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Anal sac secretion

Buglass A., Darling F. and Waterhouse J. (1990). Analysis of the anal sac secretion of the Hyaenidae. In Chemical Signals in Vertebrates 5 (MacDonald D Miiller-Sehwarze D. and Natynczuk S.E., eds.). Oxford University Press, Oxford, pp. 65-69. [Pg.195]

Albone, E.S. and Perry, G.C. (1975) Anal sac secretion of the red fox, Vulpes vulpes volatile fatty acids and diamines Implications for a fermentation hypothesis of chemical recognition. J. Chem. Ecol. 2, 101-111. [Pg.175]

Only a few compounds or mixtures of compounds have been shown beyond doubt to be mammalian pheromones. This is the main reason why the subject matter of this chapter is not restricted to pheromones and why exocrine secretions and other mammalian excretions in general will be discussed as possible sources of pheromones, even though their role in the chemical communication of the species under discussion has not yet been established. Feeding deterrents are not discussed. In general defensive secretions are also not discussed, but the anal sac secretions of the mustelids are included, because it is possible that these secretions could also fulfill a semiochemical role, in addition to being used for defense. [Pg.244]

Albone [88] has reviewed the literature on anal sac secretions up to the early 1980s. Organosulfur compounds are particularly plentiful in many of these secretions and are responsible for their offensive odors. In general, predator odors seem to be repulsive to potential prey. Epple et al. [89] have speculated that the reason for the repellent properties of the feces and urine of carnivores could be diet related. It would be logical to argue that organosulfur compounds derived from a protein-rich diet could be a cue by which prey can distinguish a potential predator. The results so far are consistent with this hypothesis [90]. [Pg.260]

In contrast to the relatively limited number of organosulfur compounds in these species, the anal sac secretions of skunks contain large numbers of malodorous compounds, which are very effectively utilized in the defensive behavior of these species. During the early years of capillary gas chromatography, Andersen et al. [108] found that 150 of the 160 components detected in the anal gland secretion of the striped skunk, Mephitis mephitis, contained sulfur. The results of recent chemical studies on North American skunks by Wood et al. [109] are summarized in Table 4. Only three of the compounds reported in this table are common to the secretions of all four skunk species and, in two of these three secretions, the common compound is present in concentrations of about 1% or less. Although it is clear that skunks use their anal gland secretions primarily for defensive purposes, it does not rule out the possibility that the difference in the composition of these secretions could also be utilized for... [Pg.262]

Table 4 Quantitative composition of the volatile fraction of anal sac secretion from four species of North American skunks [109]a... [Pg.263]

Another example from carnivores is the odor of anal sac secretion in the ferret, Mustelafuro. Ferrets discriminate strange from familiar individuals by this odor. (They also use anal sac secretion to distinguish males from females, a familiar individual s from own odor, and fresh from 1-day old odor, but not between fresh and odor only 2 hours old nor anestrous from estrous females [Clapperton etal., 1988]). [Pg.128]

The relative concentrations of constituents of the anal sac secretion in male stoats, Mustek erminea, are distinct for different individuals, but consistent over time for each individual. This possibly permits individual recognition of territory owners (Erlinge etal., 1982). The chemical composition of the anal gland of the otter, Lutra lutra (Gorman etal., 1978) and the subcaudal gland of the badger, Meles meles (Kruuk etal., 1984) also differ with the individuals. [Pg.135]

Ferrets, Mustek furo, distinguish between anal sac secretions of males and females. Males did not discriminate between the anal gland odors of estrous and anestrous females. Chemical sex differences were found, but no seasonal differences. Males had high concentrations of 2,3-dimethylthietane and/or 3,4-dimethyl-l,2-dithiolane (Fig. 7.6). Most individuals had 2-propylthietane. Clapperton etal. (1988) concluded that the odor of the anal gland provides sexual and territorial signals and cues to individual identity. [Pg.184]

The introduced ferret, Mustelafuro, in New Zealand destroys native fauna and has to be controlled. For trapping, lures based on conspecific scent gland secretions or urine compounds can be as effective as food bait. Eight constituents of the anal sac secretion have been synthesized and tested for their ability to attract... [Pg.411]

Asa, C. S. (1993). Relative contributions of urine and anal sac secretion in scent marks of large fehds. American Zoologist 33,167-172. [Pg.431]

