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Not Cool Ep 20: Deborah Lawrence on deforestation
44 Plays5 years ago
This summer, the world watched in near-universal horror as thousands of square miles of rainforest went up in flames. But what exactly makes forests so precious — and deforestation so costly? On the 20th episode of Not Cool, Ariel explores the many ways in which forests impact the global climate — and the profound price we pay when we destroy them. She’s joined by Deborah Lawrence, Environmental Science Professor at the University of Virginia whose research focuses on the ecological effects of tropical deforestation. Deborah discusses the causes of this year's Amazon rain forest fires, the varying climate impacts of different types of forests, and the relationship between deforestation, agriculture, and carbon emissions. She also explains why the Amazon is not the lungs of the planet, what makes tropical forests so good at global cooling, and how putting a price on carbon emissions could slow deforestation.
Topics discussed include:
-Amazon rain forest fires
-Deforestation of the rainforest
-Tipping points in deforestation
-Climate impacts of forests: local vs. global
-Evapotranspiration
-Why tropical forests do the most cooling
-Non-climate impacts of forests
-Global rate of deforestation
-Why the amazon is not the lungs of the planet
-Impacts of agriculture on forests
-Using degraded land for new crops
-Connection between forests and other greenhouse gases
-Individual actions and policies
Recommended
Transcript
Introduction and Importance of Forests
00:00:00
Speaker
There's plenty of reasons why we want to keep forests. They regulate the hydrological cycle. They tend to minimize flooding. They manage flows and rivers. They are kind of like a sponge. So they take up rainfall or snowfall and then they trickle it out slowly so that it's available for us or ecosystems or agriculture.
00:00:20
Speaker
Welcome back to Not Cool, a climate podcast. I'm your host, Arielle Kahn. Today's interview is one I've been looking forward to for a while. To be clear, I have loved every minute of every interview I have done for this podcast, but trees hold a very special place in my heart.
00:00:37
Speaker
They grow so tall, live so long, purify our air, positively impact our climate, improve our moods. They're just generally awe-inspiring. And that doesn't even get into the science of how they grow, thrive, and possibly even communicate with each other.
Interview with Deborah Lawrence on Deforestation and Fires
00:00:52
Speaker
The more I've learned about trees, the more amazed I become. So, I'm very excited that for episode 20, we're joined by Deborah Lawrence, who will talk about the impact of forests on climate change, along with the impact humans have had on forests.
00:01:06
Speaker
Deborah is a professor of environmental sciences at the University of Virginia, where her research focuses on the ecological effects of tropical deforestation. She has spent the past 25 years doing field-based research in Indonesia, Costa Rica, Mexico, and Cameroon. She and her students conduct interdisciplinary research with partners in economics, anthropology, geography, and hydrology to understand the drivers and consequences of land use change.
00:01:34
Speaker
Focusing on tropical forests and climate change, she participated in the international negotiations of the United Nations Framework Convention on Climate Change. She supported the U.S. delegation to the World Bank Forest Carbon Partnership Facility and Forest Investment Program, and she was part of several interagency missions on reducing emissions from deforestation and degradation in Indonesia and Southeast Asia.
00:01:59
Speaker
Deborah, thank you so much for joining the podcast. Glad to be here. Pretty recently, in the last month or so in the news, the Amazon rainforest was getting a lot of attention because it was burning very, very significantly. So before I get into any other questions I have for you, I was wondering if you could just give us an update of what's going on in the Amazon this year. Why were the fires so big? How do they compare to previous years? Why is this so bad?
00:02:27
Speaker
Okay, the Amazon burns every year, so it's not really new, but there were more fires this year and significantly so. I don't think it's twice as many, but I think it's high. So the question is, what does that mean and why is it happening? The reason it happens is because people are trying to cut the forest to either grow crops like soy or to create pastures for cattle.
00:02:53
Speaker
So these are big worldwide commodities. This is a major activity of the Brazilian Amazon for sure. The question is why would it spike this year? And I think the answer is not some quirk of climate. It's not because it's a super hot year.
00:03:08
Speaker
It's because the president of Brazil has indicated that he is not going to be enforcing the existing laws that protect the Amazon. So that sounds kind of strong, but he has indicated that he is not really that concerned that the Amazon remain intact. He sees the Amazon as an incredible resource for Brazil, and he is interested in using that resource to advance the economic development of the country. That is a change.
00:03:37
Speaker
Formerly, the leadership has felt that the Amazon was important as a block of forest and, in fact, respected the many laws that they had created over the past decade or so to protect it.
Impact of Policy Changes on Deforestation in Brazil
00:03:50
Speaker
And some of those laws are really quite progressive. They give rights to indigenous people to manage forests.
00:03:57
Speaker
and they promise that ownership is true and protected by the government. So the wonderful thing about these laws that they created over the last 10 to 15 years is that they have dramatically reduced deforestation in Brazil.
00:04:11
Speaker
The increase in fires has to be taken in the context of the fact that there had been really an incredible success story in the Amazon over the past decade. Deforestation had come way down. So even though this year there's a lot of fire, it's not as bad as it was 10 or 15 years ago, not nearly as bad. What I think of when I think of the Amazon burning is this is just a harbinger of things to come. It's not suddenly a problem. It's the fact that it looks like it's going in the wrong direction.
00:04:40
Speaker
That's actually really interesting because I definitely remember for quite a while hearing about how we have to save the rainforest and there was lots of news about it, lots of coverage, and then that sort of seemed to go away. And so it sounds like maybe a lot of these laws had been to address that and were working. I think that's the case. Now, the rainforest doesn't just exist in the Amazon. There are really important forests throughout the tropics and we still need to save the rainforest. There's still a lot of threats to the rainforest.
00:05:10
Speaker
In Southeast Asia, they grow oil palm and they do that by clearing rainforest. In Central Africa, they are putting in pastures and they're also expanding oil palm.
00:05:21
Speaker
And in the Amazon, they're expanding oil palms. So there's still a reason to worry about the rainforest, but things had indeed been getting better. You mentioned some of these other forests, I guess maybe before we get to those, because I want to ask about them as well. Why do we care so much about the Amazon? And also just how big is it?
Role of Forests in Climate Regulation
00:05:41
Speaker
So the Amazon is 2.1 million square miles. Wow. Yeah, that's pretty big. It has pieces of
00:05:49
Speaker
French Guiana, Suriname, Guyana, tiny bit of Venezuela, Colombia, Ecuador, Peru, Bolivia, and Brazil. It touches all those countries. But it's primarily in Brazil. Brazil, Peru, and Bolivia, yeah. But mostly Brazil. That's why we talk about Brazil. OK.
00:06:07
Speaker
So their policies have changed recently, but it sounds like that's very short term thinking because everything I hear is that the Amazon plays a major role in our climate. And so if we're not taking care of it, not only does it affect the whole world, it's still going to also negatively impact Brazil. Is that true? That is true. The way we understand the importance of the Amazon is partly by using models to explore what happens when we take it away.
00:06:34
Speaker
You have to believe that a model can capture the dynamics of this very complex ecosystem and climate system. And they do a pretty good job. And you also look across many models to try to understand what happens if you take out the Amazon. I think some of the most interesting work has been to look at what happens with a progressive deforestation of the Amazon. 10 percent, 20 percent, 30 percent, 40 percent gone.
00:06:59
Speaker
And what you see is that across different models with different modeling groups, it looks like there is some kind of tipping point at which you go from a system that is stressed but still a rainforest to a system where suddenly it's really much hotter and drier. And so even though you haven't deforested the rest of the Amazon, you end up with a different kind of forest because it's stressed out. It's drier.
00:07:23
Speaker
and it has higher mortality. So it goes from something that looks more like a rainforest to something that looks more like a scrubby savanna. There's the notion that these tipping points can occur because of internal dynamics in the system. We're not talking about climate change. We're just talking about what I call the other climate change, the fact that when you cut the forest down, you affect the climate system right there and you also affect the climate system elsewhere.
00:07:47
Speaker
I'm going to come back to this idea of tipping points. But first, can you talk about the different impacts different types of forests have? If it's not a rainforest, it's having a different impact. In Colorado, I see lots of forests, but it's obviously a very different type of forest than a rainforest. Right. So what's the different impact on the climate? Fundamentally, there's two types of ways that forests affect climate. One is through their impact on the carbon cycle.
00:08:14
Speaker
meaning how much carbon do they store in their biomass in their soils? Because forests take up CO2 through photosynthesis. They're one of the ways that we get rid of the excess CO2 that humans add to the atmosphere. It's through uptake of these forests.
00:08:30
Speaker
So one way to evaluate different types of forest is to say, well, how much carbon does it hold? How much carbon does it draw down every year? And on that metric, tropical forests are phenomenal. They take up so much carbon. There are some rainforests in the Northwest of the United States. They also have high carbon. So rainforests everywhere have high carbon concentrations. Almost any other forest you have just doesn't have as much carbon in it.
00:08:56
Speaker
So there's the carbon story, and there are some high carbon forests in the northern hemisphere, but taken as a whole, most of the carbon-rich forests are in the tropics. The other way that forests affect climate is through what they do to the balance of energy and water. And there's sort of two things that happen. The sun shines down on a forest, and the forest has to do something with the energy.
