Wildfire CO2 emissions are rising with the temperature

It’s hard to decide what aspect of climate change is the most frightening, amplifying feedbacks – effects of warming that themselves cause more warming – have to be near the top of the list. A few days ago, I wrote about research indicating that they may be worse than we know, and today’s research is about the progression of one of those feedback  mechanisms. Wildfires have been increasing with higher global temperatures, increasing output of CO2. Unfortunately, it turns out that 2021 saw a huge spike in wildfire emissions:

Nearly half a gigaton of carbon (or 1.76 billion tons of CO2) was released from burning boreal forests in North America and Eurasia in 2021, 150 percent higher than annual mean CO2 emissions between 2000 and 2020, the scientists reported in a paper in Science.

“According to our measurements, boreal fires in 2021 shattered previous records,” said senior co-author Steven Davis, UCI professor of Earth system science. “These fires are two decades of rapid warming and extreme drought in Northern Canada and Siberia coming to roost, and unfortunately even this new record may not stand for long.”

The researchers said that the worsening fires are part of a climate-fire feedback in which carbon dioxide emissions warm the planet, creating conditions that lead to more fires and more emissions.

“The escalation of wildfires in the boreal region is anticipated to accelerate the release of the large carbon storage in the permafrost soil layer, as well as contribute to the northward expansion of shrubs,” said co-author Yang Chen, a UCI research scientist in Earth system science. “These factors could potentially lead to further warming and create a more favorable climate for the occurrence of wildfires.”

Davis added, “Boreal fires released nearly twice as much CO2 as global aviation in 2021. If this scale of emissions from unmanaged lands becomes a new normal, stabilizing Earth’s climate will be even more challenging than we thought.”

This is why I focus not just on ending fossil fuel use, but also on making changes now, to help us deal with the warming that we know we will be unable to avoid. The climate shift that we’re currently experiencing has a great deal of momentum – enough that it could conceivably keep warming for centuries, even if we do get our emissions under control in the next 20 years. It would be much slower, and potentially easier to adapt to, or even reverse, but the ball may already be rolling fast enough that it no longer needs our help. The longer we delay action, the higher the odds that that’s our situation.

That’s also why it’s important that we actually deliberately phase out fossil fuel use, rather than trying to tweak the market and hope that works. That means big increases in renewable energy, and big increases in nuclear power, as we also work to reshape our infrastructure for a more hostile world.

The upside is that CO2 emissions from wildfires are a little bit like sea ice – they “recover” a bit every year. The net effect is still more greenhouse gases in the atmosphere, but the fact that, according to the researchers, 80% of the CO2 released is re-captured by new growth following the fire, is important to note. I think it also increases the need for various forms of rewilding – turning areas currently being used by us in the conventional sense, into either fully wild ecosystems, or managed ecosystems that would provide some more direct benefits to humanity, like food.

I don’t expect news in the coming years to be particularly uplifting, but it’s important to remember that we do have ways to make things better.

Air pollution from plants is getting worse (and we should do universal healthcare about it)

If I had to pick my top two topics of the last year, they would probably be air pollution, and covering our cities with plants. With that as context, please understand that todays post is difficult for me, because it’s time I came clean about something. It’s not just us – plants also cause air pollution. The reality is that this little biosphere of ours is a messy place, and was messy well before we started getting clever with things like fire and pressure. I think it’s pretty clear that air pollution from traffic and industry is a bigger problem than air pollution from plants, but that doesn’t mean that plants are just nature’s perfect air filtering machines. It’s not just pollen either – plants emit all sorts of interesting stuff:

All plants produce chemicals called biogenic volatile organic compounds, or BVOCs. “The smell of a just-mowed lawn, or the sweetness of a ripe strawberry, those are BVOCs. Plants are constantly emitting them,” Gomez said.

On their own, BVOCs are benign. However, once they react with oxygen, they produce organic aerosols. As they’re inhaled, these aerosols can cause infant mortality and childhood asthma, as well as heart disease and lung cancer in adults.

Put in stark terms like that, it can be pretty alarming, and as I said, I absolutely think that we should be accounting for this stuff. It also doesn’t remove the various benefits to having plants around that I’ve discussed in the past, it just complicates the story a little. Unfortunately, as with the air pollution we humans make, air pollution from plants is getting worse, not just from the rising temperature, but also from the rising CO2 levels:

There are two reasons plants increase BVOC production: increases in atmospheric carbon dioxide and increases in temperatures. Both of these factors are projected to continue increasing.

To be clear, growing plants is a net positive for the environment. They reduce the amount of carbon dioxide in the atmosphere, which helps control global warming. BVOCs from small gardens will not harm people.

“Your lawn, for example, won’t produce enough BVOCs to make you sick,” Gomez explained. “It’s the large-scale increase in carbon dioxide that contributes to the biosphere increasing BVOCs, and then organic aerosols.”

See, increasing plant life as we decrease our own pollution will not only make our lives better, it will also create something of a feedback loop. By reducing CO2 levels, we will also be reducing both of the things causing air pollution from plants to get worse. Even so, the temperature’s going to keep rising for a while to come, so it’s good to be aware of this aspect of that problem.

