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.

  • rdyoung@lemmy.world
    link
    fedilink
    English
    arrow-up
    11
    arrow-down
    9
    ·
    edit-2
    11 months ago

    This is so false it’s not even funny. Hydro is way more efficient and aero even more so.

    With farming indoors you can control the day/night cycle which not only increases the growth rate it also let’s you manipulate fruiting and flowering.

    Hydro and aero use a fraction of the water dirt farming does. More water is being taken up by the plants and none of it is being lost to the environment. On top of that evaporation is controlled so less is lost that way.

    As mentioned above the growth rate is increased not only by the light cycle but also by being able to more strictly control and fine tune the amount of fertilizer and you use way less of it. Just like the water, fertilizer isn’t lost to the environment.

    Seems like some of you need to learn more about this stuff. There is a growing number of vertical farms popping up all over the world. Hopefully one day soon we will be buying lettuce, carrots, etc that were grown if not in the same building but on the same block.

      • belathus@bookwormstory.social
        link
        fedilink
        English
        arrow-up
        13
        arrow-down
        4
        ·
        11 months ago

        In part because traditional farms scale better than aeroponics or hydroponics. In part because farms don’t pay for the environmental damage they cause. Because of these two points, there is little incentive to industrialize aeroponics or hydroponics.

        What is true right now is that traditional farms use more water, fertilizer, and space, cause more environmental damage, but require less labor. And the labor problem can be mitigated with robotics, if we’re willing to invest in that.

      • rebelsimile
        link
        fedilink
        English
        arrow-up
        4
        arrow-down
        12
        ·
        11 months ago

        The Venn diagram of farmers and early adopters is harry potter’s glasses

        • fruitycoder
          link
          fedilink
          English
          arrow-up
          9
          ·
          11 months ago

          Have you seen all the crazy stuff get up to? Geospatial analysis of fields, drones for spot fertilizing, the acres covering water systems, turning waste crops into ethanol, etc

          • Thrashy@lemmy.world
            link
            fedilink
            English
            arrow-up
            3
            ·
            edit-2
            11 months ago

            Farmers are quick to jump on an opportunity to refine their current processes in ways that reduce their inputs and increase their yields, especially when it only costs them a few grand in capital investment (drones for surveying and spot treatment) or is hilariously over-subsidized by the government (bioethanol). Wholesale change from the literal ground up, not so much, and perhaps understandably so – farmers have massive, often generational investment in infrastructure and equipment for farming in specific ways and with specific crops, operate on narrow margins, and don’t have much available liquidity to change things up on a whim. For that reason, major innovations in agriculture don’t usually come from farmers; instead they usually come from university research.

              • wikibot@lemmy.worldB
                link
                fedilink
                English
                arrow-up
                4
                ·
                11 months ago

                Here’s the summary for the wikipedia article you mentioned in your comment:

                The technology adoption lifecycle is a sociological model that describes the adoption or acceptance of a new product or innovation, according to the demographic and psychological characteristics of defined adopter groups. The process of adoption over time is typically illustrated as a classical normal distribution or "bell curve". The model indicates that the first group of people to use a new product is called "innovators", followed by "early adopters". Next come the early majority and late majority, and the last group to eventually adopt a product are called "Laggards" or "phobics." For example, a phobic may only use a cloud service when it is the only remaining method of performing a required task, but the phobic may not have an in-depth technical knowledge of how to use the service. The demographic and psychological (or "psychographic") profiles of each adoption group were originally specified by agricultural researchers in 1956: innovators – had larger farms, were more educated, more prosperous and more risk-oriented early adopters – younger, more educated, tended to be community leaders, less prosperous early majority – more conservative but open to new ideas, active in community and influence to neighbors late majority – older, less educated, fairly conservative and less socially active laggards – very conservative, had small farms and capital, oldest and least educatedThe model has subsequently been adapted for many areas of technology adoption in the late 20th century, for example in the spread of policy innovations among U.S. states.

                article | about

          • rebelsimile
            link
            fedilink
            English
            arrow-up
            1
            arrow-down
            3
            ·
            11 months ago

            Which is why “rurality” is a synonym for modernity, and why “rural electricity/telephone/internet access” reminds you of a high tech data center. Ok.