00:09:19
Speaker
If it absorbs it, which most forests do because they're quite dark, it has to do something with the energy. It can radiate it back as heat, or it can use that energy to transform water from liquid to vapor. And it does that by sucking water out of the roots, up through the leaves, and then out to the atmosphere. And when it leaves the leaf surface, it's no longer liquid water, it's vapor. And that process cools the atmosphere right above the forest.
00:09:45
Speaker
It also changes the energy balance there so that the dynamics of the atmosphere above the forest change. And so you might have heard about atmospheric rivers. These rivers are basically descriptions of the fact that the atmosphere has these circulation patterns in it. And that one of the ways that that circulation pattern is defined is based on what the plants are doing below that atmosphere.
00:10:09
Speaker
trees move a lot of water. So even though they absorb a lot of incoming radiation, they take that and they turn it into water vapor. They change the energy form, they change the water cycle, and they actually turn that energy into something else, into latent heat.
00:10:25
Speaker
So it's kind of wonderful that these forests, where there's so much incoming solar radiation at the tropics, they take a lot of that and instead of turning into heat, they turn it into something that cools locally and eventually can cool further away. You were talking earlier about how the forests impact the local climate, and I'm guessing this is what you were referring to? Correct. How far does that spread then? Well, there's another layer here. All forests tend to be dark.
00:10:53
Speaker
and all forests have the capacity to move a lot of water. It's evapotranspiration. Whether they do that depends partly on where they are on the planet. It turns out that the forests respond to incoming solar radiation differently. And the further north you go, like up past the temperate zone into the boreal forest, those forests tend to absorb radiation and just hold it. Forests in the far north actually warm the planet.
00:11:20
Speaker
In the temperate zone, it's a mixed bag. Some forests are more warming and some forests are more cooling. But in the tropics, forests are really cooling. The interesting thing is that when you put forests into the high north, like the high latitudes, they will actually absorb more heat and warm the local area. And because they mask the snow, they actually change the reflectivity of that whole area.
00:11:47
Speaker
they make a light surface with no trees into a dark surface that blocks out the snow. So what would have been a very reflective place and very cold suddenly is much warmer. In the boreal zone, those forests then not only warm locally, but through a lot of feedbacks with the ice and snow and the oceans, they send that warming around the globe. The corollary is when you take forests away in the boreal zone,
00:12:13
Speaker
Why does it cool the planet down? Because they have so much snow cover and ice and those feedbacks that connect changes on the land to changes in the ocean, you get a really strong cooling. So it just shows how powerful those forests are in the far north. And again, in the temperate zone,
00:12:29
Speaker
There's a lot of variability in exactly what latitude forests go from being a net cooling to being a net warming. It just depends on the study. So there's still work to be done to understand exactly whether those forests are generally warming or cooling for the planet. However, ironically, the very local impact of forests is always cooling locally.
Deforestation's Impact on Agriculture and Climate
00:12:51
Speaker
And this might sound like it doesn't make sense. How can you have local cooling, but then global warming? And it's because there is still that cooling effect of evapotranspiration in the summer. So if you think about where's it going to be hot in the future, it's going to be hot everywhere in the growing season. So in the growing season,
00:13:09
Speaker
It's a great idea to have a forest nearby because during the growing season, evapotranspiration is high. They're moving a lot of water because they have a higher level of incoming radiation and they actually can get some cooling. But in the winter, in the spring, those same forests with their same forest cover, they end up warming. So you can have this effect of it's good to have the forest in the summer when it's hot because it'll keep you cool. But in the winter and spring, when you expect to get a bunch of cooling for the whole planet, you don't get that cooling. You get warming.
00:13:39
Speaker
So for the local planner, they probably want to worry about extreme heat in the summer. So they probably want that forest. And that effect is true for everywhere. It's just that that balance between like a local effect and a global effect changes depending on latitude. I want to go back real quick to something you said. Did you say that removing the boreal forests causes global cooling? Did I understand that right?
00:14:03
Speaker
That is what the models show, that if you were to just get rid of all of the boreal forest, it would cool the planet a lot. I'm assuming there's a reason we don't want to do that though.
00:14:14
Speaker
Well, there's plenty of reasons why we want to keep forests. They do other things like they regulate the hydrological cycle. They tend to minimize flooding. They manage flows in rivers. They are kind of like a sponge. So they take up rainfall or snowfall and then they trickle it out slowly so that it's available for us or ecosystems or agriculture. There's other reasons to keep forests around. I don't think we're going to deforest the boreal zone anytime soon.
