This is a very interesting article and does the thing that the media often does of missing the point: these are the ultimate factor farms--literally factories that crank out leafy greens--and we're close to an economic transition on perishable, constant demand, high value items like leafy greens. Cannabis passed this point several years ago. This is a really hard transition though for the actual food supply that makes the bulk of our calories. Free water and energy from the sky is really hard to beat.
Agreed. See this video "Bruce Bugbee, Utah State University Department of Plants, Soils and Climate, has studied plant growth in controlled environments for most of his career. Here he presents the results of his analysis of the environmental effects of Vertical Farming/Indoor Agriculture (September 2015)"
Would cannabis have passed this point if it could be openly, legally transported across state lines and national borders? I'm very skeptical.
The supply chain there is not just weak, it is actively antagonized by various police forces. My guess is that if cannabis was 100% legal, the indoor grow operations would not make economic sense; we'd just have giant farms or greenhouses in mexico or the southwest.
Have you ever tasted wild herbs? There's just no way this will ever replicate wild herbs.
I recently ate an out of season "heirloom tomato" grown in Mexico and shipped to my local coop in Minnesota. It was "organic", and it looked like an heirloom tomato. But it had no taste. It was clearly grown in depleted soil. I've grown heirloom tomatoes, as well as beefsteak and other more conventional varieties. Food grown in a garden tastes better. There are more nutrients available to them. Plants are chemical-mineral-sun beings. They grow abundantly in diverse ecosystems and offer their fruits with no violence.
Why is this artificial shit necessary? It's not.
People don't appreciate the profound and beautiful foundations of "old" technologies. Paper. Knots. Gardening. Cooking. Woodworking. Compost. Herbal medicine. Music. Many of these artforms (sciences, really) are miles ahead of the fancy capitalist stuff in terms of their nuance, their simplicity, their integration with human wellbeing.
Actually, they aren't free. That's the point, that's what's cool about indoor farming. It is the ultimate in agricultural intensification, even if marketed as some sort of sustainability. The land required to support a human goes way down as agricultural intensity goes up. It is actually weird, but a hunter gatherer "living in harmony with nature" actually does orders of magnitude more ecological damage per human than industrialized society.
Having a 1 acre garden as a hobby, is huge ecological violence since industrialized agriculture requires far less than half an acre per person and the loss of habitat is the same.
>a hunter gatherer "living in harmony with nature" actually does orders of magnitude more ecological damage per human than industrialized society.
I'm not sure how this is true. Perhaps you can persuade me?
A one acre garden is not a "hobby" in my opinion. The amount of work involved in cultivating an entire acre is immense. As well, a personal garden is unlikely to be a monoculture which is even worse ecologically in my opinion than a loss of efficiency. Plus there's all that Round-up...
>I'm not sure how this is true. Perhaps you can persuade me?
This could actually apply to the hunter&gatherer because those didn't care much about sustainability. When a region was picked/hunted empty they simply moved to a new region, few enough of us around back then so this actually worked and regions had time to recover.
Now imagine nearly 7 billion humans living the same way: Gathering/hunting everything in their closest region until most of it is gone just to move on to a new region, no permaculture at all. It wouldn't take long before there wouldn't be anything left to hunt or gather.
>A one acre garden is not a "hobby" in my opinion. The amount of work involved in cultivating an entire acre is immense.
Not every one-acre garden is actually cultivated, that's how some people are able to have them as a hobby ;)
>>Having a 1 acre garden as a hobby, is huge ecological violence
Can you explain how this hobby is so violent? I don't think I am following the line of thought.
The typical one acre hobby garden is farmed with far fewer chemicals than the typical commercial farm. There is far more diversity and a better balance of minerals. Compost is often used and waste is effectively recycled.
I think the parent meant that people having 1 acre hobby gardens are wasting space that could be more efficiently used by industrialized agriculture, and thus if you'd replace modern farming with family gardens, you'd destroy many more animal habitats.
The space isn't what is used efficiently by industrialized agriculture (for the most part). The efficiency comes from saving time by having large machines. Space is used most efficiently when you have people actively involved on small plots.
> Space is used most efficiently when you have people actively involved on small plots.
Wouldn't the area needed for the active involvement of people require more space than commercial agriculture, where large machines can do a lot on a small footprint? A sprayer with 12 inch tires and a 120 foot boom can effectively 'weed' 118 feet of growing area with just two feet required for the tires. I'm not so sure a person with a hoe can beat that.
You can plant crops much closer to each others using an hexagonal pattern. It's one part of what constitute "biointensive gardening". The only way to beat that is if the harvesting machinery is hovering over the field.
And s sprayer only spray, it does not harvest anything. They actually make UAV sprayer, though...
> You can plant crops much closer to each others using an hexagonal pattern.
A traditional seed drill, for crops that can be suitably planted with one, plants rows 7.5 inches apart and spacing within the row is even closer. There is really no room for a human to comfortably exist within that space without tramping the crop. I'm not sure I understand how a hexagonal pattern opens up space for a person in that circumstance without reducing the growth area?
> And s sprayer only spray, it does not harvest anything.
For many crops you're not concerned about, even desire, wiping out the entire plant.
> They actually make UAV sprayer, though...
Certainly. Crop dusting has been a thing for as long as flying has been a viable human achievement. Although with larger and larger machines on the ground able to have a smaller and smaller footprint relative to the working area (and precision technology ensuring that the machine obeys an exact footprint), the practice seems to be going out of favour.
Indoor farming can only be more intense than outdoor if you power it with nuclear or fossil fuels...
Humanity is currently migrating into solar power. There's no way you will gain any area by adding conversions on the way through the plants. You get better reliability, easier pest controls (without additives), and lots of other things, but you can never gain in area use.
I'm pretty sure the reason your fruits and veggies don't taste right is because they have to be shipped unripened to prevent spoilage. It's why fruit from the farmers market tastes better, it was grown until ripe and shipped locally.
Technologies, like the ones mentioned in this article, change the entire supply chain; fruits and vegetables become "in-season" all year round. They will no longer have to be shipped unripened, and should have a better flavour.
Just because something is natural does not mean it is healthy, safe or effective, but dismissing all types of herbal medicine that some people have been using for thousands of years seems too dismissive. I hate to be that guy, but the science is starting to pile up for the medicinal pot group.
There is a word for any herbal medicine that actually works: medicine. It gets studied and the active ingredient is extracted and synthesized by pharmaceutical companies.
