1 / 19

The Pigment That Controls Growth and Flowering In Many Plants

phytochrome. The Pigment That Controls Growth and Flowering In Many Plants. Photoperiodic Response: It’s all about Preferences! Long Day Plants flower when there is a prolonged larger pool of Pfr Short Day Plants flower when there is prolonged larger pool of Pr.

ilar
Download Presentation

The Pigment That Controls Growth and Flowering In Many Plants

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. phytochrome. The Pigment That Controls Growth and Flowering In Many Plants

  2. Photoperiodic Response: It’s all about Preferences! Long Day Plants flower when there is a prolonged larger pool of Pfr Short Day Plants flower when there is prolonged larger pool of Pr

  3. The Phytochrome System Works Within The Apical Meristem Photoperiodicresponses are triggered in the meristem (both apical and axillary), long before the new branches develop. We can control development !

  4. Photoperiodic shade cloth Light penetration through the shade cloth should not be more than 2 fc in order to prevent delay in flowering and/or disfigured flowers.

  5. To lengthen the night, plants are covered with a blackout shade cloth. Applied in late afternoon and removed in the morning (5 pm to 8 am)

  6. SUPPLEMENTAL LIGHTING • Light sources. • incandescent lamps emit large amounts of red light and are good for lighting mums (standard mum lighting) • mums flower when the day length decreases to 13.5 hrs or less • whenever the day length is longer than 14.5 hrs plants remain vegetative • split each long night in two short nights with supplemental light to prevent flowering

  7. DAILY DURATIONOF LIGHT • The length of day has an effect on two plant processes • time of flowering • plant maturity • This light-induced response is called photoperiodism, and plants that flower under only certain day-length conditions are called photoperiodic.

  8. What Is Phytochrome ? • Phytochrome is a pigment found in some plant cells that has been proven to control plant development. • This pigment has two forms or “phases” in can exist in. P-red light sensitive (Pr) and P –far red light sensitive (Pfr) forms. • The actual plant response is very specific to each specie, and some plants do not respond at all.

  9. Which Wavelengths Are Photoperiodic? • The length of the night period plays a major role in determining which wavelength will be effective, as the phytochrome pigment tends to revert to Pr during long periods of darkness. • Thus the length of exposure to light in a building, or if outdoors, the seasonal light changes, affect how long the plants perceives each form of phytochrome. R FR

  10. phytochrome. 660 nm 740 nm Red Light Pr Pfr (Fast) Far Red Light Synthesis Destruction Dark Reversion (Slow) Vegetative (Non-Flowering) Reproductive (Flowering)

  11. Mid-Summer Sunlight phytochrome. 660 nm 740 nm Red Light Pr Pfr (Fast) Far Red Light Synthesis Destruction Dark Reversion (Slow) Vegetative (Non-Flowering) Reproductive (Flowering) Long-Day Plants Need/Sense Low Pr to Bloom!

  12. phytochrome. Long Night 660 nm 740 nm Red Light Pr Pfr (Fast) Far Red Light Synthesis Destruction Dark Reversion (Slow) Vegetative (Non-Flowering) Reproductive (Flowering) Long-Day Plants Sense/Need Low Pr!

  13. Mid-Summer Sunlight phytochrome. 660 nm 740 nm Red Light Pr Pfr (Fast) Far Red Light Synthesis Destruction Dark Reversion Reproductive (Flowering) (Slow) Vegetative (Non-Flowering) Short-Day Plant Sense/Need Low Pfr to Bloom!

  14. phytochrome. Black Cloth 660 nm 740 nm Red Light Pr Pfr (Fast) Far Red Light Synthesis Destruction Dark Reversion (Slow) Vegetative (Non-Flowering) Reproductive (Flowering) Short-Day Plants Need Low Pfr!

  15. Night Break phytochrome. 660 nm 740 nm Red Light Pr Pfr (Fast) Far Red Light Synthesis Destruction Dark Reversion (Slow) Vegetative (Non-Flowering) Reproductive (Flowering) Night lighting disrupts reversion to Pr and maintains vegetative status by keeping Pfr relatively high in short day plants!

  16. Types Of Photoperiodic Response Whereas many plants are photoperiodic, they do not all respond the same way. There are 10 distinct types, with many sub-responses to temperature within many of the groups. Short Day Plants – Single Cycle……….Rice Requires only one short day cycle to initiate the photoperiodic response. Long Day Plants – Single Cycle………….Dill Requires only one long day cycle to initiate the photoperiodic response. Day Neutral Plants………………………………Cucumber Flower the same time under all day-lengths, least photoperiodic response. Ambiphotoperiodic Plants………………….Setaria These plants are inhibited by intermediate (Equinox) day-lengths. Short then Long Day Plants………………….Clover These plants are inhibited by intermediate (Equinox) day-lengths.

  17. Types Of Photoperiodic Response Qualitative Long Day Plants………………Hibiscus Must have constant long days to initiate the photoperiodic response. Quantitative Long Day Plants…………..FoxGlove Requires a certain # of hours of LD’s to initiate the photoperiodic response. Qualitative Short Day Plants……….…..Poinsettia Must have constant short days to initiate the photoperiodic response. Quantitative Short Day Plants………..Chrysanthemum Requires a certain # of SD’s to initiate the photoperiodic response. Intermediate Day Plants……………………Sugar Cane Plants flower when days are neither too long or too short. (Equinox)

  18. Questions?

More Related