Topics
Diversity of Living Organisms
The Living World
- What is ‘Living’?
- Diversity in the Living World
- Taxonomic Hierarchy of Living Organisms: Unit of Classification
- Three Domains of Life
- Taxonomical Aids
Biological Classification
Plant Kingdom
- Introduction of Plant Kingdom
- Classification System - Artificial and Natural
- Phylogenetic Classification System
- Sub Classification of Plantae
- Concept of Algae
- Cryptogams > Division II- Bryophytes
- Cryptogams > Division III- Pteridophytes
- Phanerogams
- Phanerogams > Division I-Gymnosperms
- Phanerogams > Division II- Angiosperms
- Life Cycle Patterns in Plants
Animal Kingdom
Structural Organisation in Animals and Plants
Morphology of Flowering Plants
- Morphology and Modifications of Root, Stem, Leaf
- Types of Root
- Modifications of Roots for Storage, Respiration (Pneumatophores) and Support (Stilt and Prop)
- Stems
- Shoot System
- Leaves
- Types of Leaves
- Phyllotaxy – Alternate, Opposite, Whorled (With an Example of Each)
- Modifications for Mechanical Support, Protection, Storage, Reproduction; Insectivorous Plant (Pitcher Plant, Venus-fly-trap
- Morphology of Flower, Fruit and Seed
- Types of Inflorescence (Racemose and Cymose)
- Structure of a Typical Flower
- Fruits to Be Classified into True and False, Structure of a Typical Fruit (Mango and Coconut)
- Structure of a Dicotyledonous Seed
- Non-Albuminous and Albuminous, Perisperm
- Description of Families – Solanaceae, Fabaceae and Liliaceae
Anatomy of Flowering Plants
- Meristems or Meristematic Tissues
- Permanent Tissue
- Epidermal Tissue System
- Internal Structure of Root, Stem, and Leaf
- Secondary Growth in Dicot Stem and Dicot Root (With the Help of Outline Diagrams)
- Formation of Annual Rings
- Activity of the Cambium and Cork Cambium
- Formation of Secondary Tissues
- Differences Between Heart Wood and Sap Wood
- Early Wood and Late Wood
- Definition of Bark
Structural Organisation in Animals
- Introduction of Structural Organisation in Animals
- Epithelial Tissue
- Connective Tissue
- Muscular Tissue
- Neural Tissue
- Morphology of Cockroach
- Location, Structure and Functions of Epithelial Tissues with Examples
- Types of Junctions
- Location and General Structure of Areolar Tissue
- Difference Between Bone and Cartilage
- T.S. of Hyaline Cartilage and Bone
- Different Types of Muscles and Their Functions
- Anatomy of Cockroach
Cell: Structure and Function
Cell - The Unit of Life
- Cell Theory
- Structure of Prokaryotic and Eukaryotic Cells
- Plant Cell Vs Animal Cell
- Cell: Structural and Functional Unit of Life
- Endomembrane System
- Mitochondria - “Power House of the Cell”
- Ribosomes - "The sites of protein synthesis"
- Plastids
- Microbodies
- Cytoskeleton
- Cilia and Flagella
- Centrosome and Centrioles
- Structure of the Cell > Nucleus: “Brain” of the Cell
Biomolecules
Cell Cycle and Cell Division
Plant Physiology
Transport in Plants
- Introduction of Transport in Plants
- Movement of Water, Gases and Nutrients
- Cell to Cell Transport
- Diffusion
- Active Transport
- Osmosi
- Water Potential (ψ)
- Turgidity and Flaccidity (Plasmolysis)
- Introduction of Long Distance Transport of Water
- Uptake of Mineral Ions
- Structure of Stomatal Apparatus
- Concept of Plant-water Relations
- Diffusion of Gases
- Transport in Plants (Numericals)
Mineral Nutrition
- Plant Mineral Nutrition
- Elementary Idea of Hydroponics
- Criteria for Essentiality
- Macro and Micro Nutrients and Their Role
- Nitrogen Metabolism
- Nitrogen Cycle
- Nitrogen to Ammonia Conversion and Nitrogenase
- Deficiency Symptoms of Essential Elements
- Toxicity of Micronutrients
Photosynthesis in Higher Plants
- Experiments on Photosynthesis
- Photosynthesis Reaction
- Electron Transport - Cyclic and Non-cyclic Photo-phosphorylation
- Pigments Are Involved in Photosynthesis
- Photochemical and Biosynthetic Phases of Photosynthesis
- Photosynthesis as a Mean of Autotrophic Nutrition
- Site of Photosynthesis
- Photorespiration
- Light-Dependent Phase of Photosynthesis
- Factors Affecting Photosynthesis
Respiration in Plants
- Respiration in Plant
- Phases of Respiration: Glycolysis
- Exchange of Gases - in Plants
- Oxidation of Pyruvate
- Cellular Respiration
- Phases of Respiration: Tricarboxylic Acid Cycle (Citric Acid Cycle or Kreb’s Cycle)
- Energy Relations - Number of ATP Molecules Generated
- Phases of Respiration: Fermentation
- Respiratory Quotient (R.Q.)