That's the thing, there aren't "active" and "inactive" ingredients. There are webs of phytochemicals that have dynamic interactions with one another and with the human body. Reductive medicine is missing that point over and over again. It's not possible to extract single ingredients that have the same effects as the qualitative mixtures phytochemicals in plants. Not only that, interacting with the plants on a human, physical level is nurturing in and of itself. There are so many pathways for information to get into the body. I want to drink lavender tea when I'm feeling a particular kind of anxiety. The smell alone calms me. The color is soothing. The way the tea feels when I drink it is warm. I enjoy the way it tastes. The taste and smell remind me of memories and moods. It works very well. It doesn't cover "general anxiety" for me. I wouldn't offer it as a prescription to someone who tells me they have "anxiety". It works better in cases of "spiritual crisis", to help maintain a bigger picture after a death or tragedy, than it does for acute frantic, nervous feelings. In those cases, I prefer valerian, chamomile or holy basil.
You're bullshitting me if you think I'm gonna prefer to take a pill with "holy basil extract" over a delicious cup of holy basil tea. Absolutely not.
And tell me how to "extract" rooibos? What parts are you going to put into pills? Can you extract the taste? Can you extract the nutrients? Would you make one pill for the antioxidants and another for the vitamin C?
It used to be thought that THC was "the active ingredient" in cannabis. Well, it turns out that THC and CBD, along with numerous other varieties of cannabinoids, interact dynamically in the body, modulating one anothers' effects. Studies have shown that CBD quells the psychosis inducing effects of THC very well. But CBD on its own isn't necessarily a strong antipsychotic. It'd need to be taken in large doses to have that effect.
The idea that "germs cause disease" is a similar misconception. Bacterial infections are symptoms of larger ecological imbalances in the body's microbiome. Sometimes infections are really caused by antibiotics (if you wanna point fingers), as is the case with C. Difficile infections that take hold in guts whose flora have been nuked by antibiotics.
I'm not convinced that's the entire explanation. Don't things keep being discovered about the bacteria living around the roots in the soil interacting with the plant to provide much of their nutrition? A growing plant is a massively complex system. Tweaking how they grow likely has unintended consequences.
Mycorrhizae are perfectly happy in a hydroponic system. But you are right, there are many things we don't understand and some growers don't do things correctly that we do understand.
We get plenty of tasty fruits and veggies that are shipped from all over the world. This was something different. These had no nutrients. My hunch is that they were grown in mineral depleted soil.
> There's just no way this will ever replicate wild herbs.
Why not? What environment or characteristic of plants grown in the wild is impossible to recreate in a controlled environment? Arguably, plants can be grown "in-season" all year round with technology like this, and be sold fresh the same day it is picked.
> Why is this artificial shit necessary? It's not.
Maybe growing food within the cities will help us to feed a dense local population, while at the same time minimising the impact on the countryside. Thus leaving the countryside natural for those who want to appreciate it.
Living in Britain, I despair at the eradication of the countryside. Natural environment has been almost exclusively replaced by farm land to grow food for our ever growing population, and we are still quite a long way from being self-sufficient.
Also, work like this will help if we want to colonise space.
> People don't appreciate the profound and beautiful foundations of "old" technologies
Are you the arbiter on what everyone else should be appreciating? Although you are free to appreciate and enjoy anything you like, other people such as myself derive deep pleasure from observing the constant onward march of technology and industry.
Many of the modern varieties of mass-produced produce have been bred to overcome pests and harsh conditions. not flavor. By moving the plants indoors we overcome both issues and can grow in optimal conditions where we can focus on taste and texture. Plus by growing close to the point of consumption the food is fresher and tastier and can be harvested when ripe and not a week before so as is currently the case. Additionally the nutrient levels in CEA (Controlled Environment Agriculture) crops is usually above a field grown crop (https://well.blogs.nytimes.com/2016/12/23/are-hydroponic-veg...)
I really wonder what how much food could be produced if all the lawn and empty lots in a city were effectively productive as vegetable plots. I know that it can't be used because people like their lawns and things but often there is unused space in densely populated areas.
It isn't even that they like their lawns. It is the cost of labor to do this. The Salinas and Imperial valleys (where 85% of US veggies are grown) concentrate labor and other inputs in a way that you never could in small plots.
It is the same thing as we could assemble cars in almost any workshop or hangar, but we build cars at scale in only a few places.
The trick would be getting people to have and grow their own edible lawns. Then the cost is the same as keeping the lawns of today, but there's a more useful return.
It's only a values issue. In Russia for example small gardeners produce 40% of the nations food.
http://naturalhomes.org/naturalliving/russian-dacha.htm
And perhaps the evolution of tools like https://farmbot.io/ An intelligent 'lawmmower' makes your permaculture for you.
"Getting food to people who live far from farms—sometimes hundreds or thousands of miles away—is costly and strains natural resources."
For many foods, more gasoline is used getting it from the grocery store home than is used to get it to the grocery store from across the world. Ships and trains and large tractor trailers are quite efficient.
OTOH using artificial light instead of the sun to grow food requires huge amounts of energy.
> OTOH using artificial light instead of the sun to grow food requires huge amounts of energy.
I don't know if it's been tried or not for indoor gardening, but why not use heliostats coupled with reflection (mirrors) or refraction (lightpipes) to guide the sunlight indoors?
I know such systems have been used for general lighting and art works...
Because if you are growing 1 acre of lettuce across 10 floors of a building (1/10th acre per floor) now you need to collect 1 acre of sunlight from a 1/10th acre sized roof. Where do you get the other 9/10th of an acre of sunlight from?
I think these kinds of stories play well to governments, the press, and some groups of people as ideas or as cool photo opportunities, but they don't translate into meaningful agricultural production.
I encourage people to scroll around Google Maps (or better yet, drive) through some of America's most productive agricultural regions. The sheer scale of American farmland dwarfs any possible urban farm development.
I know from personal experience growing seedlings in my basement here that new LED grow lights make it much more cost and energy efficient to run a greenhouse than it used to be. But fertile soil is a massive input cost that you can't really get around for most full sized plants. I spent hundreds of dollars recently on garden soil for a small set of raised beds. I have a tiny flock of six chickens supplementing my compost pile.
Anyone can grow bad produce indoors. I think the real problem (having lived in urban, rural, and suburban areas) they're trying to address is the transportation cost of bringing quality produce to the city. Right now many cities are not really set up for affordable freight transportation. Cities like NYC are almost designed to make it pointlessly expensive and complicated to bring freight in from the country to the store. Commercial truck traffic gets redirected to cramped streets while personal car traffic gets access to the expressways and parkways. That's one of the reasons why it costs you 4x to buy a pound of worse quality bacon in NYC what it costs in many other US towns and cities.
So if you are trying to deploy technology to make quality food more available to American cities the solution is probably not just hanging up some grow lights and growing weak plants in trays. It is to attack the largest sources of the added costs. The 'local' label has salience to high end grocery shoppers because they believe that it indicates quality. If 'local' comes to be associated with tray farms using poor inputs, it will stop being associated with quality in the minds of Whole Foods shoppers.
It'd be great if America had the sort of urban freight network that was state of the art in Japan in 1980 instead of trying to come up with pretend-technology patches to much larger cost of living problems.
Cities have two things in abundance due to human input/output: fertilizer and water. They lack sunlight but with cheap energy LEDs fill that gap.
High density city-"farming" makes economic sense in certain contexts:
- high density living environments
- inefficient or expensive transport costs
- lack of available farming land relative to population (expect net-food-importers like Singapore to lead here)
- northern hemisphere (full-year growing cycle increases appeal and cost efficiency)
- cities not located in close proximity to farmland (e.g. Abu Dhabi, Dubai)
They don't replace organic, and subvert the "local" farm-to-table movement and I'll be surprised if they can match the taste of produce grown in a robust/diverse ecosystem. But they do provide a market need for controlled environments and consistent output that dials into local demand.
Pros and cons, but inevitable part of our agricultural future.
On a long enough timeline, I see this as the future of the industrialization/technology trend that touches everything, including ag. While the "old" industrial-ag model shows that bio-mass reduces over time with fossil-fuel inputs and mass production, so won't stay viable forever. Higher end consumers will support the fully-organic small farm sustainable rural modal, but it remains to be seen if/how they can scale and be price-competitive for mass-consumption vs cheaper alternatives.
You missed an even bigger input: labor! Cities have tons of people, with a wide variety of skills. The boonies have few, and there's a chicken/egg problem (thinner market) that makes it harder to change jobs since there's fewer employers and harder to fill jobs because there's fewer employees.
Farm-to-table is a mark of quality for gourmets because the food tastes better and has more nutrition when it has more expensive inputs. Feed a pig nothing but acorns and he's gonna taste great, but he's gonna be really expensive. Feed a pig nothing but hyperprocessed nutrient foam or whatever and he's gonna taste bad but he's gonna be cheaper.
>On a long enough timeline, I see this as the future of the industrialization/technology trend that touches everything, including ag. While the "old" industrial-ag model shows that bio-mass reduces over time with fossil-fuel inputs and mass production, so won't stay viable forever. Higher end consumers will support the fully-organic small farm sustainable rural modal, but it remains to be seen if/how they can scale and be price-competitive for mass-consumption vs cheaper alternatives.
Why? When people can afford it, they tend to want to upgrade what kinds of food that they eat. The quality issue is not something that is easy to sidestep just because of the law of conservation. Output can't exceed input. It is a huge operation to move soil and fertilizer around. It is expensive even in rural areas. Hydroponics have certain fertility, plant type, and plant quality limitations and cost more money to set up. Not to mention the issue of devoting expensive urban real estate to agricultural production.
Cities have two things in abundance due to human input/output: fertilizer and water. They lack sunlight but with cheap energy LEDs fill that gap.
High density city-"farming" makes economic sense in certain contexts:
- high density living environments
- inefficient or expensive transport costs
- lack of available farming land relative to population (expect net-food-importers like Singapore to lead here)
- northern hemisphere (full-year growing cycle increases appeal and cost efficiency)
They don't replace organic, and subvert the "local" farm-to-table movement and I'll be surprised if they can match the taste of produce grown in a robust/diverse ecosystem. But they do provide a market need for controlled environments and consistent output that dials into local demand.
Pros and cons, but inevitable part of our agricultural future.
On a long enough timeline, I see this as the future of the industrialization/technology trend that touches everything, including ag. While the "old" industrial-ag model shows that bio-mass reduces over time with fossil-fuel inputs and mass production, so won't stay viable forever. Higher end consumers will support the fully-organic small farm sustainable rural modal, but it remains to be seen if/how they can scale and be price-competitive for mass-consumption vs cheaper alternatives.
I call bullshit. How much dollar (retail) value of goods do you think the average heavy truck rolling around NYC carries? And how much cost do you think is added due to the current freight network versus your ideal world?
> Commercial truck traffic gets redirected to cramped streets while personal car traffic gets access to the expressways and parkways. That's one of the reasons why it costs you 4x to buy a pound of worse quality bacon in NYC what it costs in many other US towns and cities.
Let's do a little estimating: A crate of milk at $4 per gallon is $24 and is about 1x1x2 feet. If you pack an 8x16x8 box truck, which is way smaller than the maximum size limits, that's 512 crates, so about $13,000 back there. That's also about 26000 lbs, which is within the MGW of some trucks that size.
You're lucky I didn't use bacon as an example because a 1x1x2 crate filled with up to 48 pounds of bacon can be sold for much more than a 1x1x2 crate filled with 48 pounds (6 gallons) of milk.
Now consider how long it takes a truck, even denied access to parkways (in NYC, trucks DO have access to interstates, such as the BQE, Van Wyck, Verazzano, Triboro, GWB, I-95, etc etc etc) to get around. Maybe a couple hours. How much better could you make it? How much driver pay and extra gas and such is being spent in the extra hour or so? Let's be generous and say $500. So we're talking no more than a 5% change in the price of the goods in there. Stop and go traffic with that kind of weight is not great for fuel, but it's a lot better when deliveries are done off hours. Off hours, it's easy to catch a "green wave" on the wonderful one-way avenues in Manhattan and never have to stop again till you need to make your turn.
You're alleging a 400% increase, not a 5% increase. My numbers are off, this is an estimate, but this is probably the order of magnitude of this effect. You are going to need sources to make such a shocking statement.
Part of the reason your food costs so much is you're shopping at the wrong damn stores. Go to Key Foods or something. A real normal cheap grocery store, not like, Gristedes or some such. Most foods costs about the same as NJ or Arkansas.
Also, most food goes through the Hunts Point distribution centers, which are conveniently located off of I-95 which permits heavy trucks including full 18 wheelers. No idea where you're getting your info. From there they can take the BQE all over inner Brooklyn/Queens with access to Manhattan via any of the major east river bridges except the Brooklyn (some smaller trucks may even meet the restrictions for the tunnels)
Making our "Freight infrastructure" any better with roads is a waste of money that at best, may, at the cost of billions, reduce food prices 5-10%. It'd be much better to use a fraction of that money to subsidize food stamp programs or something, with much more effect.
The only real problem with all the trucks on our local streets, is it's annoying and dangerous to pedestrians. A good start here would be just enforcing (and educating regarding) the existing mandatory truck route system better. Trucks have an extensive map of permitted routes in NYC, and it's really not that hard to deal with, but you do regularly see trucks violating the same.
I dunno, I grew up shopping at Key Food in Brooklyn. Key Food sucks. Gristedes is indeed worse. Even the revamped Key Food sucks. It's way more expensive than grocery stores in other lower cost of living states that I have lived in since. Even the high end NYC grocery stores are basically just bad and expensive compared to a lot of other places in the country.
Sure, transportation isn't all of it. Most of it is probably labor and real estate. But how awful it is to drive a truck in NYC versus how easy it is to make commercial deliveries in just about any other city or town in America has a lot to do with it, especially because the article babbles an awful lot about the challenge of delivering stuff to cities from rural areas. It's way more complicated to deliver goods to Manhattan (an island) than in most American places which just involve pulling off an interstate exit and making a delivery.
