Electrical conductivity (EC) plays a crucial role in plant growth and development, as it indicates the availability of essential nutrients in the soil and overall fertility of the soil. Low EC levels typically indicate a low nutrient concentration, which can result in nutritional deficiencies and slow growth rates of plants. Proper control of EC ensures the efficient functioning of photosynthesis, promoting optimal plant growth and productivity. Maintaining the optimal EC range facilitates the flow of nutrients and water, which is essential for crop and vegetation modeling.
High electrical conductivity in the soil can indicate excess salts, which can hinder plant growth and reduce crop yields. By mapping areas with high electrical conductivity, proactive measures can be taken. The optimal EC value for plant growth is usually between 0.8-1.8, and should not exceed 2.5.
The application of electricity to plant cultivation has a long and contentious history, as plants are exposed to natural electric fields throughout their life cycles. The Ψ gradient from roots to leaves, combined with soil conductivity, determines canopy conductance. A decrease in Ψ, such as in drought-exposed trees, significantly reduces water use efficiency.
Low conductivity implies a low nutrient concentration, which usually results in nutritional deficiencies and slow growth rates of plants. Just the right EC level can enhance nutrient uptake, bolster plant health, and increase yields. High EC can hinder nutrient absorption in plants by increasing osmotic nutrient solution pressure, while a very low EC can lead to nutritional deficiencies.
In conclusion, electrical conductivity (EC) plays a vital role in plant growth and development, affecting various plant growth parameters such as height and nutrient absorption. Proper control of EC ensures optimal plant growth and productivity, and maintaining the optimal EC range facilitates the flow of nutrients and water.
📹 Electro Culture Food Production. Why Electricity Helps Plants Grow
A B O U T M E: Ashley is a soil scientist who has had a passion for plants since she was a small child. In the long summers …
What happens to plants if EC is too high?
High EC levels can lead to various issues, including nutrient or salt burn, nutrient toxicities, and plant wilting and death. Symptoms of a high EC include leaf discolouration, thickened roots, necrosis spots, and changes in leaf size and quantity. Nutrient burn can result in bent tips and burnt-looking edges, with leaves twisting or curling under. High nutrient levels can cause leaves and stalks to wilt and droop, with once-shiny leaves taking on a dull appearance. Plant growth may also slow down. Symptoms of a high EC include interveinal chlorosis, thickened roots, brown spots, and changes in leaf size and quantity.
How does electrical conductivity affect soil?
Soil electrical conductivity (EC) is a crucial indicator of soil health, affecting crop yields, suitability, plant nutrient availability, and soil microorganism activity. It is inversely proportional to the electrical resistance in soil solution and is measured by passing an electrical current through the soil solution. Soil EC is considered saline if the saturated paste extract electrical conductivity (EC) equals or exceeds 4 deciSiemens per meter (dS/m).
Even an EC of less than 4 dS/m can result in considerable yield loss, such as in soybeans. Soil electrical conductivity is an indirect measurement that correlates well with several soil physical and chemical properties. An ohm is a unit of resistance, while an mho is a unit of conductance. “Siemens” was adopted as a scientific representation of mho in an 1881 conference in England. Mho is used by lay soil scientists today, while dS is used in peer-reviewed scientific journals.
Is high conductivity good in water?
A conductivity range of 0-200 µS/cm is indicative of pristine conditions, whereas a mid-range conductivity of 200-1000 µS/cm is representative of the typical background conductivity observed in most major rivers. A conductivity value outside of this range may indicate that the water is unsuitable for certain fish or aquatic invertebrates.
What happens when conductivity increases?
Conductivity is a measure of water quality and condition. It is often used as an indicator of the health of a water body, with an increase in conductivity indicating a decrease in water quality due to disturbances. The introduction of dissolved solids into water bodies as a result of human activities frequently results in an increase in conductivity. Additionally, elevated conductivity may serve as an indicator of other impaired or altered parameters within the water body.
Is high conductivity better?
Electrical conductivity is crucial in preventing corrosion in systems. Materials with high electrical and thermal conductivity, such as copper, zinc, and iron, are effective in conveying energy. Gold, the strongest conductor, has the highest efficiency and lowest luminosity, but is more widely used due to its cost. Silver, while highly conductive, tarnishes as high frequencies become less attractive and the outer surface becomes less conductive.
Silver’s electrons can move faster than other elements, making it the best conductor due to its polarity and structure. Overall, measuring a system’s electrical conductivity is essential for preventing corrosion.
Why is EC important to plants?
Nutrient application is crucial for crop production, as poor management can hinder plant growth. Electrical conductivity (EC) is a key indicator of nutrient availability and salinity levels in soil, influencing plant health. Balancing EC levels is essential to prevent deficiencies or toxicities and ensure optimal plant productivity. Factors like soil composition, texture, organic matter, moisture content, fertilization practices, and environmental conditions significantly impact EC. Monitoring EC through various methods ensures efficient nutrient management for maximum crop yields and sustainable agriculture.
