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VERTEBRATE INTEGUMENTARY SYSTEM. Mrs. Ofelia Solano Saludar Department of Natural Sciences University of St. La Salle. EMBRYONIC ORIGIN. The integument consists of the skin and its derivatives: hair, horns, nails, hooves, claws, feathers, and scales .
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VERTEBRATE INTEGUMENTARY SYSTEM Mrs. Ofelia Solano Saludar Department of Natural Sciences University of St. La Salle
EMBRYONIC ORIGIN
The integument consists of the skin and its derivatives: hair, horns, nails, hooves, claws, feathers, and scales. • The skin of two animals or different parts of the same animal can look quite dissimilar depending on its color, thickness, or types of derivatives that it produces. • Despite these different appearances, the basic structure of all skin is nearly the same. It consists of two major layers: epidermis, an outer layer that is subdivided into several other layers and the dermis, a connective tissue layer • Underneath the skin is the hypodermis(or subcutis) which may consist of adipose cells, glands or bone.
FUNCTIONS OF THE INTEGUMENT • Skin derivatives may be waterproof, abrasion- resistant covering that can be used for insulation, protection, weapons, locomotion • The skin or the derivatives may be colored for camouflage, thermoregulation, or communication. • The skin contains receptors for cutaneous sensation. • Maintains water balance, Vitamin D synthesis
EPIDERMIS • Superficial layer that may be divided into several regions • Contains numerous types of glands that may secrete mucus, slime, poisons, enamels, pheromones, photophores, etc. • Various kinds of derivatives arise from cornified layer of tetrapod epidermis
EPIDERMIS: Epidermal Glands • FISHES and AQUATIC AMPHIBIANS: • Mostly unicellular goblet and granular cells that secrete mucus and other substances, e.g. alkaloids, toxins or nutritious mucus (eaten by hatchlings) • Teleosts have PHOTOPHORES or light-emitting multicellular glands (luciferaseluciferin)
TETRAPODS Morphologically varied (simple or compound, saccular, tubular, or both)
Secretions could be merocrine (intact cells, e.g. sweat glands), holocrine (cellular, e.g. oil glands), or apocrine (intermediate, e.g. mammary glands)
MUCOUS GLANDS- loss maybe due to thick stratum corneum; retained only in lubricated surfaces of mammals GRANULAR GLANDS-secrete toxic or irritating alkaloids; chiefly located on back and feet (e.g., femoral glands of male lizards form temporary spines to hold female); absent in birds and mammals OIL GLANDS-water-repellant secretion of avian uropygial glands is transferred to feathers during preening SEBACEOUS GLANDS-alveolar glands that secrete the oily sebum, usually exuded into hair follicles; ceruminous glands of ear canal secrete cerumin; Meibomian glands moisten eye conjunctiva SUDORIFEROUS GLANDS-coiled tubular glands that extend deep into the dermis; thermoregulators SCENT GLANDS-pheromones secreted by sebaceous and sudoriferous glands
MAMMARY GLANDS-compound alveolar glands arising from milk lines that spread beneath the dermis, with supernumerary nipples forming above patches Milk letdown is under neuro- hormonal control Marsupials secrete milk from modified sweat glands on surface of hair tufts in the absence of nipples.
EPIDERMIS: Stratum Corneum Keratinized outer layer, rare in aquatic forms, except for cornified spines and teeth in buccal cavity of cyclostomes and anuran tadpoles; mostly found in skin derivatives of tetrapods that help prevent dessication
EPIDERMAL SCALES Found only in amniotes; overlapping folds in squamates; large polygonal scales called scutesare found on snake belly and turtle’s plastron. Horny scales of birds are overlapping plates of keratinized epidermis.
CLAWS, HOOFS, NAILS • Claws first appeared in basal amniotes and persisted in birds and in most mammals. • Claws evolved into nails in primates, and into hoofs in ungulates; usually worn down by abrasion, except squamates which shed them. • Claws and nails are local modifications of skin, as can be seen in their retention of epidermal, dermal and subcutis layers. • Claws serve primarily to protect underlying tissues, but are also used for scratching, digging or as a weapon.
Basic structure consists of a horny dorsal plate (unguis), and a softer ventral plate (subunguisor sole) • Partially surrounded by the unguis in ungulates is a softer pad, the cuneus.
FEATHERS • Are highly specialized epidermal structures that have evolved from the scales of reptiles. • The color of feathers serve as camouflage and to protect birds from predators. • The color of feathers serve to communicate sex type. This is called sexual dimorphismwhen the male and female of a species display different plumages. • Feathers repel water with the aid of the uropygial glands' oily secretions rubbed over the body during preening. • This is particularly important in waterfowl, where oil spills saturate the feathers and destroy the bird's delicate protective covering.
TYPES OF FEATHERS CONTOUR FEATHERS- give a bird its general shape Each vane consists of barbs, barbules, flanges and hooklets that interlock with the flanges on the next barb.
FLIGHT FEATHERS- contour feathers specialized for flight. • DOWN FEATHERS- small, fluffy feathers lying underneath and between contour feathers; short calamus, barbs lack hooklets
FILOPLUMES- hairlike feathers, few barbs and barbules at the tip; follicles are richly supplied with nerve endings. BRISTLES- resemble filoplumes but lack terminal barbs; screen eyes, ear and nasal openings of foreign matter
DEVELOPMENT OF A FEATHER DERMAL PAPILLA-mound of dermal mesodermal cells that indents the undersurface of the epidermis and induces mitotic activity in the basal layer. FEATHER PRIMORDIUM-pimple-like elevation on epidermis resulting from growth of dermal papilla, which soon becomes vascularized FEATHER FOLLICLE-a pit lined with epidermis that develops around base of feather primordium; at the base of a feather follicle is a growth zone that pushes the distal tip of the growing feather, now a feather sheath.
PIN FEATHER-growing feather in its sheath, which eventually splits open to stretch out barbs and enable shaft to elongate. Dermal papilla dies and becomes pulp, leaving an opening, the inferior umbilicus. New feathers may arise from reactivated dermal papillae.
Feather follicles are disposed on feather tracts calledpterylae. • Inserting on the walls of the follicles are smooth erector muscles (arrectoresplumarum) which enable a bird to fluff its feathers.
HAIR consists of dense keratin from cornified cells, trapped air vacuoles, and varying quantities of melanin. Cells are produced by the germinal epidermis at the bulb of the hair follicle. HAIRS
The bulbencloses the dermal papilla; at its root, hair cells cornify; remainder of hair is known as shaft. A membranous cuticlecovers each hair, composed of thin, transparent cornifiedsquamous cells arranged like shingles • Coarse hairs contain a medulla, composed of irregular, shrunken cornified cells.
When the arrectorespilorum, a smooth muscle that is inserted on the wall of the hair follicle contracts, gooseflesh results, or gives the carnivore its ferocious appearance.
Guard hairs are associated with sebaceous glands that help them waterproof the skin. Wool hairs orunderfurare good insulators. Vibrissae are primarily tactile. Guard hairs Vibrissae Underfur
HORNS & ANTLERS BOVINE HORNS(cows) and PRONGHORNS (antelopes)- consist of a core of dermal bone and sheath of horn; antelopes annually shed their branched and horny covering
GIRAFFE HORNS-stunted antlers that remain in velvet throughout life; also paired and protrude from the frontals, but they are permanent, unbranched HAIR HORNS-rhinoceros; composed of agglutinated keratinized hair-like epidermal fibers resting roughened area of nasal bone; not shed
ANTLERS are dermal bone attached to the frontal bone. • Deer antlers develop in males, starting growth covered in velvety hair, which are rubbed off at maturity, exposing naked bone • Males shed them off after rutting season.
BALEEN- whales; whalebone plates in oral epithelium, with fringes that strain food out of the water passing through them RATTLES- rattlesnake; rings of horny stratum corneum attached to tail after each molt. COMBS- roosters; covered with thick, waxy stratum corneum
BEAKS- the bird beak is the functional counterpart of the lips and teeth of mammals. It is covered with horny sheath, covering both the upper and lower jaws. It grows continuously throughout the lifetime of a bird. The shape, strength and organization of the beak varies depending on whether it is on a bird of prey, a seed-eater, or a fish-eater.
