Determination of Stomatal Density Cheat Sheet by UmeshJagtap

Stomata: Micros­copic pores on leaf surfaces, regulated by guard cells.
Function: Facilitate gas exchange (CO₂ intake) and transp­iration (water loss).
Objective: Measure stomatal density using a microscope and study stomatal structure.

• Plant Leaves (Trade­scantia or Pancratium or Hibiscus)
• Microscope slides and cover slips
• Transp­arent nail paint
• Transp­arent sticky tape
• Glycerine
• Safranin
• Razor blade
• Forceps
• Microscope
• Digital camera or smartphone
• Clear plastic ruler (metric scale)

Step 1: Prepare Materials
Collect all required materials.
Select a healthy, fully expanded leaf for analysis.
Step 2: Leaf Prepar­ation
Cut the leaf obliquely into two pieces.
Place each piece in separate watch glasses containing distilled water:
One for the upper (adaxial) surface
One for the lower (abaxial) surface
3: Peel Prepar­ation
Using forceps, carefully peel the upper and lower epidermal layers.
Mount each peel on a clean glass slide with a drop of glycerine.
Add a drop of diluted safranin to stain the stomata.
Method: Stomatal Impression Technique Using Nail Polish and Sticky Tape
1: Selection of Leaf Samples
Select fresh, healthy leaves from a normal (unstr­essed) plant.
Select fresh leaves from a plant exposed to stress conditions (e.g., water stress, high light, or salinity).
Ensure that leaves are clean and free from dust.
2: Applic­ation of Nail Polish
Place the leaf flat with the lower (abaxial) surface facing upward.
Apply a thin, even layer of clear nail polish on the lower surface of the leaf using a brush.
Allow the nail polish to dry completely for 10–15 minutes until a transp­arent film is formed.
3: Prepar­ation of Stomatal Impres­sions
Place a small piece of transp­arent sticky tape over the dried nail polish film.
Press gently to ensure proper adhesion between the tape and the nail polish layer.
Carefully peel off the sticky tape using forceps; the nail polish film containing stomatal impres­sions will be transf­erred onto the tape.
4: Mounting of Impression
Place the sticky tape with the nail polish impression onto a clean glass slide.
Add a drop of water or glycerine if required to improve clarity.
Gently place a cover slip over the tape to avoid air bubbles.
Step 4: Micros­copic Observ­ation
Observe the mounted prepar­ation under the microscope using low power (10×) first.
Switch to high power (40×) for detailed observ­ation of stomata.
Record observ­ations on the size, shape, distri­bution, and density of stomata.
Compare stomatal features between healthy and stressed plants.
Step 5: Micros­copic Observ­ation
Place a cover slip over the mounted peel.
Use the transp­arent ruler method to measure the field of view (FOV):
Place a clear plastic ruler on the microscope stage under the stage clips.
Rotate to the lowest magnif­ication objective (4×).
Focus using coarse, then fine adjustment until metric markings are clear.
Align the ruler to measure the diameter of the circular field of view (record in mm).
Calculate the radius:
Radius (r)=Di­ameter (D)/ 2
For 10× and 40× object­ives, calculate the FOV using:
FOV_low X Mag_low = FOV_high X Mag_high
Calculate the area of the FOV:
Area=πr²
π=3.14
Step 6: Calculate Stomata per 1 mm²
Stomata per 1 mm²= Number of stomata counted / Area of field of view (mm²)
Step 7: Stomatal Structure Analysis
• Examine the size, shape, and distri­bution of stomata under the micros­cope.
• Note any differ­ences between upper and lower surfaces.
• Capture images for docume­nta­tion.

The stomatal density of Plant leaf was determined using micros­copic observ­ation. The upper (adaxial) surface showed an average stomatal density of ........ stomat­a/mm², while the lower (abaxial) surface had a higher density of ........s­tom­ata­/mm².