Invertebrate Histology. Группа авторов

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Название Invertebrate Histology
Автор произведения Группа авторов
Жанр Биология
Серия
Издательство Биология
Год выпуска 0
isbn 9781119507604



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epidermis of a sunflower sea star. Individual cell types are difficult to discern with light microscopy. The columnar epidermis (E) has occasional secretory cells (S). The subjacent dermis (D) contains many coelomocytes (C)."/> Photo depicts the low-magnification view of the histology of a sunflower sea star ossicle demonstrating dermal, ligamentous, and muscular attachments. Photo depicts higher magnification view of the histology of an ochre sea star ossicle demonstrating the sclerocyte lattice. Photo depicts the histology of the base of a white sea urchin spine at the ball and socket joint. Photo depicts the histology of white sea urchin appendages including pedicellaria (P), spine (S), and tube foot.

      Dermal spaces between the endoskeleton are composed of fibrous connective tissue populated by stellate cells (Hyman 1955). A unique connective tissue termed mutable collagenous tissue is present in the body wall of all classes of echinoderms. Mutable collagenous tissue is controlled through a nonmuscular nervous system and can change its mechanical properties within one second to a few minutes from flaccid to rigid (Motokawa 1984, 2011; Wilkie 2002). The histologic features of mutable collagenous tissue (also called catch connective tissue) are not unlike dense irregular and regular connective tissues present in vertebrates. It is composed of individual collagen fibers with intervening ground substance that are arranged in perpendicular or parallel arrays depending on the species (Motokawa 1984). Interspersed among the fibers and ground substances are small numbers of immune cells (morula cells, coelomocytes). The function of this tissue varies by species and body wall structure. In holothuroids and asteroids, this tissue plays a significant role in overall body tone. In asteroids and echinoids, it plays a role in spine posture and prevents spine disarticulation. In crinoids, it controls the flexibility of the stalk (cirral) ligaments. In all species, it plays a significant role in autotomy (Motokawa 1984).

      1.3.2 Water Vascular System

Photos depict the histology of the madreporite (a) and stone canal (b) in a mottled star.