Difference between revisions of "Measure Growth Rate of Plants"

Measuring plant growth is a very simple procedure that can be done quickly with a little effort. This process requires several assessments taken over a period of days or weeks.  If you want to track the difference in size, determining the plant height or leaf size is a good option. If you want to understand the plant’s accumulation of water, try weighing a fresh specimen. The most accurate way to find the growth rate is called a dry measurement, but it will kill the plant. Use dry measurement when you have many specimens and if you require extremely accurate results.  

Measuring plant growth is a very simple procedure that can be done quickly with a little effort. This process requires several assessments taken over a period of days or weeks.  If you want to track the difference in size, determining the plant height or leaf size is a good option. If you want to understand the plant’s accumulation of water, try weighing a fresh specimen. The most accurate way to find the growth rate is called a dry measurement, but it will kill the plant. Use dry measurement when you have many specimens and if you require extremely accurate results.  

[[Category:Botany]]

[[Category:Botany]]

#Record the height of the plant. You will want to measure the plant from its base to its highest point. Write this down in a chart with both the date and the height recorded. Repeat every two to three days.<ref name="rf2"> https://www.wnps.org/education/resources/documents/Garden_Links/q_e_monitoring_red.pdf</ref>

#Record the height of the plant. You will want to measure the plant from its base to its highest point. Write this down in a chart with both the date and the height recorded. Repeat every two to three days.<ref name="rf2"> https://www.wnps.org/education/resources/documents/Garden_Links/q_e_monitoring_red.pdf</ref>

#Calculate the average using the growth rate formula. You can see the average daily growth rate by taking the change in size and dividing it by the amount of time it has been growing.

#Calculate the average using the growth rate formula. You can see the average daily growth rate by taking the change in size and dividing it by the amount of time it has been growing.

#*This is an extremely general figure. Plant growth rate is extremely fluid and can be subject to major variations day by day. Currently, there is no way to accurately predict exact daily growth rate without the use of sophisticated laboratory equipment.

#*This is an extremely general figure. Plant growth rate is extremely fluid and can be subject to major variations day by day. Currently, there is no way to accurately predict exact daily growth rate without the use of sophisticated laboratory equipment.

===Judging Leaf Size===

===Judging Leaf Size===

#Repeat measurements every two or three days. Leaves can grow quickly. Check the size of your leaves every few days to see how they are growing. You can use a modification of the growth rate formula for this purpose.

#Repeat measurements every two or three days. Leaves can grow quickly. Check the size of your leaves every few days to see how they are growing. You can use a modification of the growth rate formula for this purpose.

#*You can calculate the leaf number growth rate. This modification of the growth rate formula will tell you how many leaves are approximately growing per day. The equation for this growth rate is <math>\frac{(L2-L1)}{T}</math>where L1=first leaf count, L2=second leaf count, and T equals the number of days between each.

#*You can calculate the leaf number growth rate. This modification of the growth rate formula will tell you how many leaves are approximately growing per day. The equation for this growth rate is <math>\frac{(L2-L1)}{T}</math>where L1=first leaf count, L2=second leaf count, and T equals the number of days between each.

#Create a growth template. Once you have gathered a few weeks’ worth of leaf tracings, you can use those shapes to create a template. Take a piece of paper or cardboard. Take the smallest tracing, and create a circle roughly that size, starting from the bottom of the paper. Create up to six larger circles that contain all of the measurements up to the largest. These should form concentric rings outside of the first circle. Label each of these circles with a number. One should be the smallest and six, the largest.<ref name="rf3"> http://ir.library.oregonstate.edu/xmlui/bitstream/handle/1957/39969/EM%209070.pdf</ref>

#Create a growth template. Once you have gathered a few weeks’ worth of leaf tracings, you can use those shapes to create a template. Take a piece of paper or cardboard. Take the smallest tracing, and create a circle roughly that size, starting from the bottom of the paper. Create up to six larger circles that contain all of the measurements up to the largest. These should form concentric rings outside of the first circle. Label each of these circles with a number. One should be the smallest and six, the largest.<ref name="rf3"> http://ir.library.oregonstate.edu/xmlui/bitstream/handle/1957/39969/EM%209070.pdf</ref>

#*In the future, you can use this template to measure leaves with greater ease. Hold up the leaf at the bottom of the paper with it centered around the smallest circle. Mark the largest circle it fills without going over.  

#*In the future, you can use this template to measure leaves with greater ease. Hold up the leaf at the bottom of the paper with it centered around the smallest circle. Mark the largest circle it fills without going over.  

#Place your plant in a plastic zip bag. Pinch the zipper closed to prevent moisture from entering. This will keep the plants dry. Allow the plants to cool in the bag.

#Place your plant in a plastic zip bag. Pinch the zipper closed to prevent moisture from entering. This will keep the plants dry. Allow the plants to cool in the bag.

#*If leaves fall off during cooling, keep them. Place the detached leaves on the scale with the rest of the plant.

#*If leaves fall off during cooling, keep them. Place the detached leaves on the scale with the rest of the plant.

#Calculate the growth rate after repeating. You can take new measurements after a few days, but you may want to wait a week or two. Once you have the new measurements, you can compare them to the old. Use the growth rate formula to find an average change in weight.

#Calculate the growth rate after repeating. You can take new measurements after a few days, but you may want to wait a week or two. Once you have the new measurements, you can compare them to the old. Use the growth rate formula to find an average change in weight.

#*The equation for this growth rate is <math>\frac{(W2-W1)}{T}</math>where W1=first dry weight, S2=second dry weight, and T equals the number of days between each.

#*The equation for this growth rate is <math>\frac{(W2-W1)}{T}</math>where W1=first dry weight, S2=second dry weight, and T equals the number of days between each.

* When measuring from the bottom to the tip of your plant, do not put the ruler directly on the dirt because the dirt surface can become higher or lower depending on the amount of moisture.

* When measuring from the bottom to the tip of your plant, do not put the ruler directly on the dirt because the dirt surface can become higher or lower depending on the amount of moisture.

*Take many measurements over your plant's lifespans. Every time you take a measurement, calculate the growth rate between this measurement the last measurement. The more calculations you do, the more accurate data you will have about its growth cycle.

*Take many measurements over your plant's lifespans. Every time you take a measurement, calculate the growth rate between this measurement the last measurement. The more calculations you do, the more accurate data you will have about its growth cycle.

==Warnings==

==Warnings==