plant growth and development
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Plant Growth and Development. Types of Growth. Apical meristem: plant tissue made of actively dividing cells. Primary growth and located at the tip of roots and shoots. All growth at the apical meristem is called primary growth which increases the height, not the width. - PowerPoint PPT PresentationTRANSCRIPT
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Plant Growth and Development
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Types of Growth Apical meristem: plant tissue made of
actively dividing cells. Primary growth and located at the tip of roots and shoots.
All growth at the apical meristem is called primary growth which increases the height, not the width.
Secondary growth arises from lateral meristems and that increases the width of a plant.
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Shoot Primary Growth Begin with mitosis and
once cell division occurs, each cell grows longer.
Then elongated cells specialize (differentiate) into different cell types: parenchyma, epidermal, vascular.
Tissues form stems, leaves, and organs for sexual reproduction.
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Root Primary Growth Root apical meristems produce the cells of
the root cap and all other cell types in the root.
There are several zones in the root: Root cap: protects the meristem as it pushes
through the soil. Zone of elongation: most cells stop dividing but
increase in length. Phloem matures and xylem starts to form.
Zone of cell division: cells formed by meristem continue to divide.
Zone of maturation (differentiation): tissues of the root begin to take on specialized roles. Root hairs begin to form.
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Secondary Growth Happens in woody plants after the first
season. Wood is a product of secondary growth from
lateral meristem The vascular cambium is an example of a
lateral meristem as it gives rise to secondary phloem and secondary xylem
Cork cambium is another example as it makes the cells that form the bark
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Tropisms and Growth Regulators Tropisms are growth responses to external stimuli.
Positive tropisms are growths towards the stimulus Negative tropisms are growths away from the
stimulus Phototropism: stems show a positive tropism
response to sunlight, where roots show a negative tropism response.
Gravitropism: stems show negative to gravity, where roots show positive.
Thigmotropism: is a change in the direction of growth in response to contact. Climbing vines are an example.
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Hormones There are three groups of plant hormones: auxins,
gibberellins, cytokinins. Auxins
Plants like grasses have a sheath that covers young leaves as the seedling emerges from the ground. This sheath responds to sunlight by bending towards it.
Auxin is released from the apical bud (tip) when exposed to light and travels away from the light and downwards, causing the cells to elongate.
This results in an uneven elongation of cells, and the stem bends towards the light.
Produced in the roots by the apical meristems. Helps the roots grow with gravity, and works the opposite to stem
cells, high amounts of auxin, inhibit elongation. Help roots grow around rocks.
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Some herbicides contain auxins that cause plants to undergo elongation at an unsustainably rapid rate and die.
Synthetic auxins are used to induce cell elongation in fruits.
If you cut off the apical bud, you can stunt the growth of the plant and possibly cause the plant to grow more flowers, fruit or leaves.
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Gibberellins Produced in apical meristems AND in leaf
chloroplasts Work with auxins to elongate stems and roots Promote leaf growth and flowering Seed germination Controls fruit development We spray fruit with gibberellins, to get larger
fruit.
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Cytokinins Promote cell division and cell
differentiation Seed germination and flowering Prevent plant from aging too quickly Florists spray cut flowers to keep them
alive longer.