The other thing this paper mentions is dust. I talked the other day about the danger of toxic dust from the drying Great Salt Lake, but these researchers were taking more of a global perspective, and at that scale, it’s the Sahara that has them worried:

The second-largest contributor to future air pollution is likely to be dust from the Saharan desert. “In our models, an increase in winds is projected to loft more dust into the atmosphere,” said Robert Allen, associate professor of Earth and Planetary Sciences at UCR and co-author of the study.

As the climate warms, increased Saharan dust is likely to get blown around the globe, with higher levels of dust in Africa, the eastern U.S., and the Caribbean. Dust over Northern Africa, including the Sahel and the Sahara, is likely to increase due to more intense West African monsoons.

Both organic aerosols and dust, as well as sea salt, black carbon, and sulfate, fall into a category of airborne pollutants known as PM2.5, because they have a diameter of 2.5 micrometers or less. The increase in naturally sourced PM2.5 pollution increased, in this study, in direct proportion to CO2 levels.

“The more we increase CO2, the more PM2.5 we see being put into the atmosphere, and the inverse is also true. The more we reduce, the better the air quality gets,” Gomez said.

For example, if the climate warms only 2 degrees Celsius, the study found only a 7% increase in PM2.5. All of these results only apply to changes found in air quality over land, as the study is focused on human health impacts.

The researchers hope the potential to improve air quality will inspire swift and decisive action to decrease CO2 emissions. Without it, temperatures may increase 4 degrees C by the end of this century, though it’s possible for the increase to happen sooner.

Gomez warns that CO2 emissions will have to decrease sharply to have a positive effect on future air quality.

“The results of this experiment may even be a bit conservative because we did not include climate-dependent changes in wildfire emissions as a factor,” Gomez said. “In the future, make sure you get an air purifier.”

 Though be careful about what kind of purifier you get, since the good ol’ profit motive has done anything but clear the air on what makes for a good product.

I think I should mention – the particles we’re discussing here are not just the ultrafine particles I’ve discussed in the past. A lot of them are much bigger, which means that masks are going to be much more effective than they would be for freeway and airport pollution. That said, none of us are getting out of this life alive, and air pollution has played a role in that throughout our species’ existence.

That’s why it’s so important to have universal healthcare as part of our response to global warming.

The grim reality is that as temperatures continue to rise, the world will become more dangerous in a number of ways, and under a private healthcare system (or a public one that has been deliberately under-funded to discredit it), that will inevitably translate to shorter lives, with more suffering and disease. As much as I enjoy cyberpunk as a genre, I’m not thrilled about the part of it where all of us cyberserfs are constantly ill because of pollution and poverty. Kinda seems like the workers of the world oughta unite…

Thank you for reading! If you liked this post, please share it around. If you read this blog regularly, please consider joining my small but wonderful group of patrons. Because of my immigration status, I’m not allowed to get a normal job, so my writing is all I have for the foreseeable future, and I’d love for it to be a viable career long-term. As part of that goal, I’m currently working on a young adult fantasy series, so if supporting this blog isn’t enough inducement by itself, for just $5/month you can work with me to name character in that series!

Research suggests we’re under-estimating global warming feedbacks

For at least as long as I’ve been actively paying attention to the climate issue, activists and scientists have both expressed frustration at the way the IPCC has failed to adequately account for amplifying feedback loops. For those who need a refresher, these “loops” are various effects of warming, that go on to cause more warming all by themselves. The examples that first come to mind for me are the release of CO2 and methane from melting and rotting permafrost, the lowered albedo (decreased reflectivity) of the planet due to melting ice, and a decrease in CO2 uptake, and increase in CO2 emissions from wildfires and other climate-driven ecosystem destruction. One of the feedback loops that had worried me the most in the past was the proposed danger of warming oceans causing a destabilization of sea-floor methane deposits called clathrates, which could in turn release vast amounts of methane into the atmosphere. Fortunately, data from oil and natural gas spills indicate that while that destabilization may still happen, the gas will be almost entirely absorbed by the ocean before it can reach the surface. I felt like it was good to put in that bit of good news (though I’d like to see follow-up research), because the main focus of today’s post is research led by Oregon State University that says even scientists may be under-estimating feedback loops:

Ripple, Wolf and co-authors from the University of Exeter, the Potsdam Institute for Climate Impact Research, the Woodwell Climate Research Center and Terrestrial Ecosystems Research Associates considered both biological and physical feedbacks. Biological feedbacks include forest dieback, soil carbon loss and wildfire; physical feedbacks involve changes such as reduced snow cover, increased Antarctic rainfall and shrinking arctic sea ice.

Even comparatively modest warming is expected to heighten the likelihood that the Earth will cross various tipping points, the researchers say, causing big changes in the planet’s climate system and potentially strengthening the amplifying feedbacks.

“Climate models may be underestimating the acceleration in global temperature change because they aren’t fully considering this large and related set of amplifying feedback loops,” Wolf said. “The accuracy of climate models is crucial as they help guide mitigation efforts by telling policymakers about the expected effects of human-caused greenhouse gas emissions. While recent climate models do a much better job of incorporating diverse feedback loops, more progress is needed.”