ISCHIAL CALLOSITIES-monkeys and apes; for sitting KNEE PADS-camels; for kneeling TORI or APICAL PADS-cats; epidermal pads for “pussyfoot” walking CORNSand CALLUSES-temporary thickenings where stratum corneum is subjected to unusual friction
DERMIS Consists of collagenous connective tissue, blood vessels, small nerves, pigment cells, lymphatics, naked and encapsulated exteroreceptors, bases of multicellular glands, hairs or feathers and their erector muscles, chromatophores
Has an ancient and persistent potential to form bone, e.g. armored fishes • Generalized pattern consist of lamellar bone, spongy bone, dentine (with spiny elevations called denticles), and an enamel-like substance on surface. • Dermal armor was protective, but is also a reservoir of calcium and phosphates • Large plates gave rise to thinner fish scales, or parts of the skull and pectoral girdle skeleton Ostracoderm skin
FISH SCALES Scales are overlapping dermal plates of bone covered with epidermal tissue. 4 types are found:
PLACOID- same as paleoniscoid scales, but arising from the bony plate is a specialized denticle; may have given rise to gnathostome teeth; found in elasmobranchs • RHOMBOID- retain primitive 4 layers of dermal bone; Osteichthyans • COSMOID-cosmine is not a tissue but a complex canal system associated with dentine and enamel layers; found in Sarcopterygians, absent in modern fishes
GANOID- ganoin is a form of enamel. The paleoniscoid type is found in Actinopterygians (Polypterus), while some Neopterygians (Amia and gars) lost the spongy and dentine layers. • ELASMOID- formed from thin lamellar bone with a fibrous plate; flexible and transparent; most teleosts • CTENOID- comblike free border • CYCLOID- Amia, Latimeria and Dipnoi
TETRAPOD OSTEODERM (minute bony scales) ARMADILLOS- small polygonal bones united and extending to midventral line. CROCODILIANS- oval osteoderms at the back, with cornified crests TURTLES- scales compose the carapace and plastron
DERMAL PIGMENTS • CHROMATOPHORES- permanently branched dermal pigment cells; all are derived from neural crest. • Melanophores- melanin (brown) granules in cytoplasmic organelles called melanosomes; melanocytes contain melanin granules in striated muscle and meninges • Lipophores- lipid-soluble; consist of: xanthopores (yellow) and erythropores (red) • Iridophores- contains guanine, a prismatic substance • Physiologic color changes are reflexive and result from movement of pigment granules into or out of the processes. • Dispersal of pigment granules is under control of neurotransmitters or hormones (intermedinand melatonin). • Morphologic color changes are slow and depend chiefly on seasonal pigment synthesis.
AGNATHAN SKIN Lack scales. Hagfishes are also called “slime eels” due to abundant unicellular mucous glands in mutilayered epidermis. Horny denticles in buccal funnel and cornified teeth are periodically shed and replaced. Dermis is thin, but tough due to interwoven collagenous CT. Contains many melanophores which adheres to underlying body musculature.
CHONDRICHTHYAN SKIN • Ancient placoid scales have bony basal plate in the dermis, and projects with a spine on epidermis, giving it a sandpaper texture. • Epidermis has thicker layers than agnathan skin; dermis is composed of 2 well-defined layers.
Unicellular cells are less abundant; some goblet cells are modified to secrete toxins. • Few multicellular glands, limited to base of male claspers • Photophores invade dermis, and lose connections with epidermis. • A denser continuous sheet of melanophores on the back epidermis and less denser sheet on belly makes a shark less visible from above and below the water. • Chimaeras have slippery skins, having lost their scales, and more mucous glands.
OSTEICHTHYAN SKIN Unicellular epidermal mucous glands; a few multicellularglands, such as granular glands that secrete poisonous alkaloids Deep sea forms have photophores that permit species recognition, warnings or lures Dermis of Polypterus and gars contain ancient ganoid scales; modern teleosts have cycloid or ctenoid scales, or both. Scalelessteleosts develop abortive embryonic scales.
AMPHIBIAN SKIN Scales are absent. Abundant epidermal multicellular mucous glands make the skin moist and slimy; granular glands abundant in toads. Epidermis has incipient stratum corneum, except in toads where a layer of cornified cells impede dessication; cornified appendages rare, except in horny teeth of tadpoles. Dermis is attached to underlying musculature, but anurans have abundant subcutaneous lymph sinuses. Caecilians and a few tropical toads have tiny bone scales in the back.
REPTILIAN SKIN Thick stratum corneum with variety of specialized cornified structures: scales, scutes, beaks, rattles, claws, plaques, and spiny crests, which maybe periodically shed by ecdysis. Dry skin, with few integumentary glands: granular glands have protective or pheromonal secretions. Dermis has bony deposits ranging from osteoderms to large bony plates with prominent cornified crests (absent in snakes).
AVIAN SKIN Epidermis and dermis are delicate membranes loosely attached to underlying muscles, making skin mobile, except on feet and head where scales, spurs, claws and horny beaks are found. Integumentary glands are absent except for the uropygial gland at base of tail. No osteoderms present, except the spur of dermal bone in male game fowls on each ankle, fused to the metatarsus.
MAMMALIAN SKIN Thickened epidermis consists of 3 strata: stratum corneum, stratum granulosumand mitotic stratum germinativum. The stratum lucidumis a 4th layer present in epidermal soles and palms.