- Amphibolic Pathways
Plant Growth and Development
- Introduction of Plant Growth and Development
- Plant Growth Generally is Indeterminate
- Phases of Plant Growth
- Differentiation, Dedifferentiation and Redifferentiation
- Characteristics of Growth Regulators
- Photoperiodism
- Conditions Necessary for Plant Growth
- Concept of Development
- Vernalisation
Human Physiology
Digestion and Absorption
- Alimentary Canal
- Role of Digestive Enzymes and Gastrointestinal Hormones
- Peristalsis, Digestion, Absorption and Assimilation of Proteins, Carbohydrates and Fats
- Calorific Values of Proteins
- Calorific Values of Carbohydrates
- Calorific Values of Fats
- Egestion of Food
- Nutritional and Digestive Tract Disorders
Breathing and Exchange of Gases
Body Fluids and Circulation
- Fluids in Our Body
- Composition of Blood > Cellular Elements: Blood Platelets (Thrombocytes)
- Blood Transfusion and Blood Groups (ABO and Rh system)
- Lymph and Lymphatic System
- Human Circulatory System
- Cardiac Cycle
- Types of Closed Circulation
- Electrocardiograph (ECG)
- Regulation of Cardiac Activity
- Disorders of Circulatory System
- Cardiac Output
Excretory Products and Their Elimination
- Modes of Excretion: Ammonotelism, Ureotelism, and Uricotelism
- Modes of Excretion: Ammonotelism, Ureotelism, and Uricotelism
- Modes of Excretion: Ammonotelism, Ureotelism, and Uricotelism
- Human Excretory System
- Function of the Kidney - “Production of Urine”
- Osmoregulation
- Regulation of Kidney Function
- The Excretory Organs
- Common Disorders of the Urinary System
- Dialysis and Artificial Kidney
Locomotion and Movement
Neural Control and Coordination
Chemical Co-ordination and Integration
- Introduction of Chemical Coordination and Integration
- Human Endocrine System
- The Hypothalamus
- Mechanism of Hormone Action
- Role of Hormones as Messengers and Regulators
- Hypo and Hyperactivity and Related Disorders
Introduction:
Biodiversity is the variety of all living things on Earth. We have learnt that living organisms adapt to different environments, like where they live, what they eat, and how they protect themselves. Even members of the same species can have differences.
Scientists have discovered that there are around 87 million different species of living organisms on our planet, both in water and on land (as of the 2011 census). With so many species, it is necessary to organise them into groups to study them better. By grouping organisms based on their similarities and differences, scientists make it easier to understand and learn about them. This grouping system is called biological classification.
Historical Development of Biological Classification:
- Carl Linnaeus in 1735 divided the living world into 2 kingdoms: Vegetabilia and Animalia.
- Haeckel in 1866 considered 3 kingdoms: Protista, Plants, and Animals.
- In 1925, Chatton created two groups: prokaryotes and eukaryotes.
- In 1938, Kopland divided living organisms into 4 kingdoms: monera, protozoa, plants, and animals.
Classification and Evolution of Diversity in Living Organisms:
1) For a systematic study, we need to classify organisms
Aristotle classified animals according to whether they lived on land, in water, or in the air. This cannot give a clear idea, though, as organisms living in water have nothing in common except their habitat. So nowadays classification is based on the following characteristics:
- Prokaryote or eukaryote
- Unicellular or multicellular
- Autotrophs or heterotrophs
- Level of organization
- Specialized organ
2) Classification helps in understanding evolution
- Primitive/lower organisms: The group of organisms that have ancient body designs that have not changed very much.
- Advanced/higher organisms: The group of organisms that have acquired their particular body designs relatively recently.
Classification of Living Things
Classification presented by Aristotle:
He classified animals on the basis of their habitats-land, water, and air. But it can be easily observed that the animals that live in a particular habitat are still so different from each other. Therefore, it was decided to classify the living organisms on the basis of a hierarchy. This hierarchical classification was based on the similarities and dissimilarities in the characteristics of living organisms. Organisms having similar characteristics were placed in a similar category.
Classification of organisms is essential as it simplifies the study of the vast diversity of life forms. It aids in understanding the evolutionary relationships among different species and provides insights into their development over time. Additionally, classification helps in identifying how organisms are interconnected and the reasons for their distribution across various geographical conditions. This systematic organisation facilitates a deeper comprehension of biodiversity and ecological patterns.
- Evolution: Over the course of time, the living organisms accumulate changes. These changes could be in their body type or size or their features. These changes allow them to survive better with the change in environment. This is called Evolution. This concept was introduced by Charles Darwin.
- Classification: The method of arranging organisms into groups or sets on the basis of similarities and differences is called classification.
- Primitive organisms are the ones that have an ancient body design. Their bodies haven't undergone many changes with time. They are called ‘lower’ organisms as well.
- The advanced organisms are those who have recently acquired body changes. They are also called 'higher' organisms.
