Class 10 SELINA Solutions Biology Chapter 7 - Chemical Coordination in Plants

(c) Ethylene

(d) Ethylene

(c) Abscisic acid

(b) Cytokinins 

(c) Parthenocarpy 

(b) Tropism 

(d) Auxins

(d) Thigmotropism

(c) Clinostat

(c) ABA

(a) Growth of root towards water is hydrotropism.

(b) Cytokinin hormone inhibits apical dominance.

(c) Sugars and peptones induce chemotropism of angiosperms and gymnosperms.

(d) Tendrils of sweet peas exhibit thigmotropism.

(e) Abscisic acid is also called as "stress hormone".

Differences between movement in plants and movement in animals:

(a) Cytokinin

(b) Abscisic acid

(c) Indole 3-acetic acid (IAA)

(a) Phytohormones: Hormones in plants are called phytohormones.

(b) Tropism: Movements in plants in which the direction of the response is related to the direction from which the stimulus comes is called tropism.

(c) Clinostat: Clinostat is an instrument which can allow a potted plant to rotate at a slow speed to demonstrate geotropism.

(d) Apical dominance: The phenomenon of the suppression of growth of lateral buds by apical buds is called apical dominance.

(e) Parthenocarpy: Development of fruits without fertilisation is called parthenocarpy.

(f) Abscission: Abscission is the falling off or shedding of various plant parts such as leaves, buds, flowers and fruits.

(g) Heliotropism: The phenomenon in which the young flower heads follow the sun across the sky as it moves from east to west direction is called heliotropism.

Plant growth hormones and their roles:

(a) Differences between thigmotropism and geotropism:

(b) Differences between positive tropism and negative tropism:

(c) Differences between stimulus and response:

(d) Differences between phototropism and chemotropism:

(a) Apical dominance

(b) Auxins

(c) Cytokinins

(a) Ethylene

(b) Characteristic features of ethylene:

• Site of synthesis:

o It is synthesised in senescent leaves and flowers, germinating seeds and ripening fruits.

• Functions:

o Induces and promotes fruit ripening

(a) Chemotropism. It is the phenomenon of growth of plant organs in response to chemicals.

(b) (1): Pollen grain, (2): Pollen tube, (3): Ovule, (4): Ovary.

(c) Sugars and peptones.

(d) Gymnosperms and angiosperms.

(a) X: Stem tendrils, Y: Leaf tendrils.

(b) Functions of X and Y: Stem and leaf tendrils enable the plant to climb up a support.

(c) Thigmotropism. It is the growth movement of plant parts in response to touch stimulus.

(d) Stem tendrils (X) arise from the stem while leaf tendrils (Y) arise from the leaf of the plant.

(e) Sweet pea, vines and Cuscuta.

(a) Figure A is correct. The roots always move towards the ground in search of water and minerals. The stem always grows upwards in the direction of sunlight.

(b) The root system shows geotropism. Movement of plant parts towards earth's gravity is called geotropism. The shoot system shows phototropism. Movement of plant parts in the direction of light is called phototropism.

(c) Gravity affects root system positively and the response exhibited by the roots is called positive geotropism. Sunlight affects the shoot system positively and the response exhibited by the shoots is called positive phototropism.

(d) Roots of some plants grow towards source of water, but gravity has an independent and much stronger effect on the direction of root growth.

(e) Longitudinal section of a pistil showing chemotropism in an angiospermic plant

(a) The figure shows phototropism. The growth movement of plant parts in the direction of light is called phototropism.

(b) Geotropism is the growth movement of plant parts towards earth's gravity while phototropism is the growth movement of plant parts towards light.

(c) Touch is the stimulus responsible for thigmotropism. Cuscuta shows thigmotropism.

(d) Gravity gives a positive response for the roots but a negative response for the shoot.

(e) Leaf tendril of sweet pea plant: