1. Annual plants
2. Floral parts
3. Vessels and tracheid differentiation
4. Leaf abscission
Floral parts
1. Cotton
2. Petunia
3. Lemna
4. Tobacco
Tobacco
1. Auxin, gibberellins and cytokinin
2. Gibberelli, cytokinin and auxin
3. Gibberllin, auxin and cytokinin
4. Cytokinin, auxin and gibberellins
5. Auxin, cytokinin and gibberellins
Gibberllin, auxin and cytokinin
1. It is used for water purification
2. In this technique, pressure greater than osmotic pressure is applied to the system
3. It is a passive process
4. It is an active process
It is a passive process
1. Temperature
2. Light
3. Wind speed
4. Chlorophyll content of leaves
Chlorophyll content of leaves
1. Dorsiventral leaf
2. Isobilateral leaf
3. Both A and B
4. None of the above
Dorsiventral leaf
1. Glucose
2. Fructose
3. sucrose
4. Ribose
sucrose
1. When the root pressure is high and the rate of transpiration is low
2. When the root pressure is low and the rate of transpiration is high
3. When the root pressure pressure equals the rate of transpiration
4. When the root pressure as well as rate of transpiration are high
When the root pressure is high and the rate of transpiration is low
1. Uptake of water by root hair
2. Ecchange of gases in stomata
3. Swelling of seed when put in soil
4. Opening of stomata
Swelling of seed when put in soil
1. Expoprted
2. Withdrawn
3. Translocated
4. None of the above
Withdrawn