unprecedented active compound. The males transfer this compound to females during mating. The structure of (2 R ,6 E ,10 R )-2,6-dimethyl-6-undecen-10-olide, a derivative of geranylacetone, was proposed on the basis of infrared and mass spectrometry spectra and microderivatization and confirmed by racemic and stereoselective syntheses. Bioassays with the synthetic macrolide showed the repellency of this compound, termed phyllisolide, when applied to scent glands of females, identifying it as an anti-aphrodisiac pheromone.

Published

2022

5. Identification and Composition of Clasper Scent Gland Components of the Butterfly Heliconius erato and Its Relation to Mimicry.

Author

Ehlers S, Szczerbowski D, Harig T, Stell M, Hötling S, Darragh K, Jiggins CD, and Schulz S

Subjects

Animals, Gas Chromatography-Mass Spectrometry, Pheromones chemistry, Scent Glands chemistry, Butterflies metabolism, Pheromones metabolism, Scent Glands metabolism

Abstract

The butterfly Heliconius erato occurs in various mimetic morphs. The male clasper scent gland releases an anti-aphrodisiac pheromone and additionally contains a complex mixture of up to 350 components, varying between individuals. In 114 samples of five different mimicry groups and their hybrids 750 different compounds were detected by gas chromatography/mass spectrometry (GC/MS). Many unknown components occurred, which were identified using their mass spectra, gas chromatography/infrared spectroscopy (GC/IR)-analyses, derivatization, and synthesis. Key compounds proved to be various esters of 3-oxohexan-1-ol and (Z)-3-hexen-1-ol with (S)-2,3-dihydrofarnesoic acid, accompanied by a large variety of other esters with longer terpene acids, fatty acids, and various alcohols. In addition, linear terpenes with up to seven uniformly connected isoprene units occur, e. g. farnesylfarnesol. A large number of the compounds have not been reported before from nature. Discriminant analyses of principal components of the gland contents showed that the iridescent mimicry group differs strongly from the other, mostly also separated, mimicry groups. Comparison with data from other species indicated that Heliconius recruits different biosynthetic pathways in a species-specific manner for semiochemical formation., (© 2021 The Authors. ChemBioChem published by Wiley-VCH GmbH.)

Published

2021

6. A Novel Class of Defensive Compounds in Harvestmen: Hydroxy-γ-Lactones from the Phalangiid Egaenus convexus .

Author

Raspotnig G, Anderl F, Kunert O, Schaider M, Brückner A, Schubert M, Dötterl S, Fuchs R, and Leis HJ

Subjects

Animals, Chromatography, Gas methods, Chromatography, Liquid methods, Magnetic Resonance Spectroscopy methods, Molecular Structure, Scent Glands chemistry, Spectrometry, Mass, Electrospray Ionization methods, Stereoisomerism, Arachnida chemistry, Lactones chemistry

Abstract

When threatened, the harvestman Egaenus convexus (Opiliones: Phalangiidae) ejects a secretion against offenders. The secretion originates from large prosomal scent glands and is mainly composed of two isomers of 4-hydroxy-5-octyl-4,5-dihydro-3 H -furan-2-one ( 1 ), a β-hydroxy-γ-lactone. The compounds were characterized by GC-MS of their microreaction derivatives, HRMS, and NMR. After the synthesis of all four possible stereoisomers of 1 , followed by their separation by chiral-phase GC, the absolute configurations of the lactones in the Egaenus secretion was found to be (4 S ,5 R )- 1 (90%) and (4 S ,5 S )- 1 (10%). Hydroxy-γ-lactones represent a new class of exocrine defense compounds in harvestmen.

Published

2020

7. Identification of the Female-Produced Sex Pheromone of the Dotted White Geometrid Naxa seriaria (Lepidoptera: Geometridae).

Author

Lee SC, Koo EC, Lee DH, Seo SM, Huh MJ, Nam I, Park JH, and Park IK

Subjects

Animals, Female, Gas Chromatography-Mass Spectrometry, Oleaceae growth & development, Moths physiology, Polyenes isolation & purification, Scent Glands chemistry, Sex Attractants isolation & purification

Abstract

The dotted white geometrid moth, Naxa seriaria Motschulsky (Lepidoptera: Geometridae), is a pest of Oleaceae in Korea, Japan, and China. In this study, we identified (3Z,6Z,9Z,12Z,15Z)-heneicosapentaene (C-21 pentaene) as the only compound in extracts of the pheromone glands of female N. seriaria causing a response from receptors on the antennae of males in analyses by gas chromatography with electroantennographic detection. The synthetic sex pheromone elicited dose-dependent electrophysiological responses from antennae of male N. seriaria. In field tests, more male moths were captured in traps baited with synthetic C-21 pentaene than in unbaited traps, and increasing the loading of C-21 pentaene in the lure increased catches of male moths. Significantly more male N. seriaria moths were caught in delta traps than in bucket traps. Based on these results, C-21 pentaene is proposed to be the major, if not the only, component of the sex pheromone of N. seriaria.

Published

2020

8. Key Male Glandular Odorants Attracting Female Ring-Tailed Lemurs.

Author

Shirasu M, Ito S, Itoigawa A, Hayakawa T, Kinoshita K, Munechika I, Imai H, and Touhara K

Subjects

Animals, Female, Gas Chromatography-Mass Spectrometry veterinary, Male, Seasons, Animal Communication, Lemur physiology, Odorants analysis, Scent Glands chemistry, Volatile Organic Compounds metabolism

Abstract

Among rodents, information about the external world is mainly acquired via the olfactory system, which is one of five sensory modalities. Several semiochemical signals are used for inter- and intraspecies communication [1]. In contrast, primates are generally regarded as vision-oriented mammals, and have been thought to trade their olfactory sensitivity for good sight. However, strepsirrhines have a well-developed olfactory system [2] and a larger repertoire of functional olfactory and vomeronasal receptor genes than haplorhines [3, 4]. Moreover, strepsirrhines are well known for their use of olfactory communication in social behavior. Ring-tailed lemurs are a species of Malagasy strepsirrhines, and use olfactory cues for conspecific communication. Male lemurs mark their scent by spreading volatiles from the antebrachial gland on their wrists. This study combined ethological and chemical approaches to identify a key odorant(s) in antebrachial secretions involved in the sexual communication of lemurs. The results of a behavioral assay indicated that females sniff the males' antebrachial secretions longer during the breeding season than during the nonbreeding season. By examining seasonal changes in volatiles using gas chromatography-mass spectrometry, we found that the secretion of three C12 and C14 aldehydes with a fruity and floral scent significantly increased during the breeding season in a testosterone-dependent manner. Females sniffed for longer at biologically relevant concentrations of two of the aldehydes (12-methyltridecanal and tetradecanal) and were attracted to a mixture of these plus the third aldehyde, dodecanal. Our results suggest that these aldehydes are putative lemur pheromones involved in the attractiveness of males to females during the breeding season., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

9. Analysis of defensive secretion of a milkweed bug Lygaeus equestris by 1D GC-MS and GC×GC-MS: sex differences and host-plant effect.

Author

Havlikova M, Bosakova T, Petschenka G, Cabala R, Exnerova A, and Bosakova Z

Subjects

Acetates analysis, Aldehydes analysis, Animals, Chromatography, Gas, Female, Gas Chromatography-Mass Spectrometry, Helianthus chemistry, Male, Phenylethyl Alcohol analogs & derivatives, Phenylethyl Alcohol analysis, Pheromones analysis, Scent Glands chemistry, Sex Characteristics, Sex Factors, Smell, Adonis chemistry, Heteroptera chemistry, Plant Defense Against Herbivory

Abstract

The composition of defensive secretion produced by metathoracic scent glands was analysed in males and females of the milkweed bug Lygaeus equestris (Heteroptera) using gas chromatography with mass spectrometric detection (GC-MS). The bugs were raised either on cardenolide-containing Adonis vernalis or on control sunflower seeds in order to determine whether the possibility to sequester cardenolides from their host plants would affect the composition of defensive scent-gland secretion. Profiles of the composition of defensive secretions of males and females raised on sunflower were closely similar, with predominant presence of (E)-2-octenal, (E)-2-octen-1-ol, decanal and 3-octen-1-ol acetate. The secretion of bugs raised on A. vernalis was more sexually dimorphic, and some chemicals e.g. (E,E)-2,4-hexadienyl acetate and 2-phenylethyl acetate were dominant in males, but absent in females. Compared to bugs from sunflower, the scent-gland secretion of bugs raised on A. vernalis was characterized by lower overall intensity of the peaks obtained for detected chemicals and by absence of some chemicals that have supposedly antipredatory function ((E)-2-hexenal, (E)-4-oxo-hex-2-enal, 2,4-octadienal). The results suggest that there might be a trade-off between the sequestration of defensive chemicals from host plants and their synthesis in metathoracic scent-glands.

Published

2020

10. Identification of potential chemosignals in the European water vole Arvicola terrestris.

Author

Nagnan-Le Meillour P, Descamps A, Le Danvic C, Grandmougin M, Saliou JM, Klopp C, Milhes M, Bompard C, Chesneau D, Poissenot K, and Keller M

Subjects

Animals, Arvicolinae physiology, Female, France, Lipocalins, Male, Population Dynamics, Scent Glands physiology, Seasons, Sex Attractants, United Kingdom, Arvicolinae urine, Fatty Acids, Volatile urine, Liver chemistry, Scent Glands chemistry

Abstract

The water vole Arvicola terrestris is endemic to Europe where its outbreak generates severe economic losses for farmers. Our project aimed at characterising putative chemical signals used by this species, to develop new sustainable methods for population control that could also be used for this species protection in Great Britain. The water vole, as well as other rodents, uses specific urination sites as territorial and sex pheromone markers, still unidentified. Lateral scent glands and urine samples were collected from wild males and females caught in the field, at different periods of the year. Their volatile composition was analysed for each individual and not on pooled samples, revealing a specific profile of flank glands in October and a specific profile of urinary volatiles in July. The urinary protein content appeared more contrasted as males secrete higher levels of a lipocalin than females, whenever the trapping period. We named this protein arvicolin. Male and female liver transcript sequencing did not identify any expression of other odorant-binding protein sequence. This work demonstrates that even in absence of genome, identification of chemical signals from wild animals is possible and could be helpful in strategies of species control and protection.

