Germination is the process by which a seed begins to grow into a new plant. It is a crucial stage in the life cycle of a plant and involves the activation of the seed and the emergence of the embryonic root (radicle) and shoot (plumule).
Factors affecting germination:
Water:Water is essential for the activation of enzymes that initiate the germination process.
Light: Some seeds require light to germinate, while others require darkness. Light can stimulate the production of certain hormones that initiate germination.
Seed viability: The quality and age of the seed can affect its ability to germinate.
Stages of germination:
Imbibition: The seedabsorbswater, causing it to swell and become metabolically active.
Activation of enzymes:Enzymes within the seed are activated, initiating metabolic processes to break down stored nutrients and initiate growth.
Radicle emergence: The embryonic root (radicle) emerges from the seed and begins to grow downward into the soil.
Plumule emergence: The embryonic shoot (plumule) emerges from the seed and begins to grow upward, eventually developing into the stem and leaves of the plant.
Germination experiment:
To study germination, you can set up a simple experiment using different conditions such as varying water availability, temperature, and light exposure to observe their effects on seed germination.
Importance of germination:
Germination is vital for the continuation of plant life cycles and is the starting point for the growth of new plants. It allows seeds to develop into seedlings, which eventually grow into mature plants, contributing to the overall biodiversity and ecosystem functioning.
Energy - A. Energy is involved in all physical and chemical processes. It is conserved, and can be transformed from one form to another and into work. At the atomic and nuclear levels energy is not continuous but exists in discrete amounts. Energy and mass are related through Einstein's equation E=mc 2 . B. The properties of atomic nuclei are responsible for energy-related phenomena such as radioactivity, fission and fusion. C. Changes in entropy and energy that accompany chemical reactions influence reaction paths. Chemical reactions result in the release or absorption of energy. D. The theory of electromagnetism explains that electricity and magnetism are closely related. Electric charges are the source of electric fields. Moving charges generate magnetic fields. E. Waves are the propagation of a disturbance. They transport energy and momentum but do not transport matter.
Relate temperature to the average molecular kinetic energy.