Brinck, C., Erlinge, S., and Sandell, M. (1983). Anal sac secretion in mustelids a comparison. Journal of Chemical Ecology 9,727-746. [Pg.438]

White, P. J., Kreeger, T. J., Tester, J. R., and Seal, V. S. (1989). Anal-sac secretions depos ited with feces by captive red foxes (Vulpes vulpes).Journal of Mammalogy 70,814-816. [Pg.525]

A 15-membered ring macrolide, 4-tetradecen-14-olide (Fig. 32,185), has been reported as an anal sac secretion of striped hyena Hyaena hyaena, and it may be used to mark territorial boundaries [204]. Ambrettolide (130) is a 17-membered ring macrolide produced by plants and insects (see Sections V.B and VI.A). It is also detected in the lipid from musk of muskrat Ondatra zibethica [205]. [Pg.43]

Volatile secretions emanating from the vaginal and prepuce of mammals are of microbial origin 191). That microorganisms are involved in the production of the wolfs anal sac secretion was deduced on treating the anal sac with antibiotics 194). [Pg.9]

Sulfur compounds (72-92) have been identified as malodorous components of the anal sac secretion from the striped skunk Mephites mephites 316), the polecat Mustela putorius 317-319), the stoat Mus-tela erminea 317, 320), the mink Mustela vison 317, 321), the ferret Mustela putorius forma furo 318, 322) and the weasel Mustela nivalis... [Pg.19]

G. Elington The Anal Sac Secretion of the Red Fox Vulpes vulpes). its Chemistry and Microbiology. A Comparison with the Anal Sac Secretion of the Lion Pan-thera leo). Life Sci. 14, 387-400 (1974). [Pg.64]

Raymer, J., D. Wieler, M. Novotny, C. Asa, U.S. Seal, and L.D. Mech Chemical Investigation of Wolf Canis lupus) Anal Sac Secretion in Relation to Breeding Season. J. Chem. Ecol. 11, 593-608 (1985). [Pg.65]

European polecat (Mustela putorlus)American mink, and the ermlne are the only mustellds whose anal sac secretions have been examined chemically. [Pg.400]

The large amount of physiological and nutritional work reported on mink does not include mention of the anal sac. It was not until 1976 that Sokolov reported the isolation of several volatile aliphatic acids from the anal sac secretion.Butyric acid was the most abundant, but acetic, propionic, 2-methylpropanoic, 3-methyl-butanoic, 2-methylbutanoic, and a small amount of pentanoic acids were also obtained. Schildknecht et al. published a communication reporting the volatile sulfur compounds in the anal sac secretions of the mink. Crump identified the major malodorous compound in the anal gland secretion of the male ermine or stoat (Mustela erminea)These results will be discussed subsequently together with our own. [Pg.401]

Doty, R.L. I. Dunbar. 1974. Attraction of beagles to conspecific urine, vaginal and anal sac secretion odors. Physiol. Behav. 12 825-833. [Pg.381]

Table 1. Occvirrence of aerobic bacteria (facultative anaerobes) in red fox anal sac secretions (29,30,31)... Table 1. Occvirrence of aerobic bacteria (facultative anaerobes) in red fox anal sac secretions (29,30,31)...
In accord with this, chemical studies so far undertaken on the anal sac secretions of the red fox and other carnivores indicate that major low molecular weight con nents present are generally commonly encountered products of microbial activity. Volatile fatty acids are major constituents of the anal sac secretions of the red fox and the lion (29,35), the coyote (36),... [Pg.82]

Other anal sac constituents which are commonly encountered products of microbial activity include trimethylamine, noted in the anal sac secretions of the red fox (42), coyote and domestic dog [36), and the aromatic acids phenylacetic acid and 3-phenyl-propionic acid (and related phenolic acids), together with the diamines putrescine and cadaverine as well as ammonia in the anal sac secretions of the red fox and the lion (25,29,35). Indole has also been noted. The lower molecular weight lipids of lion anal sac secretion include many substances expected as hydrolysis products of sebaceous lipids (2. Red fox anal sac secretion also exhibits an anomalous free amino-acid composition with 5-aminovaleric acid predominating ( ). The possibility that the sulfur-containing volatiles present in mustelid anal sac secretions are of microbial origin is at present under investigation in our laboratories. [Pg.83]

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See also in sourсe #XX -- [ Pg.9 , Pg.19 ]



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