Published

2019

11. Chemical Profiles of Integumentary and Glandular Substrates in Australian Sea Lion Pups (Neophoca cinerea).

Author

Wierucka K, Barthes N, Pitcher BJ, Schaal B, Charrier I, and Harcourt RG

Subjects

Animals, Australia, Female, Gas Chromatography-Mass Spectrometry, Multivariate Analysis, Sea Lions, Odorants analysis, Scent Glands chemistry

Abstract

Recognition of individuals or classes of individuals plays an important role in the communication systems of many mammals. The ability of otariid (i.e., fur seal and sea lion) females to locate and identify their offspring in colonies after returning from regular foraging trips is essential to successful pup rearing. It has been shown that olfaction is used to confirm the identity of the pup by the mother when they reunite, yet the processes by which this chemical recognition occurs remain unclear. Using gas chromatography-mass spectrometry, we examined chemical profiles of integumentary and glandular secretions/excretions from pre- and post-molt Australian sea lion pups (Neophoca cinerea) and compared fur and swab samples to assess data collection methods. Multivariate statistics were applied to assess differences in chemical composition between body regions and sexes. We found differences among secretions from various body regions, driven by the distinctiveness of the oral odor mixture. The fine-scale trends in pre- and post-molt pups seem to differ due to changes in the behavior of pups and consequent decrease in the transfer of compounds among adjacent body regions in older pups. Volatile compounds from exocrine substrates were not distinct for different sexes. We also show that swab samples provide better data for exploring social olfaction than fur samples for this species. Obtaining fundamental chemical information, in this case chemical profiles of animals, and discerning differences in chemical composition is an important step toward fully exploring the intricacies of mother-offspring olfactory recognition and its underlying processes., (© The Author(s) 2019. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2019

12. Production and Distribution of Aldehyde and Alcohol Sex Pheromone Components in the Pheromone Gland of Females of the Moth Chloridea virescens.

Author

Foster SP and Anderson KG

Subjects

Aldehydes analysis, Animals, Biosynthetic Pathways, Fatty Alcohols analysis, Female, Gas Chromatography-Mass Spectrometry, Male, Moths chemistry, Neuropeptides metabolism, Scent Glands chemistry, Scent Glands metabolism, Sex Attractants analysis, Aldehydes metabolism, Fatty Alcohols metabolism, Moths metabolism, Sex Attractants metabolism

Abstract

Aldehydes are components of many moth sex pheromones, and are thought to be produced from analogous alcohols by oxidase(s) in the cell membrane or the gland cuticle. This implies that the two types of components are produced and/or stored in different parts of the gland: alcohols in cells and aldehydes in cuticle. Few studies have investigated the distribution of components in moth pheromone glands. Using rinse/extract sampling, stable isotope tracer/tracee methods, and decapitation/ pheromone biosynthesis activating neuropeptide stimulation, we studied production and distribution of (Z)-11-hexadecenal (Z11-16:Ald) and (Z)-hexadecenol (Z11-16:OH) in the gland of Chloridea virescens (formerly Heliothis virescens). The rinse, which likely sampled the surface and outer cuticle, contained large amounts of aldehyde and small amounts of alcohol. By contrast, the residual extract, which likely sampled cells and less solvent-accessible (inner) cuticle, had large amounts of alcohol and small amounts of aldehyde. When a tracer (U- 13 C-glucose) was fed to females, the aldehyde had higher isotopic enrichment than the alcohol in the rinse, but not in the residual extract, showing that in the rinse pool, Z11-16:Ald was, on average, synthesized before Z11-16:OH. This is consistent with greater aldehyde than alcohol flux through the cuticle. While our results are consistent with cell/cuticle synthesis sites for alcohol/aldehyde components, we cannot rule out both being synthesized in gland cells. We propose two alternative conceptual models for how site of production, cuticular transport and catabolism/metabolism might explain the relative masses of Z11-16:Ald and Z11-16:OH translocated to the pheromone gland surface in female C. virescens.

Published

2019

13. Male Scent Gland Signals Mating Status in Greater Spear-Nosed Bats, Phyllostomus hastatus.

Author

Adams DM, Li Y, and Wilkinson GS

Subjects

Aging, Animals, Discriminant Analysis, Female, Gas Chromatography-Mass Spectrometry, Male, Principal Component Analysis, Scent Glands metabolism, Sex Attractants analysis, Chiroptera physiology, Scent Glands chemistry, Sexual Behavior, Animal physiology

Abstract

Chemical signals are ubiquitous, but often overlooked as potentially important for conveying information relevant for sexual selection. The male greater spear-nosed bat, Phyllostomus hastatus, possesses a sexually dimorphic gland on the chest that produces an odoriferous secretion. Here, we investigate the potential for this glandular secretion to act as a sexually selected olfactory signal by examining gland activity in and out of the mating season and determining if variation in its chemical composition reflects variation in male mating status or attributes of the individual. Based on gas chromatography-mass spectrometry (GC-MS) measurements of samples collected from wild bats roosting in caves in Trinidad, West Indies, we find that males that defend and roost with groups of females (harem holders) have significantly different chemical profiles from males found roosting in all male groups (bachelors). Additionally, profiles differed significantly among individuals. Taken together, these results suggest that this chemical signal has the potential to communicate both mating status and individual identity and thus could be used to mediate interactions among individuals within this harem-based social mating system.

Published

2018

14. Qualitative and quantitative analysis of chemicals emitted from the pheromone gland of individual Heliothis subflexa females.

Author

Nojima S, Classen A, Groot AT, and Schal C

Subjects

Animals, Female, Gas Chromatography-Mass Spectrometry, Reproducibility of Results, Volatile Organic Compounds chemistry, Volatile Organic Compounds metabolism, Moths chemistry, Moths metabolism, Scent Glands chemistry, Scent Glands metabolism, Sex Attractants chemistry, Sex Attractants metabolism

Abstract

The chemicals emitted from the sex pheromone gland of individual Heliothis subflexa females were sampled using a short section of thick-film megabore fused silica capillary column, and the pheromone glands of the same females were extracted after the effluvia collection. Both samples were treated with a silylation reagent, and then subjected to gas chromatography-chemical ionization-mass spectrometry for quantitative and qualitative analysis of all components. The total amount of all 11 components emitted from the glands of calling females was 153 ng/female/hr, which was substantially higher than previously reported. The ratios of the pheromone components in the volatile emissions and pheromone gland extracts were generally similar to previous studies, but with notable differences. The collections of volatiles and gland extractions contained, respectively: Z9-14:Ald (1.57%, 1.35%), 14:Ald (3.78%, 1.51%), Z7 + Z9-16:Ald (9.60%, 3.59%), Z11-16:Ald (76.14%, 18.94%), 16:Ald (2.95%, 2.17%), Z9-16:OH (0.07%, 7.21%), Z11-16:OH (1.11%, 49.04%), Z7-16:OAc (0.48%, 1.73%), Z9-16:OAc (1.32%, 4.02%), and Z11-16:OAc (2.98%, 10.43%). The thick-film megabore column is an efficient approach for sampling the headspace for semiochemicals., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

15. Using a proteometabolomic approach to investigate the role of Dufour's gland in pheromone biosynthesis in the social wasp Polybia paulista.

Author

Esteves FG, Santos-Pinto JR, Saidemberg DM, and Palma MS

Subjects

Animals, Behavior, Animal, Insect Proteins analysis, Insect Proteins metabolism, Wasps, Metabolomics methods, Pheromones chemistry, Proteomics methods, Scent Glands chemistry, Wasp Venoms chemistry

Abstract

Dufour's gland is associated with the venom apparatuses of social wasps and bees. This location and its evolutionary adaptations indicate that it could be involved in the production of alarm pheromones in the social wasp Polybia paulista. To investigate this hypothesis, the volatile composition of this gland was analyzed and compared to that in the venom. Eighteen compounds were identified as secreted by Dufour's gland, and 16 of these compounds were also identified in the venom, suggesting that the compounds produced by the gland are secreted and mixed with venom in the venom reservoir of this wasp. These compounds were subjected to a field bioassay to investigate their potential action as alarm pheromones. Alcohols and aldehydes elicited the alert behavior in workers, luring them outside the nest, whereas acids attracted the workers in the direction of the source; fatty acid methyl esters elicited aggression. These results suggest that Dufour's gland produces alarm pheromones. To corroborate this hypothesis the proteomic complement of this gland was assigned using a shot-gun strategy; 59 proteins were identified, and the results indicate specialization of Dufour's gland for the metabolism of fatty acids (elongation, esterification unsaturation, reduction, and decarboxylation) in the biosynthesis of alarm pheromones., Biological Significance: The present knowledge about the role of Dufour's gland among aculeate Hymenoptera insects suggests that it may have many different roles related to the biosynthesis and secretion of chemical markers for different biological functions, though none are related to the elicitation of alarm behaviors for coordinating a mass attack of the colony against intruders. The present study combined the analysis of secreted volatile compounds (as metabolites) with proteome assignments and a field bioassay with synthetic compounds to clearly demonstrate that Dufour's gland does in fact biosynthesize alarm pheromones in social wasps. This strategy may be reproduced in other investigations related to pheromone production in other insects., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2017

16. Chemically Mediated Arrestment of the Bed Bug, Cimex lectularius, by Volatiles Associated with Exuviae of Conspecifics.

Author

Choe DH, Park H, Vo C, and Knyshov A

Subjects

Aldehydes isolation & purification, Aldehydes pharmacology, Animals, Bedbugs physiology, Behavior, Animal drug effects, Blood Cells, Nymph physiology, Olfactometry, Pheromones isolation & purification, Rabbits, Scent Glands metabolism, Solid Phase Microextraction, Volatilization, Bedbugs drug effects, Nymph chemistry, Olfactory Perception physiology, Pheromones pharmacology, Scent Glands chemistry, Smell physiology

Abstract

Extracts of the exuviae (cast skins) of nymphal bed bugs (Cimex lectularius) were analyzed for volatile compounds that might contribute to arrestment of adult bed bugs. Four volatile aldehydes, (E)-2-hexenal, 4-oxo-(E)-2-hexenal, (E)-2-octenal, and 4-oxo-(E)-2-octenal were consistently detected in the headspace of freshly shed exuviae regardless of the developmental stages from which the exuviae were obtained. Quantification of the aldehydes in the solvent extracts of homogenized fresh, 45- or 99-d aged 5th instar exuviae indicated that the aldehydes are present in the exuviae and dissipate over time, through evaporation or degradation. Microscopic observation of the fifth instar exuviae indicated that the dorsal abdominal glands on the exuviae maintained their pocket-like structures with gland reservoirs, within which the aldehydes might be retained. Two-choice olfactometer studies with the volatiles from exuviae or a synthetic blend mimicking the volatiles indicated that adult bed bugs tend to settle close to sources of the aldehydes. Our results imply that the presence and accumulation of bed bug exuviae and the aldehydes volatilizing from the exuviae might mediate bed bugs' interaction with their microhabitats.

Published

2016

17. Olfactory perception and behavioral effects of sex pheromone gland components in Helicoverpa armigera and Helicoverpa assulta.

Author

Xu M, Guo H, Hou C, Wu H, Huang LQ, and Wang CZ

Subjects

Animals, Arthropod Antennae innervation, Arthropod Antennae metabolism, Arthropod Antennae physiology, Electrophysiological Phenomena, Female, Gene Expression Profiling methods, In Situ Hybridization, Insect Proteins genetics, Insect Proteins metabolism, Male, Moths chemistry, Moths classification, Olfactory Receptor Neurons physiology, Receptors, Pheromone genetics, Receptors, Pheromone metabolism, Scent Glands chemistry, Sensilla innervation, Sensilla metabolism, Sensilla physiology, Species Specificity, Aldehydes metabolism, Moths physiology, Olfactory Perception physiology, Scent Glands physiology, Sex Attractants metabolism

Abstract

Two sympatric species Helicoverpa armigera and Helicoverpa assulta use (Z)-11-hexadecenal and (Z)-9-hexadecenal as sex pheromone components in reverse ratio. They also share several other pheromone gland components (PGCs). We present a comparative study on the olfactory coding mechanism and behavioral effects of these additional PGCs in pheromone communication of the two species using single sensillum recording, in situ hybridization, calcium imaging, and wind tunnel. We classify antennal sensilla types A, B and C into A, B1, B2, C1, C2 and C3 based on the response profiles, and identify the glomeruli responsible for antagonist detection in both species. The abundance of these sensilla types when compared with the number of OSNs expressing each of six pheromone receptors suggests that HarmOR13 and HassOR13 are expressed in OSNs housed within A type sensilla, HarmOR14b within B and C type sensilla, while HassOR6 and HassOR16 within some of C type sensilla. We find that for H. armigera, (Z)-11-hexadecenol and (Z)-11-hexadecenyl acetate act as behavioral antagonists. For H. assulta, instead, (Z)-11-hexadecenyl acetate acts as an agonist, while (Z)-9-hexadecenol, (Z)-11-hexadecenol and (Z)-9-hexadecenyl acetate are antagonists. The results provide an overall picture of intra- and interspecific olfactory and behavioral responses to all PGCs in two sister species.

Published

2016

18. Chemosensory discrimination of identity and familiarity in koalas.

Author

Charlton BD

Subjects

Animal Communication, Animals, Cues, Discrimination, Psychological, Habituation, Psychophysiologic, Male, Odorants, Pheromones chemistry, Recognition, Psychology physiology, Scent Glands chemistry, Scent Glands metabolism, Signal Detection, Psychological, Social Behavior, Behavior, Animal physiology, Phascolarctidae physiology, Pheromones physiology

Abstract

Despite numerous descriptive accounts of scent marking in marsupials, rigorous experimentation is rare, and relatively little evidence exists to show that conspecifics use chemical signals to distinguish between individuals or different social groups. In this study a series of olfactory discrimination tests sought to determine whether: (1) male koala sternal scent gland secretions are individually distinctive; and (2) male koalas can differentiate between the scent of familiar and unfamiliar individuals. In the first experiment a habituation-discrimination trial demonstrated that male koalas discriminate between the scent gland secretions of different unfamiliar individuals. In a second experiment male koalas spent significantly more time investigating scent from unfamiliar males than familiar males, supporting the hypothesis that they differentiate between conspecifics based on their familiarity. Taken together these results suggest that male koalas are able to discriminate the identity and familiarity of conspecifics using chemical cues, and provide a platform for further studies investigating the functional role of olfactory communication in this species., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015

19. The Scent Glands of the Neotropical Harvestman Discocyrtus pectnifemur: Morphology, Behavior and Chemistry.

Author

Segovia JM, Hara MR, Pagoti GF, Sannomiya M, Santos DY, and Willemart RH

Subjects

Animals, Arachnida anatomy & histology, Arachnida chemistry, Female, Male, Pheromones analysis, Scent Glands anatomy & histology, Scent Glands chemistry, Scent Glands physiology, Arachnida physiology

Abstract

Harvestmen have a pair of scent glands that open through ozopores. The literature suggests a link between the morphology of the ozopore area and the emission of a defensive secretion. A previous study on a species that aggregates in open areas, where individuals are probably more easily spotted by predators, showed that this defensive secretion causes conspecifics to flee. However, it is unknown whether this behavior occurs in species that aggregate in sheltered areas, where prey are harder to find. Herein, we describe the morphology of the ozopore area, the mode of emission of the defensive secretion, and its chemical composition in the harvestman Discocyrtus pectinifemur. We also tested if the defensive secretion is used as an alarm pheromone. We found that D. pectinifemur releases the defensive secretion in different ways, one of them being as a jet. Emission as a jet contrasts with that known for all congeners previously studied, and is in accord with the expected morphology of the ozopore. We found that the defensive secretion of D. pectinifemur does not function as an alarm pheromone. The composition of the defensive secretion, a mixture of quinones, is congruent with those already described for the clade that includes Discocyrtus. Our results support the link between the morphology of the scent glands area and the emission behavior of the defensive secretion, and they suggest that the alarm pheromone function in harvestmen may be dependent on ecological factors.

Published

2015

20. Reactions of green lizards (Lacerta viridis) to major repellent compounds secreted by Graphosoma lineatum (Heteroptera: Pentatomidae).

Author

Gregorovičová M and Černíková A

Subjects

Aldehydes isolation & purification, Animals, Scent Glands chemistry, Aldehydes pharmacology, Feeding Behavior drug effects, Heteroptera chemistry, Lizards physiology

Abstract

The chemical defence of Heteroptera is primarily based on repellent secretions which signal the potential toxicity of the bug to its predators. We tested the aversive reactions of green lizards (Lacerta viridis) towards the major compounds of the defensive secretion of Graphosoma lineatum, specifically: (i) a mixture of three aldehydes: (E)-hex-2-enal, (E)-oct-2-enal, (E)-dec-2-enal; (ii) a mixture of these three aldehydes and tridecane; (iii) oxoaldehyde: (E)-4-oxohex-2-enal; (iv) secretion extracted from metathoracic scent glands of G. lineatum adults and (v) hexane as a non-polar solvent. All chemicals were presented on a palatable food (Tenebrio molitor larvae). The aversive reactions of the green lizards towards the mealworms were evaluated by observing the approach latencies, attack latencies and approach-attack intervals. The green lizards exhibited a strong aversive reaction to the mixture of three aldehydes. Tridecane reduced the aversive reaction to the aldehyde mixture. Oxoaldehyde caused the weakest, but still significant, aversive reaction. The secretion from whole metathoracic scent glands also clearly had an aversive effect on the green lizards. Moreover, when a living specimen of G. lineatum or Pyrrhocoris apterus (another aposematic red-and-black prey) was presented to the green lizards before the trials with the aldehyde mixture, the aversive effect of the mixture was enhanced. In conclusion, the mixture of three aldehydes had the strong aversive effect and could signal the potential toxicity of G. lineatum to the green lizards., (Copyright © 2015 Elsevier GmbH. All rights reserved.)

