What is Chordates and Non Chordates?
In the extensive domain of the animal kingdom, two distinct categories arise: chordates and non-chordates. These groups are primarily distinguished by the presence or absence of a notochord, a flexible, rod-like structure that extends along the body’s length. Chordates encompass vertebrates, including fish, amphibians, reptiles, birds, and mammals. In contrast, non-chordates consist of invertebrate categories such as arthropods (insects, crustaceans), mollusks (snails, squids), and annelids (earthworms, leeches). Grasping the differing traits of chordates and non-chordates is crucial for understanding the intricacies of animal diversity.
Anatomy of Chordates
Notochord: Chordates have a notochord, a rigid but flexible structure situated along the back of the body. It offers support and facilitates efficient movement.
Dorsal Nerve Cord: Chordates feature a dorsal nerve cord, a tubular neural structure positioned above the notochord. This cord develops into the central nervous system, which includes the brain and spinal cord.
Pharyngeal Slits or Clefts:Chordates feature pharyngeal slits or clefts, which are openings found in the pharynx. In certain chordates, these structures are involved in respiration, while in others, they assist in filter-feeding or are adapted for different functions.
Post-anal Tail:Chordates possess a post-anal tail that extends beyond the anus. This tail aids in movement and helps maintain balance in aquatic species. In some terrestrial species, it may be reduced or absent during development.
Anatomy of Non-Chordates
Absence of Notochord: Non-chordates lack a notochord. Instead, they have alternative support structures such as an exoskeleton (in arthropods) or a hydrostatic skeleton (in worms).
Ventral Nerve Cord: Non-chordates feature a ventral nerve cord, situated along the underside of the body. This cord forms the basis of the nervous system and runs the length of the body.
Diverse Body Plans: Non-chordates display a variety of body plans, including bilateral symmetry (seen in insects and worms), radial symmetry (as in jellyfish and sea anemones), and asymmetry (like in sponges).
Varied Appendages: Non-chordates possess a range of appendages adapted for different functions, such as movement, feeding, or sensory perception. Examples include legs, feelers, tentacles, and wings, depending on the particular group of non-chordates.
Reproduction in Chordates
Chordates exhibit diverse reproductive strategies, with sexual reproduction being the most prevalent method. The different modes of sexual reproduction in chordates include:
External Fertilization: Some chordates, particularly fish and amphibians, utilize external fertilization. In this process, eggs released by the female are fertilized by sperm released by the male outside the body, with both gametes released simultaneously.
Internal Fertilization: Many chordates, such as reptiles, birds, and mammals, employ internal fertilization. Here, sperm is deposited directly into the female’s reproductive tract, allowing for the internal fertilization of eggs. This method offers protection to developing embryos and increases the likelihood of successful reproduction.
Oviparity: Oviparous chordates lay eggs that develop and hatch outside the mother’s body. Examples include reptiles, birds, and monotremes. The eggs provide all necessary nutrients for embryonic development until they hatch.
Viviparity: Viviparous chordates give birth to live offspring. In this case, embryos develop within the mother’s body, receiving nourishment through a placenta or other specialized structures. Most mammals, including humans, display viviparity.
Reproduction in Non-Chordates
Non-chordates utilize a variety of reproductive strategies based on their unique traits and adaptations. The different methods by which non-chordates reproduce include the following:
- Asexual Reproduction: Many non-chordates reproduce asexually, producing offspring without the need for gametes or the fusion of genetic material. This form of reproduction allows for rapid population growth and colonization in some species. Various methods of asexual reproduction in non-chordates are:
- Binary Fission: In binary fission, a single parent cell duplicates its DNA, increases in size, and then divides into two daughter cells.
- Budding: Budding involves the formation of a bud (a new individual) from an existing parent organism. The bud develops on the parent and eventually detaches to become an independent organism.
- Fragmentation: Fragmentation occurs when an organism breaks into two or more pieces, with each fragment capable of developing into a new individual.
- Parthenogenesis: In parthenogenesis, an organism arises from an unfertilized egg, without the involvement of sperm. This phenomenon is observed in certain reptiles and fish.
- Sexual Reproduction: Sexual reproduction is also common among non-chordates and involves the merging of gametes. Various methods of sexual reproduction in non-chordates include:
- External Fertilization: Some non-chordates undergo external fertilization, where eggs and sperm are released into the environment simultaneously. Marine invertebrates, including many species of fish, crustaceans, and mollusks, typically reproduce through this method.
- Internal Fertilization: Certain non-chordates, such as some insects, arachnids, and specific mollusks, have adapted to internal fertilization. The male transfers sperm into the female’s reproductive tract, allowing fertilization to occur internally.
- Hermaphroditism: Many non-chordates are hermaphrodite, possessing both male and female reproductive organ. They can produce both eggs and sperm. Some hermaphroditic specie can self-fertilize, while others engage in reciprocal mating, exchanging gametes with different individuals.
- Complex Reproductive Strategies: Some non-chordates, like bees and ants, display intricate social structures and specialized reproductive strategies. These species have designated reproductive castes, with a queen responsible for laying eggs and specialized individuals (drones) tasked with fertilizing the queen.
Difference Between Chordates and Non Chordates
| S.No | Category | Chordates | Non Chordates |
| 1 | Notochord | Notochord present in chordates | Notochord absent in non chordates |
| 2 | Heart | The heart is situated in a front-facing position and contains hemoglobin, red blood cells, and limbs. | The heart may be located in a back or side position alongside the limbs. |
| 3 | Circulatory System | They possess a closed vascular system. | They usually have an open circulatory system. |
| 4 | Respiration | Respiration is via the gills or lungs. | Respiration is via gills, trachea, or body surfaces. |
| 5 | Hemoglobin | Hemoglobin is present. | Hemoglobin is absent. Instead, hemolymph is present. |
| 6 | Symmetry | They are bilaterally symmetric. | They can be radial, bi-radial, asymmetrical, or bilateral. |
| 7 | Examples | Some examples include fishes, birds, reptiles, amphibians, and mammals. | Some examples include insects, sponges, annelids, protozoans, and arthropods. |
Summary
This article seeks to clarify the differences between chordates and non-chordates. Chordates and non-chordates constitute two separate groups within the animal kingdom. Chordates, characterized by their notochord, backbone, complex nervous system, closed circulatory system, varied reproductive strategies, and specialized sensory organs, have adapted remarkably and show a broad spectrum of anatomical and physiological differences. In contrast, non-chordates, which lack a notochord and a true backbone, exhibit a wide range of traits and mechanisms that enable them to flourish in diverse ecological environments. Understanding the distinctions between chordates and non-chordates offers valuable insights into the extensive diversity of life on Earth.
