Breakthrough: "Electronic soil" boosts crop growth by over 50%
Breakthrough: "Electronic soil" boosts crop growth by over 50%
This research introduces an innovative approach to soilless cultivation, or hydroponics, by integrating electronic soil, or eSoil.
Breakthrough: "Electronic soil" boosts crop growth by over 50%::This research introduces an innovative approach to soilless cultivation, or hydroponics, by integrating electronic soil, or eSoil.
You know what our body uses as a natural battery sort of thing? Salts! You know what is loaded with salts/electrolytes? Gatoraid! The conclusion is clear
Barley seedlings, traditionally not grown in hydroponic systems, exhibited a 50% increase in growth over 15 days when their roots were stimulated electrically using eSoil.
I didn't know barley is such a masochist plant. I wonder if it's just barley being weird, or if other plants also like being (lightly) electrocuted.
Subscribe to your esoil account. Brought to you by Kroger, for the low introduction price of $39.99.
*per acre per month
This is really only a useful technology for hydroponics, which is really only a useful technology in places that are short on arible land, but the realities of globalization means good luck beating the costs of importing from places that have more arible land than you.
Still neat, I would have liked to have seen an explanation for the change
Hydroponic/aeroponic is way more efficient than growing in dirt. You can stack it as high as you want and grow way more per acre. On top of that you have the reduced amount of fertilizer and water and the increase in growth rate.
There is a reason why the best weed is grown via hydroponic/aeroponic.
Hydroponics, when combined with indoor, vertical farming, is the reason that the Netherlands are one of Europe largest exporters of food. Even though they're one of the countries with the least amount of farmland.
which is really only a useful technology in places that are short on arible landq
So, everywhere within the next 60 years?
:-(
Also quite useful for places short on water, or daylight, or clement weather, or low-value ecosystems, or where transportation is unfeasible due to accessibility, environmental conditions, market access.
Also quite good to alleviate food deserts, securing strategic supply chains, and supporting urbanisation for greenification, food supply, lowering transport and food security (with growing food also having positive mental and psychosocial effects).
People will do anything to avoid composting.
I don't understand why. It's a great way to get rid of your victims.
You're always gonna have problems lifting a body in one piece. Apparently the best thing to do is cut up a corpse into six pieces and pile it all together. And when you got your six pieces, you gotta get rid of them, because it's no good leaving it in the deep freeze for your mum to discover, now is it? Then I hear the best thing to do is feed them to pigs. You got to starve the pigs for a few days, then the sight of a chopped-up body will look like curry to a pisshead. You gotta shave the heads of your victims, and pull the teeth out for the sake of the piggies' digestion. You could do this afterwards, of course, but you don't want to go sievin' through pig shit, now do you? They will go through bone like butter. You need at least sixteen pigs to finish the job in one sitting, so be wary of any man who keeps a pig farm. They will go through a body that weighs 200 pounds in about eight minutes. That means that a single pig can consume two pounds of uncooked flesh every minute. Hence the expression, "as greedy as a pig".
Years ago I was following "alternative science" channels (for fun) and one of their ideas was to put metal rods in a field and apply current to increase plant growth. Their other ideas were intelligent plasma generating free electricity and using water as fuel so I dismissed the "electric soil" idea as another idiotic experiment although the least crazy one. Could they be on to something after all? Not with the intelligent plasma of course, just the electricity and plants.
The browns gas thing (usually "using water as fuel" by splitting it... Using power from the engine) actually has insanely specific be credible use case.
It turns out that in very specific engine types, you can gain additional engine efficiency that's worth the energy it took to generate the gas. The us army did a whole proper study. That net gain was, however, only present in vehicles not maintained on the usual schedule. So it did infact help some engine types that were not well maintained.
I know this because I did a dive years back. Effeciency be damned, building a reserve of browns gas that I could dump in when I wanted for a power boost sounded fun as hell to me. You wouldn't gain any effeciency (probably loose a ton) but you would have more power when you were mixing in the reserve you'd built up. I wound up not doing it because 1) the vehicle I had in mind was carb not fuel injection so no power gains there. And 2) dealing with generating, pressurizing, storing and delivering a gas isnt a ton of fun in a "for the lolz" project.
It's hard to say without reading the actual paper, but summaries (from other sites, the earth.com site is terribly lacking) describe their approach as an alternative substrate for hydroponic cultivation, which would be both easier/more eco-friendly to produce, and allow conductivity. In any case it is far from "sticking a metal stick around".
So I'm trying to find an academic article, but it's not just the substrate. They blew right past it in the article but there is electric potential applied, and the substrate is slightly conductive which is what allows it. They seem to imply that leads to better root growth but like I said the article barley mentioned the actual e of the e soil lol.
But bioelectrochemistry is a thing. I work on the other end, where microbes are depositing electrons, but I am aware of different technologies where the bugs use a potential as an energy source for specific reactions, usually around remidiating some nasty stuff in the ground.
Im less aware of it affecting a plant directly (I'd assume it changed the soil bugs or something) but it's not hard to picture. Good be something as simple as the potential changing the osmotic pressure and making it easier for the plants to take up nutrients or something.
But yeah, pretty far from a rod in the ground, although in some cases that is basically all you'd need. The bioelectrochemistry field always had junk science to contend with.
I grow using a technique known as "notill" where you guessed it, I never till the soil. Or replace it. It's organic, I even have helper bugs and worms. Inside. It's awesome.
It's really weird to me that you write just like Jesse talks on the No Till Growers youtube channel
That's interesting, I'll check the channel out, thanks!
I'm not Jesse though I promise.
Don't you have to till at least once?
I tried growing on ground that was matted deep with decades old dead vegetation. And even after raking the crap out of it and trying to dethatch it, I couldn't get anything to stick.
After giving it a good till and mixing in a decent bit of old herbivore manure, my plants took and grew wonderfully.
Nope. The idea in no till is just adding stuff to the top and letting worms and roots handle the tilling.
I've had good luck just dumping a foot or two of finished compost on the ground and growing in it.
Another solid no-till approach is sheet mulching. You put down a layer of cardboard (to kill weeds), then layers of carbon and nitrogen like straw and kitchen scraps. Wait a few months, then plant. So you could do that in the late summer or fall to prepare a site for spring planting.
A lot of these things depend on location, though. Something that works great in Pennsylvania might not work as well in Utah.