Published

2015

21. Sex pheromones and reproductive isolation in five mirid species.

Author

Yang CY, Kim SJ, Kim J, Kang TJ, and Ahn SJ

Subjects

Animals, Female, Gas Chromatography-Mass Spectrometry, Heteroptera chemistry, Male, Scent Glands chemistry, Scent Glands metabolism, Sex Attractants analysis, Species Specificity, Heteroptera physiology, Reproductive Isolation, Sex Attractants metabolism

Abstract

Mate location in many mirid bugs (Heteroptera: Miridae) is mediated by female-released sex pheromones. To elucidate the potential role of the pheromones in prezygotic reproductive isolation between sympatric species, we investigated differences in the pheromone systems of five mirid species, Apolygus lucorum, Apolygus spinolae, Orthops campestris, Stenotus rubrovittatus and Taylorilygus apicalis. GC/MS analyses of metathoracic scent gland extracts of virgin females showed that all five species produced mixtures of hexyl butyrate, (E)-2-hexenyl butyrate and (E)-4-oxo-2-hexenal, but in quite different ratios. (E)-2-hexenyl butyrate was the major component of A. spinolae, while hexyl butyrate was the most abundant component in the pheromone blends of the other four species. In addition to the three compounds, a fourth component, (E)-2-octenyl butyrate, was present in the gland extracts of A. lucorum and T. apicalis females. Field tests suggest that the ternary blends of hexyl butyrate, (E)-2-hexenyl butyrate and (E)-4-oxo-2-hexenal as found in the extracts of the females of each species do not inhibit attraction of conspecific males but ensure species-specificity of attraction between A. lucorum, O. campestris and T. apicalis. Furthermore, (E)-2-octenyl butyrate was essential for attraction of A. lucorum and T. apicalis males, but strongly inhibited attraction of male A. spinolae, O. campestris and S. rubrovittatus. The combined results from this study and previous studies suggest that the minor component and pheromone dose in addition to the relative ratio of the major components play an important role in reproductive isolation between mirid species.

Published

2015

22. Histology and ultrastructure of the caudal courtship glands of the red-backed salamander, Plethodon cinereus (Amphibia: Plethodontidae).

Author

Sever DM and Siegel DS

Subjects

Animals, Courtship, Exocrine Glands chemistry, Female, Male, Mucus, Pheromones metabolism, Proteins analysis, Scent Glands chemistry, Seasons, Secretory Vesicles chemistry, Secretory Vesicles ultrastructure, Skin ultrastructure, Exocrine Glands ultrastructure, Scent Glands ultrastructure, Urodela anatomy & histology

Abstract

Caudal courtship glands (CCGs) are sexually dimorphic glands described in the skin of the dorsal tail base of some male salamanders in the genera Desmognathus, Eurycea, and Plethodon in the family Plethodontidae. These glands are believed to deliver pheromones to females during courtship, when the female rests her chin on the dorsal tail base during the stereotypic tail straddling walk unique to plethodontids. Although CCGs have been studied histologically, no investigations of their ultrastructure have been made. This article presents the first study on the fine structure and seasonal variation of CCGs, using the plethodontid Plethodon cinereus. The CCGs vary seasonally in height and secretory activity. The mature secretory granules observed in males collected in October and April consist of oval, biphasic granules that are eosinophilic and give positive reactions to periodic acid-Schiff for neutral carbohydrates but do not stain for acidic mucosusbtances or proteins with alcian blue and bromphenol blue, respectively. Granular glands, some of which contain mucous demilunes, are twice as large as CCGs, are syncytial (unlike CCGs), and stain for proteins. Mucous glands are similar in size to CCGs, but are basophilic, show no seasonal variation in secretory activity, and stain positive for acidic mucosubstances. CCGs do not resemble cytologically the sexually dimorphic mental glands of some plethodontids, which contain round or oval granules filled with an electron-dense amorphous substance. The CCGs are similar histologically to sexually dimorphic skin glands described in some anurans, but more comparative work is needed., (© 2014 Wiley Periodicals, Inc.)

Published

2015

23. Analytical methods for chemical and sensory characterization of scent-markings in large wild mammals: a review.

Author

Soso SB, Koziel JA, Johnson A, Lee YJ, and Fairbanks WS

Subjects

Animals, Animals, Wild metabolism, Chemistry Techniques, Analytical methods, Mammals metabolism, Odorants analysis, Scent Glands chemistry

Abstract

In conjoining the disciplines of "ethology" and "chemistry" the field of "Ethochemistry" has been instituted. Ethochemistry is an effective tool in conservation efforts of endangered species and the understanding of behavioral patterns across all species. Chemical constituents of scent-markings have an important, yet poorly understood function in territoriality, reproduction, dominance, and impact on evolutionary biology, especially in large mammals. Particular attention has recently been focused on scent-marking analysis of great cats (Kalahari leopards (Panthera pardus), puma (Puma concolor) snow leopard (Panthera uncia), African lions (Panthera leo), cheetahs (Acinonyx jubatus), and tigers (Panthera tigris)) for the purpose of conservation. Sensory analyses of scent-markings could address knowledge gaps in ethochemistry. The objective of this review is to summarize the current state-of-the art of both the chemical and sensory analyses of scent-markings in wild mammals. Specific focus is placed on sampling and sample preparation, chemical analysis, sensory analysis, and simultaneous chemical and sensory analyses. Constituents of exocrine and endocrine secretions have been most commonly studied with chromatography-based analytical separations. Odor analysis of scent-markings provides an insight into the animal's sensory perception. A limited number of articles have been published in the area of sensory characterization of scent marks. Simultaneous chemical and sensory analyses with chromatography-olfactometry hyphenation could potentially aid conservation efforts by linking perceived odor, compounds responsible for odor, and resulting behavior.

Published

2014

24. Morphology and chemical analysis of the metathoracic scent glands system in Adelphocoris suturalis (Hemiptera: Miridae).

Author

Zhang Z, Luo J, Wang Y, Chen L, Chen L, and Lei C

Subjects

Animals, Female, Gas Chromatography-Mass Spectrometry, Male, Microscopy, Electron, Scanning, Scent Glands metabolism, Sex Characteristics, Heteroptera chemistry, Heteroptera ultrastructure, Scent Glands chemistry, Scent Glands ultrastructure

Abstract

The morphological structure of the metathoracic scent glands (MTGs) in Adelphocoris suturalis was observed by utilizing scanning electron microscope (SEM). Also, the secretions of MTGs in male and female were analyzed by using gas chromatography-mass spectrometry (GC-MS). The result showed that the MTGs comprised a reservoir and paired lateral glands, which are connected to a reservoir by duct. The MTGs belong to the diastomian type. A usually depressed channel extends from opening downward the middle of metathorax, a tongue-like structure was covered by bristles and mushroom-shaped cuticular structures, known as evaporative area. In GC-MS investigation, differences were found in quantitative or qualitative compositions of the substances between the two sexes. In our study, hexyl butyrate was the most abundant compound in the MTGs of A. suturalis, comprising ∼85% of total secretions in both female and male, respectively. 4-oxo-(E)-2-hexenal (5.22%) was the second most abundant compound in female MTGs secretions, whereas octacosane (2.42%) followed hexyl butyrate in male MTGs secretions., (© The Author 2014. Published by Oxford University Press on behalf of the Entomological Society of America.)

Published

2014

25. Additional vinyl ketones and their pyranyl ketones in gonyleptid harvestmen (Arachnida: Opiliones) suggest these metabolites are widespread in this family.

Author

Wouters FC, Rocha DF, Gonçalves CC, Machado G, and Marsaioli AJ

Subjects

Animals, Arachnida classification, Arachnida genetics, Gas Chromatography-Mass Spectrometry, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Scent Glands metabolism, Stereoisomerism, Arachnida chemistry, Ketones chemistry, Pyrans chemistry, Scent Glands chemistry, Vinyl Compounds chemistry

Abstract

Four species of gonyleptid harvestmen, Acanthogonyleptes pulcher, Gonyleptes saprophilus (Gonyleptinae), Sodreana barbiellini, and Sodreana leprevosti (Sodreaninae), were examined by GC-MS and ¹³H NMR. All of these species release vinyl ketones, and three of them produce the corresponding pyranyl ketones, which are presumed hetero-Diels-Alder (HDA) dimers. The vinyl ketones 5-methyl-1-hexen-3-one, rac-4-methyl-1-hexen-3-one, and (S)-4-methyl-1-hexen-3-one were synthesized. Natural 4-methyl-1-hexen-3-one is present as a single stereoisomer and has the R-configuration. Vinyl ketone dimers (HDA dimers) were also observed in the scent gland exudate and characterized by HRMS, ¹³C NMR, and ¹H NMR chemical shifts of the pyranyl moiety.

Published

2013

26. Relatedness communicated in lemur scent.

Author

Morelli TL, Hayes RA, Nahrung HF, Goodwin TE, Harelimana IH, Macdonald LJ, and Wright PC

Subjects

Animals, Female, Gas Chromatography-Mass Spectrometry, Lemur genetics, Madagascar, Male, Multivariate Analysis, Pheromones genetics, Scent Glands chemistry, Animal Communication, Lemur physiology, Pheromones chemistry

Abstract

Lemurs are the most olfactory-oriented of primates, yet there is still only a basic level of understanding of what their scent marks communicate. We analyzed scent secretions from Milne-Edwards' sifakas (Propithecus edwardsi) collected in their natural habitat of Ranomafana National Park, Madagascar. We sought to test whether the scent mark could signal genetic relatedness in addition to species, sex, season, and individuality. We not only found correlations (r (2) = 0.38, P = 0.017) between the total olfactory fingerprint and genetic relatedness but also between relatedness and specific components of the odor, despite the complex environmental signals from differences in diet and behavior in a natural setting. To the best of our knowledge, this is the first demonstration of an association between genetic relatedness and chemical communication in a wild primate population. Furthermore, we found a variety of compounds that were specific to each sex and each sampling period. This research shows that scent marks could act as a remote signal to avoid inbreeding, optimize mating opportunities, and potentially aid kin selection.

Published

2013

27. Odoriferous Defensive stink gland transcriptome to identify novel genes necessary for quinone synthesis in the red flour beetle, Tribolium castaneum.

