Transpiration is the process by which plants release water vapor into the atmosphere through tiny pores in their leaves. It plays a crucial role in the overall water cycle and helps in regulating the temperature of plants.
On the contrary, the antonyms of transpiration refer to the processes that involve the absorption and retention of water by plants. These mechanisms are essential for sustaining the hydration and nourishment of plants, ensuring their growth and vitality.
Understanding the antonyms of transpiration provides insights into the intricate ways in which plants manage their water content, highlighting the balance between water uptake and loss in their survival strategy.
Example Sentences With Opposite of Transpiration
Antonym | Sentence with Transpiration | Sentence with Antonym |
---|---|---|
Retention | Water is constantly lost through transpiration | Water is being retained in the plant |
Absorption | Plants transpire water through their leaves | Plants prevent absorption of water |
Dryness | Transpiration helps in moving water through plant | Lack of transpiration causes dryness in plants |
Stillness | Transpiration creates movement of water in plants | Lack of transpiration results in stillness in plants |
Moisture | Plants release water vapor through transpiration | Plants conserve moisture within their tissues |
Humidity | Transpiration increases the humidity levels | Lack of transpiration reduces humidity around the plant |
Stagnation | Transpiration leads to movement in plant tissues | Without transpiration, there is stagnation in water movement |
Saturation | Plants regulate water levels through transpiration | Plants avoid saturation of water in their tissues |
Inactivity | Transpiration is an important activity in plants | Inactivity in plants leads to an absence of transpiration |
Conservation | Transpiration involves loss of water in plants | Conservation of water is maintained in the absence of transpiration |
Rehydration | Plants need transpiration for water regulation | Lack of transpiration results in the need for rehydration |
Moistening | Transpiration causes leaves to release water vapor | Absence of transpiration results in a lack of moistening in plant tissues |
Imbibition | Water is lost through transpiration in plants | Imbibition of water in the plant tissues is hindered by a lack of transpiration |
Wetness | Plants lose water through transpiration | Plants avoid excessive wetness in their tissues by controlling transpiration |
Dampness | Transpiration contributes to moist conditions | Lack of transpiration leads to absence of dampness in the plant environment |
Sogginess | Water loss through transpiration occurs in plants | Plants maintain firmness by avoiding sogginess through controlled transpiration |
Dehydration | Plants require sufficient water to carry out transpiration | Lack of water leads to dehydration in the absence of transpiration |
Aridity | Transpiration is essential for plant water regulation | Lack of transpiration leads to increased arid conditions in plants |
Clarity | Transpiration involves the movement of water in plants | Lack of transpiration results in the clarity of water movement |
Desiccation | Plants release water through transpiration process | Absence of transpiration leads to plant desiccation |
Drought | Transpiration contributes to the water loss in plants | Plants experience drought conditions when transpiration is impeded |
Hydration | Water movement in plants occurs through transpiration | Plants relying on hydration avoid excessive transpiration |
Sprinkling | Transpiration process involves release of moisture | Absence of transpiration prevents plant sprinkling effect |
Saturation | Plants control water levels through transpiration | Plants prevent saturation by regulating transpiration |
Quenching | Plants lose water through the process of transpiration | Plants need additional water for quenching thirst when transpiration is high |
Waterlessness | Transpiration results in water loss in plants | Lack of transpiration causes waterlessness in plants |
Moistness | Plants release water vapor through transpiration | Lack of moistness occurs when transpiration is limited |
Humidification | Transpiration increases the humidity in plant environment | Reduced humidification happens when transpiration is low |
Waterlogged | Plants avoid becoming waterlogged by transpiration | Waterlogging is prevented by effective transpiration regulation |
Fertility | Transpiration aids in water circulation in plants | Fertility of the soil decreases with limited transpiration in plants |
Watering | Plants lose water through the process of transpiration | Focused watering helps to compensate for water lost in transpiration |
Deluge | Transpiration contributes to the water cycle in plants | Absence of transpiration causes deluge in water storage |
Evaporation | Water is lost through transpiration in plants | Absence of evaporation in plants is seen when transpiration is low |
Rehydration | Plants depend on transpiration to regulate water levels | Rehydration is required due to increased water loss if transpiration is excessive |
Parchedness | Transpiration is the process of water loss in plants | Parchedness is avoided by maintaining balanced levels of transpiration |
Waterfall | Plants manage their water content through transpiration | Absence of waterfall effect is seen when transpiration is minimal |
Swamping | Transpiration prevents excessive water accumulation in plants | Without transpiration, plants are at risk of swamping with water |
Conservation | Plants lose water through the process of transpiration | Water conservation is essential to counter the effects of transpiration |
