Category: Biology Second Paper

The region along which the animal body can be divided into right and left or longitudinally and transversely or anteriorly and posteriorly is called floor. There are generally three types of floor in the animal body.
(i) Sagittal plane: The plane by which the body can be divided into right and left is called midline plane.
(ii) Frontal plane: The plane by which the animal body can be divided into digital and dorsal parts is called frontal plane.
(iii) Transverse plane: The plane by which the animal body can be divided into anterior and posterior parts is called transverse plane.

The polarization of the animal body based on the position of the head and mouth is called marginality. There are five types of limitations in the animal body.
(i) Anterior end: The end of the animal where the head is is called the anterior end. This is called the oral edge.
(ii) Posterior end: The end opposite to the head of the animal is called the posterior end. called the paraoral edge.
(iii) Dorsal end: The upper surface of the animal’s body is called the dorsal end.
(iv) Ventral end: The bottom of the animal’s body is called the ventral end.
(v) Lateral end: The bottom of both sides of the animal body is called lateral end.

The process by which the animal body is divided into larger segments or tagmas is called regionalization or tagmatization. Each region is called a tagma. The evolutionary process by which regionalization is accomplished is called tagmosis. The bodies of animals of the class Insecta of the order Arthropoda are divided into three tagmas. Head, thorax and abdomen. For example – grasshopper (Poekilocerux pictus).

Animals are divided into 2 groups based on reproductive characteristics.
(i) Asexual reproducer: Those animals which do not have any specific reproductive organs and reproduce without the help of opposite sex are called asexual reproducers. Asexual reproduction is of three types. These are-
* Binary fission: The process in which an organism divides to produce two offspring is called bisegmentation. Such as Euglena (Euglena viridis), Hydra (Hydra vulgaris) etc.
* Multiple division: The process in which a single-celled organism divides repeatedly to produce numerous offspring is called multiple division. For example – Entamoeba histolytica, Paramecia (Paramecium caudatum) etc.
* Budding: The process by which new organisms are created by budding from the mother body is called budding. Such as Hydra (Hydray viridis).
(ii) Sexual reproducer: The process of reproduction through the union of sperm and egg of two animals of opposite sex of the same species is called sexual reproduction.
* Oviparous: The animals that lay fertilized or unfertilized eggs and the eggs hatch outside the mother’s body to develop into young animals are called oviparous. For example – fish, birds, snakes, poultry, turtles, frogs etc.
* Endo-viviparous: The animals that lay eggs and after fertilization the eggs develop in the mother’s womb and become babies are called endo-viviparous. For example, sharks, some amphibians etc.
* Viviparous: Those animals whose eggs are fertilized inside the mother’s body and the embryo receives nutrients from the mother’s body through immortality and develops into a full-fledged baby animal are called in utero. For example, mammals.

Animals are divided into two groups based on alimentary canal.
(i) Parazoa: All the animals which do not have alimentary canal are called Parazoa. Animals of the order Porifera are Parazoa. For example, Cycon (Scypha gelatinosum), Spongilla (Spongilla lacustris), Cliona (Cliona celata) etc.
(ii) Enterozoa: All organisms having alimentary canal are called Enterozoa. Enterozoa are animals of the order Annelida, Arthropoda, Nematoda, Platyhelminthes, Echinodermata, Cnidaria, Mollusca and Chordata. Asexual reproducers and sexual reproducers.

In animals, the body cavity between the alimentary canal and the body wall is covered by a membrane called peritoneum and filled with chyloemic juice. It arises from embryonic mesoderm. According to the nature of Siloam, animals can be divided into 4 categories.
(i) Acoelomate: Animals that do not have a coelom are called acoelomates. Their spaces are filled by spongy parenchyma cells. Animals of the order Porifera, Platyhelminthes, Cnidaria and Ctenophora are asilomates. For example – Tapeworm (Taenia solium), Hydra (Hydra viridis), Liverworm (Fasciola hepatica) etc.
(ii) Pseudocoelomate: The body cavity between alimentary canal and body wall is not covered by peritoneum in animals called pseudocoelomate. Animals of the order Nematoda, Rotifera, Acanthocephola, Ectoprocta and Kinorhyncha are pseudocylomates. Such as round worm (Ascaris lumbricoides), eye worm (Loa loa), hook worm (Ancylostoma duodenale) etc.
(iii) Coelomate: The body cavity between alimentary canal and body wall is covered by peritoneum in animals called coelomate. Animals belonging to the order Annelida, Arthropoda, Echinodermata, Mollusca, Hemichordata and Chordata are coelomates. Such as earthworm (Metaphire posthuma), human (Homo sapiens), mosquito (Culex pipiens), sea star (Asterias vulgare), hilsa (Tenualosa ilisha), oyster (Unio marginalis) etc.
Silom is divided into two parts based on embryonic development.
(i) Psyzocilous chyloem: The chyloem that arises from embryonic mesodermal tissue is called zygosylous chyloem. For example Annelida, Arthropoda and Mollusca.
(ii) Enterocillus chyloem: The chyloem arising from the embryonic mesodermal sac is called enterocylus chyloem. For example, Echinodermata and Chordata.
Importance of coelom
(i) Cells help in independent growth and movement of various organs.
(ii) It protects the various parts of the animal body from friction.
(iii) Siloam helps transport waste materials, nutrients and gaseous materials.
(iv) It acts as a hydrostatic skeleton during locomotion of the animal.

