Key Differences in Notochord Nerve Cord and Body Plan
The animal kingdom, sometimes known as Kingdom Animalia, is a well-known categorization of living organisms on Earth. Members of this group are divided into a variety of Genus, Family, Order, Class, and Phyla based on their individual traits. The presence or absence of a notochord on an animal's body is one of the most important factors in animal taxonomy. It's worth noting that a notochord is made of a cartilage-like structure and looks like a flexible rod. Chordates and Non-chordates, both the terms are used for animals and they belong to the different phyla of the Animalia kingdom. The major point to differentiate between chordates and non-chordates is that chordates have a spinal cord or backbone in their body structure whereas non-chordates are without backbone or notochord in their body structure.
The article discusses the different parameters based on which chordates and non-chordates are differentiated. The article also encompasses the description of chordates and non-chordates.
Chordates
A notochord, a dorsal hollow nerve cord, pharyngeal slits, and a post-anal tail are four important traits that arise at some point during the development of Chordata animals. It is important to note that some of these characteristics are present only in embryonic developmental stages in some of the animals. The characteristic features of Chordates are discussed briefly below.
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Notochord
The notochord is a supportive, stiff rod-like structure which is the characteristic of chordates. It runs the length of the body, in between the alimentary canal and the nerve cord, and provides skeletal stability. In certain chordates, the notochord serves as the body's major axial rigidity. The notochord is prevalent in vertebrates in embryonic developmental stages, where it stimulates neural tube formation and acts as a framework for the growing embryonic structure. The notochord, on the other hand, is absent in the postnatal stage of vertebrates; this has been substituted by the vertebral column or spine.
Dorsal hollow nerve-
The dorsal hollow nerve cord is part of the Central Nervous System of chordates and it is concerned with stimulus and nerve impulses. The dorsal hollow nerve cord is made up of ectoderm that becomes a hollow tube as it develops. It is located dorsally to the notochord in chordates. Most chordate embryos have a nerve cord that grows into the brain and spinal cord, which make up the central nervous system.
Pharyngeal gill-
Pharyngeal gill slits are an important part of the respiratory system and it gets perforated with gill slits. Slits in the pharynx that open externally are known as pharyngeal slits. Pharyngeal slits enable the removal of water that is engulfed into the mouth during feeding. They are seen in creatures that dwell in aquatic habitats. The pharyngeal slits are transformed into gill supports in vertebrates and jaw supports in jawed fishes.
Post anal tail-
Post anal tail is present at the end of the anus in chordates in the form of a short extension. A posterior extension of the body that extends beyond the anus is known as the post-anal tail. In aquatic organisms like fishes, the tail comprises skeletal structures and muscles that facilitate movement. The tail also aids balance, courtship, and alerting when danger is approaching in certain terrestrial animals. The post-anal tail is vestigial in humans, meaning it is small and nonfunctional.
Non-chordates
Let us look briefly into the important features of non-chordates for a better understanding of the differences between the chordates and non-chordates. Non-chordates are creatures that lack the notochord, a rod-like structure in their bodies. Members of the phyla Porifera, Hemichordata, Echinodermata, Mollusca, Arthropoda, Annelida, Aschelminthes, Platyhelminthes, Ctenophora, and Coelenterata are predominantly found in this phylum. This phylum is organised on an organ-system level.
The general features of the non-chordates are mentioned below.
Non-chordates are generally cylindrical, triploblastic, coelomate, or pseudocoelomate.
Non-chordates breathe through the gills, trachea, or the surface of their bodies.
The sexes of the members of non-chordates cannot be differentiated.
Both sexual and asexual reproductive modes exist.
Fertilization is external, while some species have internal fertilisation.
Non-chordates' bodies usually have an open circulatory system.
Difference between chordates and non-chordates
Here is the tabular structure to highlight the differences and students will get an easy understanding to distinguish between chordates and non-chordates in their examinations.
Distinguish Between Chordates and Non-Chordates
In conclusion, we have learnt about the differences between the two important classifications of the animal kingdom. We have also learnt about the parameters of differentiation.
FAQs on Difference Between Chordates and Non Chordates in Biology
1. What is the difference between chordates and non chordates?
The main difference between chordates and non chordates is that chordates possess a notochord at some stage of life, while non chordates do not.
- Chordates: Have notochord, dorsal hollow nerve cord, pharyngeal slits, and post-anal tail at least in the embryonic stage.
- Non chordates: Lack notochord and usually have a ventral solid nerve cord.
- Chordates generally show bilateral symmetry and a closed circulatory system.
- Non chordates may show open or closed circulatory systems depending on the group.
2. What are chordates?
Chordates are animals that possess a notochord at some stage of their development.
- They belong to the phylum Chordata.
- They have a dorsal hollow nerve cord.
- They show pharyngeal slits and a post-anal tail during embryonic development.
- Most chordates have a closed circulatory system with a ventral heart.
3. What are non chordates?
Non chordates are animals that do not possess a notochord at any stage of their life cycle.
- They lack a dorsal hollow nerve cord.
- Their nerve cord, if present, is usually ventral and solid.
- They may have an open or closed circulatory system.
- They belong to various phyla such as Arthropoda, Annelida, and Mollusca.
4. What is a notochord and why is it important?
The notochord is a flexible, rod-like structure that provides support in chordates.
- It is present at least during the embryonic stage.
- It lies between the digestive tract and the nerve cord.
- In vertebrates, it is replaced by the vertebral column during development.
- It helps in body support and muscle attachment.
5. What are the main characteristics of chordates?
The main characteristics of chordates include the presence of a notochord, dorsal hollow nerve cord, and pharyngeal slits.
- Notochord for structural support.
- Dorsal hollow nerve cord for nerve impulse conduction.
- Pharyngeal slits for respiration or feeding in some groups.
- Post-anal tail extending beyond the anus.
- Usually a closed circulatory system.
6. What are the main characteristics of non chordates?
The main characteristics of non chordates are the absence of a notochord and a dorsal hollow nerve cord.
- Nerve cord is usually ventral and solid.
- Circulatory system may be open or closed.
- Body symmetry can be bilateral or radial.
- Many groups have an exoskeleton, such as in arthropods.
7. How does the nervous system differ in chordates and non chordates?
The nervous system in chordates is characterized by a dorsal hollow nerve cord, while in non chordates it is typically ventral and solid.
- In chordates, the nerve cord develops into the brain and spinal cord.
- In non chordates like annelids and arthropods, the nerve cord runs along the ventral side.
- Chordates generally have a more complex and centralized nervous system.
8. What are some examples of chordates and non chordates?
Examples of chordates include animals with a notochord, while non chordates lack this structure.
- Chordates: Humans, frogs, fishes, birds, and reptiles.
- Non chordates: Earthworms (Annelida), cockroaches (Arthropoda), snails (Mollusca), and jellyfish (Cnidaria).
9. Are all vertebrates chordates?
Yes, all vertebrates are chordates because they possess a notochord during embryonic development.
- Vertebrates belong to the subphylum Vertebrata under phylum Chordata.
- The embryonic notochord is replaced by the vertebral column in adults.
- They have a well-developed brain and spinal cord.
10. Why is the study of chordates and non chordates important in biology?
The study of chordates and non chordates is important because it helps in understanding animal classification and evolutionary relationships.
- It explains structural differences like notochord and nerve cord position.
- It helps in identifying organisms correctly.
- It provides insight into the evolution of vertebrates from simpler forms.
- It forms a basic concept in zoology and comparative anatomy.
