I still don’t understand the economics of vertical farming. Isn’t that a lot of extra infrastructure to produce the same plants? What area of solar panels do you need to power an acre-equivalent production of vertical crops?
The biggest step up would be changing consumer preferences and maybe different regulation (tighter animal welfare laws, emissions standards and/or removing any subsidies for animal agriculture).
Consider this: You can install a massive local vertical farm directly inside a large city, but you can’t do the same for normal farming.
Thus severely reducing the economic/ecological costs of farming, because you can supply locally produced veggies directly into stores, rather than needing to haul them for 50-1000km away.
And stuff like: You can grow plants 24/7 with no breaks as it’s all automated.
You can adjust the “climate” just right for whatever plant you’re growing.
You’re not using massive plots of land that could for example be used for housing, and leaking fertilizer/pesticides to the soil/rivers/lakes/sea.
You’re not wasting a ton of energy by using combustion based machinery, and also not causing more pollution.
In general the energy required for vertical farming can be done entirely by solar.
That makes sense. I guess what I’m hoping for is a breakdown of the exact costs and footprints involves, at least in estimation. Like, less shipping is great, but a solar farm plus a factory-greenhouse is not a small investment, and the solar farm can’t be made vertical, which will cut down on the area savings at least somewhat.
I get why everyone goes for leafy greens, since I’ve experienced sad Canadian winter lettuce. I’ve also heard it’s a bad choice, somehow, and a lot of startups have failed as a result.
Well you can repurpose a lot of what used to be large farmlands and install large solar farms there, potentially grow some plants in the solar panels shadows as well.
Win-win situation.
Consider this: the sun already provides all the energy required to grow plants, and healthy soils provide the required nutrients. Plants can already harvest solar energy, that’s kinda their whole thing.
Your model requires synthetic nutrients and synthetic sunlight. Producing and maintaining solar panels and the associated infrastructure is not environmentally benign, particularly if as you suggest in your other comment you would want to install solar arrays on former farmland.
How about instead we grow plants properly, in ecosystemically responsible ways that promote soil health, which is directly connected to our health via our gut microbiome. Growing sterile plants in a controlled environment is not an ecological solution at all, it’s a sterile solution.
Our agricultural system isn’t in need of high-tech solutions. High-tech solutions is exactly what has been fucking agriculture up for the past seventy years.
It doesn’t require synthetic nutrients actually, but it does require synthetic sunlight: which is fine, actually.
The solar panels needed are beneficial to everyone involved.
They provide electricity to locals, they help plants combat climate change by providing much needed cover from direct sunlight which these days can completely ruin your crops.
The point isn’t to make all former farmland SOLELY solar panels.
It’s to help the crops/plants themselves grow better under the shade of the panels.
Sustainable farming is absolutely still a requirement in the future.
Vertical farming is to supplement the needed gaps in farming, like installing them inside cities so certain plants/crops can be served 1. Much faster, 2. In a much greener state, and 3. Direct-to-store which heavily reduces pollution potential from having to haul it from really long distances away, and in many cases, requiring refrigeration to keep the shipments cool, further polluting the planet.
I still don’t understand the economics of vertical farming. Isn’t that a lot of extra infrastructure to produce the same plants? What area of solar panels do you need to power an acre-equivalent production of vertical crops?
The biggest step up would be changing consumer preferences and maybe different regulation (tighter animal welfare laws, emissions standards and/or removing any subsidies for animal agriculture).
Consider this: You can install a massive local vertical farm directly inside a large city, but you can’t do the same for normal farming. Thus severely reducing the economic/ecological costs of farming, because you can supply locally produced veggies directly into stores, rather than needing to haul them for 50-1000km away.
And stuff like: You can grow plants 24/7 with no breaks as it’s all automated. You can adjust the “climate” just right for whatever plant you’re growing. You’re not using massive plots of land that could for example be used for housing, and leaking fertilizer/pesticides to the soil/rivers/lakes/sea. You’re not wasting a ton of energy by using combustion based machinery, and also not causing more pollution. In general the energy required for vertical farming can be done entirely by solar.
That makes sense. I guess what I’m hoping for is a breakdown of the exact costs and footprints involves, at least in estimation. Like, less shipping is great, but a solar farm plus a factory-greenhouse is not a small investment, and the solar farm can’t be made vertical, which will cut down on the area savings at least somewhat.
I get why everyone goes for leafy greens, since I’ve experienced sad Canadian winter lettuce. I’ve also heard it’s a bad choice, somehow, and a lot of startups have failed as a result.
Well you can repurpose a lot of what used to be large farmlands and install large solar farms there, potentially grow some plants in the solar panels shadows as well. Win-win situation.
Consider this: the sun already provides all the energy required to grow plants, and healthy soils provide the required nutrients. Plants can already harvest solar energy, that’s kinda their whole thing.
Your model requires synthetic nutrients and synthetic sunlight. Producing and maintaining solar panels and the associated infrastructure is not environmentally benign, particularly if as you suggest in your other comment you would want to install solar arrays on former farmland.
How about instead we grow plants properly, in ecosystemically responsible ways that promote soil health, which is directly connected to our health via our gut microbiome. Growing sterile plants in a controlled environment is not an ecological solution at all, it’s a sterile solution.
Our agricultural system isn’t in need of high-tech solutions. High-tech solutions is exactly what has been fucking agriculture up for the past seventy years.
It doesn’t require synthetic nutrients actually, but it does require synthetic sunlight: which is fine, actually.
The solar panels needed are beneficial to everyone involved. They provide electricity to locals, they help plants combat climate change by providing much needed cover from direct sunlight which these days can completely ruin your crops.
The point isn’t to make all former farmland SOLELY solar panels. It’s to help the crops/plants themselves grow better under the shade of the panels.
Sustainable farming is absolutely still a requirement in the future.
Vertical farming is to supplement the needed gaps in farming, like installing them inside cities so certain plants/crops can be served 1. Much faster, 2. In a much greener state, and 3. Direct-to-store which heavily reduces pollution potential from having to haul it from really long distances away, and in many cases, requiring refrigeration to keep the shipments cool, further polluting the planet.