More Example Sentences With Antonyms Of Transpiration
Antonym | Sentence with Transpiration | Sentence with Antonym |
---|---|---|
Absorption | Transpiration is the process of water movement through plants. | Absorption is the process of water uptake by plants. |
Moisture | Plants release water vapor through transpiration. | Plants become dry due to reduced moisture. |
Humidity | High levels of transpiration can increase atmospheric humidity. | Reduced levels of humidity can decrease transpiration. |
Retention | Transpiration helps in the removal of excess water from plants. | Retention of water in plants can hinder transpiration. |
Dryness | Transpiration can lead to dryness in plant leaves. | Reduced transpiration can prevent dryness in leaves. |
Sogginess | Transpiration helps in maintaining plant tissues without excessive sogginess. | Lack of transpiration may lead to increased sogginess in plants. |
Preservation | Transpiration is essential for water regulation, unlike preservation. | Preservation of water can hinder transpiration in plants. |
Conservation | Conservation of water can lead to reduced transpiration in plants. | Transpiration plays a role in water consumption, unlike conservation. |
Hydration | Plants can lose excess water through the process of transpiration. | Plants need water for their hydration, unlike transpiration. |
Saturation | Transpiration can lead to plants being less saturated with water. | Increasing water intake can result in plant saturation and reduced transpiration. |
Moist | Transpiration can make the soil around plants dry and devoid of moisture. | Regular watering ensures that the soil remains moist and prevents excessive transpiration. |
Humidify | High temperatures and bright light can increase transpiration and humidity levels indoors. | Reducing light exposure and maintaining appropriate temperatures can help dehumidify and decrease transpiration. |
Waterlogged | Proper transpiration allows plants to avoid becoming waterlogged. | Inadequate transpiration can lead to plants being waterlogged due to excess water accumulation. |
Irrigation | Transpiration is a natural process that differs from irrigation, which involves human actions to supply water to plants. | Adequate irrigation can prevent excessive transpiration and maintain plant hydration levels. |
Moistened | Reduced transpiration rates can prevent leaves from becoming moistened. | Moistened leaves may indicate higher levels of transpiration within a plant. |
Dampen | Transpiration can help dampen the soil by regulating water levels in plants. | Soil may remain dry if transpiration rates are low and fail to dampen the surroundings. |
Waterless | Transpiration aids in the removal of excess water, preventing plants from becoming waterless. | Lack of transpiration can lead to plants becoming waterless and dehydrated. |
Drought | High transpiration rates can exacerbate drought conditions in plants. | Reduced transpiration can help plants survive during drought periods. |
Soaked | Proper transpiration ensures that plants do not become soaked or waterlogged. | Increased transpiration can lead to plants becoming soaked due to excessive water loss. |
Decomposed | Transpiration prevents plant tissues from becoming too decomposed due to excess water. | Lack of transpiration can cause plant tissues to become decomposed from water accumulation. |
Parched | Transpiration can lead to plant leaves becoming parched when water loss exceeds intake. | Maintaining appropriate water levels can prevent leaves from becoming parched due to transpiration. |
Dry | Transpiration can cause plants to appear dry if excessive water loss occurs. | Regular watering can prevent plants from becoming dry due to transpiration. |
Untouched | Transpiration is a natural process that ensures plants are not left untouched by water regulation mechanisms. | Reduction in transpiration rates can leave plants untouched by water loss, affecting their health. |
Barren | Transpiration ensures that plants remain healthy and do not become barren due to dehydration. | Lack of proper transpiration can lead to plants becoming barren and unable to grow due to water loss. |
Fertile | Proper transpiration allows plants to maintain their health and soil to remain fertile. | Inadequate transpiration can lead to soil becoming dry and less fertile for plant growth. |
Outro
Antonyms of transpiration, opposite of transpiration and transpiration ka opposite word are the same thing. In contrast to transpiration, which is the process of water movement through plants and the subsequent release of water vapor into the atmosphere, the opposite phenomenon occurs when water is absorbed and retained within the plant structure. This process, known as absorption, involves the uptake of water and nutrients by plant roots, promoting growth and overall plant health.
Absorption plays a crucial role in the survival and functioning of plants, as it enables the transportation of essential water and nutrients throughout the plant to support various physiological processes. Unlike transpiration, which can result in water loss and stress on plants, absorption contributes to maintaining proper hydration levels and promoting efficient nutrient uptake for plant growth and development.
Understanding the balance between transpiration and absorption is essential for optimizing plant health and productivity. By ensuring adequate water availability and promoting efficient nutrient absorption, plant growth can be supported, leading to healthier and more resilient plants capable of thriving in diverse environmental conditions.