Osmosis
Adhesion and cohesion properties of water allow plants to draw liquid up from their roots through capillary action. Water molecules stick to each other (cohesion) and to the walls of the plant's vascular system (adhesion), creating a continuous column of water that can be pulled up through the plant by transpiration (loss of water through leaves).
hydrogen bonding of the water and water potential gradient between the soil and the roots. the process is driven by transpiration of plants
When roots grow on rocks, it is known as lithophyte or lithophytic growth. This adaptation allows plants to anchor themselves and absorb nutrients from the rock's surface.
Wow, biology does come in handy! Anyway, certain plants grow new roots because it's a way of asexual reproduction for that plant. Many cacti do this. They drop stems or branches that grow roots and become clones of the original plant.
roots are adapted to absorb vitamins and minerals by absorbing water through there semi permeable membrane on the roots. this membrane (skin) allows some things to pass through it will bigger things will be stopped
hydrogen bonding of the water and water potential gradient between the soil and the roots. the process is driven by transpiration of plants
hydrogen bonding of the water and water potential gradient between the soil and the roots. the process is driven by transpiration of plants
Adhesion and cohesion properties of water allow plants to draw liquid up from their roots through capillary action. Water molecules stick to each other (cohesion) and to the walls of the plant's vascular system (adhesion), creating a continuous column of water that can be pulled up through the plant by transpiration (loss of water through leaves).
hydrogen bonding of the water and water potential gradient between the soil and the roots. the process is driven by transpiration of plants
osmosis
The liquid found in the roots and stems of plants is sap. In the leaves, this liquid is called leaf sap or leaf water.
plasmodesmata
Plants absorb water and nutrients from the soil though their roots.
hydrogen bonding of the water and water potential gradient between the soil and the roots. the process is driven by transpiration of plants
When roots grow on rocks, it is known as lithophyte or lithophytic growth. This adaptation allows plants to anchor themselves and absorb nutrients from the rock's surface.
Roots don't have roots, plants have roots.
what would happen to plants nutrition if plants did not have roots