The Dr. Hyman Show - How Regenerative Agriculture Can Fix Our Health, Our Food System, And Our Planet with Gabe Brown
Episode Date: September 23, 2020How Regenerative Agriculture Can Fix Our Health, Our Food System, And Our Planet | This episode is brought to you by ButcherBox and the Pegan Shake It can be easy to forget where our food really comes... from. The overflowing shelves in the supermarket may trick you into thinking food just appears. The reality is that strong healthy soils are the foundation for food production, and without them, we can’t survive. That’s why we need to shift our agricultural focus from growing commodity mono-crops like soy, corn, and wheat into a diversified system that encourages soil health, biodiversity, and sustainability for future generations. This is what regenerative agriculture is all about. On this episode of The Doctor’s Farmacy, I was so happy to sit down and talk with Gabe Brown, one of the pioneers of the current soil health movement which focuses on the regeneration of our resources. Gabe and his family own and operate Brown's Ranch, a diversified 5,000-acre farm and ranch near Bismarck, North Dakota. The ranch consists of several thousand acres of native perennial rangeland along with perennial pastureland and cropland. Their ranch focuses on farming and ranching in nature's image. The Browns holistically integrate their grazing and no-till cropping systems, which include a wide variety of cash crops, multi-species cover crops, and grass-finished beef and lamb. They also raise pastured laying hens, broilers, and swine. This diversity and integration has regenerated the natural resources on the ranch without the use of synthetic fertilizers, pesticides, and fungicides. Gabe and Brown's Ranch have received many forms of recognition for their work, including a Growing Green Award from the Natural Resource Defense Council, an Environmental Stewardship Award from the National Cattlemen's Beef Association, and a Zero-Till Producer of the Year Award, to name a few. Gabe has also been named one of the twenty-five most influential agricultural leaders in the United States. Gabe recently authored the book Dirt to Soil, One Family’s Journey Into Regenerative Agriculture, and stars in the newly released Netflix movie, Kiss The Ground, which is about a revolutionary group of activists, scientists, farmers, and politicians who band together in a global movement of regenerative agriculture that could balance our climate, replenish our vast water supplies, and feed the world. This episode is brought to you by ButcherBox and the Pegan Shake. For a limited time, new subscribers to ButcherBox will receive 2 lbs of 100% grass-fed, grass finished beef free in every box for the life of your subscription. To this limited time offer, go to ButcherBox.com/farmacy. The Pegan Shake features a combination of collagen, pumpkin, and pea protein with healthy fats from my two favorites: MCT oil which is great for fat burning and brain power as well as avocado oil. I’ve also included acacia fiber to help with gut motility and digestion. Check it out at getfarmacy.com/peganshake. Here are more of the details from our interview: Gabe’s entree to farming using the industrial model and how he came to see this model as problematic (8:08) The benefits of regenerative agriculture (20:33) Gabe’s definition and principles of regenerative agriculture (22:49) The difference between dirt and soil (28:54) How carbon sequestration works and how animals can play an instrumental role in capturing carbon in the soil (36:08) The decline of nutrient density in our food (44:01) How industrial farmers get stuck in the industrial model (53:53) Crop insurance’s influence on food pricing (1:00:03) Gabe’s work with General Mills (1:02:03) Can we feed the world through regenerative agriculture? (1:07:42) Learn more about Gabe Brown and Brown’s Ranch at https://brownsranch.us/. And get his book, Dirt to Soil: One Family’s Journey into Regenerative Agriculture here. Learn more about the Soil Health Academy at https://soilhealthacademy.org/. Follow the Soil Health Academy on Facebook @soilhealthacademy and on Twitter @academysoil. Learn more about Understanding Ag at https://understandingag.com/. Follow Understanding Ag on Facebook @understandingag. Hosted on Acast. See acast.com/privacy for more information.
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Coming up on this episode of The Doctor's Pharmacy.
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Welcome to The Doctor's Pharmacy.
I'm Dr. Mark Hyman, and that's Pharmacy with an F, F-A-R-M-A-C-Y, a place for conversations
that matter.
If you've heard about regenerative agriculture and wondering what it is and how it works
and if it's going to save us from climate change and poor health and everything else,
then this is the conversation for you because it's with an incredible pioneer in the field
of regenerative agriculture, Gabe Brown. He has written an incredible book called Dirt to Soil
about his adventure, taking his North Dakota ranch back from the brink using
not traditional industrial methods, but regenerative methods, which probably when he started this,
there wasn't even a term regenerative agriculture.
It was just, you know, the right way to do things.
It was almost like ecological farming.
And in very much the same way as functional medicine is about understanding the body as an ecosystem, Gabe is that to the earth. He's an ecosystem doctor of the land.
He lives with his wife, Shelly, and his son, Paul, in North Dakota on Brown's Ranch. They
operate the ranch, the diversified 5,000-acre ranch near Bismarck, North Dakota. It's one of
the few states I haven't been, but I'm planning to go. I was going to go before COVID-19. It's got several thousand acres of native perennial
rangeland, along with perennial pasture land and cropland, and he focused on farming and ranching
in nature's image. Basically, nature is way smarter than we are, and Gabe found that out,
despite being trained in a very different form of agriculture in a traditional
ag school in America. He integrates all kinds of incredible systems that
allows him to grow better food that's better for him profitably, better for the animals,
and better for the land using grazing and no crop, no, no till cropping systems,
lots of cash crops. I mean, the amount of crops he grows, I just mind bogged when I looked at
how many different species of plants are on his land. I couldn't even make a list. I'll go through
them. It was very impressive. He also has natural grass finished beef and lamb and hens and pigs.
It's a very diverse first ecosystem that he grows.
And he's regenerated his land without the use of fertilizers, pesticides, and fungicides.
And he's just an incredible guy.
He's had also a lot of effort, not just on his own ranch,
but taking what he's learned and bringing it to farmers around the country
and even around the world.
24 foreign countries, 50 states. He's had thousands of people visit the ranch. He's been recognized all sorts of awards and his book, Dirt to Soil, One Family's Journey into Regenerative
Agriculture is a must read if anybody's interested in this. And now he's partnered up with some
allies in the field, Ray Archuleta, Dr. Alan Williams, with a group called Understanding Ag, which is
training farmers and partnering with industry to convert more and more farms to regenerative
agriculture. He teaches as part of the Soil Health Academy. He's one of the Soil Cowboy Carbon,
Carbon Cowboys, which is great. It's a movie. You should watch it. So I'm just so honored and
thrilled to have you, Gabe, on the podcast. Oh, thank you.
It's a real pleasure to be with you today.
I would have much rather been doing this here on the farm.
We so look forward to your visit, but perhaps in the future we can do that.
I will come.
I will definitely be there for sure.
So I just want to give a little background on what you're doing.
But I think the people don't understand what industrial
agriculture is. And I'd love you to share before we get into sort of what we're doing now and what
you're doing now to change things. What was the kind of agriculture you were trained in and how
was your farm when you got it in 1991? And what were the methods you were using and what was
wrong with them? And why are they bad for us
now? Sure. So the ranch that my wife and I and son have today was started by my in-laws back in 1956
and they farmed it and in the industrial model. In other words, they used a lot of tillage. They
would till repeatedly each year before they would seed crops.
The crops they seeded were all monocultures, primarily spring wheat or oats or barley.
They would use chemicals, synthetic chemicals, both as fertilizer and as herbicide to spray weeds.
And in their grazing system, they put their cows on a pasture and left them there throughout the growing season.
And then they'd bring them home and feed them hay all winter.
And that's kind of the current industrialized, commoditized type mindset.
You grow commodities.
And one of the things about me is I was born and raised in town.
I wasn't from a farm or ranch. So I took a vocational agriculture course in the ninth grade in junior high. And I really,
from that first class, I was just infatuated with agriculture. And so I went to college to study
agriculture at a state land grant college, which taught us these industrialized methods,
how more or less that the soil is nothing but a chemistry set.
You add nitrogen, phosphorus, potassium in these trace elements.
You spray for weeds, and you try and impose your will on nature,
is more or less what it was.
But I always have an inquisitive mind, and I could just see.
I was like, well,
why do we till? Because my father-in-law who in 19, I'm going to age myself, but 1983 after
graduating college, my wife and I moved back onto her parents' ranch. They had three daughters. And
so I was the only one interested in agriculture. So they asked us if we'd want to
farm. We moved back to the ranch. And I remember my father-in-law in the spring saying, okay,
we're going to go out and till the soil in order to dry it out so that we can plant our crops.
Well, that never made sense to me. We only get 16 inches of total precipitation a year. And then
come July, we'd be praying for rain because it was too dry.
It just didn't make sense. So in 1990, the winter of 1993-94, I had read about no-till,
that it just made sense to me. Why do we want to till the soil and lose that precious moisture?
Why do we want the soil prone to wind erosion, water erosion?
So I sold all my tillage equipment, went 100% no-till.
Because I was given the advice, Gabe, if you're going to go no-till,
sell all your tillage equipment, then you're never tempted to go back.
So I did that.
I was totally committed.
And this ranch has not seen any tillage since 1994.
Even our garden is no-till.
And I want to get into that later because that's one of the critical mistakes anyone with a garden makes.
Most of the people, they go out and till the garden.
Well, if you learn how soil functions and how soil works, it's all this biology in the soil and the mycorrhizal fungi that transfer the nutrients
throughout the soil profile. And the biology is feeding the plants. And it's that biology and
that transfer of nutrients that gives the plants all those compounds, these biochemical compounds
that it needs for health. And then in turn that we need for health. So if we till the soil, we're destroying that home for biology.
Water's not able to infiltrate, and the biology no longer have a home to live.
It's one of the worst things we can do for our own health is when we till.
So I went no-till in 1994.
I started to diversify the crop rotation, add different crops. You know, above every acre of
farmland, above every acre period on this earth, there's approximately 34,000 tons of atmospheric
nitrogen. Why any farmer would want to write a check for synthetic nitrogen is beyond me.
All we got to do is use nature's principles, plant legumes, in other words, peas and clovers,
et cetera, and take that nitrogen out of the atmosphere through rhizobia, convert it into
usable forms.
Well, what happens-
And by the way, there's 400 billion pounds of fertilizer used around the world every
year, which pollutes all our waterways, kills all the fish in the river's oceans,
increases nitrous oxide in the atmosphere that
is a huge contributor to greenhouse gases.
And to make the fertilizer is about 1% or 2%
of our total global energy consumption, mostly
from fracking, which releases huge amounts of methane.
So it's just a complete catastrophe.
And you're saying that actually the plants can take the nitrogen right out of the air.
Yep.
Yep.
Let me give you this as a reference point.
If you take a plant, any plant, whether it be a tomato in your garden, a carrot, a stalk of corn, any plant, you cut it off and dry that plant out, and then you take what's left, that remaining dried
plant, and you have it analyzed, approximately 97% of what's left is carbon, oxygen, hydrogen,
and nitrogen. What do those four elements have in common? They're all in the atmosphere,
and they don't cost us anything. Yet, what do farmers and ranchers want to do?
They want to write checks for things.
And we want to use all these synthetics.
That makes no sense.
No sense at all.
You know, who's out fertilizing the forest?
Who's out fertilizing these vast rangelands that we have?
No, it's nature taking course.
So I tell people my story just briefly.
I was really blessed.
1995, the day before I was going to start combining my crop, I lost 100% of that crop to hail.
We had a tremendous hailstorm, totally took the whole crop, devastated it.
And boy, I was set back.
Financially, that really set me back.
1996 came along, and I started to diversify
my crop rotation, add a few more crop species. We lost 100% of our crop to hail again. So that's
two years of devastation. 1997 came along. It was a severe drought in this area. Nobody combined combine the crop. So I actually, that year I started after the drought, you know, my wife
and I took off farm jobs to had to pay some bills and things were getting tough financially,
but I was really beginning to see what was happening in the soil. You know, the bank was
no longer wanting to loan me any more money to farm.
So I had to decide, okay, how am I going to, am I either going to sell out or am I going to learn how I can make this ranch productive without all these added inputs? To make a long story
longer, 1998 came along and we lost 80% of our crop to hail again. So four years of devastation,
my wife and I'll tell you the hardest thing we ever went through, but absolutely the best thing
we ever went through. Because the bank wasn't going to loan me any money anymore, I had to learn
how am I going to make this productive? So I actually went back and I read Thomas Jefferson's old journals. What was he doing on his plantation?
Well, he was planting turnips and clovers and vetches.
I'll never forget that first year I walked into the local agronomy center and I asked them,
I wanted to buy 50 pounds of turnip seed.
Well, they were trying to figure out how many of those little packets that was of turnips to make 50 pounds.
Now you can buy cover crops all
over, you know, it's commonplace. And I started doing these practices, I really realized what
those four years taught me was the six principles of soil health. It was... So you basically like
said, wait a minute, what I learned in ag school wasn't right. I have to go back to Thomas Jefferson to figure out what to do with my land. I love that story. Not only Thomas Jefferson,
I read Indian Bird Woman's Garden, which was about the indigenous peoples in the northern Missouri
here on the Missouri River, and what they were growing in their garden, and how they grew
species together. You know, they grew corn and squash and beans together. Well, that
was diversity. And that really got my mind thinking as I walk out and I'm blessed here to
have 2000 acres of rangeland that, in other words, native pastures that to our knowledge has never
been tilled. And you look at the tremendous amount of diversity out there, that's how nature functions.
Yet, what do we do? We plant all these monoculture crops and expect that soil to be healthy,
and then expect those crops to produce nutrient-dense food. That's not the way nature works.
No, it's incredible. I mean, I just was reading about your farm, and I don't even know if I
actually know what all these plants are,
but the amount of grasses and plants, you know, I just kind of read them off because it's just mind-blowing.
Spring wheat, winter triticale, oats, corn, sunflowers, peas, hairy vetch, alfalfa,
with pearl millet, sorghum, Sudan grass, proso millet, buckwheat, sun hemp, radishes, turnips,
I don't know if it's pastia, whatever that is, ryegrass, canola, something
else I don't know how to pronounce, phacelia, cowpeas, soybeans, sugar beets, red clover,
sweet clover, rape, kale, lentils, mung beans, and some clover. That is just mind-boggling.
And when you think of today's farms, they're mostly monocrop, massive monocrop fields of corn,
wheat, soy, and they're destroying the earth. And the very way we're
growing them is destroying the soil. So in a sense, you're a soil farmer, and the food is
just a byproduct, a side effect of being a soil farmer, it sounds like. Yeah, what I'm trying to
do is work with nature instead of against her. I tell people that my old mindset was I used to wake up every morning trying to decide what I was going to kill that day.
I was either going to kill a weed or a pest or a fungal disease.
I was going to kill something.
Now I wake up every morning.
How do I get more life on my ranch?
How do I encourage life? Because it's through life, whether it's animals or insects
or a diverse array of plants, that we have true health. So it's much more enjoyable working with
life than with death. That's true. You know, Sir Albert Howard, I noticed that was one of the books
on your reading list, but I read that when I was 19 years old and studying ecological agriculture. We called it
biological agriculture. I read One Strava Evolution by Manasubha Fukuoka, which is about not disturbing
the earth. I mean, these are just these original books from decades ago. And the line in Sarabha
Howard's book, I've shared it before. It's such a beautiful line, is the whole problem of health in soil, plant,
animal, and human is one great subject. And we've really separated ourselves from that in the way
that we have done our agricultural system. And it seemed like a good idea at the time. We had
hunger and starvation after the war. We had all these industrial chemicals and methods that we
could apply. We wanted to produce more and more starchy calories, and we've done that.
And we've done a good job at it.
But the consequences have been devastating because, one, it's destroyed our ability to grow the food because we've destroyed the soil, essentially.
And second, it's caused us to produce food that makes humans really sick.
60% of our calories come from these processed foods from commodity crops, the people who eat them are the sickest and they die. And so I think we're in a time of
regeneration and this whole idea of regenerative agriculture, which I'm sure wasn't even a word
when you started this. Now there's a name for it. It wasn't even organic agriculture because
organic can be also tillage and using all kinds of inputs
and cow manure from factory farms. It's not necessarily always perfect. It's a whole new
model and it regenerates the land, it regenerates health, and it also regenerates farmers and
farmers' livelihoods, which are a threat. Yep. That's exactly right. And one of the
beautiful things about regenerative agriculture is, and you talked about it in your book, Food Fix, is no matter what your interest is, if your interest is in climate change, carbon sequestration, regenerative agriculture we have a real water problem crisis in this country whether it
be pollutants in our rivers lakes estuaries you know in the gulf in the great lakes
regenerative agriculture can address that if you're of the mindset of human health is what
we need to focus on and the lack of nutrient density in our foods. Regenerative
agriculture can address that also. So I tell people, I'm not so concerned if we don't agree
on everything, but we all can agree on those things. We need clean air, clean water, nutrient
dense food. None of us can argue that there's too much carbon in the atmosphere, not enough in
the soil. So why don't we come together on the 70 to 80% of the things we can agree on and work
through regenerative agriculture to change the current model and to focus on making it better
for not only us, but for future generations. Yeah, absolutely. And so you talked about some of the principles of regenerative agriculture, no-till, diversity.
And in your book, you describe what are the foundational principles. And I think you should
go through those because I don't think people really understand what is regenerative agriculture.
So maybe you can define it and then share what the principles are and how it's applied and what
the impact is of those principles on the soil and the health of farm ecosystems. Sure. So I define, and there is no set definition of
regenerative agriculture. This is just Gabe's version. I look at it as a type of food and
farming system, which aims to regenerate topils. It aims to heal the water cycle, the nutrient cycle,
and to produce nutrient-dense food so that ours and future generations can be both sustainable
and profitable. And that's how I define it to other farmers and ranchers. And who's going to
disagree with that? We all want a better life for our children. We all want clean air, clean water,
and a healthy world. So now this, and my book's actually already outdated. We've added a sixth
principle, my business partners and I, and that is the principle
of context. We work with farmers and ranchers all over the world, and we see too many of them
that are farming and ranching out of context. And by that, I mean, for instance, I was up,
I was literally six hours north of Edmonton, Canada. And they were trying to grow. Yeah, that's far north.
They were trying to grow soybeans up there. That's out of context. Or I look back and I tell people
I used to calve here in North Dakota in January and February. That's totally out of context.
That's just foolish. You know, why do I want to calve out in a snowbank? You know, we changed that.
Now we calve from mid-May through June, right, when the deer have their fawns.
You know, we're calving and lambing in sync with nature.
So you have to farm and ranch in context for your environment.
Second principle is least amount of mechanical and chemical disturbance possible. I understand why organic farmers till, but they need to minimize the tillage pass.
And if they are tilling, they need to be tilling down a cover crop.
You know, they can't have this bare soil and that soil not protected.
And we can't be putting these copious amounts of chemicals on the land,
whether it be synthetic fertilizers or pesticides or fungicides.
That's only killing life.
That's not good.
The next print, the third one, is armor on the soil surface.
Nature always tries to cover the soil,
and that's why I talked earlier about gardeners,
how they go out and they rototill their garden that's one of the worst things there's
absolutely no reason I ask people this if you watch your local municipality
when they build the road what's the first thing they do they go out and disk
it back and forth 50 times they're trying to collapse that soil down and
make it hard well that's what you're doing to your garden.
You know, it'll be soft and fluffy for just a few days after you rototill, but then it becomes very hard. You're collapsing the pore spaces. And once you understand how soil functions, biology lives
in and on thin films of water in those pore spaces between soil aggregates. If you collapse those, there's no
home for soil biology. There's no way for water to infiltrate. You're going against the natural
cycles. Next principle is diversity. And I use this as an example. For five years, my son taught
rangeland management at the local community college. And he brought his students
out to one of our native pastures. And in two hours, they collected over 140 different species
of grasses, forbs, and legumes. That's tremendous diversity. I would have loved to have known
what it was like back, you know, five, six hundred years ago. There was hundreds,
if not thousands, of different species across our landscape. You look at it today, what do you see?
Probably just corn and soybeans in much of the Midwest, you know, and you see rice and cotton
and wheat. It's only a very small handful of crops, you crops. The average human diet, what is it?
The bulk of their sustenance is from 12 species I read once.
Yeah, that's right.
60% is three.
Yeah, that's ridiculous.
And then we're supposed to stay healthy.
It doesn't make sense.
The next principle after diversity is a living root in the soil as long as possible throughout the year.
And the reason for that is just what I described earlier.
Plants take in sunlight through photosynthesis.
They're able to extract all these compounds out of the atmosphere.
And then they convert it into amino acids and all these other compounds, which part of it's used for plant growth.
The rest of it, they leak out into the soil to feed biology. And it's that biology running its life cycle
that provides the vast array of nutrients that the plants need. So if we don't have a living
root in the soil for as long as possible, we're not taking advantage of that. And that's why on
our ranch, we grow such a wide array of different species. We're trying to capture as much of that. And that's why on our ranch, we grow such a wide array of different
species. We're trying to capture as much of that solar energy as possible in order to pump it into
the soil to feed soil life. You know, I have not used any nutrients, synthetic or applied applied to manures, compost, compostees, et cetera, since 2007. Yet we produce very profitable
cash crops, cover crops, and perennials year after year after year. Wait, wait. So just let me get
this straight. You don't use fertilizer. You don't use manure. You don't even use- Except what falls
out of the animals, but they're just cycling it. They're just pooping around. You don't use compost. You just use nature and the natural cycles to build the soil. That's
amazing. So you touched on it a little bit, but I don't think people understand the difference
between dirt and soil. And they can certainly read your book from dirt to soil, but I think that
it's worth explaining because I think most people thought, okay, well, you've got the soil and it's just dirt and you put the
plants in and you fertilize it and it grows. But you're talking about an entire ecosystem in the
soil that is required to store carbon to feed the plants. Actually, the reason the plants become
nutritious is because of the life in the soil. That's right.
And it holds water and it has all these other benefits that bring biodiversity back to the farm.
So can you kind of walk us through what's going on in there?
Yeah.
So let me use my own ranch as an example.
So my father-in-law practiced what I call recreational tillage.
When he retired, this is a true story. When my
father-in-law retired, he went out and bought a disc just so he could go disc for neighbors
because he just enjoyed it so much. And so his son-in-law proceeds to go no-till and that just
drove him crazy. You know, that was totally out of his wheelhouse. So I tell people on a funny side note is,
what did Gabe Brown get left in my father-in-law's will?
His disc.
You'd kill it.
His disc.
He left me his disc in his will.
You could put it in a museum.
Maybe it'll be in a museum.
So, yeah, but my father-in-law dissed that soil.
So what happened then is it compressed the soil.
It was no longer able to infiltrate water.
And we were just this past week, we did a school, a soil health academy in New Mexico.
And down there, they were saying they're just in drought.
You know, it's desertifying pretty much the whole state of New Mexico.
And they can't.
I told them, you don't have a moisture problem because here's what I did.
I did my homework ahead of time.
And I actually found out that a lot of New Mexico gets more moisture than I do here in North Dakota.
Look at the amount of crops I grow compared to that desert, you know.
And the reason is that they cannot infiltrate what moisture
they do get. I was very fortunate that when we bought this ranch in 1991, the local natural
resource conservation service came out and they did infiltration tests to find out how much water
we could infiltrate into our soil. We could only infiltrate a half of an inch of rainfall per
hour. Well, most of the rain we get here comes in violent thunderstorms. You know, it might dump two
or three inches. Well, what happens is the majority of it runs off and doesn't infiltrate. And why is
that? Because my father-in-law had dissed that soil, dissed that soil, or overgrazed the pasture so there wasn't the armor protecting it.
Once you have a living plant, plants build soil aggregates.
And I tell people, your soil should look like a dark chocolate cake.
It should have all this air spaces in it.
Now, we should probably find a better definition than chocolate cake, you know, but most people can relate to that. You know, I hate to say dark cottage cheese because that maybe isn't the best either. Maybe Swiss cheese or something. But it should be full of these pore spaces. And those pore spaces allow water to infiltrate into the soil. And then biology lives in and on thin films of water
in those pore spaces. There is as much biology in a teaspoon full of healthy soil as there are
people on this planet. Now think about that. Just a tiny little bit of soil, healthy soil,
has that much biology in it. yet how many farmers and ranchers think
or gardeners think of feeding that biology they don't how many think of
providing the home for that biology so I started focusing on okay how do I build
those soil aggregates and then how do I not destroy them well in order to keep
those soil aggregates you have to minimize disturbance,
not till. You have to have diverse plants growing, and then you have to keep the soil covered.
And I started doing that, and those lessons were taught to me during those four years of natural
disasters. Now today, we have had scientists out here who have documented we can infiltrate an inch of rain in nine seconds.
Wow.
So we went from half an inch an hour to an inch in nine seconds, the second inch in an additional 16 seconds.
So two inches of rain in 25 seconds.
Bring on the typhoon, you know, a hurricane, I can infiltrate.
So while your neighbors' fields are
flooded and their dry years are fine. Yep, exactly. We just went through three very dry years,
2016, 17, and 18. We had 5.6, 8.2, and 11.6 inches of total precipitation each of those three years. I still grew a profitable crash crop.
We still ran the same numbers of livestock, you know, and we still were able to feed those
livestock without buying any extra feed. And what happened to your neighbors during that time?
Yeah, they were collecting crop insurance and disaster assistance, which is one thing I'm
very proud of. We do not accept any government payments we refuse to do that why should the urban public have to subsidize my business for my poor
management yeah i want to get into that because that's a whole topic we're going to get into that
i mean i want to get back to the soil because you know you you touched on the water i mean you you
now hold so much water which will prevent droughts and floods.
Tell us about the microbiology in there, because there's all these mycorrhizal fungi and all these other things. And the plant root, the living root feeds all of that and uses the carbon in the
atmosphere. So explain how the idea of carbon sequestration works, because the UN says that
if we took 2 million of the 5 million degraded hectares of land around the world and convert to regenerative agriculture, we could stop climate change for 20 years.
And all it would cost is 300 billion, which sounds like a lot, but it's basically less than we spend in the U.S. Medicare spends on diabetes.
But the thing of it is, I would question their statistics on why it would cost money. Because farmers and ranchers, given knowledge,
and that's one of the things that my partners and I are up against every day. It's a lack of
knowledge. You know, farmers and ranchers get it pounded into them. They have to stay in this
current production model because we have to feed the world. And so you need to keep adding all these synthetic inputs
in that. And really, if they had moved to these natural regenerative practices, follow the six
principles, which we didn't get into the sixth one, which is animal and insect integration.
But all they'd have to do is follow those and they could regenerate their soils and stop this desertification.
So what happens is if you have a plant community, you're going to collect solar energy, sunlight.
That plant then through photosynthesis, and we all learned this in seventh grade biology
or earlier, takes that solar energy through photosynthesis, converts it into amino acids
and all these other compounds. Part of it's used for growth of the plant. Part of it is pumped out
into the soil to feed mycorrhizal fungi and biology. And then it's that biology that consumes
that by running its life cycle that provides the nutrients for the plants.
And scientists now know that plants have the ability, say, for instance, they're short of copper.
They can actually excrete root exudates out that attract biology to bring it copper, to bring it the nutrients it needs.
It's amazing.
There's some amazing work being done out there.
Dr. James White at Rutgers is doing some amazing work on rhizophagy and plants, how they can
communicate with biology. And now they know that plants actually consume biology, that biology
enters the plant root.
So those of you who are vegetarians and think you don't consume,
sorry, you do, you consume this biology, it's in the plants.
And it's absolutely amazing what's happening.
But that biology then, in running its life cycle,
and consuming all this dead plant material that converts
huma carbon into humus which is carbon stored long term and that's how we take carbon out of
the atmosphere put it into the soil now importantly is we can accelerate that. We've proven it by having grazing ruminants out on
the landscape. And this is a real missing component in production agriculture. We've removed the
animals from the landscape. This is your sixth principle. This is the sixth principle. And we've
stuck them in feedlots or confinements. I am the first to say that we need to do away
with these CAFOs, these confined animal feeding operations, and we need to get animals out on the
landscape because that's truly how we sequester more carbon. We need more animals out on the
landscape, not less. So you're saying that there's a lot of movement toward veganism as a strategy for reversing climate change and that animals are really the problem.
