![]() The cookie is used to store the user consent for the cookies in the category "Analytics". This cookie is set by GDPR Cookie Consent plugin. These cookies ensure basic functionalities and security features of the website, anonymously. Necessary cookies are absolutely essential for the website to function properly. Principles of Inheritance and Variation.New Questions and Answers and Forum Categories Other advantages of this symmetry are the streamlining of the body, development of different organs in different body regions and more efficient unidirectional movement. Bilateral symmetry is associated with the term cephalization-meaning the specialization of the anterior end of the body to form the head where the nervous tissues, sense organs and feeding organs are concentrated.Ģ. The body of bilateria has the term lateral (two sides of the body), anterior (the end which usually moves forward during movement and bears mouth) and posterior (Fig. 9.4B).Īn imaginary plane that crosses the body, perpendicular to the mid sagittal plane called transverse plane. A longitudinal plane that passes along the axis of the body of bilaterally symmetrical animal to separate right and left sides is called the mid- sagittal plane (Fig. The underside is also called ventral which is usually facing towards ground. The upper-side is also called dorsal which is usually away from the ground and near the back of the animal. Any of the vertical planes perpendicular to the sagittal plane that passes through the body separating the upper and underside is called frontal plane. The entire body of a bilateria can be divided into three planes such as- (i) frontal (ii) sagittal and (iii) transverse (Fig. Bilaterally symmetrical animals include acoelomates, pseudo-coelomates and eucoelomates among invertebrates and both lower chordates and vertebrates. The animals which exhibit bilateral symmetry called bilateria. They have a mouth bearing oral side and the side away from the mouth called the aboral side. The animals with radial symmetry do not have anterior and posterior sides or dorsal and ventral surfaces. The body of octocorallian polyps (subclass Octocorallia) shows octomeric radial symmetry and contains 8 hollow marginal tentacles and 8 mesenteries and the body can be divided into 8 equal parts (Fig. The body of hexacorallian polyps exhibits hexameric plan and have sixfold internal symmetry. The mesenteries are usually paired and are arranged in the multiple of six. The mesenteries and tentacles are arranged in the multiple of six. The sea anemones and true coral polyps belong to the subclass Hexacorallia (class Anthozoa). The radial symmetry of echinoderms is regarded as a secondary acquisition. The larvae of echinoderms are bilaterally symmetrical but acquires radial symmetry in adult stage. The body parts are arranged around the axis of the mouth at orientations of 72° apart. Most echinoderms possess pentamerous radial symmetry because the body can be divided into 5 roughly equal parts (Fig. Hence the animals exhibit tetramerous raidal symmetry (Fig. Many jelly fishes possess 4 radial canals and the body can be divided into 4 equal parts. Special forms of radial symmetry are observed in different groups of animals such as: The radial symmetry is seen among the sessile and sedentary animals such as in some sponges, hydroids, anthozoan polyps, medusae and sea stars. The axis extends from the centre of the mouth to the centre of the aboral side. The animals which exhibit primarily radial symmetry are cylinder in form and the similar parts of the body are arranged equally around the axis. In radial symmetry the body can be divided into two roughly equal halves by any one of many vertical planes passing through the central axis (Fig. In asymmetrical symmetry and spherical symmetry the polarity does not exist and spherical symmetry is seen in radiolarian protozoa (Fig. The body can be divided into two identical halves in any plane that runs through the organism’s centre. In spherical symmetry the shape of the body is spherical and lack any axis. ![]() The amoeboid forms (e.g., Amoeba) and many sponges have irregular growth pattern of the body and cannot be divided into two equal halves (Fig. In some animals there are no body axis and no plane of symmetry, hence the animals are called asymmetrical. The following points highlight the five main types of symmetry seen in animals.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |