new syllabus 2025

Chapter 10 Reproduction: Solved Exercise for 9th Class

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Looking for solved exercises for Chapter 10: Reproduction? Our comprehensive solutions are specifically designed for 9th Class students based on the updated 2025 syllabus. Simplified answers to key topics like binary fission, vegetative propagation, and the life cycle of flowering plants are included to make your preparation easier and more efficient.

MCQs with Solutions

1. Which of the following organisms commonly reproduce by binary fission?

  • Options:
    a) Yeast
    b) Bacteria
    c) Rhizopus
    d) Plants
  • Answer: b) Bacteria
  • Explanation: Binary fission is a simple asexual reproduction method where a single cell divides into two identical daughter cells. This process is typical in prokaryotic organisms like bacteria.
  • Tip/Trick: Remember that binary fission is exclusive to unicellular organisms like bacteria.

2. What is the primary method of reproduction in yeast?

  • Options:
    a) Binary fission
    b) Spore formation
    c) Budding
    d) Fragmentation
  • Answer: c) Budding
  • Explanation: Yeast, a unicellular fungus, reproduces primarily by budding, where a new cell forms as an outgrowth of the parent cell.
  • Tip/Trick: Associate yeast with budding since it involves a “bud” growing on the parent cell.

3. Which of the following statements is true about spore formation in fungi?

  • Options:
    a) They produce spores during sexual reproduction.
    b) They produce two kinds of spores.
    c) Spores can only grow into new fungi in dry environments.
    d) Spores are produced to withstand harsh conditions.
  • Answer: d) Spores are produced to withstand harsh conditions.
  • Explanation: Spores in fungi are designed to survive extreme environmental conditions, including dryness, heat, or lack of nutrients.
  • Tip/Trick: Focus on “harsh conditions” when considering the purpose of fungal spores.

4. What happens in some bacteria during harsh conditions?

  • Options:
    a) Creation of a bud that detaches from the cell.
    b) Formation of thick-walled endospores.
    c) Splitting the cell into two identical daughter cells.
    d) Fusion of two bacterial cells.
  • Answer: b) Formation of thick-walled endospores.
  • Explanation: Endospores are highly resistant structures formed by bacteria to protect their genetic material during unfavorable conditions.
  • Tip/Trick: Recall that endospores = bacterial survival strategy.

5. Which of the following is an example of vegetative propagation through runners?

  • Options:
    a) Potato
    b) Strawberry
    c) Onion
    d) Ginger
  • Answer: b) Strawberry
  • Explanation: Strawberries propagate vegetatively through runners, which are horizontal stems that grow along the soil’s surface and develop new plants.
  • Tip/Trick: Think of “running strawberries” for runners.

6. Which plant propagates through tubers?

  • Options:
    a) Onion
    b) Potato
    c) Ginger
    d) Garlic
  • Answer: b) Potato
  • Explanation: Tubers are thickened underground stems, such as potatoes, that store food and enable vegetative propagation.
  • Tip/Trick: Visualize a potato’s “eyes” as propagation points.

7. The horizontal aboveground stem, which produces leaves and roots at its nodes:

  • Options:
    a) Stolon
    b) Bulb
    c) Rhizome
    d) Corm
  • Answer: a) Stolon
  • Explanation: Stolons are horizontal stems that grow above the ground and help plants like strawberries propagate.
  • Tip/Trick: Stolons are “above-ground runners.”

8. Which of these does NOT help a plant in vegetative propagation?

  • Options:
    a) Rhizome
    b) Corm
    c) Runner
    d) Flower
  • Answer: d) Flower
  • Explanation: Flowers are reproductive structures for sexual reproduction, not vegetative propagation.
  • Tip/Trick: Vegetative propagation relies on structures like stems, roots, and leaves, not flowers.

9. Which part of the flower is responsible for producing pollen?

  • Options:
    a) Stigma
    b) Anther
    c) Ovary
    d) Petal
  • Answer: b) Anther
  • Explanation: The anther is a part of the stamen in flowers and is responsible for producing and releasing pollen grains.
  • Tip/Trick: Associate “anther” with “pollen production.”

