Glandular Functions of Avian Integument

Menon, Gopinathan K.

doi:10.3312/jyio1952.16.1

Cited by 13 publications

(6 citation statements)

References 33 publications

(25 reference statements)

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“…Our findings are consistent with past work on avian integument that has led to the view that the entire avian epidermis should be considered a holocrine unit (Lucas 1970, Menon et al 1980, Menon 1984, Menon and Menon 2000. Because of the skin's adaptations as a holocrine unit and as a lipid-rich water barrier, the skin may be pre-adapted or exapted (Brower et al 1988) for sequestering and storing certain types of compounds, including defensive toxins.…”

supporting

confidence: 93%

Skin as a Toxin Storage Organ in the Endemic New Guinean GenusPitohui

Dumbacher

Menon

Daly

2009

The Auk

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supporting

confidence: 93%

Skin as a Toxin Storage Organ in the Endemic New Guinean GenusPitohui

Dumbacher

Menon

Daly

2009

The Auk

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“…An inverse relationship between feathering and epidermal lipid secretion has been recognized recently in avian skin. In many bird species, such as certain ibises and storks, epidermal lipogenesis increases in body areas that lose feathers permanently and develop into neoapteria during post-juvenile development (Menon 1984). T h e present observations show that epidermal lipogenesis is high prior to plumage development as well.…”

Section: Discussionsupporting

confidence: 56%

Fine structural basis of the cutaneous water barrier in nestling Zebra Finches Poephila guttata

Menon

Baptista

Elias³

et al. 1988

Ibis

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Transepidermal water loss was studied in nestlings, fledglings and adults of the xerophylic Zebra Finch Poephila guttata. Nestlings lose little water (2–4 ppm/0–5 cm2/h) through the skin as compared to adults (60–70 ppm/0–5 cm2/h). Light and electron microscopic examination of the skin sections of both age classes revealed an abundance of lipids in the form of vacuoles and large multigranular bodies in the epidermis of nestlings, but few such lipid bodies in the epidermis of adults. Some of the disc‐like contents of granular bodies appear to be extruded into the intercellular spaces. Based on earlier studies with mammals and reptiles, it is concluded that epidermal lipids are the basis of the integumentary permeability barrier in nestlings.

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“…Besides forming a dynamic barrier regulating water loss through the skin, epidermal lipids could also have antimicrobial properties, offer protection against UV light, and act as solvents for carotenoids and other pigments (see review in Menon 1984).…”

Section: Secretory Epidermismentioning

confidence: 99%

Cosmetic Coloration in Birds: Occurrence, Function, and Evolution

Delhey

Peters

Kempenaers

2007

The American Naturalist

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Colorful plumages are conspicuous social signals in birds, and the expression of these colors often reflects the quality of their bearers. Since mature feathers are dead structures, plumage color is often considered a static signal that does not change after molt. Feathers, however, can and do deteriorate between molts, and birds need to invest heavily in plumage maintenance. Here we argue that this need for preserving plumage condition and hence signaling content might have given rise to a novel type of sexual signal: cosmetic coloration. Cosmetic coloration occurs when the substances used for plumage maintenance change the color of the feathers, thereby becoming a signal themselves. Our review of cosmetic coloration in birds demonstrates that it is more widespread than currently realized, occurring in at least 13 bird families. Cosmetics have varied origins: they can be produced by the bird itself (uropygial and skin secretions, feather powder) or obtained from the environment (soil, iron oxide). Intraspecific patterns of cosmetic use (sex, age, and seasonal dimorphism) suggest that in many cases it may act as a sexual signal. However, more information is required on function, mechanisms, and costs to understand the evolution of cosmetic coloration and to confirm its signaling role.

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Glandular Functions of Avian Integument

Cited by 13 publications

References 33 publications

Skin as a Toxin Storage Organ in the Endemic New Guinean GenusPitohui

Skin as a Toxin Storage Organ in the Endemic New Guinean GenusPitohui

Fine structural basis of the cutaneous water barrier in nestling Zebra Finches Poephila guttata

Cosmetic Coloration in Birds: Occurrence, Function, and Evolution

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