But you're saying that they're actually the solution when done the right way.
And I think Russ Konzer coined the term, it's not the cow, it's the how.
That's right.
And this is what I ask people who have that belief. Okay.
How many large ruminants were there grazing on North America or say in the United States, wherever you want to say pre-European settlement?
168 million.
Yeah.
More.
Yeah.
There's actually most all scientists will agree.
There are more grazing on the landscape back then than there are today.
Then why didn't we have this problem back then, right?
If it's the animal, then why wasn't that problem occurring back then, right?
That's right.
Well, the answer is, and if you understand how nature functions, when a ruminant or animal bites
a plant, that plant then has to slough off more root exudates into the soil to attract
biology to regrow.
So it actually speeds up and accelerates the amount of carbon that can be pulled out of
the atmosphere and put into the soil.
So the more animals we have, the more that's going to occur.
And then people might say, yeah, but we should go back to all bison and that. But let's be real,
that's not going to happen. We don't have the predators to move the animals across the landscape.
That's why on our ranch, we practice what's called adaptive grazing. We become the predator in the way that we move our animals
daily. When you have a chance to come to our ranch, you'll see us moving our cattle and our
chickens and that daily. They move around the landscape. We move them in order to simulate
what occurred on the Great Plains here centuries ago or what is occurring on the Serengeti.
We essentially become the predator.
In so doing, we're accelerating the amount of carbon that's being stored in our soil.
Yeah, I mean, you report that on your ranch,
you can store 96 tons of carbon per acre in the top four feet,
and typical ranches maybe can store 10. And you've
gone from about 1% to 6% organic matter, which is a lot. And usually it takes, you know, thousands
of years to build that up. And you've accelerated that process through this technology, which is
basically mimicking nature. And it's not how we raised animals before. I mean, we typically were
very destructive. I mean, David Montgomery has written a book about how we've destroyed our agricultural resources that's led to the demise of civilizations by overgrazing and by tilling and all these bad methods. It's not like it's a new thing. We've been doing this for thousands and thousands of years. And this is really a new model. It's not necessarily going back to an old model of farming. It's actually a new model of farming that has the insight that
we need to create ecosystems. And if we create healthy ecosystems, then the food will be great
and the land will be great and everything will be great. But we really haven't figured that out.
Yeah. The beautiful thing is we're all learning along the way. And it's not like we've invented a new system in regenerative agriculture.
We just have a better understanding of it.
You know, we just have a better understanding of how nature functions, of how the water cycle works, the nutrient cycle.
Because of that, we can now know, okay, I need to move these animals in such a manner.
We need to give proper amount of recovery time so those plants can recover, and then they can
be grazed again. And I tell people, do you think the bison that were on the Great Plains centuries
ago just parked in one place and stayed there year round. No, they were constantly being pushed by wolves and they migrated according to moisture conditions
and where the green grass was and they kept moving.
Well, when we put barbed wire around these pastures and just started putting our livestock in there
and confining them and not moving them, that caused the degradation of the resource.
When we tilled the land, started plowing, John Deere, when he invented that plow,
we started plowing and turning over the soil and planting these monocultures.
That caused the loss of biodiversity.
This is all John Deere's fault then.
Yeah, it's probably not the plow, it's the how, just like the cow, right?
Right. Yeah, it's incredible. And I think people don't understand the importance of soil. That's
why your educational group is called the Soil Health Academy. It's not, you know, how to grow
vegetables or how to grow animals or livestock. It's really about the soil. And, you know,
what's terrible is you mentioned these ruminants.
I mean, they produced 8 to 50 feet of topsoil in some areas of the country.
We've lost at least half of it in many areas.
And it's been projected we're going to lose all of it within 60 years.
And no soil, no plants, no humans.
That's exactly right.
Where do we derive our nutrition from?
You know, where does it come from? It comes from the life in the soil. And as we degrade that soil ecosystem, we no longer have
the nutrients in our food. Just look at what's happened, the nutrient density of the food that
we consume. Yeah, tell us about that. Yeah, it's dropped. David Thomas has some good studies out there on nutrient density,
and it said that a person today would have to consume twice as much meat,
three times as much fruit, four times as many vegetables
compared to those same food sources back in 1940.
That's the amount of nutrient density we've lost. And one of the things that our group
Understanding Ag is working on is how do we measure this nutrient density? And is there a
difference? You mentioned Dr. David Montgomery. Dr. David
Montgomery hired us last year. We went around to 24 regenerative farms across North America.
And then we grew a crop species or a vegetable or a pastured protein on those regenerative farms. Then we went to 24 neighboring farms and we grew the same species.
So whether it was a carrot or wheat or corn,
and then we measured the nutrient density of those.
It's absolutely amazing.
What happened?
The difference that we're seeing.
Yeah.
Now, Dr. Montgomery is our client, so I can't release
the results. You'll have to read it in his new book, which will be out this coming winter.
But our goal is now, okay, we need to prove that. We need to show scientifically that
regenerative farms will produce food higher nutrient density. Now, I can share with you some work we've done on our own ranch.
We've been measuring the fatty acid profile and nutrient density of the products that
we produce, whether it's our beef, lamb, pork, eggs, honey.
Absolutely amazing what we're seeing.
We're seeing that our beef now has, and you talk about this in your book,
Food Fix, the omega six to three ratio. We're down to 1.3 to one. Wow. For beef,
which is about unheard of. You know, we're getting down there where our beef is about
like eating wild salmon. So what is a typical feedlot beef has a ratio? A typical feedlot beef will have an omega-6 to 3 ratio anywhere between 9 to 1 and 15 to 1.
Okay, now though, if that feedlot beef was fed distiller's grain,
and distiller's grain is a byproduct of the ethanol industry, we've measured it.
My partner, Dr. Alan Williams has measured it
as high as 55 to one. 55 to one. So just so people understand that typically, historically,
we had maybe a one to one to four to one ratio of omega six to threes in our hunter gatherer diet.
Right. And now in America, we're often higher than that up to 10, 20 to one. And that's bad
for your health. It's that omega-6s are bad
it's just the quantity and the lack of omega-3s and what you're saying is basically a regenerally
raised beef burger is about like eating wild salmon that's pretty amazing yep and we've got
the proof to that we we've been we've been doing a lot of testing on our own products here on our ranch and we found it it all equates
back to soil health the healthier your soil and just it only makes sense because we can do the
same thing with vegetables we've measured our carrots over 2 000 times higher in carotene than carrots grown in a,
in a, in a tilled farm. Okay.
2000 times.
It's almost like making it wild food because wild food has that order of
magnitude, more nutrient density than farm food.
But you're saying you can turn farm food into wild food by taking care of the
soil and letting the nutrients accumulate because of the microbiology
in the soil that then the plants can use, that then we can use. It's an amazing cycle.
Exactly. And what we're finding, the work by Dr. Fred Provenza and Dr. Stephen Van Vliet and Dr.
