Photosynthesis in seed plants primarily takes place in the leaves, specifically within specialized cells called mesophyll cells. These cells contain chloroplasts, which house the chlorophyll necessary for capturing sunlight. While leaves are the main sites, photosynthesis can also occur in green stems and other green parts of the plant that contain chlorophyll.
The structures in most seed plants where the food-making process occurs are the chloroplasts. Inside the chloroplasts, photosynthesis takes place, where carbon dioxide, water, and sunlight are converted into glucose (sugar) and oxygen. These chloroplasts are mainly found in the cells of the leaves, where they capture sunlight and produce food for the plant.
Seed germination typically takes place in the soil. The seed absorbs water from the soil, which triggers the germination process by initiating metabolic functions that allow the seedling to sprout and grow.
A seed itself is not an autotroph; it is a reproductive structure that contains the embryo of a plant along with stored nutrients. Autotrophs, such as plants, are organisms that can produce their own food through processes like photosynthesis. Once a seed germinates and develops into a plant, it becomes an autotroph capable of photosynthesis.
Both algae and seed plants are photosynthetic organisms that produce their own food through photosynthesis. They both contain chlorophyll and other pigments that help capture sunlight for energy production. Additionally, both groups of organisms can reproduce sexually and asexually.
Most seed plants live on sunlight, water, and nutrients from the soil. They use sunlight to produce energy through photosynthesis, absorb water through their roots, and obtain essential nutrients from the soil to support their growth and development.
Making of food by photosynthesis and in germinating seed
The structures in most seed plants where the food-making process occurs are the chloroplasts. Inside the chloroplasts, photosynthesis takes place, where carbon dioxide, water, and sunlight are converted into glucose (sugar) and oxygen. These chloroplasts are mainly found in the cells of the leaves, where they capture sunlight and produce food for the plant.
Stored energy. plants are always doing photosynthesis. it gets stored for the winter.
Seed germination typically takes place in the soil. The seed absorbs water from the soil, which triggers the germination process by initiating metabolic functions that allow the seedling to sprout and grow.
Wind dispersal is natural which takes place when the wind blows away the plant's seed from the parent plant. There are also certain plants which depend on the wind to carry away their seeds for e.g. dandelion,maple,fern,mosses etc. These plants have a seed like a parachute which makes it easy for the wind to carry the seed away.There is one more important thing which is compulsory for the wind dispersal and it is that the seed should be in a large amount so that the wind can carry them away and the other is that the site should be suitable for a seed to grow.
The presence of two seed leaves is a characteristic of dicotyledonous plants. These seed leaves contain nutrients for the seedling until it can produce its own energy through photosynthesis.
Non-seed plants evolved from seed plants.
What happens in the soil is called germination and what happens is the fertile seed is planted and the roots go down into the ground to collect the nutrients for when the plants pop out of the ground
Photosynthesis is a circle of life that mainly happens to plants. Going from a seed to a sprout to leaves and then to a huge plant then it dies.
The plant absorbing water.
Chloroplasts are not plants, but rather organelles found in plant cells that are responsible for photosynthesis. Seedless plants, like ferns and mosses, reproduce via spores, while seed plants reproduce via seeds. Chloroplasts are found in both seedless and seed plants, as they are essential for the process of photosynthesis.
Because nutrients are already inside seed kind of pre packaged. Just enough to let the plant grow above the surface and then photosynthesis takes over