A nonvascular plant that you might find in your back yard would be a moss.
The venus flytrap does not have an excretory system like animals do. Instead, it absorbs nutrients from the prey it catches and digests it internally. Any waste that remains after digestion is recycled back into the plant through its vascular system.
First, the plant undergoes photosynthesis, as normal. Once the glucose is produced, it is turned into starch through a process called polymerization. This happens in the organelle known as the amyloplast. Once the amyloplast has turned the glucose into starch, it moves the starch to the stroma, which is the sponge-like material that gives support to the plant cell. The starch is stored here, until the plant needs the energy, at which point the starch gets turned back into glucose and is used to provide energy to the plant.
Water evaporates from the plant all the time.
A "stem" is a part of a plant. It is a vascular structure that supports heaves or flowers and connects these to the roots of the plant. It also sends the sugar that the plant makes up to the leaves for photosynthesis
The Vascular tissues, (xylem and phloem) transport water, nutrients and starch to various parts of the plant. Xylem tubes are present in the roots, water moves into the roots through osmosis and is pulled to the leaves due to a combination of transpiration pull and capillary action. Phloem tubes bring back starch (photosynthesized product/ simple sugar) and transport it to all parts of the plant body.
Hi my name is Juliet Handle and I am very good in science. (it's my favorite subject!) and I say yes a conifer is a vascular plant that has seeds but no flowers. come back more for some of my answers: what is a plant that is not vascular, what is a flowerless, seedless plant that is vascular, what is a plant with one seed leaf, what is the smallest flowering plant.
A nonvascular plant that you might find in your back yard would be a moss.
The pump that moves hot water through a hot water heater is the recirculation pump. This pump moves the water through the heater and back through the intake line.
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Your heart pumps it through your arteries to reach every part of your body to the cells. The veins then bring it back to the heart. This the cardiovascular System. This system circulates blood through out the body to supply cells and tissues with O2 and nutrients and remove and return CO2 and other wastes.
As in any other mammalian species, the pig eliminates wastes through the umbilical cord, and then the mother's vascular system moves it back into her bloodstream. From there it is metabolized in her liver/kidneys. It all happens through the bloodstream until the pig is born and his own digestive system and kidneys kick in.
The venus flytrap does not have an excretory system like animals do. Instead, it absorbs nutrients from the prey it catches and digests it internally. Any waste that remains after digestion is recycled back into the plant through its vascular system.
Water moves into the air through the process of evaporation. Water moves from the air the ground by the process of raining.
Non-vascular plantsnon vascular or contain none or less than needed vascular tissue.Seedless and most produce spores in the plant cycle.....Vascular Seedless PlantsHave or contain vascular tissue needed.Produce spores in the plant cycle.So the difference is....... Non-vascular plants are non vascular and Vascular Seedless Plants have vascular tissue!!!
The circulatory system (including specialized tissues) of plants which provide them with their essential nutrients, also including water and minerals. The xylem lies on the outside of a plant and carries the nutrients up to the parts of the plant (leaves, etc.). The phloem lies towards the inside of the plant and carries the waste back down towards the roots where it leaves the plant.
The process of water moving from a plant to the cloud and the other way around is described in the water cycle. Plants take up water from the soil through its roots after rainfall and gives it back to the atmosphere through evaporation from the leaves.