Author

Li J, Lehmann S, Weißbecker B, Ojeda Naharros I, Schütz S, Joop G, and Wimmer EA

Subjects

Animals, Benzoquinones metabolism, Coleoptera metabolism, Coleoptera physiology, Gene Expression Profiling, High-Throughput Nucleotide Sequencing, Insect Proteins genetics, Phylogeny, RNA Interference, Scent Glands metabolism, Benzoquinones chemistry, Coleoptera chemistry, Insect Proteins metabolism, Scent Glands chemistry

Abstract

Chemical defense is one of the most important traits, which endow insects the ability to conquer a most diverse set of ecological environments. Chemical secretions are used for defense against anything from vertebrate or invertebrate predators to prokaryotic or eukaryotic parasites or food competitors. Tenebrionid beetles are especially prolific in this category, producing several varieties of substituted benzoquinone compounds. In order to get a better understanding of the genetic and molecular basis of defensive secretions, we performed RNA sequencing in a newly emerging insect model, the red flour beetle Tribolium castaneum (Coleoptera: Tenebrionidae). To detect genes that are highly and specifically expressed in the odoriferous gland tissues that secret defensive chemical compounds, we compared them to a control tissue, the anterior abdomen. 511 genes were identified in different subtraction groups. Of these, 77 genes were functionally analyzed by RNA interference (RNAi) to recognize induced gland alterations morphologically or changes in gland volatiles by gas chromatography-mass spectrometry. 29 genes (38%) presented strong visible phenotypes, while 67 genes (87%) showed alterations of at least one gland content. Three of these genes showing quinone-less (ql) phenotypes - Tcas-ql VTGl; Tcas-ql ARSB; Tcas-ql MRP - were isolated, molecularly characterized, their expression identified in both types of the secretory glandular cells, and their function determined by quantification of all main components after RNAi. In addition, microbe inhibition assays revealed that a quinone-free status is unable to impede bacterial or fungal growth. Phylogenetic analyses of these three genes indicate that they have evolved independently and specifically for chemical defense in beetles., Competing Interests: The authors have declared that no competing interests exist.

Published

2013

28. [Establishment of two-dimensional electrophoresis system of caudal gland].

Author

Li SF, Wang F, Zhang GH, and Xu HN

Subjects

Animals, Deer, Electrophoresis, Gel, Two-Dimensional methods, Proteins chemistry, Scent Glands chemistry

Abstract

Objective: To establish an effective separation system of 2-DE for the proteome of caudal gland, and provide foundation for revealing the mechanisms of histological development and pharmacological activities., Method: The total proteins of caudal gland were extracted by TCA/acetone precipitation, phenol extraction/methanol-ammonium acetate precipitation and trizol-base method respectively and separated by immobilized pH gradient (IPG) strips prior to SDS-PAGE. Loading protein sample size and isoelectric focusing conditions were optimized. The gels were stained with Coomassie brilliant blue, scanned and then analyzed using PDQuest 8.0 analysis software., Result: The total proteins of caudal gland extracted by trizol-base method were the highest quality and could meet the needs of 2-DE. With 300 microg of proteins loaded on 7 cm pH 3-10 IPG strip followed by isoelectric focusing program II ,a satisfying 2-DE profiles were obtained. The total number of disticted protein spots was 209 with the optimized system., Conclusion: A well-resolved 2-DE patterns of caudal gland were obtained by this optimized system. This method could be applied to prepare other similar tissue sample and 2-DE studies.

Published

2012

29. Defensive roles of (E)-2-alkenals and related compounds in heteroptera.

Author

Noge K, Prudic KL, and Becerra JX

Subjects

Aldehydes analysis, Aldehydes isolation & purification, Aldehydes pharmacology, Animals, Gas Chromatography-Mass Spectrometry, Pheromones isolation & purification, Pheromones pharmacology, Predatory Behavior drug effects, Scent Glands chemistry, Heteroptera chemistry, Pheromones analysis

Abstract

We examined whether shared volatiles found in various heteropteran species and developmental stages function to repel predators. The nymphal dorsal abdominal gland secretions of Riptortus pedestris (Heteroptera: Alydidae) and Thasus acutangulus (Heteroptera: Coreidae), and the metathoracic scent gland secretion of Euschistus biformis (Heteroptera: Pentatomidae) adults were identified by gas chromatography/mass spectrometry (GC/MS). (E)-2-Hexenal, 4-oxo-(E)-2-hexenal (4-OHE), and (E)-2-octenal were found in all three species and deemed likely candidates for repelling predators. In addition to (E)-2-alkenals, the adult E. biformis secreted (E)-2-hexenyl acetate, (E)-2-octenyl acetate, and four hydrocarbons. We evaluated the potential predator repellent properties of these compounds and compound blends against a generalist, cosmopolitan insect predator, the Chinese praying mantid (Mantodea: Mantidae: Tenodera aridifolia sinensis). Mantids that experienced (E)-2-hexenal, (E)-2-octenal, and (E)-2-octenyl acetate moved away from the site of interaction, while 4-OHE and (E)-2-hexenyl acetate did not affect mantid behavior. The compound blends did not have additive or synergistic repellency effects on predator behavior. Compound repellency was not related to compound volatility. Instead, the repellent effect is likely related to predator olfaction, and the affinity of each compound to receptors on the antennae. Our results also suggest the repellents might intensify the visual defensive signals of aposematism (T. acutangulus nymphs) and mimicry (R. pedestris nymphs) in heteropteran bugs.

Published

2012

30. Eulemur, me lemur: the evolution of scent-signal complexity in a primate clade.

Author

delBarco-Trillo J, Sacha CR, Dubay GR, and Drea CM

Subjects

Animals, Bodily Secretions physiology, Female, Gas Chromatography-Mass Spectrometry, Genitalia, Female physiology, Genitalia, Male physiology, Lemuridae classification, Male, Olfactory Perception, Phylogeny, Seasons, Sex Characteristics, Sexual Behavior, Animal physiology, Social Behavior, Species Specificity, Biological Evolution, Bodily Secretions chemistry, Lemuridae physiology, Scent Glands chemistry

Abstract

Signal complexity has been linked to social complexity in vocal, but not chemical, communication. To address this gap, we examined the chemical complexity of male and female glandular secretions in eight species of Eulemur. In this diverse clade of macrosmatic primates, species differ by social or mating system and dominance structure. We applied principal component and linear discriminate analyses to data obtained by gas chromatography/mass spectrometry. Beyond the significant effects on chemical signals of gland type, sex, season and species, we found effects of social variables and phylogeny. Notably, female odours were more chemically complex in multimale-multifemale species than pair-bonded species, whereas male odours were more chemically complex in codominant species than female-dominant species. Also, the traditional sexual dimorphism, whereby male signal complexity exceeds that of females, was present in codominant species, but reversed in female-dominant species. Lastly, a positive relationship between the species' pairwise chemical distances and their pairwise phylogenetic distances supported a gradual, but relatively fast mode of signal evolution. We suggest that the comparative method can be a powerful tool in olfactory research, revealing species differences relevant to the understanding of current signal utility and evolutionary processes. In particular, social complexity in lemurs may have selected for olfactory complexity.

Published

2012

31. High conservatism in the composition of scent gland secretions in cyphophthalmid harvestmen: evidence from pettalidae.

Author

Raspotnig G, Schwab J, and Karaman I

Subjects

Animals, Arachnida metabolism, Female, Gas Chromatography-Mass Spectrometry, Male, Arachnida chemistry, Organic Chemicals chemistry, Organic Chemicals metabolism, Scent Glands chemistry, Scent Glands metabolism

Abstract

The scent gland secretion of Austropurcellia forsteri was analyzed by gas chromatography-mass spectrometry, providing the first description of the secretion chemistry in the cyphophthalmid family Pettalidae. The secretion contained a total of 21 compounds: About 60% of the whole secretion consisted of a series of saturated, mono-unsaturated and doubly unsaturated methylketones, from C11 to C15, with a cluster of saturated and mono-unsaturated C13-methylketones dominating. A second fraction included several naphthoquinones such as 1,4-naphthoquinone (ca. 20% of secretion), 6-methyl-1,4-naphthoquinone (ca. 17%), and minor amounts of chloronaphthoquinones (ca. 2%). When compared with scent gland compositions of other representatives of cyphophthalmids (e.g. from families Sironidae and Stylocellidae), a highly conservative chemistry of cyphophthalmid secretions is apparent, based on a restricted number of methylketones and naphthoquinones.

Published

2012

32. Nitrogen-containing compounds in the scent gland secretions of European cladonychiid harvestmen (Opiliones, Laniatores, Travunioidea).

Author

Raspotnig G, Schaider M, Föttinger P, Komposch C, and Karaman I

Subjects

Animals, Europe, Gas Chromatography-Mass Spectrometry, Arachnida chemistry, Nitrogen Compounds analysis, Scent Glands chemistry

Abstract

The exocrine secretions from prominently developed prosomal scent glands in four species of the European laniatorean harvestman genus Holoscotolemon (Laniatores, Travunioidea, Cladonychiidae) were analyzed by gas chromatography - mass spectrometry. Two major alkaloidal compounds were detected: Nicotine accounted for more than 97% of the secretion in Holoscotolemon jaqueti and H. oreophilum, whereas the chemically related nicotinoid alkaloid anabaseine was the major compound in H. lessiniense. In addition, a series of minor nitrogen-containing components was found, namely 3-(1-methyl-2-piperidinyl)-pyridine and anabasine, in H. jaqueti and H. oreophilum, and anabasine together with 2,3'-bipyridyl in H. lessiniense. By contrast, extracts of adult H. unicolor did not show any components. In one juvenile specimen of H. unicolor, however, low amounts of alkyl pyrazines (dimethyl-isobutyl- and dimethyl-isopentylpyrazines) were detected. Nitrogen-containing components previously were found in Sclerobunus robustus (an American travunioid harvestman), so scent gland-derived alkaloids may be widespread or even common in the Travunioidea. Alkaloids have not been reported for other opilionid scent gland secretions outside the Travunioidea, and we hypothesize that they may be the phylogenetically ancestral allomones in the Laniatores, having been reduced and replaced by a phenol- and benzoquinone-rich chemistry in the more derived grassatorean taxa.

