Nettet27. jan. 2024 · The rate of transpiration is reduced considerably due to structural modifications like the presence of thick cuticle, rolling leaf, hard leaf, sunken stomata, and so on. Phylloclades and cladodes of Opuntia, Ruscus, and Asparagus are specially modified structures to further reduce the rate of transpiration. Root Shoot ratio Nettet5. mar. 2024 · Transpiration refers to the loss of water from the body of plants so leaves has small pores which is used by the plant to regulate internal temperature. Sunken stomata lower the rate of transpiration because it is not directly exposed to the surface which protects the escaping water vapor due to air.
Which of the following would tend to increase transpiration?
NettetWhich of the following structural features of plants would NOT be expected to reduce transpiration? A. abundant epidermal hairs on leaves and stems B. stomata on upper and lower surfaces of the leaves C. sunken stomata D. thick cuticle on leaves and stems E. reduced leaf size B Which of the following is a plant tissue system? A. Vascular tissue NettetC 4 plants reduce the need to frequently open stomata by creating a high carbon dioxide concentration in the bundle sheath cells, which conduct the Calvin cycle. Regardless of photosynthetic pathway, plants can open and close stomata to regulate transpiration … name of the pink ladies
Transpiration: Definition, Types, Significance, Factors - Embibe
NettetWhen stomata are open, however, water vapor is lost to the external environment, increasing the rate of transpiration. Therefore, plants must maintain a balance … NettetWith decrease in atmospheric pressure, the rate of transpiration will (a) increase (b) decrease rapidly (c) decrease slowly (d) remain the same Solution:- (a) increase 3. The rate of transpiration is more when (a) atmosphere is dry (b) temperature is high (c) humidity is high (d) atmosphere is dry and temperature is high Solution:- NettetWhen stomata are open, however, water vapor is lost to the external environment, increasing the rate of transpiration. Therefore, plants must maintain a balance between efficient photosynthesis and water loss. Plants have evolved over time to adapt to their local environment and reduce transpiration (Figure 5). meeting successful singles