water, nutrients and sugars
Vascular tissue in plants can be compared to the transportation system in a city. Just like how roads and highways help transport people and goods efficiently, vascular tissue in plants helps transport water and nutrients throughout the plant to support growth and function.
Xylem tubes are a part of the plant's vascular system that transports water and nutrients from the roots to the rest of the plant. These tubes are made up of elongated cells called tracheids and vessel elements, which are interconnected to form a network for efficient water conduction.
Simply put, it supplies the bodies tissues with oxygen it carries. After oxygen is extracted by the tissue it flows to the venous side of the vascular system and is carried back to the heart. It then goes through the lungs to remove CO2 and gain O2. Then the process continues. Overall, the vascular system supplies the body tissue with O2 and removes CO2. Hope this helps.
Mango plants have a taproot system, where the primary root grows vertically downward and gives rise to lateral roots. This taproot system helps mango plants anchor themselves firmly in the soil and reach deep water sources. In contrast, maize plants have a fibrous root system, consisting of thin, branching roots that spread out horizontally near the surface to efficiently absorb nutrients and water from the topsoil.
a plant with a long root system that goes deep into the ground
Vascular tissue in plants can be compared to the transportation system in a city. Just like how roads and highways help transport people and goods efficiently, vascular tissue in plants helps transport water and nutrients throughout the plant to support growth and function.
By xylem and phloem and by gravity it goes upward
Xylem tubes are a part of the plant's vascular system that transports water and nutrients from the roots to the rest of the plant. These tubes are made up of elongated cells called tracheids and vessel elements, which are interconnected to form a network for efficient water conduction.
Non-vascular plants, such as mosses and liverworts, primarily rely on diffusion for respiration. They lack specialized vascular tissues for transport and gas exchange, so oxygen and carbon dioxide are exchanged directly through their surfaces with the surrounding environment. This means that non-vascular plants must remain small and close to moist environments to ensure efficient respiration.
it goes though your digestive system and the nutrition from it gets absorbed by your body
it has many lateral poles witch branch off into each radial canal at the end of the tube feet. the tube feet an animal move
plant cells
the concentration of ions in one side of the cell membrane is higher than on the other, this difference in concentration provides the energy to allow the cell membrane to transport the water into the cell
an ecosystem it goes: cell-tissue-organ-organ system- organism- population-community-ecosystem-biosphere
it all depends on the animal, cow for example, have 4 organs that are like a stomache. birds, have a very different digestive system.
The two-party system goes back to the beginning. The first political parties were the Federalists (though John Adams was nominally a Federalist, Alexander Hamilton was the leading personality), and the Republicans (led by Thomas Jefferson).
A couple types are; Red blood cells. Plants certainly do not have a closed circulatory system. Neurons. Plants do not have brains and do not receive input from the body and no output goes to the body.