Effect of Electricity on Plant Growth | DIY Gardening Experiment on Electro-Culture with Results

Effect of Electricity on Plant Growth | DIY Gardening Experiment on Electro-Culture with Results

Hello Friends! In Today’s episode, we will
investigate the effect of electricity on Plant growth. Let’s conduct a simple experiment
on electroculture and see what happens to plant growth when they are electrocuted with
a low DC voltage? Coming up! This experiment can be a very good school
project for kids to develop their interest in gardening.
This experiment is based on two observations: 1. Plants appearing healthier after a thunderstorm
possibly due to the effect of lightning and electricity.
2. Plants growing near an electric power cable generally look greener and healthier.
Now, Let’s conduct this experiment starting with our:
Hypothesis: Seeds germinate faster and Plants grow faster and healthier when electrocuted
with a low voltage DC current. I came across a lot of research articles online
on electroculture studies. According to electrocuture technique, Plants are sensitive to electricity
and magnetism. Improved plant growth and increased yields are some of the positive effects of
electroculture. This technology can even be used to protect plants from pests and diseases.
The mechanism of action? I could not fine convincing answers. May be due to the copper
electrodes causing electrolysis or electrophoresis and releasing copper and other salt ions within
the soil, or the electromagnetic field from the electric current causing movement of different
ions into the roots. Now let’s jump into the experiment: Let’s
start with the Materials and Methods:
The materials required for this gardening project are:
– 3 plastic Containers – Identical Plant seeds for All 3 containers
– Identical Potting Mix for All 3 Containers – A DC 9V Battery, A DC 3V Battery
– Copper rods or Copper Wires as Electrodes – A Ruler or a Measuring Tape.
Let’s Begin: Step1: Label the 3 Containers: Pot A and B
are for experiment and Pot C will be the Control for the experiment with no current applied
on it. Step 2: Identical Factors or Constants for
the experiment: Fill All the 3 containers with the same potting mix or soil. Plant the
same seeds into all three containers. Keep all the 3 containers in exactly the same location
to receive the same amount of light and Water them with exactly the same amount and at the
same time. Step 3: Prepare The Circuit: For Pot A we
will electrocute with 3 Volt battery and For Pot B, we will use 9V Battery. We will use
this copper wire to make our electrodes which will be inserted into the soil.
Step 4: Sowing the identical seeds into all 3 containers at the same time. You can use
any plant seed for the experiment. Sow exactly the same amount of seeds into each container
and water them with exactly the same amount of water daily. Keep all 3 pots on the same
location like on a window sill. Step 5: Applying Electric Current to Pots
A and B: Two copper rods are inserted into the soil at opposite sides of the pot and
should not touch each other. The 3V battery will be connected to Pot A and 9V Battery
to Pot B. The circuit is switched on for these pots for 15 minutes daily and the plant growth
in all 3 containers will be measured on Day 4 for Seed Germination, Day 7 and then Day
12, 15 and so on. Now! Let’s look into the Results:
On Day 4, As you can see, both seeds are about to germinate in Pot C first which infact received
no voltage. In Pot A one seed has germinated and in Pot B there is still no definitive
signs of germination. You can see in Pot B, perhaps due to high voltage the earthworm
is struggling to survive and this indicates high currents are harmful for beneficial soil
organisms. On Day 7, You can notice that the height of
the plants in pot A is still lesser when compared with the Control Pot C. And Pot B which received
9V is just starting to germinate now. So till Day 7 this theory on electroculture is getting
disproved. I am not sure what went wrong with this experiment and this needs further investigation.
Will later post an update on this on Day 15. We can even Try to repeat this experiment
using different DC voltages like 1.5V, 6V or even DC12V. The experiment can also be
done by changing length of exposure time to the DC current and comparing plant growth. In our next episode, we will conduct a similar
experiment to study the effect of magnetism on plant growth and seed germination.
Please let me know in the comment section below if you have more thoughts on this.
Please hit a Thumb up if you found this helpful. Also comment below if you would like to watch
more experiments on gardening. Share this with your friends. Consider subscribing if
you are new to this channel. Happy Gardening!

21 thoughts on “Effect of Electricity on Plant Growth | DIY Gardening Experiment on Electro-Culture with Results

  1. ALL GARDENING EXPERIMENTS: https://www.youtube.com/playlist?list=PLvE-WOB38X7bNLsSVejrGwPbsSe-vI1ec
    Please gimme a Thumbs Up for my efforts!

    Thanks for your time!

  2. I just want to inform you that in Indonesia there is an elementary schoolboy found and made electricity from big plants

  3. Maybe you're experimenting is testing the effects of electricity on germination not plant growth. If you want to test effects on plant growth, germinate seeds first and then add voltage.

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  5. There is definitely something magical in the water of thunderstorms with lots of electrical activity. You might water a passionfruit vine, every day with the hose, but after an electrical storm it will put on lovely new growth on its tips. Same with belladonna lilies. You may water the bulbs every day, but they will suddenly send up flowers after an electrical storm. If only the magic water could be bottled? You might like to save some electrical storm water and see if the effects stay in the water and would be beneficial to plants? Hmm. There's a tree in the Amazon rainforest that only ever blooms if it is struck by lightning! ๐ŸŒณโšก๏ธ

  6. Can't wait to see how this turns out. Two seeds seems like a small sample size for each group though. I wonder how a corrosion resistant electrode might effect the results. Saying use the same soil, is not really possible as it's not a homogeneous mixture. Having a worm in one pot, aerating the soil and adding nutrients is an example of this. A hydroponic setup could eliminate some of that.

  7. Experiments should be conducted with clones from the same plant….not seed. Unless you're just experimenting with seedlings

  8. This is just a small part of long experiment. You have checked for germination only. We need to study till the fruiting and harvesting and finally the taste.
    Again this experiment can be done with potted plants only. More on it is not for free.

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