How Sheep, Cows, and Goats Kill Tens of Thousands of Species

Madhav Malhotra
14 min readFeb 18, 2022

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In a hurry? Skim to the heading you like :-) Or see this summary.

Airports, ports, transport of all sorts are desperately blockaded. šŸš§ Itā€™s the last attempt to prevent the spread of the deadly virus from Asia.

This is not the story of COVID-19. Itā€™s instead the plot of John Christopherā€™s novel from 60 years ago, The Death of Grass.

Book cover from ā€œThe Death of Grassā€ by John Christopher (Wikimedia Commons / GrahamHardy)

In the novel, Christopher describes a plant virus that was deadly to the worldā€™s cereal crops ā€” like wheat, rice, corn, etc. šŸŒ¾

  • Due to this, massive famines start in Asia.
  • The Americas try severe quarantines to stop the virus from reaching them.
  • But as the virus spreads, anarchy and looting starts.
  • Governments plan to bomb major cities as a form of population control. šŸ˜¶
  • And people frantically try to grow potatoes as a source of food.

By the way, cereal crops made up over 35 percent of the worldā€™s crop production in 2020 (Source). Ie. Our agricultural system really does have such little biodiversity, plant viruses are a real-world threat. And though Christopherā€™s novel is science-fiction, could you really say this sci-fi nightmare doesnā€™t seem at least 1% plausible?

I canā€™t.

And that worries me. šŸ˜• Iā€™m not ready to live in a world where it seems at least 1% plausible that such an extreme disaster could happen. Thatā€™s why Iā€™m writing this article on how to fix the cause behind such extreme disasters: biodiversity loss.

Biodiversity loss is a neglected area of environmentalism. You donā€™t hear many dire news reports about it. But its damage is even more permanent than climate change, plastic pollution, etc.

Once we lose a species, we lose it forever.

Itā€™s like how we lose time in life. We cannot get it back. But the clock is always ticking down. Weā€™re currently losing species around 1000x faster than the natural rate (Source) šŸ˜±

Every day that goes by, we lose 12 species at the very least (Source). Image by makeagif.com / robbo83

The only time we can solve this problem is NOW! Not by 2030 or 2050. NOW. So Iā€™ll now show which actions need to be taken and why. A few questions Iā€™ll answer:

  • Why does losing species matter?
  • What is threatening biodiversity the most? šŸ˜æ
  • Which solutions try to fix that?
  • Why are the current solutions not enough?
  • What can we do next?

Why does losing species matter?

There are three big benefits that ecosystems with biodiverse species bring.

Biodiversity Helps us Earn Money šŸ’°

Half of the worldā€™s GDP ($44T USD) is highly or moderately dependent on natureā€™s services. (pg. 103)

Does that sound too big? Here are some examples to show why biodiversity has such a large impact:

  • $235B ā€” 577B USD of annual crop production are at risk from pollinator loss. (Source)
  • 70% of cancer drugs are inspired by nature. (Source) šŸ’‰
  • Fish consumption provides 3.3 billion people with at least 20% of their protein. And fisheries employ 59.5 million people. (pg. 70)

This is also true for even one species! Mangrove trees provide $65B in flood protection benefits every year. If they were lost, 15 million more people would be flooded per year! šŸŒŠ (Source)

The dense roots of mangroves block storm waves. (Source) Image by Wikimedia Commons / Pernal8

Biodiversity Maintains OUR Habitat (Not Just Other Animalsā€™)

In ecology language, ā€˜biodiversity provides ecosystem services.ā€™

To be more blunt:

Without biodiversity keeping the environment livable, humans would die (period). šŸ’€

For more concrete examples, here are how a few species help us:

  • Regulating air quality and regulating climate. Ex: Micro-organisms called diatoms produce 20% of Earthā€™s oxygen every year. This is more oxygen than all forests produce! (Source)
These shiny diatoms are not an illustration. This is a real microscope image. (California Academy of Sciences)
  • Pollinating and dispersing seeds. Ex: 80% of crop pollination comes from 2% of bee species. (pg. 21) šŸ A decline in bee species diversity hugely harms our food production!
  • Foming and protecting soil. Ex: In a single gram of soil, there are thousands of species of bacteria. (Source) Scientists have no clue what 99.99% of the species in soil do. (pg. 34) Yet, we need some soil quality to grow food, build homes, build roads, and more!
  • Regulating natural disasters. Ex: 200M people rely on coral reefs to protect them from storm surges (pg. 70) Multiple island nations are literally sinking into the ocean without species to protect them šŸ˜±

The More Species, the More Innovation

Specifically, the novel innovations are called ā€˜biomimicryā€™: reusing natureā€™s innovations for our purposes.