00:14:41
Speaker
I would say that if we had to figure out where we should be getting our timber, I would perhaps say that there would be reasons to think about timber extraction in the boreal instead of timber extraction in the tropics because the tropics give us both the local and regional cooling and they do so much for the planet.
00:14:59
Speaker
Let's come back to the agriculture aspect too. So one of the things that you're saying, if I'm understanding correctly, in order for us to have better agricultural practices, it's best to have a forest nearby. And yet we're cutting down all the forests precisely for agriculture. Is that correct?
00:15:17
Speaker
That is correct. That's why you cut a forest. At least that's traditionally been why. The thing that we've been talking about so much is temperature and temperature is super important. But the other factor is rainfall. And the idea is that forests regulate water flows as well as flows of energy.
00:15:35
Speaker
And so when you have forests nearby and the air passes across that forest, research has shown that it will deliver more rain downwind. So if you have agriculture somewhere, you want to have a giant block of forest upwind.
00:15:52
Speaker
you want to have a supply of moisture. Forests take that water out of the soil, they pump it up through their leaves and back into the atmosphere. They're like a source for atmospheric moisture that ultimately, as it moves downwind, condenses and becomes rain. I mean, unless you're right next to the ocean and you have a big source of water and moisture coming off the ocean, you really want to have forests nearby so that they can provide moisture to the atmosphere, which then provides moisture to our crops.
00:16:19
Speaker
And so what happens if we don't get this destruction of the Amazon rainforest under control? It would be a really sad thing, not only because the agriculture that people were planning on might suffer, but because that rainforest is really quite amazing.
00:16:36
Speaker
It has an incredible diversity of flora and fauna and people. And it would be a shame if we lost it, especially if we lost it because of some tipping point where we thought we were only going to do so much deforestation and we were going to preserve the rest. But because of internal climate and land dynamics, somehow we ended up triggering a drying of the Amazon and we ended up losing it, not on purpose. That would be pretty awful.
00:17:01
Speaker
Yes, it seems like a good time to get back into tipping points. Can you go into a little bit more detail about how that works? What is the process there that could push us into a tipping point? The person who knows the most about this is Carlos Nobre. He is a Brazilian atmospheric scientist and a brilliant man. And he has worked a lot on this and believes that if we get to the level of, say, 25 to 30 percent of the Amazon being gone, that we could trigger this warming and drying. So we know that when we clear forests,
00:17:30
Speaker
If you think about it just based on the fact that the trees themselves do all of this evapotranspiration, they have deep roots, they have lots of leaf area, they pull a lot of water out of the soil and put it into the atmosphere.
00:17:41
Speaker
When they're gone, when it's just, say, soy or pasture grasses, they simply don't access the same amount of water. They don't pump the same amount of water into the atmosphere. So during critical times of the year, like during the dry season, there's not as much moisture going into the system. So it turns out that in Brazil, as I understand it, during the rainy season, they get a lot of moisture from the ocean. But in the dry season, that circulation changes.
00:18:07
Speaker
And instead, the land relies on recycled water to create whatever rainfall they have. And in fact, to promote the rainy season, you actually need to kind of seed the atmosphere with some moisture. So this happens way before all that moisture is delivered from the ocean. And if there's no forest there, you can't seed the atmosphere as well. Little short grasses cannot seed the atmosphere the same way that giant trees can.
00:18:35
Speaker
And what Carlos Nobre says is when we get to a certain amount of the forest gone, we reduce the ability of that forest to see the atmosphere and we simply dry it out so that that dry season then gets longer. And if it's longer, you can actually hurt the chances of those trees. You can actually stress them out.
Tipping Points and Threats to Tropical Forests
00:18:55
Speaker
You know, maybe they can manage for a certain number of months, but you add two or three months to that and the trees are simply stressed.
00:19:02
Speaker
On top of that, imagine what we do with a warmer climate so that the forests are stressed out by climate change. And then in addition, we stress them out with this other climate change due to deforestation. Do we have reason to believe that we're getting close to any of these tipping points or is this something that we're just sort of on the lookout for right now? Well, we are at about 17 percent of the Amazon gone.
00:19:28
Speaker
And Carlos Nobre thinks that the tipping point could be 25, maybe 30%. That's pretty scary. That seems like it's not too far. So it took us a while to get 17% gone, maybe the last 50 years or so. And it seems like right now we're looking at increasing the rate. It's been low, the low rate of deforestation for a while, but steady. If that rate were to go up, it would mean that we could reach that tipping point faster. I don't know where we really stand on that.
00:19:57
Speaker
I also don't know that 25% is this perfect number. Some of my work just reviewing the literature in general suggests that it could be less of a cliff and more of a slope. It may be that it takes 30, 40, or 50% deforestation to really go over the cliff. So it seems like a safe idea to not get there. That's just for the Amazon, is that correct? Correct.
