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Plant timing responses

Plant timing responses. Like animals, plants have both exogenous and endogenous factors that control rhythms. Circadian rhythms shown by plants include: a) opening and closing of stomata b) sleep movements, for example, leaves of beans droop at night

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Plant timing responses

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  1. Plant timing responses

  2. Like animals, plants have both exogenous and endogenous factors that control rhythms. • Circadian rhythms shown by plants include: a) opening and closing of stomata b) sleep movements, for example, leaves of beans droop at night • Circaanual rhythms include: seed germination, flowering and leaf fall. These rhythms are controlled by daylength and temperature.

  3. Flowering and day length • Flowering plants can broadly be grouped into: 1) short day plants – flowering is initiated when the day length is short, night is long. 2) long day plants – flowering is initiated when the day length is long and the night is short. 3) day neutral – flower occurs within a short life cycle e.g. dandelions

  4. How do plants measure time in response to changing day length? • Photoperiodism: • Plants detecting change in day length and responding with according rhythms.

  5. How do plants measure day length? • The phytochrome system The ability of plants to respond to the length of day or night is triggered by a light sensitive pigment called phytochrome. This is found in the leaves.

  6. Phytochrome exists in 2 forms corresponding to 2 wavelengths of red (665nm) and far red (725nm) light. Two forms= Pr (P665) and Pfr (P725) • Pr is the inactive form of phytochrome • Pfr is the active form. • Plants measure day length by the amount of phytochrome in each form.

  7. Pr665 Pfr725 FLOWERING Flowering (as well as a number of other responses) is controlled by the phytochrome system. Leaf Detects light Flower bud Begins development Message sent with hormone called Florigen (theoretically). Phytochrome has 2 forms: Fast with red light (from the sun) Fast with far red light Slow overnight Pr665 is “phytochrome red” Pfr725 is “phytochrome far-red”

  8. When Pfr accumulates the plant detects that the day is long and the night is short. Long day plants will flower, short day plants will not. • When Pr accumulates the plant detects that the day is short and the night is long. Short day plants will flower, long day plants will not.

  9. Pr665 Pfr725 PHYTOCHROME SYSTEM Fast with red light (from the sun) After a short night (summer) there will still be lots of Pfr left. After a long night (winter) there will be lots of Pr. Fast with far red light Slow overnight Pfr→ Pr can also be achieved quickly (for experimental purposes) by using far-red light (hence it’s name). Pfrpromotes flower growth in long-day (summer) plants. Pfrinhibits flower growth in short-day (winter) plants. Day neutral plants tend to flower all of the time. Confused? DON’T PANIC!

  10. What are critical light periods? Short day plants and long day plants require a certain amount of sunlight hours to start flowering. In SDP this is usually less than 12 hours In LDP this is usually more than 12 hours

  11. If plants are exposed to natural light, Pr converts to Pfr quickly. • If plants are exposed to red light, Pr converts to Pfr quickly. • In the dark, Pfr is slowly converted to Pr. • If plants are exposed to far-red light, Pfr is rapidly converted to Pr.

  12. SDP LDP 16 hours light 8 hours dark Make some predictions X • What form of phytochrome will accumulate? • Pfr • What type of plant will flower?

  13. SDP LDP 8 hours light 16 hours dark Make some predictions X • What form of phytochrome will accumulate? • Pr • What type of plant will flower?

  14. SDP LDP 8 hours light Make some predictions X • What form of phytochrome will accumulate? • Pfr • What type of plant will flower?

  15. SDP LDP 8 hours light red Make some predictions X • What form of phytochrome will accumulate? • P 725 • What type of plant will flower?

  16. SDP LDP Far red 8 hours light red Make some predictions X • What form of phytochrome will accumulate? • P 665 • What type of plant will flower?

  17. Germination of Lettuce seeds kept in darkness

  18. Germination of Lettuce seeds exposed to red light for 1 min

  19. Germination of Lettuce seeds exposed to red light for 1 min and then far red light for 4 mins

  20. Germination of Lettuce seeds exposed to red light for 1 min, far red light for 4 mins then red light for1 min

  21. Far red flashed last few seeds germinated • Red flashed last seeds germinated

  22. What conclusions can you draw from this data? • That darkness inhibits lettuce seed germination • That far red light inhibits lettuce seed germination • That red light promotes lettuce seed germination • Further investigations on the flowering of plants have revealed that : • Exposure to darkness, red and far red light can affect flowering of plants • In some plants flowering is inhibited by red light and promoted by far red light • In some plants flowering is inhibited by far red light and promoted by red light

  23. Florigen – a hypothetical hormone • The system that detects the length of day/night occurs in the leaves because phytochromes are present in the leaves. In order for flower buds to develop, a “messenger” needs to go to the site of future bud growth. This message is thought to be delivered by a hormone called “florigen”.

  24. Manipulation of photoperiodism by growers • In controlled environments, it is possible to manipulate flowering of short and long-day plants by flashing light at the appropriate time. • Flowering plants can be made to flower out of season. In sugar cane, flowering can be delayed so more sugar accumulates before harvest.

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