This can be as ā€˜realā€™ as using the shapes of streamlined animal bodies in engineering designs. And as ā€˜abstractā€™ as using ant communication in social media networks. šŸ’­ There are hundreds of examples! But to name just three:

  • Several medicines are found from fungi. Fungi make molecules to compete with other species. In fact, researchers analysed just 24 fungal species and found 1000 ā€˜bioactiveā€™ molecules! These are molecules that affect other forms of lifeā€¦ Ie. they could help create new drugs. (Source)
This is Penicillium glandicola. It makes Roquefortine C, a bacteria-fighting toxin. (Wikimedia Commons / Raeky)
  • Honey bees send ā€˜scoutsā€™ to search for food. If the scouts find food, they return to the hive and vibrate. šŸ”Š Then, other bees follow the scout to the food and repeat the same vibrations when they get back. Over time, they reach ā€˜consensusā€™ on where to go! Delivery companies are copying this strategy to find the best route for product deliveries (Source)
  • Moths have tiny spikes (200ā€“300 nm long) on their eyes. These act like tiny ā€˜guide railsā€™ that trap light rays. So light doesnā€™t reflect off of mothsā€™ eyes. Now, NASA is using spikes like moths on a space telescope! šŸ˜® It stops light from bouncing off the telescope so it can be detected. (Source)
These spikes on the telescope are designed to mimic those on a mothā€™s eye. (Source)

Again, without biodiversity, we wouldnā€™t be alive! So which issues do we need to fix that threaten it?

What threatens biodiversity the most?

Five main issues:

  1. Habitat loss
  2. Overexploitation
  3. Invasive species
  4. Pollution
  5. Climate change

But habitat loss is the biggest threat to 85% of threatened and endangered species. šŸ˜±

And when we look at population decreases for species (a slighly different metric), itā€™s the same picture:

Disclaimer: This is an average across 5 global regions. But the top 2 issues are the same everywhere. (pg. 21)

Since habitat loss is the biggest issue right now, Iā€™ll focus on it. But note that the other issues also have massive costs and some are growing rapidly. As one sidenote, the cost of damages caused by invasive species is growing 6x every decade. šŸ˜± Itā€™s estimated at over $50B/year globally. (Source)

Still, to focus on habitat loss:

  • Itā€™s what you imagine. Species canā€™t live in an area if we build a road on it or cut down its trees or mine it for resources, etc.
  • But to appease biologists yelling at me, ā€˜habitat lossā€™ isnā€™t the proper term and the general issue is ā€˜modifying habitats in any wayā€™. šŸ‘€

So what causes habitat loss?

The majority is caused by land use for agriculture. Specifically, ā€˜grazingā€™ lands for cows, sheep, and goats. Here are some numbers:

(pg. 8)
  • Note how 49% of habitable land is used for agriculture.
  • 78% of that is tied to animal agriculture ā€” 67% for grazing lands specifically (Source).
  • And basically all grazing lands are used for cows, sheep, and goats. (Source)

So why do cows, sheep, and goats need so much land?? šŸ˜•

Okay, they donā€™t need so much land. We can raise cows, sheep, and goats on factory farms. These are very horrendous conditions for them. But they use 10x less land (Source)

The issue is that factory farms also require a lot of ā€˜inputā€™. Energy use, water use, construction costs, equipment costs, processed feed, etc. (Source) In much of the developing world, itā€™s cheaper to start raising cows, sheep, or goats by letting them eat/drink whateverā€™s in the environment.

Also, 2/3 of the worldā€™s agricultural land is ā€˜non-arableā€™ (Source and pg. 8). This means the land only grows inedible plants like grasses, not human food. BUT cows, sheep, and goats have extra stomachs for digesting plants like grasses that we canā€™t digest. So for each farmer, it makes sense to put the land to some use by growing livestock.

But natural ecosystems donā€™t have a say here. For them, it would be better for farmers to leave non-arable land unused! šŸ˜® Unfortunately for them, this doesnā€™t happen. And even worse, more natural ecosystems (and the species they house) are being destroyed to grow livestock.

Meat Consumption Kickstarts Biodiversity Loss

As the most important example, 60ā€“75% of new grazing land in Latin America is from cleared forests. (Source) This is the worst place for that! šŸ˜– 7 of the worldā€™s ā€˜biodiversity hotspotsā€™ are in Latin America.

Biodiversity hotspots are areas with >1500 unique plant species that have lost >70% of their population. (Source) (Image by Wikimedia Commons / ninjatacoshell)

And itā€™s not just Latin America. By 2050, several developing countries are expected to increase the amount of land they use for raising livestock by over 30%! šŸ˜± They include China, the Philippines, Ecuador, and Brazil. (Source)

Why such large increases? Because meat and milk production is set to expand >45% (outpacing population growth) from 2000 to 2030. (Source) And cows, sheep, and goats make up nearly all milk production and 25% of meat production.

RECAP: Growing demand for products made from cows, sheep, and goats ā†’ increased grazing lands ā†’ habitat loss ā†’ Biodiversity loss šŸ˜µ

SO ā€” to stop the whole chain, we have to reduce demand for products made from cows, sheep, and goats. Starting with food products.

This doesnā€™t automatically fix existing habitat loss, but prevents more from happening.

Reducing meat/dairy demand is the PREREQUISITE to fixing biodiversity loss

P.S. There are MANY other reasons to reduce meat/dairy demand besides fixing land usage and biodiversity loss. See here for details. Anyways, itā€™s extra great to work on this problem šŸ˜Š

Current solutions to reduce animal products?

*When I say ā€˜animal productsā€™ from now on, I mean meat and dairy from sheep, cows, and goats. This covers the most ā€˜problematicā€™ animal products. But I wonā€™t keep writing that out šŸ˜

Let me introduce you to:

The three Rā€™s of reducing animal product sā€” replace, remove, reduce.

We can REPLACE Animal Products with Substitutes

The point is that the substitutes resemble meats without containing animal-based products. Ie. Same price, same taste, same nutrition, etc.

There are two ways this is done:

  1. Cell-based products grow tissue from animal cells instead of living animals. Think laboratories instead of factory farms. Details here.
  2. Plant-based products combine many plant-based ingredients to mimic animal products. For meat, it starts with proteins from plants like soy, peas, or wheat. šŸŒ¾ Then, many other ingredients are added to make the plant protein have meatā€™s flavour, colour, texture, nutrition, etc.
Beyond Meat is the largest plant-based meat company (Open Food Facts / kiliweb)

These alternatives are much better for the planet than most meat!

Iā€™ll talk about the exception (energy use) after. (Kaplan, Rubio, and Xiang, 2020)

We Can REMOVE Animal Products from Diets

Here, we donā€™t try to mimic animal products at all. We just change which dishes we eat. A commission of nutrition experts call one alternative The Planetary Health Diet. It could:

  • Feed 10 billion people
  • Stop the destruction of existing ecosystems
  • Reduce premature mortality by 10ā€“11 million each year
  • Ensure all adequate nutrition
  • And still provide variety for different dishes! šŸ˜‹

Hereā€™s what it looks like:

Data Source: pg. 10

Asides from completely changing diets, people also change specific parts of diets. Ex: People started eating meat replacements like tofu or seitan 2500 years ago (Source) More recently, there are also several milk substitutes like almond milk, soy milk, rice milk, ā€¦ (Source)

We Can REDUCE Animal Product Purchases

This is the ā€˜indirectā€™, ā€˜sneakyā€™, or ā€˜path of least resistanceā€™ approach ā€” depending on who you ask šŸ˜

Basically, you use subtle ā€˜nudgesā€™ (technical term: behavioural interventions) to change consumerā€™s purchasing behaviours. Some examples:

  • Reduce the serving size of meat so people buy less meat overall. Ex: 13% less meat in restaurant dishes = 13% less meat consumed (Source)
  • Make plant-based products more ā€˜visibleā€™ by adding them to the top of the menu, amidst regular meat in supermarkets, etc. (Source) Ex: In 60 Kroger stores, putting plant-based meats next to regular meat raised their sales 23%. (Source)
Plant-based meats next to regular meats in a Kroger store (Plant Based Foods Association)
  • Personalised counselling to encourage lower meat consumption. Like sharing meat-free recipes or text message reminders ā˜Žļø (Source)

Though there are also less ā€˜field-testedā€™ ideas. Ex: Tax meat purchases, provide discounts on plant-based meals, include plant-based meat alternatives in celebrity endorsements or TV in general, and more. (Source)

Why arenā€™t these solutions enough?

There are four main barriers

  1. Cost
  2. Awareness
  3. Preferences
  4. Geography

#1 CURRENTLY, Alternatives Cost Too Much šŸ’øšŸ˜¢

Animal product alternatives grown from cells in the lab can cost tens of thousands of dollars per pound!

Yes, this will decrease in the future. But ā€˜cell-basedā€™ products arenā€™t even near ready to make a dent in the issue in 2022. (Source) So Iā€™ll conveniently stop talking about them now šŸ˜

Plant-based products, though, already (almost) do the job. Ex: Plant-based meat alternatives are on the higher end of regular meat prices. The largest plant-based meat company, Beyond Meat, sells its product for $5.70/lb. Compared to $4ā€“6/lb for regular meat. (Source)

In fact, more consumers stop buying plant-based meats after price increases than for regular meats (Source)

Still, the good news is plant-based meat alternatives will likely be cheaper than regular meat eventually!

  • The ā€˜raw inputā€™ for plant-based meat (wheat protein, soy protein, etc.) costs 4ā€“12 times less than animal proteins. šŸ˜Š
  • The main cost in plant-based meats is processing raw inputs. Ex: they use 2ā€“3x as much energy to produce as pig/chicken meat (Source) šŸ˜•
  • So reduce those processing costs (which many companies are working on) and this issue will go away. šŸ˜Š

#2 CURRENTLY, Most Alternatives are Unheard Of

When it comes to ā€˜nudgesā€™ to reduce peopleā€™s animal product purchases ā€” the strategies are basically 100% restricted to academia.

Companies and nonprofits do use other strategies to change peopleā€™s behaviour (ex: gamification). Those, however, arenā€™t supported by meat consumption research.

Scientists have researched, but not used solutions. And companies/nonprofits have used, but not researched solutions.

You could call it a literal chicken or the egg problemā€¦ šŸ˜–

(Giphy.com / boomunderground)

And for other solutions like changing diets and animal product alternatives ā€” now, consumers arenā€™t aware. Ex: In the US, 36% of consumers are entirely unfamiliar with plant-based meats. (Source) And who knows what that number is like in less developed countries?

#3 As You May Have Noticed, Humans Donā€™t Like Change šŸ˜•

For animal product consumers, taste and nutrition concerns are the biggest reasons for keeping on eating animal products. Ex: For US consumers, 72% of people prefer regular meat. (Source) And there are several reasons why:

Disclaimers: this is a survey from Canadians, not Americans (unlike above). 410 respondents could choose multiple answers. And stated answers may not show true intention. (Source)

For nonprofits, the heads of multiple vegan advocacy groups have told me how itā€™s difficult to change existing strategies to more researched ā€˜nudgesā€™. Because nonprofits already have staff specialised in one intervention (ex: lawyers for policy work). (Source)

For governments, it can be very hard to implement programmes to change citizensā€™ diets without pushback.

  • Ex: 68% of people in Germany, France, and the Netherlands support meat taxes (one type of ā€˜nudgeā€™ to reduce meat consumption). And you can certainly find less liberal countries in the world. (Source)šŸ˜¶
  • Though some countries, like China, have publicly declared goals to reduce meat consumption by 50% by 2030. (Source)

#4 The Right Solutions in the Wrong Places?

No matter which level of this problem you look at, weā€™re focusing too much on developed countries.

Ex: I showed this map from earlier on the biodiversity hotspots in the world. Notice how South and Central America, Southeast Asia, and East Africa are the areas for most concern for biodiversity loss.

(Source)

Or for meat production, China, Brazil, Russia, and India have the biggest role. (In the US/Europe, meat production is ā€˜greenerā€™). (Source)

Just a few countries dominate meat production in 2019. (Source)

Yet, look at where alternative protein startups are located. See any differences?

(Kaplan, Rubio, and Xiang, 2020)

In 2019, almost all meat alternative startups were in the US or Europe.

And the same is true for research on conservation or animal product reduction strategies!

  • Ex: We only have full data on conservation financing for 25 (mainly OECD) countries, and partial data for another 55 countries. (Source)
  • Ex: From 1970ā€“2017, 57% of cost reports on invasive species came from North America. (Source) Elephant in the room much? šŸ˜
  • Ex: Only 14% of conservation cost-effectiveness research was from South America and Central Africa (home to 50% of the worldā€™s species ). (pg. 9)

Clearly, the places weā€™re focusing our solutions on arenā€™t the places that most need help.

Which new solutions would be better?

Finally, I wish I had some perfect strategy to suggest to turn this problem around. Iā€™ve tried brainstorming, talking to scientists, analyising, and moreā€¦ But I just canā€™t find people in the field willing to go beyond their own expertise (ex: nonprofit work, research, etc)šŸ˜•

Thatā€™s why the best I can offer are the ingredients needed for good future solutions (in case anyone reading wants to take this problem on šŸ˜‰)

  • Reduce high costs and high energy use of alternative meats
  • Reduce lack of awareness/high processing of alternative meats
  • Combine behavioural nudges (researched and commercial).
  • Focus on solutions in East Africa, South and Central America, and Southeast Asia.
  • Increase cooperation between researchers, nonprofits, and companies in the field.

If it helps, here is some brainstorming I did with the above prompts. And the summary I made of the issue. And if youā€™d like to reach out to me with questions, please feel free :-)

Key Takeaways šŸ”‘

  1. Biodiversity loss is a ticking time bomb. A lost species is lost forever.
  2. Half of the worldā€™s GDP depends highly/moderately on natural services.
  3. Without biodiversity keeping the environment livable, humans simply die.
  4. Growing demand for products made from cows, sheep, and goats ā†’ increased grazing lands ā†’ habitat loss ā†’ Biodiversity loss
  5. The three Rā€™s of reducing animal products: replace, remove, reduce.
  6. High costs/low awareness in meat alternatives are being fixed.
  7. Scientists have researched, but not used solutions. And companies/nonprofits have used, but not researched solutions.
  8. >75% of solutions of any type focus on developed countries.

Thank You to the Experts Who Supported This šŸ™

Iā€™m very grateful for the help in understanding this problem!

  • Dr. Chris Bryant of the University of Bath! I appreciate your help in recording a podcast on the state of behavioural ā€˜nudgesā€™ and where they need to go next šŸ™ Also for connecting me to Faunalytics and The Reducetarian Foundation!
  • Brian Kateman at the Reducetarian Foundation. I appreciate your reality-check on whatā€™s important to nonprofits working in the field.
  • Dr. Kenneth Feeley at the University of Miami. I very much admire your ability to figure out the links between biodiversity loss and meat consumption 7 years before me, without all the new data available! šŸ˜µ
  • Dr. Jo Anderson and Dr. Andrea Polanco from Faunalytics. I appreciate your time in listening to my ideas and your feedback on how to communicate them more clearly!
  • Amy Huang from the Good Food Institute. Thank you for your feedback on supply-side vs. demand-side priorities. And for sharing more about what it took to get dozens of alternative protein companies to cooperate. šŸ™
  • Dr. Machiel Reinders at the Wageningen University. I appreciate your on-the-ground insights from working with restaurants. I really admire your ability to increase academic-commercial cooperation in the field! šŸ˜®

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Madhav Malhotra
Madhav Malhotra

Written by Madhav Malhotra

Is helpful/friendly :-) Wants to solve neglected global problems. Linkedin: linkedin.com/in/madhav-malhotra/

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