The heart itself is the first organ to receive blood from the cardiovascular system. Its blood vessels stem directly from the base of the aorta.
Water, nutrients, and sugar produced during photosynthesis are transported through a plant's vascular system. Water is absorbed by the roots and travels upward through the xylem, while nutrients and sugars move through the phloem to different parts of the plant for growth and energy.
Neither. They are decomposers, not plants.
Water and nutrients taken in by the roots are transported upward through the plant's vascular system, mainly through the xylem tissue. The water moves up to the stems and leaves to support processes like photosynthesis. Nutrients are also distributed to various parts of the plant to support growth and metabolic functions.
Yes, rice plants are non-vascular, meaning they do not have specialized tissues to transport water and nutrients. Instead, water and nutrients are absorbed directly through the roots and distributed through the plant by diffusion.
The three types of tissue in plants are dermal tissue, ground tissue, and vascular tissue. Dermal tissue covers the outer surface, ground tissue forms the bulk of the plant body, and vascular tissue transports water and nutrients.
Water and nutrients are transported through bryophytes by a process called osmosis and diffusion. Bryophytes lack vascular tissues, so they rely on these passive processes to move water and nutrients from cell to cell within their structures.
True. Nutrients and waste products are transported throughout an organism in solution, usually through the circulatory system in animals or through the vascular system in plants.
Water, nutrients, and sugar produced during photosynthesis are transported through a plant's vascular system. Water is absorbed by the roots and travels upward through the xylem, while nutrients and sugars move through the phloem to different parts of the plant for growth and energy.
In bryophytes, water and nutrients are transported through the plant by diffusion and osmosis. These plants do not have vascular tissues like xylem and phloem found in higher plants, so they rely on simple diffusion to move water and nutrients from cell to cell. This limits the size that bryophytes can grow to.
Water and nutrients are transported to the leaves by the xylem tissue in plants. These essential substances are absorbed by the roots and then move upward through the plant's vascular system to reach the leaves where photosynthesis occurs.
No, the lens of the eye is avascular, meaning it does not have blood vessels. It receives nutrients and oxygen through the aqueous humor and the surrounding fluids in the eye.
Water and minerals are absorbed by the root hairs of a vascular plant from the soil through osmosis and active transport. The water and minerals are then transported through the plant's vascular system, xylem, to reach all cells in the plant, providing nutrients and maintaining turgor pressure.
Water and food substances or nutrients are transported throughout the plant through the vascular bundle formed from the cambium. Xylem transports water from the roots to the leaves. The water it transports is needed by the plant in photosynthesis. After photosynthesis, sugar and other nutrients are produced and they are transported throughout the plant by the phloem. " Hope this will help.
Xylem transports water up to the leaves.Water:Is absorbed from the soil through root hair cellsIs transported through the xylem vessels up the stem to the leaves.Evaporates from the leaves (transpiration)But the phloem transports nutrients to the leaves.
Neither. They are decomposers, not plants.
Water and nutrients taken in by the roots are transported upward through the plant's vascular system, mainly through the xylem tissue. The water moves up to the stems and leaves to support processes like photosynthesis. Nutrients are also distributed to various parts of the plant to support growth and metabolic functions.
Yes, rice plants are non-vascular, meaning they do not have specialized tissues to transport water and nutrients. Instead, water and nutrients are absorbed directly through the roots and distributed through the plant by diffusion.