Total Leaf Diameters of Cuttings Tested: Two Controls
1. 2 inch diameter (1 leaf) 1. Stem (No leaves)
2. 8 inch diameter (2 leaves) 2. Clay- covered graduate only
3. 10 inch diameter (3 leaves)
4. 12 inch diameter (4 leaves) Stem diameter of cuttings were measured to 0.3 in. approx.
Leaf diameters per cutting were totaled. The number of leaves per cutting was equal in each experiment. Narrow, 25ml. graduates were filled to 21 ml.with distilled water. The stems were recut under water and put in and sealed with clay 2 ½ inch from the base of the stem. The water level was recorded then placed in a west facing window. Each day transpiration rates, weather and temperature were checked at proper time, beginning 24 hours after they were first put in the graduates. A total of 4 experiments were done.
Average Total Transpiration After 5 Days: (Listed according to leaf diameter size in ascending order. 2 in.-12 in.) 2 in. group - 2.35 ml. 8 in. group - 5.86 ml. 10 in. group - 3.65 ml. 12 in. group - 7.78 ml. Controls: Stems had 1 ml evaporation through their xylem. Control 2 had no water loss. This was to show water does not evaporate through clay. 12 inch leaf diameter transpired 5.43 ml. more than the stem without leaves, 6.5 ml. more than the 2 in., 4.13 ml. more than 8 inch., 1.92 ml. more than 10 in. leaf diameter.
According to my experiments and research, I conclude that greater leaf diameter increases transpiration rate in rose geranium (p. graveolens). I saw that the 12 inch leaf diameters water level dropped more than all the other leaf diameters, having a 7.78 ml. transpiration rate. My hypothesis was right, because the greater the leaf diameter the more stomata the cutting has for transpiration to take place.
The project proves that greater leaf diameter does increase transpiration rate of rose geranium.
Science Fair Project done By Zachary J. Creighton