(brooke,13) water is soaked up through roots & carbon dioxide is just absorbed Carbon dioxide is absorbed by the following process. There is a spongy mesophyll, a loose tissue with many air spaces between its cells. These air spaces connect with the extrerior through stomata porelike openings in the underside of the leaf that allow carbon dioxide and oxygen to diffuse into and out of the leaf.
Through stomata, which are pores on leaves that allow carbon dioxide to enter the cells and oxygen and water to leave. The opening and closing of a stoma (singular) is controlled by guard cells.
CO2 diffuses into the leaf through holes called stomata. These are found on the underside of the leaf and can be controlled as too how open and shut they remain. They are necessary because the leaf is covered ina waxy cuticle preventing gas diffusing in.
Through stomata, which are small mouth-like structures on the leaf responsible for gas exchange (O2 and CO2).
through the stomata
CO2 enters through stomata. They are tiny pores on leaves.
Amphistomatous describes a certain type of leaf morphology in drought adapted plants. These plants have stomates (the openings in the epidermis which allow CO2 to diffuse into the leaf) on both sides of the leaf.
Gas exchange for photosynthesis - CO2 from the air diffuses into the leaf, and 02 diffuses out of the leaf into the air
In photorespiration, O2 replaces CO2 in a non-productive, wasteful reaction. Photorespiration occurs when the CO2 levels inside a leaf become low, which happens on hot dry days when a plant is forced to close its stomata to prevent excess water loss.
ok...well, the answer is simple yet complicated... the sun sends down photonic radiation, when it shines on the earth. the photonic radiation [light and heat from the sun] then hits the leaf. the moving of the photons is one form of kenetic energy. the clorophyyl in the leaf's cells then work like solar panels. it gets heated by the sun's photonic radiation and UV radiation, and it is converted into ,well, Oxygen, water, and some type of sugar. the clorophyyl does this by bringing in CO2 [carbon dioxide] from the atmosphere. then, the CO2 is compounded with water, and forms sugar, extra water, and oxegen. the excess water and oxygen is "squirted" outside, while the sugar is converted into energy inside the cell, or stored. the bringing in of CO2 and expelling O2 is the kenetic energy.
CO2 and H2O
Stomata
The leaf collects Carbon Dioxcide (CO2) and somehow turns it into Oxygen
The leaf first takes in Carbon Dioxide, or CO2, into it's self through the bottom of the leaf. It uses the CO2 and makes sugars out of it, water, and sunlight. This reaction makes a byproduct, Oxygen, that the leaf lets out, which we use to breathe.
Stomata
CO2/carbon dioxide
photosynthesis
sunlight, water and CO2.
what does a leaf do on a plantRespiration: It draws in outside air for its CO2 content, expires O2Photosynthesis: Where Co2 is converted into sugar.Excretes excess water.Produces toxins to ward off herbivores.
what does a leaf do on a plantRespiration: It draws in outside air for its CO2 content, expires O2Photosynthesis: Where Co2 is converted into sugar.Excretes excess water.Produces toxins to ward off herbivores.
carbon dioide does not leave the leaf but oygen does
RUBP or PEP will absorb it. CO2 enter the leaf from air.