If the question is whether or not it makes sense to focus on
a( Heavy public investment into fake-tech urban farms
or
b( Identifying the really big sources of the costs and working to bring those down
I think b( is the better way to go. I think we could probably agree on that. I don't really know the specifics because I'm shooting off the hip about another lame urban farming article. Come to think of it real estate prices are probably what make up the bulk of the added cost on top of what the consumer pays in other markets and not delivery costs. But the purported problem that these farms are supposed to fix are the cost of bringing food from rural areas to cities.
Personally I doubt that even if the magical infrastructure fairy gave the mayor a quintillion dollar grant to spend on infrastructure improvements that anything positive would happen (it would probably get much worse somehow). But again, the problem that this is supposed to fix is the cost of bringing food in from rural areas.
Indeed, grocery stores in NYC generally have terrible produce.
However most of the costs for urban farms have to do with replicating things that rural farms have for free. Instead of using the sun urban farms have to pay for electricity, lighting, wiring, etc.
* Sunlight: electricity costs and capital costs for lighting
* Water: even with an efficient hydroponic system city water is more expensive
* Growing medium: either dirt or a hydroponic system, which requires maintenance and a capital outlay
* the farm building itself: unlike fields, buildings cost money to build and maintain
An efficient urban farm could theoretically use land more efficiently (by growing more crops per square foot) and use less water, but those inputs are cheap. Transportation would also be less expensive.
Iowa farmland is less than $9,000/acre[0]: in Staten Island (the cheapest borough) land prices are $37.62/square foot[1] or $1.64 million/acre: so yields would need to be over 180x better to break even on the land alone!
Absent some huge breakthroughs on the pricing of all of the inputs (or astronomical increases in transportation costs) the economics for generally don't work for crops.
I dunno, I can get tomatos in season for like a buck a pound, and while I haven't bought boneless chicken breast in a couple years, it was findable for like $2 or $3 a pound. Milk is like $3 to $4 a gallon, and eggs can be had for $1 to $2 a dozen. Parsley and cilantro for like a buck or two, but you can't always find good quality for both. Whatever, I use them interchangably so it's fine. Potatos and onions are always dirt cheap everywhere, well under $1 a pound. Kale is cheap but I don't remember how much because I discovered I like cabbage even better, and they practically give cabbage away.
These are the prices I get from going to nearby fine fare / key foods type places in the Lower East Side, and they're pretty much the same prices I remember seeing in NJ and Arkansas, with some variation. Individual supermarkets do vary a lot though, so if you don't have a bike/car and just go to the one that happens to be closest to you, it may seem way worse than it actually is.
I don't know if real estate makes a difference. The dollar pizza places stay in business somehow, making it up on volume. Suburban supermarkets seem to compensate for their cheaper real estate by wasting way more of it, with huge stores with tons of aisles and 100 brands of each kind of product, and then 4x that land spent on parking. I wouldn't be surprised if such a facility spends the same or more on their lease as a random C-Town in Brooklyn.
Also, I kind of agree with a lot of other stuff you said, just responded to what I found interesting to respond to :)
> But fertile soil is a massive input cost that you can't really get around for most full sized plants.
If you had read the article, you'd know this is a hydroponic system. No soil. Yields are substantially higher and less water is consumed. Hydroponics are pretty interesting technology.
> Anyone can grow bad produce indoors.
Yeah, if they just stick some dirt under a random LED light. That's not what they're doing here. A different article I recently read about the same farm in Newark mentioned some gourmet chef next door raving about the quality of the greens.
I said 'full sized plants' because hydroponics can only be used for some kinds of plants. For other things you need soil. Hydroponics are also much finickier and require more labor and energy -- not to mention climate control, drainage, and dehumidifying.
So what? There's no merit badge for making hydroponics work for all the plants.
Like, if you can make it work for just one plant that there's a sizable market for, like say, tomatos, that alone is enough to sustain a huge industry. Like, if you then extend it to other crops, that's cool I guess, but there's no economic need to. In order for your thesis that this is all bogus and useless to hold, hydroponics has to be industrially infeasible for ALL plants of any market value.
It makes sense to start out with high value density crops like herbs or something (and it seems the Newark facility is starting with leafy greens for that reason)
Well, the gist of articles like this is that indoor rack farming could replace traditional dirt-and-soil farming. This is commentary on an article and not some separate argument about whether or not hydroponics are good or not for certain crops.
> I think these kinds of stories play well to governments, the press, and some groups of people as ideas or as cool photo opportunities, but they don't translate into meaningful agricultural production.
As with almost all of these type of stories, it's "filler" material for journalists who need to write something to justify their paychecks and it's free advertisement for the companies. Nothing more, nothing less. Companies contact WSJ|NYTimes|etc to do pieces on them all the time. It's free publicity and journalists need to write something and of course the media has to sell ads. It's a form of busybody work.
At least this is a break from the relentless "solar savior elon musk" craze on social and traditional media.
I encourage people to scroll around Google Maps (or better yet, drive) through some of America's most productive agricultural regions. The sheer scale of American farmland dwarfs any possible urban farm development.
Anyone who thinks the U.S. is crowded should book a window seat on a daytime cross-country flight and see if they still think that when they land.
Small farms (below 350,000 / yr gross income) account for 25% of production value and 90% of total number of farms [0] and if you look at the crops being produced by large farms they're often not for direct human consumption.
Urban farm development is high density farming which doesn't require the same available area and often produces crops with higher nutrient density. It seems technically feasible for medium density urban areas to produce a large percentage of edible food locally in the near future; though that doesn't guarantee a viable business model will exist.
> It seems technically feasible for medium density urban areas to produce a large percentage of edible food locally in the near future
I absolutely agree with this - but I don't understand what the selling point is. You can't use greenhouses in an urban setting - if you've ever seen a modern hydroponic greenhouse light up the night sky you know why - and the efficiency loss from entirely replacing sunlight is staggering.
I guess I don't get it.. what's the selling point that I'm missing?
The initial selling points will be for high end markets. This style farm would give more control over the humidity and temp to the farmer who could then make significant changes to the flavor profiles that would be easily repeatable. Additionally, all out of season crops will taste in season and there will be no issue with shipping time leading to degradation.
This could be enough of a selling point for certain high end restaurants.
The loss of sunlight does seem staggering to overcome, but plants can only use a few narrow spectrum bands of light which can be efficiently replaced with led.
> This style farm would give more control over the humidity and temp to the farmer
I'm not following; any modern greenhouse has automated humidity and temperature control (and, more important than humidity, artificially increased and controlled CO2 levels).
> plants can only use a few narrow spectrum bands of light which can be efficiently replaced with led.
Yes on the light spectrum - but I'm not sure what you mean by "efficiently replaced"; my understanding is that the energy required to replace sunlight with best-in-class LEDs remains substantially more kWh/lb of produce than shipping as far as across the entire country.
Temp controllers aren't a new idea, but using them in a large greenhouse limits you because the sunlight is heating the greenhouse in the summer and the glass is cooling it in the winter. You can't insulate this area, so you need increasingly larger heater or AC to effectively maintain a temp as the ambient temp deviates seasonally. I know high CO2 helps plants cope with higher temps and increases metabolic rate, but I'm not sure what its effects on secondary metabolites that produce the flavors are.
By only using 460 nm and 640 nm light you reduce unnecessary spectra for a chlorophyll b containing plant. Compared to other lighting sources which emit a broad specta of light, LED is much more efficient in terms of usable photons / kwH though it is likely still cheaper to ship from a freely lit greenhouse in a high light density area.
The selling point is the value addition of having a high degree of temperature and lighting control; and hinges on that leading to the additional production of certain flavors and nutrients that wouldn't be possible with less control.
Thanks for the video btw, it comes to the opposite conclusions about heat retention in closed vs open systems.
I disagree that intensive indoor agriculture can't work. It has worked pretty well. High value, low space plants like tomatoes and marijuana will translate well to a system like this. Lower value crops like grain, where you need lots of it and it doesn't cost much, will not.
Entirely agreed. I feel like I'm utterly missing something with these indoor and urban farming setups - someone is clearly investing millions into them and is presumably doing due diligence..
The CO2 output of these farms is higher than modern industrial agriculture, even if you assume all the traditional produce is shipped across the entire continental US. Cornell has some good lectures on this subject: https://youtu.be/VrpyUA1pQqE?t=1842
So, urban farms are worse for the environment - is the selling point cost then? I did a back-of-the-envolope trying to guesstimate this a while back on a similar post about container farms. Granted, a larger factory-style farm will have higher efficiency, but the basic problem of entirely replacing sunlight with artificial light, vs a green house that simply augments, remains.
Indoor farm
Freight farms has a cost estimate page(1) that gives us, for lettuce, something like:
50-100lb/week, lets say 75lb, so 3,900lb of lettuce a year
$17,600/year operating cost
$17,600/3,900lb = ~$4.51/lb of lettuce
However, it's worth noting that Freight Farms doesn't include labor or capital costs(!) in their estimate.
But fine - lets pretend the container farm itself is free, and that somehow plug setting, harvesting, packaging, and equipment maintenance is happily done by people working for nothing: $4.51/lb of lettuce it is.
Traditional farm
The university extension system provides great estimates of production costs for tons of crops. For lettuce, using traditional soil and machinery, production including labor, packaging and chilling UC Davis estimates(2):
$7,754 total overhead per acre
9.38tons of lettuce per acre, 18,760lb a year
$7,754/18,769lb = ~$0.41/lb of lettuce
BUT, that estimate only includes shipping to the local chilling facility. To then ship the lettuce from CA to NY, you need to hire a trailer. This week, the spot price for chilled lettuce trailers going from CA to NY is $6,000(3). Each trailer carries 40,000lbs of lettuce:
$6,000/40,000lbs = ~ $0.15/lb of lettuce to transport
For a total cost then, of:
$0.41 + $0.15 = $0.56/lb
In summary
Assuming labor is free for the container farm, you're gifted all the capital assets of it, and that the traditional farm is shipping its' produce across the continental US, the production cost is $4.51/lb for container farm, $0.56/lb for regular soil.
But the same idea applies there; why would I grow marijuana indoors?
I genuinely don't understand the benefit; to my knowledge, outside of them being higher CO2 output, higher real estate cost, and substantially higher energy usage, none of these indoor facilities even reach the calorie density of a modern hydroponic greenhouse like Houwelings; http://www.houwelings.com/
I guess I should say: Hats off to the people that think they can compete with a modern ag operation like Houwelings in growing weed, if they can do that while paying both urban real estate rates and the electricity bill for replacing the sun they know something I don't.
I keep thinking all of these are designed as pre-emptive investments before marijuana is legalized. They figure out the problems of mass production and management and the second the laws pass they flip the switch as the biggest supplier with right down the street access.
What occurred to me reading this is that one of the biggest costs to urban farming is the real estate. But with self-driving car-shares on the horizon and potentially much lower needs for parking structures, perhaps this might be a good way to repurpose some old parking garages. Lots of sq.ft., structural support for heavy inventory, open to air and sun, etc. Might work.
To me, the distributed version of this idea is the really exciting development here. With a decade it will be commonplace to have a totally automated bookshelf looking appliance that you do nothing more than put in your backyard, give soil+seeds+water to, and use as your own personal Grocery Store. And when it happens, we'll have companies like Farmbot.io and the other 3d printer folks like Adrian Bowyer to thank for it.
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[ 4.9 ms ] story [ 145 ms ] threadA copy of the slides can be downloaded here (the link shown on the youtube page is dead. correct link https://cpl.usu.edu/htm/research/publication=15787)
The supply chain there is not just weak, it is actively antagonized by various police forces. My guess is that if cannabis was 100% legal, the indoor grow operations would not make economic sense; we'd just have giant farms or greenhouses in mexico or the southwest.
I recently ate an out of season "heirloom tomato" grown in Mexico and shipped to my local coop in Minnesota. It was "organic", and it looked like an heirloom tomato. But it had no taste. It was clearly grown in depleted soil. I've grown heirloom tomatoes, as well as beefsteak and other more conventional varieties. Food grown in a garden tastes better. There are more nutrients available to them. Plants are chemical-mineral-sun beings. They grow abundantly in diverse ecosystems and offer their fruits with no violence.
Why is this artificial shit necessary? It's not.
People don't appreciate the profound and beautiful foundations of "old" technologies. Paper. Knots. Gardening. Cooking. Woodworking. Compost. Herbal medicine. Music. Many of these artforms (sciences, really) are miles ahead of the fancy capitalist stuff in terms of their nuance, their simplicity, their integration with human wellbeing.
And they're free.
Having a 1 acre garden as a hobby, is huge ecological violence since industrialized agriculture requires far less than half an acre per person and the loss of habitat is the same.
I'm not sure how this is true. Perhaps you can persuade me?
A one acre garden is not a "hobby" in my opinion. The amount of work involved in cultivating an entire acre is immense. As well, a personal garden is unlikely to be a monoculture which is even worse ecologically in my opinion than a loss of efficiency. Plus there's all that Round-up...
This could actually apply to the hunter&gatherer because those didn't care much about sustainability. When a region was picked/hunted empty they simply moved to a new region, few enough of us around back then so this actually worked and regions had time to recover.
Now imagine nearly 7 billion humans living the same way: Gathering/hunting everything in their closest region until most of it is gone just to move on to a new region, no permaculture at all. It wouldn't take long before there wouldn't be anything left to hunt or gather.
