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Transcript
Chapter 27 Control of Growth and Responses in Plants Outline Plant Responses Tropisms Nastic Movements Plant Hormones Auxins Gibberellins Cytokinins Abscisic Acid Ethylene Photoperiodism Control of Growth and Responses in Plants 2 Plant Responses Control of Growth and Responses in Plants 3 Tropisms Plant growth toward or away from a unidirectional stimulus is called a tropism - Positive is towards stimulus - Negative is away from stimulus Phototropism - Light Gravitropism - Gravity Thigmotropism - Touch Phototropism 4 Phototropism Control of Growth and Responses in Plants 5 Positive phototropism: Occurs because cells on the shady side of the stem elongate A pigment related to riboflavin thought to act as a photoreceptor when phototropism occurs - Auxin migrates to shady side of stem - Shady sides elongate faster than bright side Gravitropism Control of Growth and Responses in Plants When a plant is placed on its side, the stem grows upward, opposite of the pull of gravity Stems with root caps grow downward Root cells contain statoliths Auxin is responsible for: Positive gravitropism of roots, and Negative gravitropism of shoots 6 Gravitropism 7 Thigmotropism Control of Growth and Responses in Plants 8 Unusual growth due to contact with solid objects is called thigmotropism Coiling of tendrils Thigmomorphogenesis occurs when the entire plant responds to the presence of environmental stimuli Wind Rain Coiling Response 9 Nastic Movements Control of Growth and Responses in Plants Nastic movements: Do not involve growth and Are not dependent on the stimulus direction Seismonastic movements result from: Touch Shaking, or Thermal stimulation Sleep movements: Occur daily in response to light and dark changes Prayer Plant 10 Seismonastic Movement 11 Sleep Movement 12 Circadian Rhythms Control of Growth and Responses in Plants A circadian rhythms: Biological rhythms with a 24-hour cycle Tend to be persistent - Rhythm is maintained in the absence of environmental stimuli - Caused by a biological clock 13 Plant Hormones Control of Growth and Responses in Plants Almost all communication on a plant is done by hormones Synthesized in one part of the plant Travels within phloem in response to the appropriate stimulus 14 Auxins Control of Growth and Responses in Plants 15 Auxin is produced in shoot and apical meristem and is found in young leaves and in flowers and fruits Apically produced auxin prevents the growth of axillary buds - Apical dominance Weak solution of auxin applied to woody cutting causes rapid growth of adventitious roots - Promotes fruit growth Apical Dominance 16 Demonstrating Phototropism 17 How Auxins Work Control of Growth and Responses in Plants Auxins bind to plasma membrane receptors Activated proton pumps H+ out of cell Cell wall loosens Turgor pressure increases due to the entry of water Cell enlarges 18 Auxin Mode of Action 19 Gibberellins Control of Growth and Responses in Plants Gibberellins: Growth promoting hormones Bring about elongation of the resulting cells Gibberellic acid - Stem elongation - Breaking of dormancy 20 Effect of Gibberellins 21 Gibberellic Acid: Structure and Mode of Action 22 Cytokinins Control of Growth and Responses in Plants Cytokinins A class of plant hormones that promote cell division Derivatives of adenine - Prevent senescence - Initiate growth 23 Interaction of Hormones 24 Abscisic Acid Control of Growth and Responses in Plants 25 Abscisic acid (ABA): Initiates and maintains seed and bud dormancy, and Brings about closure of stomata Produced by: - Any “green tissue” with chloroplasts - Monocot endosperm, and - Roots Abscisic Acid: Control of Stoma Opening 26 Ethylene Control of Growth and Responses in Plants 27 Ethylene is involved in abscission Once abscission has begun: - Ethylene stimulates certain enzymes - Cause leaf, fruit, or flower to drop Also ripens fruit by increasing activity of enzymes that soften fruit Functions of Ethylene 28 Photoperiodism Control of Growth and Responses in Plants 29 Photoperiodism: Any physiological response prompted by changes in day or night length - Short-day plants - Long-day plants - Day-neutral plants Some plants may require a specific sequence of day lengths in order to flower Photoperiodism and Flowering 30 Phytochrome Control of Growth and Responses in Plants Phytochrome is a blue-green leaf pigment that alternately exists in two forms Phytochrome red (Pr) Phytochrome far-red (Pfr) Conversion of forms allows a plant to detect photoperiod changes Also promotes seed germination and inhibits stem elongation 31 Phytochrome Conversion Cycle 32 Phytochrome Control of Growth Pattern 33 Review Plant Responses Tropisms Nastic Movements Plant Hormones Auxins Gibberellins Cytokinins Abscisic Acid Ethylene Photoperiodism Control of Growth and Responses in Plants 34 Ending Slide Chapter 27 Control of Growth and Responses in Plants