10. Which of the following is NOT a part of the carpel?

  • Options:
    a) Filament
    b) Style
    c) Stigma
    d) Ovary
  • Answer: a) Filament
  • Explanation: The carpel (or pistil) is the female reproductive part of the flower and consists of the stigma, style, and ovary. The filament is a part of the stamen, the male reproductive structure.
  • Tip/Trick: Remember the carpel components as “SOS” — Stigma, Ovary, Style.

11. Which structure forms the female gametophyte in flowering plants?

  • Options:
    a) Pollen grain
    b) Ovule
    c) Anther
    d) Sepal
  • Answer: b) Ovule
  • Explanation: The ovule in flowering plants develops into the female gametophyte, which contains the egg cell and is involved in reproduction.
  • Tip/Trick: The ovule = female gametophyte, while pollen grain = male gametophyte.

12. The male gametophyte in flowering plants is known as:

  • Options:
    a) Pollen grain
    b) Embryo sac
    c) Ovary
    d) Carpel
  • Answer: a) Pollen grain
  • Explanation: The pollen grain is the male gametophyte, carrying the male reproductive cells (sperm). It fertilizes the ovule during pollination.
  • Tip/Trick: Associate “pollen” with “male” and “grain” with small particles.

13. In the life cycle of flowering plants, which structure is triploid (3n)?

  • Options:
    a) Egg
    b) Fusion nucleus
    c) Endosperm nucleus
    d) Sperm
  • Answer: c) Endosperm nucleus
  • Explanation: The endosperm nucleus is triploid (3n) as it forms after the fusion of one sperm with two polar nuclei during double fertilization.
  • Tip/Trick: Triploid = three sets of chromosomes, found in endosperm for nutrient storage.

14. Embryo sac is formed inside:

  • Options:
    a) Filament
    b) Anther
    c) Style
    d) Ovule
  • Answer: d) Ovule
  • Explanation: The embryo sac is the female gametophyte and is located inside the ovule of flowering plants.
  • Tip/Trick: Embryo sac = female gametophyte = ovule.

15. Double fertilization involves:

  • Options:
    a) Fertilization of the egg by two male gametes.
    b) Fertilization of two eggs in the same embryo sac by two sperms.
    c) Fertilization of the egg and the fusion nucleus by two sperms.
    d) Fertilization of the egg and the tube cell by two sperms.
  • Answer: c) Fertilization of the egg and the fusion nucleus by two sperms.
  • Explanation: In double fertilization, one sperm fertilizes the egg to form a zygote (2n), while the other sperm fuses with two polar nuclei to form the endosperm nucleus (3n).
  • Tip/Trick: Think “double duty” — one sperm for the egg, the other for the polar nuclei.

Short Questions with Detailed Answers

1. Write a short note on budding in yeast.

  • Answer: Budding in yeast is a form of asexual reproduction. A small bud grows on the parent cell, enlarges, and eventually detaches to form a new yeast cell. This process ensures rapid multiplication under favorable conditions.

2. Write a short note on spore formation in fungi.

  • Answer: Spore formation in fungi is an asexual reproduction method where spores are produced inside a sporangium. These spores are resistant to harsh environmental conditions and germinate to form new fungi when conditions are favorable.

3. What are the advantages of spore formation in fungi and bacteria?

  • Answer:
    • Advantages:
      1. Allows survival in unfavorable conditions due to spore resistance.
      2. Enables rapid reproduction and dispersal over large areas.
      3. Requires minimal resources for reproduction.

4. Describe how vegetative propagation occurs through runners.

  • Answer: Runners are horizontal stems that grow above the ground. Nodes on these stems produce roots and shoots, which develop into new plants. This is commonly seen in plants like strawberries.

5. State how potatoes reproduce through tubers.

  • Answer: Potatoes reproduce vegetatively through tubers, which are swollen underground stems. “Eyes” on the tubers sprout into new shoots and roots, growing into new potato plants.

6. Describe the advantages and disadvantages of vegetative propagation.

  • Answer:
    • Advantages:
      1. Produces genetically identical offspring.
      2. Quick and efficient reproduction.
      3. No need for seeds or pollination.
    • Disadvantages:
      1. No genetic diversity, making plants susceptible to diseases.
      2. Overcrowding can occur, leading to competition for resources.

7. Name the four whorls present in a flower and their components.

  • Answer:
    1. Calyx: Made of sepals, protects the flower bud.
    2. Corolla: Made of petals, attracts pollinators.
    3. Androecium: Made of stamens, produces pollen.
    4. Gynoecium: Made of carpels, contains ovules.

8. Briefly describe the formation of the egg cell and polar nuclei within the embryo sac of a flower.

  • Answer: The embryo sac forms inside the ovule during megasporogenesis. One megaspore divides to form eight nuclei, which organize into cells, including the egg cell (near the micropylar end) and two polar nuclei (in the center of the sac).

9. Differentiate between:

  • i. Asexual and sexual reproduction:
    • Asexual: Single parent, no gametes, offspring identical.
    • Sexual: Two parents, gametes involved, offspring genetically diverse.
  • ii. Binary fission in bacteria and amoeba:
    • Bacteria: Simple splitting without a nucleus.
    • Amoeba: Nucleus divides first, followed by cytoplasm.
  • iii. Stolon and rhizome:
    • Stolon: Horizontal above-ground stem.
    • Rhizome: Horizontal underground stem.
  • iv. Bulb and corm:
    • Bulb: Modified stem with fleshy leaves (e.g., onion).
    • Corm: Solid, fleshy underground stem (e.g., taro).

C. Write answers in detail

1. Explain the process of binary fission in bacteria and describe how it leads to the formation of two daughter bacteria.
Binary fission is the process by which bacteria reproduce. In this process:

  • The bacterial cell grows and its DNA (genetic material) is copied.
  • The cell divides into two parts, with each part getting one copy of the DNA.
  • This results in two identical daughter bacteria.

2. What do you mean by vegetative propagation? Differentiate among different plant structures modified for vegetative propagation.
Vegetative propagation is a way plants reproduce without seeds. New plants grow from parts like roots, stems, or leaves of the parent plant.

  • Modified roots: Examples are sweet potato and carrot.
  • Modified stems: Examples are potato (tuber) and ginger (rhizome).
  • Modified leaves: An example is Bryophyllum, where buds grow on leaves.

3. Describe the ways by which humans can grow new plants by using the vegetative parts of the parent plants.
Humans grow new plants using methods like:

  • Cutting: A part of a plant like a stem or leaf is cut and planted to grow into a new plant. Example: rose.
  • Grafting: Two plants are joined together so they grow as one. Example: mango.
  • Layering: A branch of a plant is bent to the ground and covered with soil. It grows roots and becomes a new plant. Example: jasmine.

4. Define sporophyte and gametophyte. State their roles in the life cycle of plants.

  • Sporophyte: The part of the plant that produces spores. It is usually larger, like the main body of a plant.
  • Gametophyte: The part that produces gametes (sperm and egg cells). It is smaller and often hidden.
    These two alternate in the life cycle of plants. Spores from the sporophyte grow into gametophytes, and gametophytes create gametes that form a new sporophyte.

5. Explain the life cycle of flowering plants, focusing on the alternation between the gametophyte and sporophyte generations.
The life cycle of flowering plants has two stages:

  • Sporophyte stage: The main plant that produces flowers and seeds. It creates spores.
  • Gametophyte stage: The spores grow into tiny structures inside the flower, which produce male and female gametes.
    When the gametes fuse (fertilization), a seed forms, and the cycle starts again.

6. Describe how the female gametophyte (embryo sac) develops within the ovule of a flower.

  • Inside the ovule of a flower, a cell divides to form a structure with 8 nuclei.
  • This structure becomes the embryo sac, which is the female gametophyte.
  • The embryo sac has one egg cell, which combines with sperm during fertilization to form a seed.

9th Class Biology Chapter 3: The Cell – New Syllabus

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1. The process of cellular respiration occurs in:

  • Options:
    a) Nucleus
    b) Mitochondria
    c) Ribosomes
    d) Golgi apparatus
  • Answer: b) Mitochondria
  • Explanation: Mitochondria are known as the “powerhouse of the cell” because they produce energy (ATP) through cellular respiration.
  • Tip: Associate “mitochondria” with “energy production.”

2. The smooth endoplasmic reticulum (SER) is primarily involved in the synthesis of:

  • Options:
    a) Proteins
    b) Lipids
    c) Carbohydrates
    d) Nucleic acids
  • Answer: b) Lipids
  • Explanation: The SER is specialized in lipid synthesis and detoxification of harmful substances in cells.
  • Tip: Think of “smooth” as “soft,” linked to fats (lipids).

3. Ribosomes are composed of:

  • Options:
    a) RNA and protein
    b) DNA and protein
    c) Carbohydrates and lipids
    d) RNA and carbohydrates
  • Answer: a) RNA and protein
  • Explanation: Ribosomes are made up of rRNA (ribosomal RNA) and proteins, enabling them to synthesize proteins.
  • Tip: Remember “R” in ribosomes for “RNA.”

4. What is the primary function of ribosomes?

  • Options:
    a) Energy production
    b) Protein synthesis
    c) Lipid synthesis
    d) DNA synthesis
  • Answer: b) Protein synthesis
  • Explanation: Ribosomes assemble amino acids into proteins.
  • Tip: Ribosomes are like “factories” for making proteins.

5. Which cell organelle is involved in packaging and modifying proteins?

  • Options:
    a) Nucleus
    b) Mitochondria
    c) Golgi apparatus
    d) Endoplasmic reticulum
  • Answer: c) Golgi apparatus
  • Explanation: The Golgi apparatus processes, modifies, and packages proteins for transport.
  • Tip: Link “Golgi” with “gift wrap” for packaging.

6. Which cell organelle is responsible for breaking down waste materials?

  • Options:
    a) Golgi apparatus
    b) Nucleus
    c) Mitochondria
    d) Lysosome
  • Answer: d) Lysosome
  • Explanation: Lysosomes contain digestive enzymes to break down cellular waste and debris.
  • Tip: Think “lyso-” as in “lysis” (breaking down).

7. Which of the following cell structures is involved in maintaining cell shape?

  • Options:
    a) Cytoskeleton
    b) Centrioles
    c) Nucleus
    d) Lysosome
  • Answer: a) Cytoskeleton
  • Explanation: The cytoskeleton provides structural support and maintains the shape of the cell.
  • Tip: “Skeleton” in cytoskeleton helps recall “support.”

8. What is the main function of the smooth endoplasmic reticulum in a cell?

  • Options:
    a) Synthesis of proteins
    b) Synthesis of lipids
    c) Digestion of cellular waste
    d) Storage of genetic material
  • Answer: b) Synthesis of lipids
  • Explanation: The smooth ER specializes in lipid and steroid hormone synthesis.
  • Tip: Recall that smooth ER handles “fats” (lipids), unlike rough ER, which synthesizes proteins.

9. Which specialized region of the nucleus is responsible for ribosome assembly?

  • Options:
    a) Nucleoplasm
    b) Nucleolus
    c) Chromatin
    d) Chromatid
  • Answer: b) Nucleolus
  • Explanation: The nucleolus is the site where ribosomal RNA (rRNA) is synthesized and ribosome assembly begins.
  • Tip: Think “nucleolus” for “ribosome production hub.”

10. What is the main function of the nuclear pores?

  • Options:
    a) Regulation of cell division
    b) Control of pH of the cell
    c) Protein synthesis
    d) Control of transport of molecules
  • Answer: d) Control of transport of molecules
  • Explanation: Nuclear pores allow selective transport of molecules (e.g., RNA and proteins) between the nucleus and cytoplasm.
  • Tip: “Pores” indicate passage or transport.

11. Which of the following cellular structures is found in animal cells and helps in cell division?

  • Options:
    a) Cell membrane
    b) Plasmodesma
    c) Centriole
    d) Vacuole
  • Answer: c) Centriole
  • Explanation: Centrioles play a key role in the organization of spindle fibers during mitosis and meiosis in animal cells.
  • Tip: Centrioles are specific to animal cells for cell division.

12. Which sub-cellular organelle plays a crucial role in energy production within the cell?

  • Options:
    a) Endoplasmic reticulum
    b) Golgi apparatus
    c) Mitochondria
    d) Lysosomes
  • Answer: c) Mitochondria
  • Explanation: Mitochondria are the site of ATP production via cellular respiration.
  • Tip: Recall “powerhouse of the cell.”

13. In a multicellular plant, which cell type is responsible for the production of glucose?

  • Options:
    a) Xylem
    b) Phloem
    c) Epidermal
    d) Mesophyll
  • Answer: d) Mesophyll
  • Explanation: Mesophyll cells contain chloroplasts, where photosynthesis occurs to produce glucose.
  • Tip: Link “mesophyll” with “middle” (the leaf tissue performing photosynthesis).

14. Which organelle can double its number by itself?

  • Options:
    a) Ribosomes
    b) Lysosomes
    c) Mitochondria
    d) Golgi apparatus
  • Answer: c) Mitochondria
  • Explanation: Mitochondria have their own DNA and replicate independently through binary fission.
  • Tip: Mitochondria behave like “semi-autonomous” organelles.

15. Which of these are present on the surface of rough endoplasmic reticulum?

  • Options:
    a) Ribosomes
    b) Lysosomes
    c) Mitochondria
    d) Vacuoles
  • Answer: a) Ribosomes
  • Explanation: Ribosomes attached to the rough ER synthesize proteins, giving it a “rough” appearance.
  • Tip: Remember “Rough ER” is rough due to ribosomes.

Section B: Short Answers

1. What are the main functions of the cell membrane?

  • Answer:
    • Regulates the entry and exit of substances (selective permeability).
    • Protects the cell by providing structural support.
    • Facilitates communication and signaling between cells.

2. What key role does the Golgi apparatus play in eukaryotic cells?

  • Answer:
    • Modifies, sorts, and packages proteins and lipids for secretion or use within the cell.
    • Forms lysosomes and transports cellular materials.

3. How do lysosomes contribute to the cell’s functioning?

  • Answer:
    • Break down cellular waste and debris using digestive enzymes.
    • Play a role in recycling cellular components (autophagy).

4. Which organelle detoxifies harmful substances and breaks down lipids?

  • Answer: Smooth Endoplasmic Reticulum (SER).
  • Explanation: SER is involved in lipid synthesis, detoxification of drugs, and storage of calcium ions.

5. What is the smooth endoplasmic reticulum responsible for?

  • Answer:
    • Synthesis of lipids and steroid hormones.
    • Detoxification of harmful substances.
    • Storage and release of calcium ions in muscle cells.

6. How do the vacuoles in plant cells differ from vacuoles in animal cells?

  • Answer:
    • Plant cells have large central vacuoles for storage of water, nutrients, and waste.
    • Animal cells have smaller, temporary vacuoles, mainly for storage and transport.

7. What could happen if lysosomal enzymes stop working properly?

  • Answer:
    • Accumulation of waste materials and toxins within the cell.
    • Possible cell death due to impaired autophagy and digestion.

8. Why are the cristae important for cellular respiration?

  • Answer:
    • Cristae increase the surface area of the inner mitochondrial membrane, allowing more space for the enzymes and proteins involved in ATP production during cellular respiration.

Here’s the detailed solution to the questions in the uploaded image:

Section B: Short Answers

9. How are chromatin and chromosomes related?

  • Answer:
    Chromatin is the uncoiled and relaxed form of DNA, combined with proteins (histones), found in the nucleus during interphase. During cell division, chromatin condenses and organizes into tightly coiled structures called chromosomes.

10. Which type of cell is responsible for sending nerve signals?

  • Answer:
    Neurons (nerve cells) are specialized cells that transmit electrical and chemical signals throughout the body.

11. What do mesophyll cells do in plant leaves?

  • Answer:
    Mesophyll cells in plant leaves perform photosynthesis. They contain chloroplasts that use sunlight, carbon dioxide, and water to produce glucose and oxygen.

