Helium is often used in scientific contexts as a tracer gas in seed studies, but it does not have a direct function on the seeds themselves. In terms of seed physiology, helium is not essential for seed germination or growth. Instead, seeds typically rely on moisture, nutrients, and proper environmental conditions for successful development. If you're asking about a specific context where helium is used with seeds, please provide more details!
Integuments, after fertilization turn to the seed coat, which protects the seed
The portion of the funiculus that is united to the ovule wall, commonly visible as a line or ridge on the seed coat.
The main function of the ovule is to house and protect the female reproductive cells (eggs) of the plant. Once fertilized by pollen, the ovule develops into a seed, which contains the embryo of the plant.
The seed coat protects the seed from mechanical damage, pathogens, and dehydration during dormancy. Cotyledons are the embryonic leaves in a seed that provide nutrients to the seedling until it can produce its own food through photosynthesis.
The first part visible after a seed germinates is the radicle, which is the embryonic root of the plant. Its main function is to anchor the plant into the soil and absorb water and nutrients from the soil to support growth.
To protect the seed.
It is the part of the seed that develops into the stem.
Integuments, after fertilization turn to the seed coat, which protects the seed
Seed develops on a plant to allow that plant to reproduce itself.
to provide the next generation
food
to seed rice
to protect the embryo
to seed rice
Seed develops on a plant to allow that plant to reproduce itself.
The hilum is some type of embryonic scar on the seed that lets the seed dry out.
The cotyledons provides a source of food to the seed and seedling that is germinating, while the seed coat protects it.