Published

2011

33. An individual and a sex odor signature in kittiwakes?: study of the semiochemical composition of preen secretion and preen down feathers.

Author

Leclaire S, Merkling T, Raynaud C, Giacinti G, Bessière JM, Hatch SA, and Danchin E

Subjects

Animals, Female, Grooming, Male, Scent Glands chemistry, Scent Glands metabolism, Sex Characteristics, Charadriiformes physiology, Feathers chemistry, Pheromones analysis, Sexual Behavior, Animal

Abstract

The importance of olfaction in birds' social behavior has long been denied. Avian chemical signaling has thus been relatively unexplored. The black-legged kittiwake provides a particularly appropriate model for investigating this topic. Kittiwakes preferentially mate with genetically dissimilar individuals, but the cues used to assess genetic characteristics remain unknown. As in other vertebrates, their body odors may carry individual and sexual signatures thus potentially reliably signaling individual genetic makeup. Here, we test whether body odors in preen gland secretion and preen down feathers in kittiwakes may provide a sex and an individual signature. Using gas chromatography and mass spectrometry, we found that male and female odors differ quantitatively, suggesting that scent may be one of the multiple cues used by birds to discriminate between sexes. We further detected an individual signature in the volatile and nonvolatile fractions of preen secretion and preen down feathers. These results suggest that kittiwake body odor may function as a signal associated with mate recognition. It further suggests that preen odor might broadcast the genetic makeup of individuals, and could be used in mate choice to assess the genetic compatibility of potential mates.

Published

2011

34. Uropygial gland-secreted alkanols contribute to olfactory sex signals in budgerigars.

Author

Zhang JX, Wei W, Zhang JH, and Yang WH

Subjects

Animals, Birds, Courtship psychology, Cricetinae, Female, Male, Mating Preference, Animal physiology, Moths, Sex Factors, Signal Transduction physiology, Smell physiology, Social Behavior, Fatty Alcohols metabolism, Melopsittacus physiology, Pheromones physiology, Scent Glands chemistry, Sex Attractants physiology, Sexual Behavior, Animal physiology

Abstract

The possible role of uropygial gland-secreted compounds in olfactory discrimination of sex or sex attractants in the budgerigar, Melopsittacus undulatus, was investigated using behavioral 2-choice tests and gas chromatography-mass spectrometry analysis. Our data showed that female budgerigars were capable of distinguishing males from females in a Y maze via body odor, indicating its sexual dimorphism. When we conducted a chemical assay of the uropygial preen gland secretions, we found 4 times more volatile octadecanol, nonadecanol, and eicosanol in ratios in males than in females, making them putative male pheromone candidates. Female birds also showed overt preferences for the odor of male preen gland secretions or the 3-alkanol blend equivalent preened onto the plumage of a male over that of female counterparts. Removal of any one alkanol was associated with a loss of attractiveness to the female. In another test device (a test cage) with visible male bird stimulus, females chose the male with the 3-alkanol blend of males over the other male with female preen gland secretion, whereas did not differentiate their responses between the males with either this blend or male preen gland secretions. The behavioral data robustly suggested that the 3 alkanols synergistically created a female attractant odor or male pheromone in the budgerigar and that bird uropygial glands have broader implications in sexual behavior than previously known. This is the first investigation with bioassay of components of the gland in a bird species.

Published

2010

35. Chemical composition of scent-gland secretions in an old world monkey (Mandrillus sphinx): influence of sex, male status, and individual identity.

Author

Setchell JM, Vaglio S, Moggi-Cecchi J, Boscaro F, Calamai L, and Knapp LA

Subjects

Age Factors, Animals, Female, Gas Chromatography-Mass Spectrometry, Hair chemistry, Male, Mandrillus, Odorants analysis, Principal Component Analysis, Scent Glands metabolism, Sex Factors, Social Behavior, Volatile Organic Compounds chemistry, Scent Glands chemistry

Abstract

Primates are traditionally considered to be microsmatic, with decreased reliance on olfactory senses in comparison to other sensory modalities such as vision. This is particularly the case for Old World monkeys and apes (catarrhines). However, various lines of evidence suggest that chemical communication may be important in these species, including the presence of a sternal scent-gland in the mandrill. We investigated the volatile components of mandrill odor using gas chromatography-mass spectrometry. We identified a total of 97 volatile components in 88 swabs of the sternal gland secretion and 95 samples of sternal gland hair saturated with scent-gland secretion collected from 27 males and 18 females. We compared odor profiles with features of the signaler using principle components and discriminant function analyses and found that volatile profiles convey both variable (age, dominance rank in males) and fixed (sex, possibly individual identity) information about the signaler. The combination of an odor profile that signals sex, age, and rank with increased motivation to scent-mark and increased production of secretion in high-ranking males leads to a potent signal of the presence of a dominant, adult male with high testosterone levels. This may be particularly relevant in the dense Central African rain forest which mandrills inhabit. By contrast, we were unable to differentiate between either female cycle stage or female rank based on odor profiles, which accords with behavioral studies suggesting that odor signals are not as important in female mandrills as they are in males. The similarity of our findings to those for other mammals and in primates that are more distantly related to humans suggests a broader role for odor in primate communication than is currently recognized.

Published

2010

36. Naphthoquinones and anthraquinones from scent glands of a dyspnoid Harvestman, Paranemastoma quadripunctatum.

Author

Raspotnig G, Leutgeb V, Schaider M, and Komposch C

Subjects

Animals, Anthraquinones isolation & purification, Female, Gas Chromatography-Mass Spectrometry, Male, Naphthoquinones isolation & purification, Anthraquinones analysis, Arachnida chemistry, Naphthoquinones analysis, Scent Glands chemistry

Abstract

Extracts of Paranemastoma quadripunctatum (Opiliones, Dyspnoi, Nemastomatidae) contained seven components, all of which likely originated from the secretion of well-developed prosomal scent glands. The two main components (together accounting for more than 90% of the secretion) were identified as 1,4-naphthoquinone and 6-methyl-1,4-naphthoquinone. The minor components were 1,4-naphthalenediol, two methoxy-naphthoquinones (2-methoxy-1,4-naphthoquinone, and 2-methoxy-6-methyl-1,4-naphthoquinone) and two anthraquinones (2-methyl-9,10-anthraquinone and a dimethyl-9,10-anthraquinone). While some chemical data on scent gland secretions of the other suborders of Opiliones (Cyphophthalmi, palpatorean Eupnoi, and Laniatores) already exist, this is the first report on the scent gland chemistry in the Dyspnoi. Naphthoquinones are known scent gland exudates of Cyphophthalmi and certain Eupnoi, methoxy-naphthoquinones and anthraquinones are new for opilionid scent gland secretions.

Published

2010

37. Fine structure and chemical analysis of the metathoracic scent gland secretion in Graphosoma lineatum (Linnaeus, 1758) (Heteroptera, Pentatomidae).

Author

Durak D and Kalender Y

Subjects

Animals, Female, Gas Chromatography-Mass Spectrometry, Heteroptera chemistry, Male, Microscopy, Electron, Organelles ultrastructure, Scent Glands chemistry, Scent Glands cytology, Heteroptera anatomy & histology, Pheromones analysis, Scent Glands ultrastructure, Volatile Organic Compounds analysis

Abstract

Morphology and ultrastructure of metathoracic scent glands (MTGs) of Graphosoma lineatum (Heteroptera, Pentatomidae) were studied by scanning electron microscopy (SEM) and transmission electron microscopy (TEM). Extracts of the volatile fraction of the MTG secretion from males and females were subjected to initial analysis. One pair of the MTG is composed of a reservoir and a pair of lateral glands connected to the reservoir with a duct. MTGs are open in between the meso- and metacoxae, on evaporation areas with a mushroom-like structure. Reservoir walls embody two types of cells, type I and type II, respectively. Cells of type I have numerous organelles, while type II cells have only been found in a certain area of the reservoir wall. They have large secretory ducts lined by a cuticular intima layer. The lateral glands connected to reservoir have two further types of cells. Lateral glands are lined by type A secretory cells and secretory duct is found in their cytoplasm. Type B cells are poor in organelles and are smaller than type A cells. Coupled gas chromatography-mass spectrometry examinations revealed that both in males and females of G. lineatum MTGs 14 chemical compounds occur, among which only 10 are common. These secretions indicate information such as defensive and pheromonal activities, other functions could be attributed to the secretion of the MTG of G. lineatum by comparison with other closely related bug species. In the analyses of MTGs of females of G. lineatum, n-octadecanoic acid was observed at the most and n-undecane was determined at lowest level, while males of G. lineatum n-tridecane was determined at the highest level; and (E)-2-hexenyl acetate has been observed at the lowest.

Published

2009

38. Psychosocial stress and volatile compounds in preputial glands of rats.

Author

Pohorecky LA, Ma W, Blakley GG, Soini HA, and Novotny MV

Subjects

Animals, Housing, Animal, Male, Rats, Rats, Long-Evans, Agonistic Behavior physiology, Behavior, Animal physiology, Pheromones chemistry, Pheromones metabolism, Scent Glands chemistry, Scent Glands metabolism, Stress, Psychological, Volatile Organic Compounds chemistry, Volatile Organic Compounds metabolism

Abstract

Pheromones are volatile chemical cues that in rodents originate in large part from the preputial glands and influence various behavioral and physiological processes. We have examined the effect of psychosocial stress on volatile compound composition of preputial glands of male rats. Rats were housed three per cage or singly for 70 days. Dominants had heavier preputials compared to subdominant and subordinate rats. Capillary gas chromatographic mass spectrometry identified 55 volatile preputial compounds: 17 did not differ between groups, while 26 compounds were higher in single-housed compared to triad-housed rats. Six compounds were higher in dominant, while another six were higher in both dominant and single-housed rats. We conclude that both housing condition and rank status have significant differential effects on the preputial volatile compounds.