Kronberg is, if we have the diversity in the diet of the animals, they're out there grazing
a very, very wide array and diverse
amount of plants, they're going to have all these different biochemicals, then the meat they provide
is going to be much, much healthier for them because it's going to have all these.
You know, I might catch some flack for this, so you can cut this out of it if you want, but
I was having a debate once with a
vegetarian, and so I asked the vegetarian, I said, well, how many plant species did you eat today?
And they said, well, I ate 14 different plant species, and I said, really? I said, that steer
that I ate that steak from, the last day it was alive, it ate over a hundred different plant species.
I'm more of a vegetarian than you are. Well, you know, understand what I mean? It's all these
compounds that drive health. Okay. So our plants then also are going to be higher in all these
different chemicals because of all the biology and all the mycorrhizal fungi transferring
nutrients. That's what it's about. Then we can truly start looking at food as preventative
medicine. It's amazing. I mean, I had Fred Prevenza on the podcast and it was shocking to me to learn
that regeneratively raised beef with animals allowed to forage all these diverse plants,
which each one is different. Each one,
it's like taking a multivitamin and taking all these herbs, and they will seek out,
based on the flavor profile, the most nutritious, the most nutrient-dense, sort of like that plant
that seeks out the bacteria that's going to bring it copper. It literally knows through its innate
intelligence which things to eat to drive the best health and all the medicinal compounds.
So what they're finding isn't just theoretical.
They're finding literally these phytonutrients, which we thought only existed in plants, in animal food that's been raised a certain way, but not in a feedlot cow or a factory farm chicken, but in these naturally raised environments like you're creating, which is just astounding to
me. I mean, it's just shocking. And the question is, what does that mean for human health? What
are the implications? We have to learn more, but it's still, it's still striking. And so
this is staggering. So let's just sort of recap a little bit, because I think I want to just
summarize, and I want to get into some of the issues around scalability, how other farmers
are thinking about this.
What are the challenges to scaling this up?
And I think what we just learned is that what you've done is taken a farm that was an industrial
farm with monocrop cultures and converted over a period of 20 years to making the most
incredible food, which is far more nutrient dense with no inputs,
except maybe some herbicides,
which you're trying to get rid of.
Well,
our ranch could be certified organic if we wanted to.
Most of the crop,
the,
all of my pastures and hay land have,
have not seen a herbicide in over 25 years plus,
if ever and our crop land has not seen herbicide in uh since 2010 with the exception once in a while if i can't get the
animals rotated around and i have a neighbor who complains about my weeds which are really forbs
then i'll go spray a little bit, spot spray a little patch
just to appease the neighbor. So for instance, last year, my total chemical bill on 5,000 acres
was $19.95. So what does that compare to a 5,000 acre neighboring farm? What's their bill for
pesticides, fertilizer, herbicides, fungicides. Oh boy, hundreds of thousands.
Hundreds of thousands of dollars.
Oh, easily, yeah.
And they're giving that to the big ag and seed and chemical companies.
And you're not buying seed from Monsanto probably.
No, all of our seed, we keep all our own seed.
We only grow heirloom vegetables and we keep our own seed there. Most of the grains that I grow, that seed has been seed I've preserved
for 20 plus years. It's acclimated to my environment. So the hundreds of
thousands they give to the big ag industry, Gabe puts in his pocket. Wow,
okay. That's pretty impressive. So we're going
to get into the money part of this too. And you are able to be drought and flood resistant.
You're able to grow crops when your neighbors can't and they're collecting payments on insurance
from the government. You're storing huge amounts of carbon that can help draw down the carbon in the atmosphere
and reverse climate change.
You're producing more nutrient-dense food.
The animals are happier.
Your life is easier, a lot less work, apparently, right?
And so this is a no-brainer.
So the question is, you know,
when you go around teaching other farmers,
because you're a farmer, you're not some hippie from LA who was like, oh, this is a cool idea. You're actually been doing this for
your whole life, even before there was a word for it. You know, what do you say to your colleagues?
And do they listen to you? Are they interested? Are they frustrated? Because I imagine right now,
they're squeezed between the government payments and the big chem and ag companies.
And they're squeezed and they don't win.
The farmers are not the villains.
They're the victims.
And you showed a different way to them.
But do they go, this is crazy or I'm willing to do it?
Or what do they say?
You know, I have been actively out promoting this for the last almost 20 years.
And the snowball is finally starting to roll downhill.
The interest in regenerative ag right now is huge.
It is, we get inundated with phone calls and emails every day.
How do we go down this path?
Well, people say, if this is so good, why don't, why doesn't everybody
do it? Well, number one is fear. It's fear of the unknown. Realize that our land grant colleges,
our extension agents, big ag retail is not promoting this. Okay. So farmers are afraid
of the unknown. Second thing is financial. Okay. The vast majority of farmers and ranchers have to borrow money every year in order to get a crop in the ground and in order to keep operating.
Those lending institutions, they're only going to lend to them if they take out revenue insurance.
In other words, federal crop insurance.
Well, federal crop insurance dictates which crops and the amount they're
going to pay the farmers. So farmers know, well, I've got a proven history of growing this much.
I can go in and sign up, pay this type of a premium of which the federal government
subsidizes approximately two-thirds the cost. That's coming from the taxpayer.
So your insurance premium for the insurance is paid for by the taxpayer?
Approximately two-thirds, yes, approximately. And they know as long as they keep their expenses
below that, the government's going to give them a check. Well, the banker tells them,
you better do that or we won't loan you the money. So farmers and ranchers are stuck there. But what
we're seeing now is a growing number of farmers and ranchers that are saying, no, this isn't right.
We can't continue down this path. And this is unfortunately being proven out in the current
COVID pandemic, is look at what's happening in especially the meat processing business.
You know, there's huge numbers of hogs being euthanized,
poultry being euthanized, you know, of cattle that are ready for slaughter,
but no place to slaughter them.
And so you have this disaster, which then the federal government
is going to bail out, so to speak, a lot of producers.
And because of that, the producers will keep in this mindset. Same thing with crops. They're
expecting a record corn crop being planted this spring. Yet corn is actually lower in price
than it was 40 years ago. 40. 40. Does that make any sense? Does that make any sense at all?
No. Why is that? Well, it's to feed an ethanol industry, which doesn't make sense either.
You know, 43% of the corn produced in the United States goes for ethanol production.
That's ridiculous. And then you have about- Doesn't it take about a gallon of fossil fuel to make a gallon of ethanol?
No, it takes over that.
So you basically have to take a gallon of fossil fuels to grow enough corn to make a gallon of ethanol.
Well, actually, if you figure the amount of fossil fuel it takes to make all the fertilizers and pesticides and fungicides, et cetera, it's over a gallon.
It's an industry, I'm sorry.
It's a crazy industry, it sounds like.
And then on top of that, byproduct of the ethanol industry is distiller's grain.
That goes into livestock.
That throws their – it's bad for their health,
but then it throws off the omega-6-3 ratio, bad for our health.
Incredible.
Yeah, it doesn't make sense.
So you go around the country and the farmers are saying,
you know, it sounds like a good idea.
Do they want to do it?
Are they resistant to do it?
Are they afraid of the economic issues?
Because it sounds like it's a no-brainer when you explain it the way you do,
when you show what you've done on your farm.
And not only that, you not only create better food,
but you have a much more profitable operation.
You were telling me you make far more than your neighbor and produce better
quality food. So why, why wouldn't they do it?
Is it the conversion takes a while? Is it there?
It's what I said, fear of the unknown and the banker, you know,
the current farm program,
the current farm program is almost totally antagonistic to regenerative agriculture
you know it's just they put so many restrictions on you uh for growing cover crops and all these
things i do on my ranch oh you can't do that because then it'll negatively affect your
cash crop no it won't it'll positively affect it but the science that's being done to justify their way is done under
the old industrial model. And so there is no, there's very little new science out there about
the regenerative model because who's going to pay for that? You know, it's who pays for most of the
research at our land grant colleges? Well, it's big ag, right? Big ag isn't going to pay for
regenerative studies.
They're just not. Right, right.
It's like pharma.
They're not paying on studies on nutrition and health.
They're studying on drugs and health.
Yeah.
Now, we do have to realize that consumers are partially to blame also
because consumers wanted cheap food, okay?
So that was the mindset.
We got to produce more and more food to feed the world well I say they're producing food like substances they're really not
producing food anymore you know it's totally different and you know the soil
is just a chemistry set to hold the plant upright it's not this living
dynamic system that can truly supply us nutrient-dense food. So with the crop insurance, does that keep prices low,
or how does that affect the price of the processed food, or not?
Yeah, it's the most ridiculous thing you've ever seen from the standpoint
what it does for a farmer is you're being paid based on your past yield history.
So every year the farmers have to go into the Farm Service Agency and report their yields.
I don't, but if you're in the program, you do.
And you build and establish that history.
Then you can take out crop insurance based on that.
Well, your average yield is this, say 200 bushels of corn per acre.
You're going to take out crop insurance to pay you 90% of that.
So that'll guarantee you 180 bushels an acre at this price.
But the price is based on last year's average price during a certain window of time.
Okay.
And the government sets that.
Well, the more that's produced, the lower the price. So farmers are
just, they're on this treadmill going in circles and they're spiraling downwards, getting lower
and lower price. And that's being proven out. Unless there's a major drought like happened in
2012, it's not going to change. That though keeps prices low, which keeps food in the stores low, which keeps happy consumers.
But how happy are they, really, when we have the kind of human health crisis that we have?
No, it's terrible. So the farmers, you think, would be willing if there was a bridge that was created for them to change over? Yeah.
I know you're working with a group called Understanding Ag,
and you're working with General Mills.
And General Mills has committed a million acres to regenerative ag.
Danone is now paying farmers to convert over.
The government isn't doing it, but these companies are.
Why are they doing it, and how do we get this to scale?
You know, we were approached a little over two years ago by General Mills
because what they saw was one of the things farmers need is just what I talked about.
They need knowledge.
They need education.
More or less, they need to be guided down this path.
They need a coach.
Much as you coach people in medicine in medicine okay and in their eating habits
farmers need to be coached as to move down this path so i give general mills a lot of credit in
that they saw what they had toured my place a number of times several of their team and they
toured other regenerative farms and ranch and they said okay you guys know what you're doing you know how to do it okay will
you help guide these farmers and they're footing the bill for that and we're
having tremendous success we right now we're on we're on over a hundred
different farms throughout the central plains here with General Mills working with them.
And we're also doing some work in Michigan on some dairies with them. We're being approached
by a number of multinational companies that see this. Now think of it from their standpoint,
why would they do that? Well, they want a steady supply of high quality products. And they see regenerative ag because of the resiliency it can
provide is the way to get that steady supply of high quality products. In talking with them, and
I've been very involved, I'm at General Mills in Minneapolis a number of times speaking with their top executives about this. They really believe
long term, this nutrient density is going to become more and more important. The nutrient
density of the grains and products they use. So how do they get that nutrient density? They're
not going to get it out of a lab. It's only through that living soil ecosystem that they can get it.
And so how do they do that?
Through regenerative ag.
Well, that's a good sign.
If these big corporations are realizing that their supply chain is threatened, that they need to change the way we're growing food because the way we're growing food is threatening our future ability to grow food and their supply chain is threatened. So they have to do this as a business imperative, not as a sort of an ecological move or environmental or social
justice or social activism. They're doing it because it's an economic issue.
So what would be the changes in our policies that need to happen to make this happen? Do we need to
abolish crop insurance and agricultural supports? Do we need to just support regenerative movements? There was a new bill that was introduced into the Senate, a bipartisan bill called the Growing
Climate Solutions Act, which gives carbon credits for farmers for sequestering carbon, which
seems to incentivize regenerative ag. So what are the kinds of things that need to happen?
And I often get asked that, Gabe, what do we need to
change in Washington to make this happen? And I say, good luck. Now, that doesn't mean we don't
try, okay? Of course we try. If you were the Secretary of Agriculture. Yeah, Secretary of
Agriculture, what I would do, I would abolish most of the Department of Agriculture. I think it actually hinders progress.
What we need to do is we need to educate.
For one, we need to educate farmers and ranchers truly how these ecosystems function.
We need to educate municipalities because we're actually able to clean up the water
with these proper practices
on farms and ranchers. We're able to hold the nutrients on the farm or ranch, not in the
watershed, so we can clean up that water supply. We need to educate consumers that through their
buying dollar, they are dictating what happens out on the land. And to me, that's huge. You know, why shouldn't we not
be supporting local farms and ranchers that are doing a good job and doing things in a regenerative
practice manner that provides us food that's higher in nutrient density? The other thing I
really think, and this is where the federal government could be
involved in a way, is we need to get the technology to be able to measure these things.
We need to be able to measure true ecosystem services. What are regenerative farms and
ranches doing to provide those ecological services, clean air, clean water, nutrient-dense food.
Okay, how do we measure that? You mentioned carbon, and it's a good thing that they're
looking at that, but show me how you're going to measure carbon economically enough to make it
viable. We spent $170,000 to measure carbon on 600 acres of my ranch. When we're all done,
we realized we have a bunch of incomplete data because we're now able to store carbon much
deeper than the four feet that we measure. So how are you going to do it economically? Now,
I think the technology could be out there, but I think where it really lies is in measuring the water cycle,
because it all ties to the water cycle. Are we able to infiltrate water and then move it
throughout the profile and store it there via that carbon? And that'll give us a more accurate
measure there. So it's powerful. I think, you know, if we really could scale this, it could
be a big deal. And I think the argument also I've heard is that, well, you know, it sounds nice and it's kind of a hobby farm, but this is really not what's going
to feed the world. We're going to have 10 billion people. And I think the people usually saying that
are the Monsantos of the world and the big ad companies. But, you know, you have a different
view. And I think even meat, you know, the whole idea of we should eat less meat because we can't feed the world more meat if we're doing it the way we're doing. And I think
that's true. But the question is, what if we did it this way? What are the implications of
scalability, both in terms of, you know, being a viable form of feeding the world and also
the meat question? Yep. So here's how I answer that question. I get asked that all the time. I bet you do.
Yeah. I say, okay, go to a cornfield in Iowa. You know, how much corn do they produce there?
Okay. They will yield more than me than I will of corn because they have more moisture. They're
in a different environment. Okay. Well, let's start
over. Let's look at this. Go to my neighbor who's growing corn and I'm growing corn. My neighbor,
with all his synthetic inputs, may yield slightly more than I do. However, I'm already over 25%
higher than average in our county. Okay. So I'm not at a negative. I'm 25% higher than average in our county. Okay. So I'm not at a negative, I'm 25% higher than average
of the county. So not only will I grow corn on my acres, but I will grow a cover crop.
That cover crop then will be grazed by my grass finished beef. Then I'll bring my grass finished
flams on there. Then I'll bring my pastured hogs on there. Then I'll bring my 1400 land hens that
are producing eggs on there. And I have bees that are producing honey off there. So you add up all
these myriad of different enterprises that I have, I'll produce way more nutrient dense food per acre than any of them, they will. So it's an absolute fallacy to say
that we're going to produce less food in a regenerative model. No, we'll not only produce
more food, but it'll be higher in nutrient density. That's amazing. And so what about
the argument about meat? I mean, can we really grow enough cattle?
And Allie Williams has done some of these calculations,
but the whole conversation is that we just don't have enough land
and we can't do it.
What do you say to that?
Okay.
Look at the amount of landscape that is not being utilized.
Okay.
You go on to any farm in the Corn Belt where they're
growing corn, soybeans, they all have these areas where there's no livestock. And then most farms
have removed all the fences. They don't run livestock at all. What a waste. What a waste not
to integrate animals on there. If they would grow a cover crop, they can still grow
their cash crops, but then you also grow a cover crop, and that cover crop will keep
those nutrients on the land instead of letting them move out into the watershed. Then you
bring livestock on there to graze, you're going to sequester more carbon. I explained that earlier. Okay.
You're stacking enterprise. You're going to provide way more. There's plenty of acres. Now,
I will be the first to say, and I said it earlier, I do not believe we need these animals in
confinement. They need to be out on the landscape where they're doing some good. And people often say, oh, but cattle emit methane.
And, right, that's a big problem.
You're going to have this problem.
But how many of them ever talk about methanotrophs?
Yeah.
Methanotrophs are free-living bacteria that actually consume that methane.
When cattle are out grazing, there's methanotrophs that consume that methane.
Okay, but nobody talks about that.
Let's get them out of the lot, out on the landscape,
and we won't have these issues.
Yeah, I mean, you think we could produce the same number of cattle we do now
in the United States using regenerative agriculture?
Yeah, I think you would produce more.
Now, is it necessary? I'm not going
to get into the argument whether we should eat less, okay, meats, okay? I'll leave that to you.
You're the expert on that. The only thing I will say is before you go out and educate people,
let's truly do those studies to show, as Dr. Provenza showed, as I shared with you, just how nutrient dense is this
meat and what is the profile of it for all these different compounds, then you be the judge. You're
the doctor, not I. But let's eat the right kinds of protein. And the other thing you didn't mention
is that 40% of the agricultural land is not suitable for growing crops. And it's only for upcycling really inedible food that humans can eat into incredibly nutrient
dense protein, which is, you know, in short supply.
So I think that's a very interesting perspective.
And I feel like there are companies out there saying we should abolish meat completely from
the landscape.
And it's bad.
I think it's really important to understand there's a nuanced argument. It's not black and white. It depends on what and how. And
you know, your example, I don't probably don't imagine you thought you were going to be the king
of regenerative agriculture 20 years ago. You were just trying to like make a living and
stay out of bankruptcy and keep your farm going. Yeah, that's exactly what.
Somehow, you know, you ended up in this place by, you know, force of, you know, bad circumstances that ended up being a blessing because you showed the world really how this works.
And to me, if we can take this model and scale it up, it is the answer to so many of our problems, you know, to our environmental problems, our biodiversity problems, our water problems, our soil problems, our climate problems, our health problems.
And so as a doctor, people tell me, how are you going to solve chronic disease? I think it starts
on the farm. It starts in the soil. And then when you go downstream from that, everything kind of
figures itself out. And I think that, you know, maybe, maybe we can get you to be secretary of agriculture.
I think that would be a good thing. We'll see what happens the next election,
but I think we do need some real changing,
changing of the garden and changing our policy.
I don't think Gabe Brown would last. Gabe Brown would not last in Washington.
Well, how about, how about your advisor to the secretary of agriculture?
There we go.
And I just really honor your work. You are just out there really working
hard to educate people. It's a thankless job in some ways because you've been doing this
against the tide. You've been seeing incredible resistance. But one last question. Do you think
that farmers out there that you're encountering, because you're out there with the heart of America
talking to these guys, are they open? Are they listening? Do they get it? Do they want to change
and they're stuck in the system and don't know how to get out? Or they just don't want to hear
about it? Very much so. And unfortunately, it's often financial hardships or health
implications that drive farmers or ranchers down this path. But there's a growing number that
really, really are interested. We just held the Soil Health Academy last week in New Mexico.
We had a really good group, especially of young people that were there. And they're like,
I don't want to farm and ranch in that industrial model. I want to do it in a regenerative
way. And to me, that's really encouraging, you know, and we're seeing that all over the world.
I suppose the average age of farmers somewhere in the 60s or something.
Yeah. And the average age we saw at our school last week was probably in the early 30s.
That's incredible. So we need a new generation of farmers or else who's going to grow our food. And
I think, you know, when you think about the 40 million people who are unemployed in America, it might be smart to think about putting people back in the land.
I think that's what's happening in Italy, actually.
When you look at what's happening with the economic losses there, a lot of people are going back to work on farms.
Well, and we're seeing it here with COVID.
Look at the garden centers are sold out of seed because people want to go,
go back and grow their own food. That's fantastic.
Yeah. Well, I got, I remember not to turn over my soil.
I think I did that this year by accident.
Well, Gabe, you're, you're an incredible man. You're,
have a big heart brilliant mind and you're doing God's work to change the
things that matter
most. And I think if this work scales, and I think it will, because it just makes sense. And
certainly big businesses caught on, the government's going to catch on soon, and
we can get some real change in the policies that are going to drive farmers to be able to make the
conversion to regenerative agriculture, and it'll benefit all of us. I want everybody to make sure
they get a copy of From Dirt to Soil. So really understand this.
Gabe's son and he have a great online business called Nourished by Nature.
You can go to nourishedbynature.com.
It's fabulous.
I went on there.
They have all kinds of regenerative meat.
And it's hard to find regeneratively raised food.
So you can find it on Gabe and his son's website, Nourished by Nature,
and order chickens and lamb and pigs and beef.
It's like amazing. I want to get some. Thank you. It was a real pleasure visiting with you today.
Yeah, so great. And I'll be sure to come out to North Dakota soon and see you when this all
craziness is over. So thank you so much for being on the podcast. And everybody who's listened,
I hope you enjoyed this. If you loved it, please share it with your friends and family on social
media. Leave a comment. We'd love to hear please share it with your friends and family on social media.
Leave a comment.
We'd love to hear from you.
Start maybe a farm or a garden yourself.
That would be a good thing.
And we'll see you next time on The Doctor's Pharmacy.
Hey, everybody.
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