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It takes the seed more faster and it might take the seed to some place it can't grow.
Rate of transpiration increases with the increased wind velocity upto certain limit thereafter it starts declining due to closure of stomata.
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What environmental factors increased the rate of transpiration?
Heat and wind.
What is the rate of transpiration effected by?
The rate of traspiration is effected by light intensity, humidity and wind velocity etc.
Where is the stomata in lotus and why?
Stomata in lotus are primarily located on the upper surface of the leaves. This adaptation helps to minimize water loss through transpiration by reducing exposure to sunlight and wind, which can promote evaporation. The positioning of stomata on the upper surface also allows for efficient gas exchange and absorption of carbon dioxide.
How does wind affect tsunamis?
Wind does not affect tsunamis.
How does wind speed affect tsunamis?
Wind does not affect tsunamis.
How does mist affect the rate of transpiration?
How does humidity affect the rate of transpiration
How does a type of plant affect transpiration?
*stomata -open-increased transpiration -closed-decreased transpiration *consequence of gas exchange -tradeoff of more gas exchange resulting in more transpiration *environmental factors -humidity -air movement -evaporative cooling -wind stress -intense light/heat
How wind affects the rate of transpiration?
Think of a puddle of water evaporating on the ground. Will that puddle evaporate more quickly with wind or without wind? The water molecules will only evaporate when they gain enough kinetic energy to break free and become vapor. Wind facilitates this by giving the molecules that extra push of energy. The same applies to plants and transpiration. Wind will increase the rate of transpiration and water-loss through the leaves of a plant. However, initial water-loss triggers the closing action of the stomata (openings by which water evaporates) and transpiration rate will slow.
Does a leaf sweat?
By transpiration. Water molecules pass out of the leaf by diffusion following the concentration gradient from higher concentration to lower concentration. The rate of transpiration varies. Factors that affect the rate of transpiration includes wind speed, light intensity, temperature and humidity
What factors effect the rate of transpiration?
Humidity - increased humidity decreases transpiration, as the air is already saturated with water, and so the water potential gradient is smaller, and so less water is lost by transpiration. Temperature - increased temperature increases transpiration as the water has a greater kinetic energy and so there is more evaporation of water. Wind/air movement - in still air, a shell of highly saturated air surrounds the air, decreasing the water potential gradient and decreasing transpiration rate, but wind destroys this shell of saturated air so there is a bigger water potential gradient, amd more transpiration. Light intensity - light is needed for the stomata to open - they do not open at night time (unless the plants are xeromorphically adapted desert plants or plants living in other harsh environments such as salt marshes). Internal factors that affect transpiration are the number of stomata, leaf area, the cuticle (thick waxy cuticles prevent water loss, whilst thinner and less waxy cuticles allow more water to be lost. Distribution of stomata also affects transpiration - most plants have most of the stomata on the lower surface of the leaf where the stomata are less exposed to environmental conditions.
What increase the rate of transpiration in a plant?
The rate of transpiration depends on some environmental factors such asTemperature and windWhen the temperature is high rate of evaporation increases as warm air can hold more water vapours than the cold air. Windy condition also increase the rate of transpiration as wind remove water vapours from around the leaf. HumidityWhen there is more humidity in air, transpiration would be considerably low as the air is already saturated with water vapours and it will be unable to absorb more water so little water will diffuse out of the leaves. LightLight greatly influences the opening and closing of stomata. During day light the stomata remain open and allow water vapours from the leaves to diffuse into the atmosphere. Atmospheric pressureReduction in the atmospheric pressure enhances the rate of transpiration.
What environmental factors increased the rate of transpiration?
Heat and wind.
What is the rate of transpiration effected by?
The rate of traspiration is effected by light intensity, humidity and wind velocity etc.
Do windy days decrease a plant's evaporative water loss?
wind at greater speeds cause the plant to close their stomata(pores underneath the leaves) to close to prevent water loss reducing transpiration. medium speeds cause plant to transpire more, because it removes more water molecules around the stomata while they stay open and it brings more CO2 to the plant. no wind speeds allow the stomata to remain open and water molecules to stay around the stomata reducing the amount of water loss, causing only some transpiration.
How are the opening and stomata related to transpiration When does transpiration occur?
opening and closing of stomata occurs due to turgor changes in guard cells ....................due to exchange of gases carbon dioxide accumulate creating acidic nature resulting in favourable conditions for conversion of starch to glucose ...........glucose being soluble in water increases solute content resulting in endosmosis ..................this results in pulling apart of the opposed inner thicker walls creating an open pore in gaurd cells of stomata
How does light affect the gradient of water potential of a plant leaf?
Transpiration regulates how much water moves through the plant. In hot dry air, more water will evaporate out of the stomates resulting in a higher transpiration rate. Light, or temperature, can therefore increase transpiration. Wind will evaporate more water from the leaf's boundary layer resulting in a higher transpiration rate. Humidity or moisture will lower transpiration because less water will evaporate out of the stomates.
Where is the stomata in lotus and why?
Stomata in lotus are primarily located on the upper surface of the leaves. This adaptation helps to minimize water loss through transpiration by reducing exposure to sunlight and wind, which can promote evaporation. The positioning of stomata on the upper surface also allows for efficient gas exchange and absorption of carbon dioxide.