00:20:21
Speaker
Okay. And then you mentioned some other tropical forests. What's going on with those? The other big tropical forests are in the Congo basin and then centered on Indonesia. It's pretty sad to look at a picture of Indonesia now because a lot of the forest has gone. So Borneo used to look like a big Amazon. Borneo is about the size of Texas or France. It's a big island and it's lost a lot of forest.
00:20:47
Speaker
The Congo basin looks pretty good, but if you kind of zoom in closely, it turns out there's already a lot of pasture and some forest degradation. So it's not the same where you see giant swaths of forest gone, perhaps because they're not as rich or perhaps because they've had a lot of conflict. But really there's threats to rainforest everywhere.
00:21:09
Speaker
Whether or not these tipping points exist, we don't know. The rainforests in Southeast Asia are very different. If you just think about what they look like, it's a bunch of islands in the middle of an ocean. And that is very different from the Amazon, which is like a giant block of forest in the middle of a continent. So you can imagine that some of those tipping points are driven by these drying effects.
00:21:32
Speaker
Well, Borneo has lots of water near it. It's got ocean nearby. It's almost swamped. Those water cycling impacts are almost swamped by the fact that there's oceans all around. So it's more like a maritime forest. The Congo is more like the Amazon. Africa is a giant continent. It's a little bit higher than the Amazon. I don't think people have really studied tipping points in the Congo. So there's lots of references to the Amazon being the lungs of the world.
00:22:01
Speaker
I was hoping you could sort of explain what that idea means. So first of all, I think it's not an adequate or appropriate metaphor. They are not the lungs of the planet. They are much closer to the sweat glands of the planet, which is also super important, especially in a world that is warming. So the lungs of the planet analogy is that when plants take in carbon dioxide,
00:22:25
Speaker
CO2 plus water becomes a sugar plus oxygen. That's the equation for photosynthesis. So you think, aha, oxygen. So a couple of problems with that. Some of that oxygen is used immediately after that happened inside the cell to process the sugar that the plant just produced and to feed the plant itself. So half of the carbon dioxide that the Amazon takes up, it's actually using just to exist.
00:22:53
Speaker
And the other half, some of it is stored in wood. Some of it is dropped on the forest floor and decomposes. And when it decomposes, it's combining with oxygen again and just going back into the atmosphere CO2. Some of it is eaten by animals. And if it's eaten by the animal, as soon as it gets inside that animal, it's combined with oxygen and it goes out as CO2.
00:23:16
Speaker
So really the only oxygen that is produced by the Amazon is whatever it's net uptake is the stuff that's not used up for the plants or the animals that live there. That's not a huge amount. We have 21% oxygen in the atmosphere.
00:23:33
Speaker
21% and that's a really big number and it came from algae plankton in vast oceans from say two and a half billion years ago. Before there was any atmosphere full of oxygen, there was a bunch of algae that produced a bunch of oxygen. It first was scrubbed out by the atmosphere itself like it kind of rusted the entire planet.
00:23:55
Speaker
Once it's rusted the entire planet, it finally could build up in the atmosphere. So really, if we're thinking about the lungs of the planet, it was a bunch of algae that existed two and a half billion years ago. It's not the Amazon. It's just not. So I really don't like that analogy. And I think the more important part is the sweat glands of the planet. It's like our brow. Tropical forests keep us cool. They take the hottest solar radiation that we have on the planet is right at the equator, and they use the energy to take liquid water and turn it into vapor.
00:24:26
Speaker
just like the sweat off our brow, and it cools us down. So my understanding is we have these forests, they absorb carbon, which is great. And if we cut them down, then they're not absorbing the carbon. And so it's going into the atmosphere and warming things.
00:24:42
Speaker
But then my understanding is that at the same time, when we're cutting down the trees or burning the trees, all the carbon that's in them is also going up. So not only are we not absorbing the carbon, more is emitted into the atmosphere. Is that correct? That is exactly right. And it's a double whammy because the forests sitting there have a huge amount of carbon in them.
00:25:04
Speaker
It's almost equivalent to the reserves of fossil fuels. I think I could check on that, but it's a huge amount of carbon in all the forests of the world. And at the same time, unlike fossil fuels, which are not accumulating lots of carbon every year, the forests do accumulate carbon every year. They take it in and they bury part of it below ground and part of it in their trunks. If we didn't have forests, we would have a much hotter planet.