12. How would you define a stem cell?

  • Answer:
    A stem cell is an undifferentiated cell capable of dividing and differentiating into specialized cell types. Stem cells also have the ability to self-renew.

13. Name the chemical compounds that make up:

  • a) Cell membrane: Phospholipids, proteins, carbohydrates, and cholesterol.
  • b) Fungal cell wall: Chitin and glucans.
  • c) Plant cell wall: Cellulose, hemicellulose, and pectin.
  • d) Bacterial cell wall: Peptidoglycan (murein).
  • e) Ribosomes: rRNA (ribosomal RNA) and proteins.
  • f) Chromosomes: DNA and proteins (histones).

14. Label the parts of these cell diagrams.

For the provided cell diagrams, the labels typically represent major cell organelles. Based on general diagrams:

  • A: Nucleus
  • B: Mitochondria
  • C: Endoplasmic reticulum
  • D: Golgi apparatus
  • E: Cell membrane
  • F: Lysosome
  • G: Ribosome

Section C: Detailed Answers

1. Explain the fluid mosaic model of the cell membrane.

  • The cell membrane is a phospholipid bilayer with embedded proteins.
  • The “fluid” aspect refers to the flexible and dynamic nature of the bilayer, allowing lateral movement of lipids and proteins.
  • The “mosaic” aspect describes the patchwork of proteins interspersed within the bilayer, performing various functions such as transport, signaling, and enzymatic activity.

2. Describe the structure and functions of the cell wall.

  • Structure:
    • Found in plants, fungi, and bacteria.
    • Composed of cellulose (plants), chitin (fungi), or peptidoglycan (bacteria).
  • Functions:
    • Provides structural support and protection.
    • Maintains cell shape.
    • Prevents excessive water uptake (osmotic regulation).

3. Discuss the components of the nucleus.

  • Nuclear envelope: Double membrane with pores for transport.
  • Nucleoplasm: Fluid containing ions, enzymes, and nucleotides.
  • Nucleolus: Site of ribosome assembly.
  • Chromatin: DNA and protein that form chromosomes during cell division.

4. Describe the structure and function of lysosomes and the endoplasmic reticulum.

  • Lysosomes:
    • Membrane-bound organelles containing digestive enzymes.
    • Function: Breakdown of waste materials, cellular debris, and pathogens.
  • Endoplasmic Reticulum (ER):
    • Rough ER: Ribosomes on its surface; synthesizes proteins.
    • Smooth ER: Synthesizes lipids and detoxifies harmful substances.

5. Describe the formation and function of the Golgi apparatus.

  • Formation: Derived from vesicles from the ER.
  • Function: Modifies, sorts, and packages proteins and lipids for secretion or delivery within the cell.

6. Describe the structure and functions of the chloroplast.

  • Structure:
    • Double membrane.
    • Contains thylakoids stacked into grana, surrounded by stroma.
    • Contains chlorophyll for capturing light energy.
  • Function: Photosynthesis to convert light energy into glucose and oxygen.

7. How does turgor pressure develop in a plant cell?

  • Turgor pressure develops due to water entering the cell via osmosis. The vacuole swells, pressing the plasma membrane against the cell wall, providing rigidity to the plant.

8. Write any four differences between a plant cell and an animal cell.

FeaturePlant CellAnimal Cell
Cell wallPresent (cellulose)Absent
ChloroplastsPresent (photosynthesis)Absent
VacuolesLarge central vacuoleSmall, temporary vacuoles
CentriolesAbsentPresent

9. Describe the concept of division of labor and how it applies in multicellular organisms.

  • Concept: Division of labor refers to specialization of cells, tissues, or organs to perform specific functions.
  • Examples:
    • Red blood cells transport oxygen.
    • Neurons transmit nerve signals.
    • Muscle cells contract to enable movement.

10. Write a note on cell specialization.

  • Cell specialization is the process where generic cells develop into specific cell types to perform unique functions. For example:
    • Muscle cells specialize in contraction.
    • Xylem cells specialize in water transport.
    • Specialized cells increase efficiency and allow multicellular organisms to perform complex tasks.

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