(i) Cells help in independent growth and movement of various organs.
(ii) It protects the various parts of the animal body from friction.
(iii) Siloam helps transport waste materials, nutrients and gaseous materials.
(iv) It acts as a hydrostatic skeleton during locomotion of the animal.

In animals, the body cavity between the alimentary canal and the body wall is covered by a membrane called peritoneum and filled with chyloemic juice. It arises from embryonic mesoderm. According to the nature of Siloam, animals can be divided into 4 categories.
(i) Acoelomate: Animals that do not have a coelom are called acoelomates. Their spaces are filled by spongy parenchyma cells. Animals of the order Porifera, Platyhelminthes, Cnidaria and Ctenophora are asilomates. For example – Tapeworm (Taenia solium), Hydra (Hydra viridis), Liverworm (Fasciola hepatica) etc.
(ii) Pseudocoelomate: The body cavity between alimentary canal and body wall is not covered by peritoneum in animals called pseudocoelomate. Animals of the order Nematoda, Rotifera, Acanthocephola, Ectoprocta and Kinorhyncha are pseudocylomates. Such as round worm (Ascaris lumbricoides), eye worm (Loa loa), hook worm (Ancylostoma duodenale) etc.
(iii) Coelomate: The body cavity between alimentary canal and body wall is covered by peritoneum in animals called coelomate. Animals belonging to the order Annelida, Arthropoda, Echinodermata, Mollusca, Hemichordata and Chordata are coelomates. Such as earthworm (Metaphire posthuma), human (Homo sapiens), mosquito (Culex pipiens), sea star (Asterias vulgare), hilsa (Tenualosa ilisha), oyster (Unio marginalis) etc.
Silom is divided into two parts based on embryonic development.
(i) Psyzocilous chyloem: The chyloem that arises from embryonic mesodermal tissue is called zygosylous chyloem. For example Annelida, Arthropoda and Mollusca.
(ii) Enterocillus chyloem: The chyloem arising from the embryonic mesodermal sac is called enterocylus chyloem. For example, Echinodermata and Chordata.

When the body of an organism is made up of similar parts, it is called fragmentation or metamerism. Each segment is called a metamere or somite.
(i) Asegment: Those animals which have no segmentation in their body are called non-segmented animals. Chordata are unsegmented animals. For example, humans (Homo sapiens), starfish (Asterias ruben) etc.
(ii) Homonomous metamere: Animals whose body is made up of similar segments are called homosegmented animals. Annelida is a group of animals. For example, earthworm (Metaphire posthuma), cockroach (Hirudinaria medicinalis) etc.
(iii) Heteronomous metamere: Those animals whose body is made up of unequal or different types of segments are called heteronomous animals. Animals of the order Arthropoda are unclassified. For example – cockroach (Periplaneta americana), Prajaprati (Pieris brassicae and Palilio krishna) etc.

Balanced distribution of different parts of the body is called symmetry.
(i) Asymmetry: If the body of an animal is not divided into two equal parts along the center or axis, it is called asymmetric. For example – Snail (Pila globosa), Amoeba (Amoeba proteus), Spongilla (Spongilla proliferens), Sponge (Cliona celata) etc.
(ii) Bilaterally symmetrical: When the body of an animal is divided along the center into two equal parts, it is called bilaterally symmetrical. Their taxonomic level is Bilateria. Animals of the order Platyhelminthes, Arthropoda I Chordata are bilaterally symmetrical. For example, humans (Homo sapiens), cockroaches (Periplaneta americana), frogs (Duttaphrynus melanostictus), butterflies (Pieris brassicae), Inlish (Tenualosa ilisha), pigeons (Columba livia), liver worms (Fasciola hepatica) etc.
(iii) Biradial symmetrical: If the body of an animal is divided longitudinally along the axis to get two equal parts, it is called biradial symmetrical. In this case four equal parts are obtained as the cutting planes are at right angles. Such symmetry is called Tetramerous symmetry. Such as Anthozoa, Ctenophora, Ceoloplana etc.
(iv) Radial symmetrical: If the body of an animal is divided along the center to get more than two equal parts, it is called radial symmetry. Their taxonomic level is radiata. Such as Hydra (Hydra vulgaris), Jelly fish (Aurelia aurita), Sea anemone (Metridium dianthus), Sea snake (Astropecten auranciacus).
(v) Spherical symmetry: If the body of an animal is divided repeatedly along the center and two equal parts are obtained each time, it is called spherical symmetry. Like Volvox globactor, Radiolaria (Acrosphaera trepanata), Haliozoa (Gymnosphaera albida) etc.