00:25:29
Speaker
The CO2 that comes out from fossil fuels and from deforestation, of that CO2, half of it gets taken up again by the oceans and the land. So about a fourth in the land and about a fourth on the oceans, leaving only half of what we put into the atmosphere actually remaining in the atmosphere. So that's a huge service the forests and the oceans are doing for us.
00:25:50
Speaker
How much deforestation do you fear could happen? I mean, 100% seems unrealistic. What levels concern you? What concerns me is that I think, and again, I might be wrong. You can look it up. I think we've only protected about 15% of the planet. I'm not sure what that number is, but 15% of the forest, that is a bummer. That is really not a lot of forest.
00:26:13
Speaker
And what worries me is that if you look at a graph of tropical deforestation or just deforestation emissions and you start at like 1950, it's really steady. Like it's always been about a gigaton of carbon every year due to deforestation. And the fossil fuels number has gone from
00:26:32
Speaker
less than one gigaton. Now it's at nine gigatons. So it used to be that deforestation was half of our problem. Now it's a 10th of our problem, but it's been so steady. So to me, that just says, why is it so steady? We just keep deforesting at this steady rate that gives us one gigaton of carbon every year. It seems like we simply will continue to deforest at this rate because we have been for decades. I used to be interested really just in biodiversity. That's what got me into rainforest.
00:27:02
Speaker
And as I became aware of their rule in the carbon cycle, I thought, oh, this is it. This is the reason we're going to save the rainforest because it's so important to the entire planet. Somehow the diversity itself
00:27:14
Speaker
while incredible and wondrous and sustaining in so many ways, it just doesn't seem to resonate the way the climate crisis has resonated, that really we're talking about changing the entire planet.
Agriculture vs. Rainforests: A Complex Balance
00:27:28
Speaker
And I thought to myself, that's going to save the rainforest because they're so important. They hold so much carbon. They do so much for the climate system.
00:27:36
Speaker
And people have been working on this notion for a while, and it's really hard to figure out how to put the mechanisms in place that can create financial incentives for these countries to save the rainforest so that we can save the climate system.
00:27:51
Speaker
It sounded like it's only just a few crops really that are replacing the forest. Is that correct? Those are these big ones in big places. I think there's probably people everywhere cutting down forests to just grow anything, like wherever they are. This is how you get new agricultural land. In much of the world, there's still a need for new crop lands. And so I guess the big challenge is that we have 2 billion more people coming and we need to feed them.
00:28:18
Speaker
If we feed them the way we feed ourselves in North America, we're in big trouble because we really put a strain on the planet. If we can feed people better, if we can do better with our agriculture, if we can produce more food with fewer fossil fuel inputs and less land, we have a chance. You mentioned that the deforestation sort of just keeps continuing at this constant rate. Is it consistent with population growth?
00:28:44
Speaker
That's a great question. I don't really know, but part of me feels like, well, it can't be exactly with population growth because we still have hungry people and we also have places where we produce way more crops than we actually eat. So I think there's other dynamics going on, like our ethanol programs and the fact that some of these crops are used not for food, but for other things. Like oil palm is a really amazing crop.
00:29:09
Speaker
It can be used in industrial lubricants and it can be in your chocolate bar. It's food and it's an incredible oil that can be used in all sorts of applications. I just wish it were always planted in places where it was best suited. Are there other places that we could be planting these?
00:29:27
Speaker
The crops that are replacing rainforest, do they actually need that type of climate, or could they be planted elsewhere? I think even in places where it's the same climate, maybe they do love the tropics. Maybe oil palm is born for the tropics. The question is, does it have to go into a brand new, primary, natural, beautiful forest, or could it go into some degraded area that's already been used for something else?
00:29:52
Speaker
And that something else is some other agriculture that maybe failed or maybe simply was poorly managed. So there is a role for taking existing lands and making better use of them. This is definitely true of the Amazon where not all of those pastures are just the most efficient, most amazing producers of cattle. Sometimes there's one cow per hectare. I think that's a very low intensity.
00:30:18
Speaker
If there were better management, you could produce more cattle on less land, and that would then free up some of that land either to be forest or to be producing other kinds of food crops. So degraded land is a great place to look for areas for some of these really important commodities that are globally traded. The other thing is in Indonesia, for instance, with oil palm, they tend to go to the peat forests
00:30:42
Speaker
We haven't really talked about what peat forests are, but they're really interesting swampy forests that have not only a lot of carbon in the above ground in the trees themselves, but the soil is full of organic matter. It's like a big peat bog, and so it has several meters of carbon-rich soil. The only way you can plant oil palm there is to drain it and then to burn off the trees.
00:31:06
Speaker
And even in that case, it's not like it's great soil. If it were great soil, there would be people growing crops there, but there aren't. And the irony is that that's exactly why oil pump companies go to these peat forests, because there's no conflict. What they're really going for is not the land, but the lack of conflict with local people that they might have to make a deal with otherwise.