Published

2008

39. Scent marking, dominance and serum testosterone levels in male domestic rabbits.

Author

Arteaga L, Bautista A, Martínez-Gómez M, Nicolás L, and Hudson R

Subjects

Aggression physiology, Animals, Male, Rabbits, Scent Glands chemistry, Sexual Behavior, Animal, Territoriality, Behavior, Animal physiology, Pheromones metabolism, Social Dominance, Testosterone blood

Abstract

The European rabbit, both in its wild and domesticated forms, has been a pioneer species in the study of mammalian chemical communication, and illustrates well the difficulty of understanding the functional significance of these often complex signals. Here we investigate the performance of one of the rabbit's most conspicuous chemical signaling behaviors, chin marking (chinning), and the hypothesis that this expresses social dominance. In tests of 21 chinchilla-strain sexually mature males we predicted 1) that animals would show marked and stable individual differences in the frequency of chinning, 2) that these differences would correlate with behaviors associated with dominance such as intrasexual mounting, and 3) that individual differences in the frequency of chinning and dominance-related behaviors would correlate with individual differences in a commonly used physiological indicator of dominance, concentration of serum testosterone. Supporting these predictions and consistent with previous reports, animals showed large and stable individual differences in the frequency of chinning which correlated with the behavioral indicators of dominance and less strongly, with serum testosterone. As our animals had been kept in single cages and without direct contact with other males since weaning, these findings raise the question as to how and when during development such differences among individuals arise. We are currently investigating the possible relation between pups' intrauterine position, postnatal competition among littermates for milk and thermally advantageous positions in the litter huddle, and later differences in indicators of dominance such as those reported here.

Published

2008

40. Chemical characterization of territorial marking fluid of male Bengal tiger, Panthera tigris.

Author

Burger BV, Viviers MZ, Bekker JP, le Roux M, Fish N, Fourie WB, and Weibchen G

Subjects

Amino Acid Sequence, Animals, Chromatography, Gas, Male, Mass Spectrometry, Molecular Sequence Data, Proteins chemistry, Proteinuria, Scent Glands chemistry, Volatilization, Pheromones chemistry, Scent Glands physiology, Tigers physiology

Abstract

The territorial marking fluid of the male Bengal tiger, Panthera tigris, consists of a mixture of urine and a small quantity of lipid material that may act as a controlled-release carrier for the volatile constituents of the fluid. Using gas chromatography and gas chromatography-mass spectrometry, 98 volatile compounds and elemental sulfur were identified in the marking fluid. Another 16 volatiles were tentatively identified. The majority of these compounds were alkanols, alkanals, 2-alkanones, branched and unbranched alkanoic acids, dimethyl esters of dicarboxylic acids, gamma- and delta-lactones, and compounds containing nitrogen or sulfur. Several samples of the marking fluid contained pure (R)-3-methyl-2-octanone, (R)-3-methyl-2-nonanone, and (R)-3-methyl-2-decanone, but these ketones were partly or completely racemized in other samples. The gamma-lactone (S)-(+)-(Z)-6-dodecen-4-olide and the C(8) to C(16) saturated (R)-gamma-lactones and (S)-delta-lactones were present in high enantiomeric purities. The chiral carboxylic acids, 2-methylnonanoic acid, 2-methyldecanoic acid, 2-methylundecanoic acid, and 2-ethylhexanoic acid were racemates. Cadaverine, putrescine, and 2-acetylpyrroline, previously reported as constituents of tiger urine, were not detected. The dominant contribution of some ketones, fatty acids, and lactones to the composition of the headspace of the marking fluid suggests that these compounds may be important constituents of the pheromone. Although it constitutes only a small proportion, the lipid fraction of the fluid contained larger quantities of the volatile organic compounds than the aqueous fraction (urine). The lipid derives its role as controlled-release carrier of the chemical message left by the tiger, from its affinity for the volatiles of the marking fluid. Six proteins with masses ranging from 16 to 69 kDa, inter alia, the carboxylesterase-like urinary protein known as cauxin, previously identified in the urine of the domestic cat and other felid species, were identified in the urine fraction of the marking fluid.

Published

2008

41. Macrolides from the scent glands of the tropical butterflies Heliconius cydno and Heliconius pachinus.

Author

Schulz S, Yildizhan S, Stritzke K, Estrada C, and Gilbert LE

Subjects

Animals, Chromatography, Gas, Costa Rica, Male, Mass Spectrometry, Molecular Structure, Stereoisomerism, Tropical Climate, Butterflies chemistry, Macrolides chemistry, Scent Glands chemistry

Abstract

The four major components present in scent gland extracts of the male Costa Rica longwing butterflies Heliconius cydno and Heliconius pachinus were identified as 12- and 14-membered macrolides containing a C(18)-carbon skeleton. By use of micro-reactions and spectrometric examinations, structural proposals were made and subsequently proven by synthesis, using ring-closing-metathesis as the key steps. These macrolides, (9Z,11E,13S)-octadeca-9,11-dien-13-olide (5, S-coriolide), (9Z,11E,13S,15Z)-octadeca-9,11,15-trien-13-olide (6), (9Z,13S)-octadec-9-en-13-olide (13), and (9Z,11S)-octadec-9-en-11-olide (25), are biosynthetically obviously derived from oleic, linoleic, and linolenic acids. Their absolute configurations were determined by gas chromatographic investigations on chiral phases, showing all to possess (S)-configuration.

Published

2007

42. Characterization of (E,E)-farnesol and its fatty acid esters from anal scent glands of nutria (Myocastor coypus) by gas chromatography-mass spectrometry and gas chromatography-infrared spectrometry.

Author

Lee H, Finckbeiner S, Yu JS, Wiemer DF, Eisner T, and Attygalle AB

Subjects

Animals, Esters isolation & purification, Farnesol chemistry, Isomerism, Temperature, Farnesol isolation & purification, Gas Chromatography-Mass Spectrometry methods, Rodentia, Scent Glands chemistry, Spectrophotometry, Infrared methods

Abstract

Several volatile compounds, including terpenoids, fatty alcohols, fatty acids and some of their esters, were identified from solvent extracts prepared from anal scent glands of nutria (a.k.a. coypu), a serious rodent pest ravaging wetlands in the USA. The major terpenoid constituents were identified as (E,E)-farnesol and its esters by a comparison of their gas chromatographic retention times, and electron-ionization (EI) and chemical-ionization (CI) mass spectra with those of authentic compounds. EI mass spectra of the four farnesol isomers are very similar, however, the ChemStation (Agilent) and GC-MS Solution (Shimadzu) software algorithms were able to identify the natural compound as the (E,E)-isomer, when a high-quality mass spectral library was compiled from reference samples and used for searching. Similarly, the esters were identified as those of (E,E)-farnesol. In contrast to EI spectra, the CI spectra of the (E,E)- and (E,Z)-isomers are distinctly different from those of the (Z,E)- and (Z,Z)-isomers. The intensities (I) of the peaks for the m/z 137 and 121 ions in the CI spectra offer a way of determining the configuration of the C-2 double bond of farnesols (for 2E isomers I(137)>I(121), whereas for 2Z isomers I(137)

Published

2007

43. Chemical composition of scent marks in the ringtailed lemur (Lemur catta): glandular differences, seasonal variation, and individual signatures.

Author

Scordato ES, Dubay G, and Drea CM

Subjects

Animals, Female, Gas Chromatography-Mass Spectrometry, Male, Scent Glands chemistry, Volatilization, Lemur physiology, Scent Glands physiology, Seasons

Abstract

The apocrine and sebaceous scent glands of ringtailed lemurs (Lemur catta) appear to serve different social functions. In behavioral experiments, lemurs modulate their responses to scent marks based on the type of odorant, their own physiological state, the signaler's physiological state, and prior social experience. To examine variation in odorant chemistry relative to olfactory behavior, we used gas chromatography and mass spectrometry to analyze over 86 samples of glandular secretion collected over 2 years from 15 adult lemurs. Labial and scrotal secretions contained organic acids and esters, whereas male brachial secretions were composed almost entirely of squalene and cholesterol derivatives. Principal component and linear discriminant analyses revealed glandular, individual-specific, and seasonal variation in chemical profiles but no relationship to the signaler's social status. The chemical composition of the various secretions provides further clues about the function of the different glands: the higher molecular weight compounds in genital and brachial secretions may increase signal longevity and provide lasting information to conspecifics, consistent with a role in advertising resource ownership or reproductive state. Conversely, the lower molecular weight compounds of antebrachial secretions produce ephemeral signals used primarily in social dominance displays and require integration of multiple sensory modalities for effective signal transmission.

Published

2007

44. Safety assessment of castoreum extract as a food ingredient.

Author

Burdock GA

Subjects

Animals, Consumer Product Safety, Humans, Risk Assessment, Flavoring Agents toxicity, Scent Glands chemistry

Abstract

Castoreum extract (CAS NO. 8023-83-4; FEMA NO. 2261) is a natural product prepared by direct hot-alcohol extraction of castoreum, the dried and macerated castor sac scent glands (and their secretions) from the male or female beaver. It has been used extensively in perfumery and has been added to food as a flavor ingredient for at least 80 years. Both the Flavor and Extract Manufacturers Association (FEMA) and the Food and Drug Administration (FDA) regard castoreum extract as generally recognized as safe (GRAS). Acute toxicity studies in animals indicate that castoreum extract is nontoxic by both oral and dermal routes of administration and is not irritating or phototoxic to skin. Skin sensitization has not been observed in human subject tests. Castoreum extract possesses weak antibacterial activity. A long historical use of castoreum extract as a flavoring and fragrance ingredient has resulted in no reports of human adverse reactions. On the basis of this information, low-level, long-term exposure to castoreum extract does not pose a health risk. The objective of this review is to evaluate the safety-in-use of castoreum extract as a food ingredient.

Published

2007

45. Fine structure and chemical analysis of the metathoracic scent gland of Eurygaster maura (Linnaeus, 1758) (Heteroptera: Scutelleridae).

Author

Durak D and Kalender Y

Subjects

Animals, Gas Chromatography-Mass Spectrometry, Insecta, Microscopy, Electron, Scent Glands ultrastructure, Scent Glands chemistry

Abstract

The morphology and ultrastructure of the metathoracic scent glands (MTG) of Eurygaster maura were studied by scanning electron microscopy (SEM) and transmission electron microscopy (TEM). Also, extracts of the volatile fraction of the MTG secretion from males and females were analyzed by capillary gas chromatography-mass spectrometry (GC-MS). In SEM investigations, MTG are composed of a reservoir and a pair of lateral glands connected to the reservoir by a duct. MTG are open in between the meso- and the metacoxae. These areas, called evaporation areas, are composed of mushroom-like elements. In TEM investigations, the reservoir walls contained two types of cells. Generally, a reservoir is lined by a single layer of epithelial cells, type I cells, which have numerous organelles. Type II cells are found only in a certain area of the reservoir wall. These cells have large secretory ducts lined by a cuticular intima layer. The lateral glands are lined by secretory cells and a secretory duct found in their cytoplasm. Nuclei of secretory cells are closed to the basal region of the cells and circular-shaped. In GC-MS investigations, the MTG exhibited a typical scutellerid composition. In general, (E)-2-hexanal, (E)-2-hexenyl acetate, n-tridecane, n-hexanoic acid, octadecanoic acid, and n-dodecane compounds were present, while diisooctyl acetate and 14-Beta-H-Pregna were detected only in the male extracts of Eurygaster maura.

Published

2007

46. Scent-marking and sexual activity may reflect social hierarchy among group-living male Mongolian gerbils (Meriones unguiculatus).

Author

Shimozuru M, Kikusui T, Takeuchi Y, and Mori Y

Subjects

Animals, Behavior, Animal, Body Weight physiology, Corticosterone metabolism, Feces chemistry, Female, Immunoenzyme Techniques, Male, Organ Size physiology, Scent Glands chemistry, Scent Glands physiology, Sex Characteristics, Testis physiology, Testosterone metabolism, Dominance-Subordination, Gerbillinae physiology, Hierarchy, Social, Sexual Behavior, Animal physiology, Territoriality

Abstract

Social hierarchy plays an important role in the lives of gregarious species. We investigated how social hierarchy between male Mongolian gerbils (Meriones unguiculatus) housed together before sexual maturity affected their scent-marking behavior, endocrine status and physical traits as adults. The social rank between paired males was assessed based on sexual activity in adulthood at 18 and 20 weeks of age. In most cases, the male that showed higher sexual activity at 18 weeks also exhibited greater sexual performance at 20 weeks, suggesting a precedence relationship between paired males regarding reproductive opportunity. Sexually active males scent-marked more often than their cage mate, particularly after a sexual experience. No significant differences in physical traits (e.g., the weight of the ventral gland, testes and adrenal glands) or endocrine status (e.g., fecal testosterone and corticosterone levels) were found between the two males. These findings suggest that social rank between familiar males formed during cohabitation, and rank was closely correlated with scent-marking activity, but not with endocrine status.

Published

2006

47. Male cephalic labial gland secretions of two bumblebee species of the subgenus Cullumanobombus (Hymenoptera: Apidae: Bombus latreille) and their distribution in central Europe.

Author

Hovorka O, Valterová I, Rasmont P, and Terzo M

Subjects

Animals, Europe, Hymenoptera classification, Male, Phylogeny, Hymenoptera metabolism, Scent Glands chemistry, Scent Glands metabolism, Sex Attractants isolation & purification, Sex Attractants metabolism

Abstract

The cephalic labial gland secretion of Bombus semenoviellus males was analyzed, and its chemical composition is reported for the first time. The secretion functions as sex or marking pheromone. Eighty compounds were identified in the secretion, the main one being all-trans-geranylgeranyl acetate (48%). The same compound was shown to form 87% of the labial gland secretion of B. cullumanus males. Both species are closely related and belong to the subgenus Cullumanobombus.

Published

2006

48. Ethyl-branched aldehydes, ketones, and diketones from caimans (Caiman and Paleosuchus; Crocodylia, Reptilia).

Author

Krückert K, Flachsbarth B, Schulz S, Hentschel U, and Weldon PJ

Subjects

Animals, Bacteria isolation & purification, Female, Humans, Male, Molecular Structure, Scent Glands microbiology, Skin chemistry, Skin metabolism, Aldehydes chemistry, Aldehydes isolation & purification, Alligators and Crocodiles, Ketones chemistry, Ketones isolation & purification, Pheromones chemistry, Pheromones isolation & purification, Scent Glands chemistry

Abstract

Secretions from the paracloacal glands of alligators (Alligator spp.) and caimans (Caiman spp., Melanosuchus niger, and Paleosuchus spp.) were examined by GC-MS. The secretions of the common caiman (C. crocodilus), the broad-snouted caiman (C. latirostris), the yacare caiman (C. yacare), the dwarf caiman (P. palpebrosus), and the smooth-fronted caiman (P. trigonatus) yielded a new family of 43 aliphatic carbonyl compounds that includes aldehydes, ketones, and beta-diketones with an ethyl branch adjacent to the carbonyl group. The identification of these glandular components and the syntheses and stereochemical investigations of selected compounds are described.

Published

2006

49. The effect of pollination on floral fragrance in thistles.

Author

Theis N and Raguso RA

Subjects

Animals, Fatty Acids, Volatile analysis, Flowers metabolism, Monoterpenes analysis, Oils, Volatile metabolism, Population Dynamics, Reproduction, Scent Glands metabolism, Sesquiterpenes analysis, Sex Attractants chemistry, Sex Attractants metabolism, Species Specificity, Time Factors, Cirsium physiology, Flowers chemistry, Oils, Volatile chemistry, Pollen physiology, Scent Glands chemistry

Abstract

We investigated postpollination changes in fragrance composition and emission rates, as well as pollinator discrimination in hand-pollinated flower heads of two thistle species: Canada thistle (Cirsium arvense) and sandhill thistle (C. repandum). Following pollination, neither species emitted any novel compounds that could function as repellents. Scent emission rates declined in pollinated plants of both species by approximately 89% within 48 hr. This decline was evident in all 13 scent components of C. arvense. Apis mellifera, the dominant pollinator in the study population of C. arvense, was nearly three times more likely to visit an unpollinated rather than a pollinated flower head. A more complex pattern was observed for C. repandum, whose scent comprised 42 compounds. Quantities of aromatic and sesquiterpenoid volatiles declined after pollination, whereas two classes of scent compounds, fatty acid derivatives and monoterperpenoids, continued to be emitted. In C. repandum, discrimination against pollinated flower heads by Papilio palamedes (its primary pollinator) was not as marked. Unpollinated control plants of both species maintained moderate levels of scent production throughout this experiment, demonstrating that senescence and floral advertisement may be delayed until pollination has occurred. We expect postpollination changes in floral scent contribute to communication between plants with generalized pollinator spectra and their floral visitors. This study provides the first field study of such a phenomenon outside of orchids.

Published

2005

50. Chemical defense in harvestmen (arachnida, opiliones): do benzoquinone secretions deter invertebrate and vertebrate predators?

Author

Machado G, Carrera PC, Pomini AM, and Marsaioli AJ

Subjects

Adaptation, Physiological, Animal Communication, Animals, Benzoquinones isolation & purification, Cyclohexenes, Invertebrates drug effects, Scent Glands chemistry, Time Factors, Vertebrates, Arachnida chemistry, Benzoquinones pharmacology, Predatory Behavior drug effects, Scent Glands metabolism

Abstract

Two alkylated 1,4-benzoquinones were identified from the defensive secretion produced by the neotropical harvestman Goniosoma longipes (Gonyleptidae). They were characterized as 2,3-dimethyl-1,4-benzoquinone and 2-ethyl-3-methyl-1,4-benzoquinone. We tested the effectiveness of these benzoquinone secretions against several predator types, including invertebrates and vertebrates. Different predators were exposed to the harvestmen's gland secretion or to distilled water in laboratory bioassays. Our results indicate that secretions containing the 1,4-benzoquinones released by G. longipes can be an effective defense against predation, and that the effectiveness of the secretion is dependent on the predator type. The scent gland secretion repelled seven ant species, two species of large wandering spiders, and one frog species, but was not an effective defense against an opossum. Our study also demonstrates that the scent gland secretion of G. longipes can work as a chemical shield preventing the approach of three large predatory ants for at least 10 min. The chemical shield may protect the harvestman against successive attacks of the same ant worker and also allow the harvestman to flee before massive ant recruitment. Our data support the suggestion that chemical defenses may increase survival with some but not all potential predators. This variation in defense effectiveness may result from many interacting factors, including the attack strategy, size, learning ability, and physiology of the predators, as well as the chemical nature of the defensive compounds, type of emission, and amount of effluent released by the prey.

Published

2005