>A one acre garden is not a "hobby" in my opinion. The amount of work involved in cultivating an entire acre is immense.
Not every one-acre garden is actually cultivated, that's how some people are able to have them as a hobby ;)
Can you explain how this hobby is so violent? I don't think I am following the line of thought.
The typical one acre hobby garden is farmed with far fewer chemicals than the typical commercial farm. There is far more diversity and a better balance of minerals. Compost is often used and waste is effectively recycled.
..context dropping..compared to the lawn or parking lot that might be there?
Wouldn't the area needed for the active involvement of people require more space than commercial agriculture, where large machines can do a lot on a small footprint? A sprayer with 12 inch tires and a 120 foot boom can effectively 'weed' 118 feet of growing area with just two feet required for the tires. I'm not so sure a person with a hoe can beat that.
And s sprayer only spray, it does not harvest anything. They actually make UAV sprayer, though...
A traditional seed drill, for crops that can be suitably planted with one, plants rows 7.5 inches apart and spacing within the row is even closer. There is really no room for a human to comfortably exist within that space without tramping the crop. I'm not sure I understand how a hexagonal pattern opens up space for a person in that circumstance without reducing the growth area?
> And s sprayer only spray, it does not harvest anything.
For many crops you're not concerned about, even desire, wiping out the entire plant.
> They actually make UAV sprayer, though...
Certainly. Crop dusting has been a thing for as long as flying has been a viable human achievement. Although with larger and larger machines on the ground able to have a smaller and smaller footprint relative to the working area (and precision technology ensuring that the machine obeys an exact footprint), the practice seems to be going out of favour.
Humanity is currently migrating into solar power. There's no way you will gain any area by adding conversions on the way through the plants. You get better reliability, easier pest controls (without additives), and lots of other things, but you can never gain in area use.
Technologies, like the ones mentioned in this article, change the entire supply chain; fruits and vegetables become "in-season" all year round. They will no longer have to be shipped unripened, and should have a better flavour.
You're bullshitting me if you think I'm gonna prefer to take a pill with "holy basil extract" over a delicious cup of holy basil tea. Absolutely not.
And tell me how to "extract" rooibos? What parts are you going to put into pills? Can you extract the taste? Can you extract the nutrients? Would you make one pill for the antioxidants and another for the vitamin C?
It used to be thought that THC was "the active ingredient" in cannabis. Well, it turns out that THC and CBD, along with numerous other varieties of cannabinoids, interact dynamically in the body, modulating one anothers' effects. Studies have shown that CBD quells the psychosis inducing effects of THC very well. But CBD on its own isn't necessarily a strong antipsychotic. It'd need to be taken in large doses to have that effect.
The idea that "germs cause disease" is a similar misconception. Bacterial infections are symptoms of larger ecological imbalances in the body's microbiome. Sometimes infections are really caused by antibiotics (if you wanna point fingers), as is the case with C. Difficile infections that take hold in guts whose flora have been nuked by antibiotics.
Why not? What environment or characteristic of plants grown in the wild is impossible to recreate in a controlled environment? Arguably, plants can be grown "in-season" all year round with technology like this, and be sold fresh the same day it is picked.
> Why is this artificial shit necessary? It's not.
Maybe growing food within the cities will help us to feed a dense local population, while at the same time minimising the impact on the countryside. Thus leaving the countryside natural for those who want to appreciate it.
Living in Britain, I despair at the eradication of the countryside. Natural environment has been almost exclusively replaced by farm land to grow food for our ever growing population, and we are still quite a long way from being self-sufficient.
Also, work like this will help if we want to colonise space.
> People don't appreciate the profound and beautiful foundations of "old" technologies
Are you the arbiter on what everyone else should be appreciating? Although you are free to appreciate and enjoy anything you like, other people such as myself derive deep pleasure from observing the constant onward march of technology and industry.
Many of the modern varieties of mass-produced produce have been bred to overcome pests and harsh conditions. not flavor. By moving the plants indoors we overcome both issues and can grow in optimal conditions where we can focus on taste and texture. Plus by growing close to the point of consumption the food is fresher and tastier and can be harvested when ripe and not a week before so as is currently the case. Additionally the nutrient levels in CEA (Controlled Environment Agriculture) crops is usually above a field grown crop (https://well.blogs.nytimes.com/2016/12/23/are-hydroponic-veg...)
It is the same thing as we could assemble cars in almost any workshop or hangar, but we build cars at scale in only a few places.
And perhaps the evolution of tools like https://farmbot.io/ An intelligent 'lawmmower' makes your permaculture for you.
By far, the biggest cost of my lawn is the 5 minutes per week I have to spend cutting it. How does an edible lawn compete with that?
Robots? Anyone know the state of automation when it comes to small scale gardening? Picking or zapping weeds and pests with a laser or whatever.
For many foods, more gasoline is used getting it from the grocery store home than is used to get it to the grocery store from across the world. Ships and trains and large tractor trailers are quite efficient.
OTOH using artificial light instead of the sun to grow food requires huge amounts of energy.
I don't know if it's been tried or not for indoor gardening, but why not use heliostats coupled with reflection (mirrors) or refraction (lightpipes) to guide the sunlight indoors?
I know such systems have been used for general lighting and art works...
You would be better off building a greenhouse right where you would have placed the heliostats.
I encourage people to scroll around Google Maps (or better yet, drive) through some of America's most productive agricultural regions. The sheer scale of American farmland dwarfs any possible urban farm development.
I know from personal experience growing seedlings in my basement here that new LED grow lights make it much more cost and energy efficient to run a greenhouse than it used to be. But fertile soil is a massive input cost that you can't really get around for most full sized plants. I spent hundreds of dollars recently on garden soil for a small set of raised beds. I have a tiny flock of six chickens supplementing my compost pile.
Anyone can grow bad produce indoors. I think the real problem (having lived in urban, rural, and suburban areas) they're trying to address is the transportation cost of bringing quality produce to the city. Right now many cities are not really set up for affordable freight transportation. Cities like NYC are almost designed to make it pointlessly expensive and complicated to bring freight in from the country to the store. Commercial truck traffic gets redirected to cramped streets while personal car traffic gets access to the expressways and parkways. That's one of the reasons why it costs you 4x to buy a pound of worse quality bacon in NYC what it costs in many other US towns and cities.
So if you are trying to deploy technology to make quality food more available to American cities the solution is probably not just hanging up some grow lights and growing weak plants in trays. It is to attack the largest sources of the added costs. The 'local' label has salience to high end grocery shoppers because they believe that it indicates quality. If 'local' comes to be associated with tray farms using poor inputs, it will stop being associated with quality in the minds of Whole Foods shoppers.
It'd be great if America had the sort of urban freight network that was state of the art in Japan in 1980 instead of trying to come up with pretend-technology patches to much larger cost of living problems.