00:31:27
Speaker
So the reason I forgot the peat is like they shouldn't be on peat. They should be on upland forests. Peat has so much more carbon in it. If you're going to put oil palms somewhere, don't put it on a place where there's a bunch of peat. Put it on an upland soil that's just a normal mineral soil because it will grow better. It'll take less work to put in the crop and it will not release tons and tons of carbon into the atmosphere.
00:31:51
Speaker
I don't
Land Use and Climate Change: IPCC Insights
00:31:52
Speaker
know if this is connected. There was an IPCC report that I think came out this summer about the interaction between land and climate. Were there some important takeaways from that that we haven't gotten into yet? Yes. So I think one of the important takeaways is that the land really does have an impact on our climate system. So I said earlier that deforestation is only 10% of our anthropogenic CO2. What I didn't say was that agriculture is another chunk
00:32:18
Speaker
So that if you take agriculture and forests together, or basically if you take the land surface and what we do to it, it's about a quarter of all the emissions. And if you add to that transportation and processing of food, I think you could get up to a third. So the land is a big player. It's easy to forget because we think about our energy system and the transformation that needs to occur. It's a huge player, but the land is also really important.
00:32:45
Speaker
And the other point about the land is that it's interactive. So the land itself affects the climate system. And so there are feedbacks. And when we do something to the land system, we also impact the climate system. And then there are feedbacks from the climate system back on the land. There aren't those same kinds of feedbacks when you think about wind turbines or solar panels. It's just not really the same. The other thing is that anything we can do on the land system to make it more climate friendly,
00:33:13
Speaker
especially things like avoiding deforestation, better forest management, better agricultural management, it all has multiple benefits. Whenever you do something that is good for the forest or good for agriculture, you're feeding more people, you're maintaining biodiversity, you're maintaining flood protections by having intact forests and intact ecosystems. There's really a lot of benefits that accrue when we think about nature's climate solutions on the land. Oh, and the other thing,
00:33:41
Speaker
The agricultural effects are interesting and somewhat different because they include things like methane and nitrous oxide, which are just different greenhouse gases that we don't always think about.
00:33:51
Speaker
And both of them are really strong greenhouse gases. So they have really quite an important impact on the climate system. I do have a question about that because we do hear about carbon and trees and plants and whatnot. Do forests do anything with those other greenhouse gases? So I'm not sure about nitrous oxide. The natural nitrogen cycle does produce some of those same nitrogen-based greenhouse gases. We have a natural system in place.
00:34:20
Speaker
But the perturbation that humans have done is just dramatic. I think we've probably doubled the amount of nitrogen that's circulating in the atmosphere. I think it's at least doubled. So we've done that by producing fertilizers. For methane, there's an interesting connection, especially in the tropics. In tropical forests, they produce these things called biogenic volatile organic compounds, BVOCs. And when they produce BVOCs,
00:34:48
Speaker
They go up into the atmosphere and they produce ozone and they prolong the lifetime of methane. So that's actually a bad effect of forests, if you will, because those are greenhouse gases and so they're warming. But the BVOCs also produce these aerosols that are highly reflective. So the BVCS cool the planet as well. They have high albedo. So BVOCs are interesting. That is a connection with the methane cycle and with ozone.
00:35:13
Speaker
but it seems to be counterbalanced by the fact that they increase albedo over these forests.
Advocacy, Action, and Hope in Climate Change
00:35:19
Speaker
Otherwise, I don't know. People have talked about methane and that forests may produce lots of methane. My question is, I don't really know this literature too well, but I look at the emissions of methane and the concentrations of methane in the atmosphere over the past 2000 years. And it looks to me like it was very steady when the forests existed intact.
00:35:39
Speaker
And there was no problem of excess methane when we had forests all over the place. So I don't see why forest methane would be a problem. The methane that I see, the increase in methane in the atmosphere, looks quite clearly related to our use of fossil fuels and our growing of cows. But it's out there. People are interested in whether trees produce methane. Interesting. So we've talked about some of the causes of deforestation and the contribution this has to climate change.
00:36:07
Speaker
What would you like to see policymakers doing and what would you like to see individuals doing to help address these issues? I would like policymakers to think very hard about how to put a price on carbon because if you put a price on carbon and one that is fungible throughout the world, it really will build the case for maintaining those forests because the forests have so much carbon in them.
00:36:32
Speaker
For me, they have so much more than carbon. I think for most people, they have a lot more than carbon, but they do have a lot of carbon. So a price on carbon implemented at an international level would do so much to incentivize people, local governments, national governments to protect their forests. There's a reason to do it, and I'd love to see that. When I think about what regular old people, individuals like you and me can do, I would say minimize our impact on the land and minimize our impact on the forest.
00:37:01
Speaker
And the way you do that really is by watching what you eat. It's not like Brazil sends us all their meat, but it's part of a global market for beef. And I think that those 2 billion people that are coming, really, if they're all going to eat meat like we do, we are in big trouble. We will not have forests left. And we'll have a much warmer planet because of all the methane.
00:37:23
Speaker
The deforestation that produces beef is really, really the worst to me because it's got that two-fold effect. First you lose the CO2 from the trees and then you get a bunch of methane from the cows. So I think our own personal choices around what we eat and the kinds of products that we use, as I said earlier, oil palm is in everything.
00:37:43
Speaker
And there are movements to clean up the supply chain for big commodities. And I think if we can be a little bit more aware of what's going into the products we buy, then we might be able to exert some pressure. I think that companies are interested in doing the right thing.
00:37:59
Speaker
and consumers are too. So I guess we have to educate ourselves to figure out what's in these products that I buy, what's in my cosmetics, what's in my food, what's in the oil that I put into my car, whatever it is, it could have a rainforest connection. And the more we're aware of it, I think the more power we have to influence the businesses and the governments that provide us with those products. I think it's really important to recognize that individual choices alone really will not
00:38:25
Speaker
fix the problem either for rainforest persistence or for planetary persistence. So the one thing that people can do is vote. People need to vote. They need to start feeling as if climate change, rainforests, the environment. This is something we care about deeply, partly because we should, because it's just the right thing, but partly because it's our very own future that's at stake. So I want people to vote and be climate voters.
00:38:51
Speaker
Yeah. One of the reasons I wanted to do this this year is to help prep for voters next year. And so a final question for you. What gives you hope? What really gives me hope is not just what's going on in the forest. That's hard. It's really hard, especially when you see the Amazon burning. But what gives me hope is that we are tackling climate change. Like when I look at the energy transformation that I see around me,
00:39:19
Speaker
When I see the rate of uptake of electric vehicles, when I see the amount of solar and wind, it's way faster than anyone thought was possible. So the transition is on. People are changing with or without action by the United States government. We are moving forward. And I feel very hopeful in that way. I feel like, wow, this is way faster than we thought. It's cheaper than we thought. It can only go in one direction.
00:39:45
Speaker
And I feel very heartened by that. I feel like that is happening. It would be better if we had policy that was coherent and strong, but it's happening anyway, and that gives me great hope. The other thing that gives me great hope is that it's a lot of Americans who are concerned about climate change and know about it and believe it. It's like 70%. It's not some fringe, radical, tree-hugging group. It's really everybody. Everybody knows that this is important.
00:40:14
Speaker
And that is heartening to me as well. So the real key is to figure out how to push that up in the priorities when people are voting if they all know about it. They really need to understand that the consequences are great and they have to make it something they vote on. All right. I think that's a really excellent message to end on. Is there anything else that you want to add? Does it mean you don't do your part?
00:40:37
Speaker
I don't want to let anyone off the hook. Just voting is not enough because part of what we need is a new normal.
Preview of Next Episode on Ocean Acidification
00:40:44
Speaker
And I think the new normal is that we all think about these decisions every day. We turn off the lights. We don't eat a ton of meat. It doesn't mean we eat zero meat. It just means we think about it. There are so many decisions we make every day. Do we walk or do we take the bus or do we drive in our car?
00:41:00
Speaker
Do we go with friends on that trip home from college or do we actually fly home by ourselves? There's just a million decisions we make and if we're always thinking about the planet just a little bit, I think we create this new normal and then suddenly we're frustrated because we can't do enough. We've done all we can and it turns out we need to do more and we need our government for that. But the new normal says we all care about this. We all do everything we can. We also will have your back.
00:41:28
Speaker
as elected officials if you do what you can to make our choices that much more effective. All right. That was even better. Okay. All right. Well, thank you so much. On the next episode of Not Cool, a climate podcast, we'll be joined by Noah's Libby Jewett, who will talk about another topic that I've been excited to get into, the oceans, and especially the problem of ocean acidification.
00:41:55
Speaker
We need to know what impact we're having on the ocean. I mean, the ocean is important not only because of the seafood that we eat from it, but because it's a driver of larger processes on the Earth. And every other breath, they say, that we breathe comes from phytoplankton in the oceans.
00:42:16
Speaker
I hope you enjoyed this episode, and I hope you join us for episode 21 to learn more about ocean acidification. As always, please take a moment to like the podcast, share it, and maybe even leave a good review.