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27.2B: Animal Characterization Based on Features of Embryological Development

  • Page ID
    13694
    • Boundless
    • Boundless
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    Animals may be characterized by the presence of a coelom, formation of the mouth, and type of cell cleavage during embryonic development.

    Learning Objectives
    • Explain the ways in which animals can be characterized by features of embryological development

    Key Points

    • Diploblasts contain two germ layers (inner endoderm and outer ectoderm ), while triploblasts contain three germ layers (endoderm, mesoderm, and ectoderm).
    • The endoderm becomes the digestive and respiratory tracts; the ectoderm becomes the outer epithelial covering of the body surface and the central nervous system; and the mesoderm becomes all muscle tissues, connective tissues, and most other organs.
    • Triploblasts can be further categorized into those without a coelom ( acoelomates ), those with a true coelom (eucoelomates), and those with “false” coeloms ( pseudocoelomates ).
    • Bilaterally symmetrical, tribloblastic eucoelomates can be divided into protostomes, those animals that develop a mouth first, and deuterstomes, those animals that develop an anus first and a mouth second.
    • In protostomes, the coelom forms when the mesoderm splits through the process of schizocoely, while in deuterostomes, the coelom forms when the mesoderm pinches off through the process of enterocoely.
    • Protostomes undergo spiral cleavage, while deuterostomes undergo radial cleavage.

    Key Terms

    • protostome: any animal in which the mouth is derived first from the embryonic blastopore (“mouth first”)
    • deuterostome: Any animal in which the initial pore formed during gastrulation becomes the anus, and the second pore becomes the mouth
    • diploblast: a blastula in which there are two primary germ layers: the ectoderm and endoderm
    • triploblast: a blastula in which there are three primary germ layers: the ectoderm, mesoderm, and endoderm; formed during gastrulation of the blastula
    • acoelomate: any animal without a coelom, or body cavity
    • coelomate: any animal possessing a fluid-filled cavity within which the digestive system is suspended.
    • schizocoely: the process by which protostome animal embryos develop; it occurs when a coelom (body cavity) is formed by splitting the mesodermal embryonic tissue
    • enterocoely: the process by which deuterostome animal embryos develop; the coelom forms from pouches “pinched” off of the digestive tract

    Animal Characterization Based on Features of Embryological Development

    Most animal species undergo a separation of tissues into germ layers during embryonic development. These germ layers are formed during gastrulation, developing into the animal’s specialized tissues and organs. Animals develop either two or three embryonic germs layers. Radially-symmetrical animals are diploblasts, developing two germ layers: an inner layer (endoderm) and an outer layer (ectoderm). Diploblasts have a non-living layer between the endoderm and ectoderm. Bilaterally-symmetrical animals are called triploblasts, developing three tissue layers: an inner layer (endoderm), an outer layer (ectoderm), and a middle layer (mesoderm).

    image
    Figure \(\PageIndex{1}\): Germ development in embryogenesis: During embryogenesis, diploblasts develop two embryonic germ layers: an ectoderm and an endoderm. Triploblasts develop a third layer, the mesoderm, between the endoderm and ectoderm

    Germ Layers

    Each of the three germ layers in a blastula, or developing ball of cells, becomes particular body tissues and organs. The endoderm gives rise to the stomach, intestines, liver, pancreas, and the lining of the digestive tract, as well as to the lining of the trachea, bronchi, and lungs of the respiratory tract. The ectoderm develops into the outer epithelial covering of the body surface and the central nervous system. The mesoderm, the third germ layer forming between the endoderm and ectoderm in triploblasts, gives rise to all muscle tissues (including the cardiac tissues and muscles of the intestines), connective tissues such as the skeleton and blood cells, and most other visceral organs such as the kidneys and the spleen.

    Presence or Absence of a Coelom

    Triploblasts can be differentiated into three categories: those that do not develop an internal body cavity called a coelom (acoelomates), those with a true coelom (eucoelomates), and those with “false” coeloms (pseudocoelomates).

    image
    Figure \(\PageIndex{1}\): Differentiation in triploblasts: Triploblasts may be (a) acoelomates, (b) eucoelomates, or (c) pseudocoelomates. Acoelomates have no body cavity. Eucoelomates have a body cavity within the mesoderm, called a coelom, which is lined with mesoderm. Pseudocoelomates also have a body cavity, but it is sandwiched between the endoderm and mesoderm.

    Acoelomates

    Triploblasts that do not develop a coelom are called acoelomates: their mesoderm region is completely filled with tissue. Flatworms in the phylum Platyhelminthes are acoelomates.

    Eucoelomates

    Eucoelomates (or coelomates) have a true coelom that arises entirely within the mesoderm germ layer and is lined by an epithelial membrane. This coelomic cavity represents a fluid-filled space that lies between the visceral organs and the body wall. It houses the digestive system, kidneys, reproductive organs, and heart, and it contains the circulatory system. The epithelial membrane also lines the organs within the coelom, connecting and holding them in position while allowing them some free motion. Annelids, mollusks, arthropods, echinoderms, and chordates are all eucoelomates. The coelom also provides space for the diffusion of gases and nutrients, as well as body flexibility and improved animal motility. The coelom also provides cushioning and shock absorption for the major organ systems, while allowing organs to move freely for optimal development and placement.

    Pseudocoelomates

    The pseudocoelomates have a coelom derived partly from mesoderm and partly from endoderm. Although still functional, these are considered false coeloms. The phylum Nematoda (roundworms) is an example of a pseudocoelomate.

    Embryonic Development of the Mouth

    Bilaterally symmetrical, tribloblastic eucoelomates can be further divided into two groups based on differences in their early embryonic development. These two groups are separated based on which opening of the digestive cavity develops first: mouth (protostomes) or anus (deuterostomes). The word protostome comes from the Greek word meaning “mouth first. ” The protostomes include arthropods, mollusks, and annelids. Deuterostome originates from the word meaning “mouth second. ” Deuterostomes include more complex animals such as chordates, but also some simple animals such as echinoderms.

    image
    Figure \(\PageIndex{1}\): Early embryonic development in eucoelomates: Eucoelomates can be divided into two groups based on their early embryonic development. In protostomes, part of the mesoderm separates to form the coelom in a process called schizocoely. In deuterostomes, the mesoderm pinches off to form the coelom in a process called enterocoely.

    Development of the Coelom

    The coelom of most protostomes is formed through a process called schizocoely, when a solid mass of the mesoderm splits apart and forms the hollow opening of the coelom. Deuterostomes differ in that their coelom forms through a process called enterocoely, when the mesoderm develops as pouches that are pinched off from the endoderm tissue. These pouches eventually fuse to form the mesoderm, which then gives rise to the coelom.

    Embryonic Cleavage

    Protostomes undergo spiral cleavage: the cells of one pole of the embryo are rotated and, thus, misaligned with respect to the cells of the opposite pole. This spiral cleavage is due to the oblique angle of the cleavage. Protostomes also undergo determinate cleavage: the developmental fate of each embryonic cell is pre-determined. Deuterostomes undergo radial cleavage where the cleavage axes are either parallel or perpendicular to the polar axis, resulting in the alignment of the cells between the two poles. Unlike protostomes, deuterostomes undergo indeterminate cleavage: cells remain undifferentiated until a later developmental stage. This characteristic of deuterostomes is reflected in the existence of familiar embryonic stem cells, which have the ability to develop into any cell type.


    This page titled 27.2B: Animal Characterization Based on Features of Embryological Development is shared under a CC BY-SA 4.0 license and was authored, remixed, and/or curated by Boundless.

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