How does conductivity affect plant growth?
Conductivity is a measure of the concentration of nutrients in a solution. A low conductivity reading indicates a low nutrient concentration, which can result in nutritional deficiencies and slow plant growth. A higher conductivity reading indicates a greater concentration of nutrients available for plant consumption.
What is conductivity good for?
Conductivity is a crucial measure of water quality, as it provides a baseline for comparison with regular measurements. Significant changes in conductivity can indicate pollution or disturbances that have negatively impacted the water body and its biota. Human disturbances often increase the amount of dissolved solids entering waters, leading to increased conductivity. Water bodies with elevated conductivity may also have other impaired or altered indicators. Therefore, it is essential to evaluate conductivity to assess the overall health and condition of water resources.
What are the advantages of conductivity?
Conductivity is a valuable quality control tool due to its high reliability, sensitivity, rapid response, and low cost. It is a non-specific, summative parameter for all dissolved ionic species in a solution.
What happens if conductivity is too high?
The conductivity of water is determined by the presence of dissolved substances, chemicals, and minerals in the water. High conductivity can lead to corrosive and encrusting effects, such as clogging sensitive devices and degrading water system products. To reduce water conductivity, it is essential to understand the factors that affect it, which can be categorized into natural and human impacts. Reducing water conductivity is crucial to ensure the quality and safety of the water system.
Is 2.5 EC too high?
The electrical conductivity of soil is crucial for nutrient availability and uptake by plants. Too high or too low EC can cause imbalances, leading to stunted growth and leaf yellowing. The optimal EC value for plant growth is typically 1-2. 5, which is suitable for most plants. In hydroponics, EC values should not exceed 2. 5 unless the plant requires a high level. During the vegetative stage, EC should be between 1. 2-1. 6, while after flowering, it should be between 1.
6-2. 4. The ideal EC range for plants can vary depending on the crop and growing conditions. Hydroponic systems require a higher EC range due to the absence of natural nutrients in water, while certain crops like blueberries and strawberries require a lower EC range due to their sensitivity to high salt concentrations.
📹 A Beginners Guide: Electrical Conductivity (EC)
In this video, Ethan gives an in depth explanation of electrical conductivity. He also explains how and why you need to properly …
I have a hypothesis regarding one use of 14 gage pure copper wire, single strand. If we were to wire the mouths of the WEF members closed with a good single strand copper wire, world peace would grow at an exponential rate, with the recovery starting almost immediately. Of course it’s only a hypothesis and I am not advocating for any attempt at this experiment. One could probably get the same effect by simply stop listening to them at all.
Electroculture gardening does work.. simply putting copper wire around wood and placing in the ground ground near plants really helps the soil and plants grow healthier and bigger… just try it and you’ll see. Hidden knowledge coming to light.. not conspiracy like so many things of late have been realized and shared.
I heard someone say something about putting a copper coil under their bed- so I made one (conical shaped coil wire) and put it underneath some borage I had growing indoors, and forgot about it, until a few days later the plant had shot up fast with multiple blooms, quite noticeably! I didn’t know ANYTHING about it but was going on sheer intuition, how I usually do with my experiments. It really was a surprise.
Well, I’m a plumber that loves gardening for over 50 years now. I have plenty of copper pipe, so I pushed a 20′ stick of ¾” copper pipe a foot into the ground about 2 weeks before planting onions. I even soldered on some copper wires at the top flailing out in all directions. That Dutch farmer guy said the higher your antenna, the farther out at ground level it works. I can tell you it doesn’t work on garden pest. Cutworms are sawing down several young onion plants every night and something else is chewing on my broccoli plants. What did I do wrong? Maybe it only works in Canada, but not in Georgia? Should I solder on a wire at the bottom of the pipe running north and south, or what? I like to try out anything that goes against the status quo. I guess I’ll try the magnets in the ground with the wire running south to north next. I do not use chemicals in my garden and I switched to no till gardening 2 years ago. I use homemade JADAM natural insecticides and fertilizer only and I thought I’d test this electro-culture out. So far, I’m not impressed. But I’m gonna leave the antenna up because the neighbors think I’m even weirder than they did before… and that’s a positive.
When you explained how increased evaporation leads to increased nutrient uptake, that made me think about how succulents grow better in dry environments. Living on the west coast I had an aloe houseplant that was perpetually tiny, but when I moved to Lethbridge (very dry air) it grew like crazy. Do you think evaporation is a significant factor there or is it more to do with the reduced disease stress in dry environments?