High density city-"farming" makes economic sense in certain contexts: - high density living environments - inefficient or expensive transport costs - lack of available farming land relative to population (expect net-food-importers like Singapore to lead here) - northern hemisphere (full-year growing cycle increases appeal and cost efficiency) - cities not located in close proximity to farmland (e.g. Abu Dhabi, Dubai)
They don't replace organic, and subvert the "local" farm-to-table movement and I'll be surprised if they can match the taste of produce grown in a robust/diverse ecosystem. But they do provide a market need for controlled environments and consistent output that dials into local demand.
Pros and cons, but inevitable part of our agricultural future.
On a long enough timeline, I see this as the future of the industrialization/technology trend that touches everything, including ag. While the "old" industrial-ag model shows that bio-mass reduces over time with fossil-fuel inputs and mass production, so won't stay viable forever. Higher end consumers will support the fully-organic small farm sustainable rural modal, but it remains to be seen if/how they can scale and be price-competitive for mass-consumption vs cheaper alternatives.
>On a long enough timeline, I see this as the future of the industrialization/technology trend that touches everything, including ag. While the "old" industrial-ag model shows that bio-mass reduces over time with fossil-fuel inputs and mass production, so won't stay viable forever. Higher end consumers will support the fully-organic small farm sustainable rural modal, but it remains to be seen if/how they can scale and be price-competitive for mass-consumption vs cheaper alternatives.
Why? When people can afford it, they tend to want to upgrade what kinds of food that they eat. The quality issue is not something that is easy to sidestep just because of the law of conservation. Output can't exceed input. It is a huge operation to move soil and fertilizer around. It is expensive even in rural areas. Hydroponics have certain fertility, plant type, and plant quality limitations and cost more money to set up. Not to mention the issue of devoting expensive urban real estate to agricultural production.
High density city-"farming" makes economic sense in certain contexts: - high density living environments - inefficient or expensive transport costs - lack of available farming land relative to population (expect net-food-importers like Singapore to lead here) - northern hemisphere (full-year growing cycle increases appeal and cost efficiency)
They don't replace organic, and subvert the "local" farm-to-table movement and I'll be surprised if they can match the taste of produce grown in a robust/diverse ecosystem. But they do provide a market need for controlled environments and consistent output that dials into local demand.
Pros and cons, but inevitable part of our agricultural future.
On a long enough timeline, I see this as the future of the industrialization/technology trend that touches everything, including ag. While the "old" industrial-ag model shows that bio-mass reduces over time with fossil-fuel inputs and mass production, so won't stay viable forever. Higher end consumers will support the fully-organic small farm sustainable rural modal, but it remains to be seen if/how they can scale and be price-competitive for mass-consumption vs cheaper alternatives.
> Commercial truck traffic gets redirected to cramped streets while personal car traffic gets access to the expressways and parkways. That's one of the reasons why it costs you 4x to buy a pound of worse quality bacon in NYC what it costs in many other US towns and cities.
Let's do a little estimating: A crate of milk at $4 per gallon is $24 and is about 1x1x2 feet. If you pack an 8x16x8 box truck, which is way smaller than the maximum size limits, that's 512 crates, so about $13,000 back there. That's also about 26000 lbs, which is within the MGW of some trucks that size.
You're lucky I didn't use bacon as an example because a 1x1x2 crate filled with up to 48 pounds of bacon can be sold for much more than a 1x1x2 crate filled with 48 pounds (6 gallons) of milk.
Now consider how long it takes a truck, even denied access to parkways (in NYC, trucks DO have access to interstates, such as the BQE, Van Wyck, Verazzano, Triboro, GWB, I-95, etc etc etc) to get around. Maybe a couple hours. How much better could you make it? How much driver pay and extra gas and such is being spent in the extra hour or so? Let's be generous and say $500. So we're talking no more than a 5% change in the price of the goods in there. Stop and go traffic with that kind of weight is not great for fuel, but it's a lot better when deliveries are done off hours. Off hours, it's easy to catch a "green wave" on the wonderful one-way avenues in Manhattan and never have to stop again till you need to make your turn.
You're alleging a 400% increase, not a 5% increase. My numbers are off, this is an estimate, but this is probably the order of magnitude of this effect. You are going to need sources to make such a shocking statement.
Part of the reason your food costs so much is you're shopping at the wrong damn stores. Go to Key Foods or something. A real normal cheap grocery store, not like, Gristedes or some such. Most foods costs about the same as NJ or Arkansas.
Also, most food goes through the Hunts Point distribution centers, which are conveniently located off of I-95 which permits heavy trucks including full 18 wheelers. No idea where you're getting your info. From there they can take the BQE all over inner Brooklyn/Queens with access to Manhattan via any of the major east river bridges except the Brooklyn (some smaller trucks may even meet the restrictions for the tunnels)
Making our "Freight infrastructure" any better with roads is a waste of money that at best, may, at the cost of billions, reduce food prices 5-10%. It'd be much better to use a fraction of that money to subsidize food stamp programs or something, with much more effect.
The only real problem with all the trucks on our local streets, is it's annoying and dangerous to pedestrians. A good start here would be just enforcing (and educating regarding) the existing mandatory truck route system better. Trucks have an extensive map of permitted routes in NYC, and it's really not that hard to deal with, but you do regularly see trucks violating the same.
Sure, transportation isn't all of it. Most of it is probably labor and real estate. But how awful it is to drive a truck in NYC versus how easy it is to make commercial deliveries in just about any other city or town in America has a lot to do with it, especially because the article babbles an awful lot about the challenge of delivering stuff to cities from rural areas. It's way more complicated to deliver goods to Manhattan (an island) than in most American places which just involve pulling off an interstate exit and making a delivery.
If the question is whether or not it makes sense to focus on
a( Heavy public investment into fake-tech urban farms
or
b( Identifying the really big sources of the costs and working to bring those down
I think b( is the better way to go. I think we could probably agree on that. I don't really know the specifics because I'm shooting off the hip about another lame urban farming article. Come to think of it real estate prices are probably what make up the bulk of the added cost on top of what the consumer pays in other markets and not delivery costs. But the purported problem that these farms are supposed to fix are the cost of bringing food from rural areas to cities.
Personally I doubt that even if the magical infrastructure fairy gave the mayor a quintillion dollar grant to spend on infrastructure improvements that anything positive would happen (it would probably get much worse somehow). But again, the problem that this is supposed to fix is the cost of bringing food in from rural areas.
However most of the costs for urban farms have to do with replicating things that rural farms have for free. Instead of using the sun urban farms have to pay for electricity, lighting, wiring, etc.
* Sunlight: electricity costs and capital costs for lighting * Water: even with an efficient hydroponic system city water is more expensive * Growing medium: either dirt or a hydroponic system, which requires maintenance and a capital outlay * the farm building itself: unlike fields, buildings cost money to build and maintain
An efficient urban farm could theoretically use land more efficiently (by growing more crops per square foot) and use less water, but those inputs are cheap. Transportation would also be less expensive.
