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F loating L eaf D isc A ssay PHOTOSYNTHESIS LAB

F loating L eaf D isc A ssay PHOTOSYNTHESIS LAB. Your Problem. To design an experiment to quantify the effect of an abiotic factor on the rate of Photosynthesis. General Background. Photosynthesis is an anabolic process used by autotrophs to produce food (glucose).

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F loating L eaf D isc A ssay PHOTOSYNTHESIS LAB

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  1. Floating Leaf Disc AssayPHOTOSYNTHESISLAB

  2. Your Problem • To design an experiment to quantify the effect of an abiotic factor on the rate of Photosynthesis

  3. General Background • Photosynthesis is an anabolic process used by autotrophs to produce food (glucose). • It traps light energy and uses that energy to synthesize Glucose from CO2. • 6CO2+ 6H2O  C6H12O6 + 6O2 Sunlight

  4. The Experimental System • The photosynthetic production of oxygen and knowledge of leaf anatomy allows for the construction of a simple system that can be used to experiment on many of the photosynthetic variables. • Many extracellular spaces exist within plant leaves that are normally filled with air for purposes of gas exchange (Much like your lungs). This is why leaves will float on the surface of bodies of water. • But what would happen if all the air is forced out of the air spaces in the leaf? What will the leaf do then?

  5. Cross section through a Leaf

  6. The Experimental system • If basic requirements for photosynthesis are supplied, the oxygen the leaf produces will form gas bubbles and the leaf will re-float. • Timing how long the re-floating takes is the essence of the experimental method, however, small disks cut from leaves will be used instead of whole leaves to perform the floating leaf disk assay (FLDA). • This assay of photosynthesis may be used to answer many questions, including: How do changes in light intensity, wavelength, pH, temperature, or CO2 concentration affect the rate of photosynthesis?

  7. Photosynthesis Overview

  8. FLDA Procedure summary • Small disk sections of leaf tissue are punched from a leaf. • The disks are infiltrated with a bicarbonate solution. The infiltration serves two major purposes: a. It increases the density of the leaf disks so that they sink b. It supplies the disks with a carbon source (the bicarbonate ion) for the purpose of photosynthesis. • After infiltration, the disks are placed at the bottom of a container (we will use petri dishes) of the bicarbonate solution. • When exposed to light, the disks will produce Oxygen gas, decreasing their density to the point that they will float to the top of the container. • The time it takes for disks to float is directly related to the rate of photosynthetic activity taking place in the leaf disks.

  9. Materials • Sodium bicarbonate (Baking soda) • Liquid Soap • Plastic syringe (10 cc or larger) • Leaf material (Ivy) • Hole punch • Plastic cups • Timer • Group specific materials as needed • Light source

  10. Experimental system summary

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