Sorry to jump in late. I was reading the comments before perusal the actual article. Earth and outer atmosphere have two separate charges and that’s why it’s recommended that one should walk barefoot at least once a day or so to discharge accumulating charges from the body. My first introduction to compost tea was through a YouTube article posted by Mr. John where veggies grown under Alaska skies and compost tea set world records….. is it due to the northern lights and compost tea? Regarding chickpeas comments, main growing area for chickpeas in India and Pakistan are semi desert and after monsoon so it’s possible to have ground charged effect present. Not being religious but Quran has mentioned benefits and harms of lightening as well… we now know the carbon production during lighting storms or potential damage to certain grains but does it electrically charge the land
If I remember my basic Physics correctly, there is a “thingy” called EMF which is the acronym for ElectroMagnetic Field. Or is it electromagnetic force? But anyway, when current is passed through a wire there is a magnetic field that surrounds the wire. So it could be the low level magnetic field that affects plant production. Also, it could keep insects and other critters at bay.
Oh my. I have been so excited about the discovery of electroculture. Now you tell me that the WEF gives it a big thumbs up. Like telling me that Satan and child molestors highly recommend electroculture. I live in a mad world. However, I will pursue experiments with electroculture to find out more. Thanks for the article.
I saw this concept (electro gardening) come up on my “recommended” a few days ago from YT’ers Hollis and Nancy down in Florida. At first I was thinking “yeah right”, and even still, I’m wondering how safe could it be sticking rods in the ground. To me it’s kind of like walking around with an umbrella during a lightning storm…..but it’s “new” ?again? and I’m certain there going to be some clever innovations to make it safe and scalable.
Very curious!! I am extremely sensitive to molds, fungi, and any pathogens or bacteria in the garden. I also have Lyme disease, so I want ticks OUT of my path!! If I put this near wood with fungus on it and near my apple tree that always has black spots on the leaves, would this solve my problem in that area? Also, would it kill ticks? If so, I think a revolution would quickly incur!
i’ve only just started learning about this, but if it does work, the reason the world economic forum would want people to use this is because they are then dependent on electricity, and if you kill All the bugs, including benificial ones, they bad ones will probably be more likely to survive outside these farms. you could kill other microbial life. it ultimately could lead to more dependence on centralized power for food. And yes i know, this is all just wild speculation, but if someone wants they can use some logic to refute my logical assertion.. remember, control the food, control the people. the solution is grow food locally, with as little outside input as you can. that might include not using electricity… also if you increase nutrient uptake, wouldn’t you just deplete the soil at a more rapid pace?
I was a bit confused, or maybe missed it, but what amount/current are we talking about here? I heard you mention both low and high voltage. Would love to try this! I know mycelium at low voltage can stimulate growth. I’ve also heard stories I lightning hitting the ground and that also stimulates mushroom growth in the Forrest….. obviously though I won’t be trying with high voltage (1. Because it scares me. 2. Because it would kill all the beneficial microbes/mycorrhizae I’ve been working hard to maintain. After all, microbes are really what makes a happy soil =happy plants. Right:)
Are the plants grown from seed, and sown in the ‘electrified’ soil? Surely the electricity would affect the seed in a negative way? Also you said the more water we can get moving through the leaf, means more nutrient uptake. Does this mean that since more water is evaporating, the humidity is higher, therefore the plant is more inclined to open its stomata and hence transpiration- which results in more water uptake, and therefore more nutrient uptake? Thanks 💚
One more thing….WHY Im skeptical about placing copper in the soil….Im a plumber..and to KILL plant life and INHIBIT growth particularly in sewer lateral lines, it has long been known to use copper sulphate, and salt to do it…Im going to experiment with antennae just to see… I have been trying out organic and heirlooms for the past couple years with dismel yields…NE Texas, used to be an ocean bed, top soil is shallow… when you open an area from the woods, it starts to desertify quickly. I need HELP!!!!!!!
All biological processes revolve around the transfer of electrons. Look into Leon Sprink & Jacques Ravatin’s work on accelerating chemical reactions by using high voltage DC. All chemical reactions, biological or otherwise, require energy transfer in order to take place. It’s just a matter of how to go about it effectively.
HEY…. I saw you on CP…anyway, i subscribed because you seem very knowledgeable…QUESTION: have seen some gardeners using antennae to produce the electroculture affect….this is a cheaper, safer way to get this affect, I suppose? I haven’t tried it yet. WHAT is your opinion on antennae in the garden
Air is positive charged ground is negative so the only time electroculture is nessasary is when in a house or plastic greenhouse. Outside in your yard in a rual area it’s not needed also tall buildings like in a city the buildings become the ground so it’s like growing under ground. Electric is the reason why plants know what is up and down ( turntable experiment )
Hi… I am super interested in the concept of electro culture and was wondering if you have an opinion on my situation….I have a wooden planter with tomatoes and peppers that stands 1 foot above the ground on wooden legs. Do I need to run a copper wire to electrically ground the planter to the ground for the antennas to work properly? Or is placing the antennas by themselves good enough ?
I grow things in 5 gallon buckets in Kidde pools. I put tomato cages in the buckets and 36″ tall wire fencing around the Kidde Pools. I was already doing this. I was skeptical of this idea at first. Too much talk of che and mystical spiritual powers and such. I suppose savages would say the same thing about electricity. The only change I made was wiring the tomato cages together with short twist-ties made of copper wire. Then wiring them too the fencing. I noticed in only a couple of days that the color of the leaves is a darker green than before. I have five Kidde Pools and I plan to push them together so I can connect them all together. I think that increasing electrical flow through the soil is stimulating the plant roots to take up more nutrients some how. Next I hope to put ground rods between the pools and see if anything changes. I may hook this string of pools to a solar panel and see if ithat makes any difference.
You can do large fields farming culture. You just need to know how . There’s many books out there that will prouve that it can be down on large scale farms . Tho what we need to teach the population is to let go of big stores and grow their own food . And yes it does reduce a lot most if not all bad insect because the resonance of the antennas attract more birds and more predatory insects that eats other insects . It also reduces diseases more than 30 percent tho 30 percent is a lot . The antennas combined with the magnets and galvanized steeel cable in the ground adding magnetic basalt powder preferably powder or magnetically charged basalt pebbles will help a lot to grow your crops Tho everyone should know that all antennas may be put in at the magnetic south end of your field or garden . A 9 meter tower is used for large field or large gardens. There’s more info on it juts check out perma futur Chanel yes it’s French v it you can also be served in english .. There also an ontarien man and his wife that have a trilingual Chanel on YouTube .
We don’t want to kill off fungus! And what does electro culture do to the SOIL when the plants absorb more than usual amounts of water? We already have a problem with having a shortage of fresh water for irrigation. (I know there’s the same amount of fresh water as ever, but it’s polluted and not WHERE we want it to be.)
Currently in France there are several youtube websites dedicated to electroculture. It’s an interesting principle, but beware, there are also a lot of charlatan. I often notice after a storm that the plants in the garden seem more beautiful, could this be due to rainwater charged with electricity by lightning?
Also, you really need to specify WHAT methods of electroculture are being used in each article/project you are referencing, since there are many different forms (with some even using RF). You can’t just say that it takes 15kWh to run a hectare of land without specifying WHAT METHOD is being used, as the vast majority are entirely passive and do not require ANY external power to function.
Best part is the more countries use electricity the more we switch to batteries and the bigger help it will be to our Asian economy. The electric car etc electricity is a HUGE BOOM to the Chinese economy as we own most of the minerals and land needed for batteries further making the US reliant upon us and cementing China as the world superpower leader without even going to war yet. 🇨🇳 ♥
Funny seeing all the different ideas out there. I’ve seen people do, earthing or grounding, in large raised soil beds, even indoors but connected outside. I’m going to read on this but do you know if they are running AC or DC, the frequency, current, voltage? AC may cause some unique things to happen.
This article may not actually be talking about electroculture. They said electricity is being used, consumed, the kind that you have to pay for. Actual electroculture does not use electricity, from what I understand. You stick copper wire in the dirt, and somehow the electricity is extracted from the atmosphere. So this particular article seems to be talking about something else.
Contrary to what you say It’s not essential to understand how it works. What is important is to create a proper scientific study over several years while limiting to as few variables possible. If you think something works and you think you know how it works, you will be very biased in your appreciation of the results. Science 101.
How does foliage help the plant? Because of photosynthesis? You know photosynthesis is just energy for the plant so the plants roots can uptake nutrients. Your roots are everything in a plant it uptakes all the nutrients through your healthy soil your leaves are just solar panels for your plant for energy for the roots can use and continue expanding energy is not nutrients…
Just because something is in a greenhouse doesn’t minimize pest at all! What are you talking about? Especially a hoop house. Just because you build a structure over top of the ground doesn’t do anything to the already existing bugs and stuff in that area. They are all over my greenhouse and the increased humidity also doesn’t do us any favors in that department
Why do you keep insinuating its a conspiracy when you know its just a marketing strategy to sell fertilizer and harm people. Everything is created to harm you. Whats the differences in a harden or a farm. Why would you deter a farmer from using it freeing people. Yourselves are the habits that need to change
Please… conspiracy usually means that the so called conspiracy ends up being true! To conspire mesns to plot or make plans again someone or some subject. I’m over the word being used repeatedly these days.. oh and the FACT that the term conspiracy theory was coined by the c i a after people started realising that Kennedy wasn’t assasinated by Lee Harvey Oswald) and it was designed to put people off of looking into the truth.