Light Energy and Photosynthetic Pigments

1. Light Energy and Photosynthetic Pigments • All photosynthesis reactions occur within the chloroplasts • Partly within the stroma and partly within thylakoid membranes • Chloroplasts contain their own DNA and ribosomes and are able to replicate by fission

2. The stages • Stage 1: Capturing light energy • Stage 2: Using captured light energy to make ATP and reduce NADP+ to NADPH • Stage 3: Using the free energy of ATP and the reducing power of NADPH to make glucose and oxygen

3. How does this occur • Various forms of radiation surround us, from the sun and other sources. • Some are visible and some are invisible.

4. Wave model of light • Electromagnetic radiation travels at 300000000m/s • Frequencies of visible radiation (light) are perceived as different colours We can remember the visible spectrum with ROYGBIV!

5. Highest frequency, smallest wavelength = violet • Frequencies of visible radiation (light) are perceived as different colours. • Lowest frequency, largest wavelength = red • All frequencies and wavelengths = white

6. Light • Electromagnetic radiation, travelling at 3x108 m/s • Exhibits properties of waves and photons (particles) • Wavelength is inversely proportional to its energy Visible light ranges from 400 to 700 nm

7. Properties of Light • http://wps.prenhall.com/esm_krogh_biology_3/0,8750,1135943-,00.html • http://www.sumanasinc.com/webcontent/animations/content/harvestinglight.html

8. How Does a Plant Capture Light? Light can be • transmitted (light passes through an object. • Reflected (light bounces off object) • Absorbed (light goes into object)

9. How Does a Plant Capture Light? • Plants have chlorophyll PIGMENTS (molecules that can absorb specific wavelengths of light) Plant leaves appear green. Therefore, what colours must the chlorophyll pigments absorb? reflect? Everything but Green GREEN http://www.johnkyrk.com/photosynthesis.html

10. Absorption spectrum Graph that illustrates the wavelengths of light absorbed by a pigment

11. Light cont’d • Photosystems absorb particular wavelengths and transfer their energy to ADP, Pi and NADP+ forming ATP and NADPH • 2 types of reactions occur in photosynthesis; the light reactions and carbon fixation • Light reactions: only take place when light available , not affected by changes in temperature, use light and water, produce NADPH and ATP • Carbon fixation: dependent on NADPH and ATP, therefore on light reactions, varies with temperature not intensity of light

12. Chlorophyll and Accessory Pigments • Chlorophyll a is the only pigment that can transfer light energy to the carbon fixation reactions of photosynthesis • Chlorophyll b and carotenoids acts as accessory pigments, absorbing wavelengths that a cannot • Carotenoids: (ex β- carotene) possess 2 hydrocarbon rings connected by hydrocarbon chain

13. Accessory pigments cont’d • Xantophylls – produce yellow color • Carotenoids – produce yellow-orange colour • Interspersed within thylakoid membrane • Anthocyanins – produce red, violet, blue colour • Located in plant cell vacuoles – Photosynthetically active radiation (PAR) – wavelengths between 400 nm – 700nm support photosynthesis