Iowa farmland is less than $9,000/acre[0]: in Staten Island (the cheapest borough) land prices are $37.62/square foot[1] or $1.64 million/acre: so yields would need to be over 180x better to break even on the land alone!
Absent some huge breakthroughs on the pricing of all of the inputs (or astronomical increases in transportation costs) the economics for generally don't work for crops.
[0] http://www.desmoinesregister.com/story/money/2016/12/13/iowa... [1] https://therealdeal.com/issues_articles/486631/
These are the prices I get from going to nearby fine fare / key foods type places in the Lower East Side, and they're pretty much the same prices I remember seeing in NJ and Arkansas, with some variation. Individual supermarkets do vary a lot though, so if you don't have a bike/car and just go to the one that happens to be closest to you, it may seem way worse than it actually is.
I don't know if real estate makes a difference. The dollar pizza places stay in business somehow, making it up on volume. Suburban supermarkets seem to compensate for their cheaper real estate by wasting way more of it, with huge stores with tons of aisles and 100 brands of each kind of product, and then 4x that land spent on parking. I wouldn't be surprised if such a facility spends the same or more on their lease as a random C-Town in Brooklyn.
Also, I kind of agree with a lot of other stuff you said, just responded to what I found interesting to respond to :)
If you had read the article, you'd know this is a hydroponic system. No soil. Yields are substantially higher and less water is consumed. Hydroponics are pretty interesting technology.
> Anyone can grow bad produce indoors.
Yeah, if they just stick some dirt under a random LED light. That's not what they're doing here. A different article I recently read about the same farm in Newark mentioned some gourmet chef next door raving about the quality of the greens.
Like, if you can make it work for just one plant that there's a sizable market for, like say, tomatos, that alone is enough to sustain a huge industry. Like, if you then extend it to other crops, that's cool I guess, but there's no economic need to. In order for your thesis that this is all bogus and useless to hold, hydroponics has to be industrially infeasible for ALL plants of any market value.
It makes sense to start out with high value density crops like herbs or something (and it seems the Newark facility is starting with leafy greens for that reason)
As with almost all of these type of stories, it's "filler" material for journalists who need to write something to justify their paychecks and it's free advertisement for the companies. Nothing more, nothing less. Companies contact WSJ|NYTimes|etc to do pieces on them all the time. It's free publicity and journalists need to write something and of course the media has to sell ads. It's a form of busybody work.
At least this is a break from the relentless "solar savior elon musk" craze on social and traditional media.
Anyone who thinks the U.S. is crowded should book a window seat on a daytime cross-country flight and see if they still think that when they land.
Urban farm development is high density farming which doesn't require the same available area and often produces crops with higher nutrient density. It seems technically feasible for medium density urban areas to produce a large percentage of edible food locally in the near future; though that doesn't guarantee a viable business model will exist.
[0]https://www.ers.usda.gov/data-products/ag-and-food-statistic...
I absolutely agree with this - but I don't understand what the selling point is. You can't use greenhouses in an urban setting - if you've ever seen a modern hydroponic greenhouse light up the night sky you know why - and the efficiency loss from entirely replacing sunlight is staggering.
I guess I don't get it.. what's the selling point that I'm missing?
This could be enough of a selling point for certain high end restaurants.
The loss of sunlight does seem staggering to overcome, but plants can only use a few narrow spectrum bands of light which can be efficiently replaced with led.
I'm not following; any modern greenhouse has automated humidity and temperature control (and, more important than humidity, artificially increased and controlled CO2 levels).
What sets the temperature and humidity control apart from a modern hydroponic greenhouse ag operation like Houwelings? http://www.houwelings.com/files-2/why-greenhouse.php
> plants can only use a few narrow spectrum bands of light which can be efficiently replaced with led.
Yes on the light spectrum - but I'm not sure what you mean by "efficiently replaced"; my understanding is that the energy required to replace sunlight with best-in-class LEDs remains substantially more kWh/lb of produce than shipping as far as across the entire country.
The Cornell lecture I linked to elsewhere talks about this: https://youtu.be/VrpyUA1pQqE?t=1842
By only using 460 nm and 640 nm light you reduce unnecessary spectra for a chlorophyll b containing plant. Compared to other lighting sources which emit a broad specta of light, LED is much more efficient in terms of usable photons / kwH though it is likely still cheaper to ship from a freely lit greenhouse in a high light density area.
The selling point is the value addition of having a high degree of temperature and lighting control; and hinges on that leading to the additional production of certain flavors and nutrients that wouldn't be possible with less control.
Thanks for the video btw, it comes to the opposite conclusions about heat retention in closed vs open systems.
The CO2 output of these farms is higher than modern industrial agriculture, even if you assume all the traditional produce is shipped across the entire continental US. Cornell has some good lectures on this subject: https://youtu.be/VrpyUA1pQqE?t=1842
So, urban farms are worse for the environment - is the selling point cost then? I did a back-of-the-envolope trying to guesstimate this a while back on a similar post about container farms. Granted, a larger factory-style farm will have higher efficiency, but the basic problem of entirely replacing sunlight with artificial light, vs a green house that simply augments, remains.
Indoor farm
Freight farms has a cost estimate page(1) that gives us, for lettuce, something like:
However, it's worth noting that Freight Farms doesn't include labor or capital costs(!) in their estimate.But fine - lets pretend the container farm itself is free, and that somehow plug setting, harvesting, packaging, and equipment maintenance is happily done by people working for nothing: $4.51/lb of lettuce it is.
Traditional farm
The university extension system provides great estimates of production costs for tons of crops. For lettuce, using traditional soil and machinery, production including labor, packaging and chilling UC Davis estimates(2):
BUT, that estimate only includes shipping to the local chilling facility. To then ship the lettuce from CA to NY, you need to hire a trailer. This week, the spot price for chilled lettuce trailers going from CA to NY is $6,000(3). Each trailer carries 40,000lbs of lettuce: For a total cost then, of: In summaryAssuming labor is free for the container farm, you're gifted all the capital assets of it, and that the traditional farm is shipping its' produce across the continental US, the production cost is $4.51/lb for container farm, $0.56/lb for regular soil.
I genuinely don't understand the benefit; to my knowledge, outside of them being higher CO2 output, higher real estate cost, and substantially higher energy usage, none of these indoor facilities even reach the calorie density of a modern hydroponic greenhouse like Houwelings; http://www.houwelings.com/
I guess I should say: Hats off to the people that think they can compete with a modern ag operation like Houwelings in growing weed, if they can do that while paying both urban real estate rates and the electricity bill for replacing the sun they know something I don't.
Didn't I just read an article on here last week about high quality cheap produce in NYC Chinatown?