Emissions have risen substantially over the last century, the researchers note, despite several decades of warnings that they should be significantly curbed. The scientists say interactions among feedback loops could cause a permanent shift away from the Earth’s current climate state to one that threatens the survival of many humans and other life forms.

“In the worst case, if amplifying feedbacks are strong enough, the result is likely tragic climate change that’s moved beyond anything humans can control,” Ripple said. “We need a rapid transition toward integrated Earth system science because the climate can only be fully understood by considering the functioning and state of all Earth systems together. This will require large-scale collaboration, and the result would provide better information for policymakers.”

In addition to the 27 amplifying climate feedbacks the scientists studied were seven that are characterized as dampening – they act to stabilize the climate system. An example is carbon dioxide fertilization, where rising concentrations of atmospheric CO2 lead to increasing carbon uptake by vegetation.

The effects of the remaining seven feedbacks, including increased atmospheric dust and reduced ocean stability, are not yet known.

I know the phrase “further study is needed” is pretty standard in the conclusion of a research article, but in this case, further study is needed. I mean, I suppose if we continue down the path favored by capitalists, then I suppose “need” is the wrong word – we can do that in ignorance just fine. For those of us hoping to slow the change and prepare for that which we can no longer prevent, however,  understanding how fast things are moving is crucial. In the event that we ever take climate change seriously, as a species, it’ll be good to know this stuff. The researchers do more than digging into the science though. They also have a message for policy makers. Can you guess what it is?

OSU College of Forestry postdoctoral scholar Christopher Wolf and distinguished professor William Ripple led the study, which in all looked at 41 climate change feedbacks.

“Many of the feedback loops we examined significantly increase warming because of their connection to greenhouse gas emissions,” Wolf said. “To the best of our knowledge, this is the most extensive list available of climate feedback loops, and not all of them are fully considered in climate models. What’s urgently needed is more research and modeling and an accelerated cutback of emissions.”

The paper makes two calls to action for “immediate and massive” emissions reductions:

  • Minimize short-term warming given that “climate disasters” in the form of wildfires, coastal flooding, permafrost thaw, intense storms and other extreme weather are already occurring.
  • Mitigate the possible major threats looming from climate tipping points that are drawing ever-closer due to the prevalence of the many amplifying feedback loops. A tipping point is a threshold after which a change in a component of the climate system becomes self-perpetuating.

“Transformative, socially just changes in global energy and transportation, short-lived air pollution, food production, nature preservation and the international economy, together with population policies based on education and equality, are needed to meet these challenges in both the short and long term,” Ripple said. “It’s too late to fully prevent the pain of climate change, but if we take meaningful steps soon while prioritizing human basic needs and social justice, it could still be possible to limit the harm.”

Do more, and do it quickly, while we still can.

I know, it’s a message that this little community has never heard before. In all seriousness, though, it comes back to this – we have the resources, through nuclear power, “renewable” power, mass transit, and ending overproduction, to make a huge dent in human contribution to the problem, in a way that would measurably improve normal people’s standard of living. Likewise, we can and should invest heavily in changing how we grow food, and in ending most animal agriculture. We could even do this, in theory, while leaving our current ruling class with so much wealth that they’d never need to work in their lives. Unfortunately, they seem to be psychologically incapable of contemplating anything that might diminish their status relative to the peasantry, and they’re too addicted to wielding power to ever give it up. If they ever decide to be useful, I’ll welcome their resources (especially since they never had a moral right to them in the first place), but while we wait for that particular pig to fly, I suggest we explore ways to to make those changes without their help.

Thank you for reading! If you found this post useful, please share it around. If you read this blog regularly, please consider joining my small but wonderful group of patrons. Because of my immigration status, I’m not allowed to get a normal job, so my writing is all I have for the foreseeable future, and I’d love for it to be a viable career long-term. As part of that goal, I’m currently working on a young adult fantasy series, so if supporting this blog isn’t enough inducement by itself, for just $5/month you can work with me to name character in that series!

Keeping what we’ve won: The ozone layer still needs defending.

When confronted with the claim that climate change is simply too big for us to do anything about, a lot of people like to bring up the ozone layer. For those who are unfamiliar, in the late 1970s humanity realized that our release of certain chemicals, mainly chlorofluorocarbons used in refrigeration, was eating away at our planet’s ozone layer like acid. Most alarming was a “hole” – a giant patch of especially thin ozone, over Antarctica. This scared a lot of people, because that ozone works to shield us from the frankly horrifying amount of radiation coming from the sun. Less protection would mean more skin cancer, among other problems, and so the world got together and mostly phased out the use and production of CFCs and other ozone-depleting chemicals.

And it actually worked. There are still a lot of chemicals we produce that mess with ozone, but the international effort to change course worked.

Scientists said the recovery is gradual and will take many years. If current policies remain in place, the ozone layer is expected to recover to 1980 levels — before the appearance of the ozone hole — by 2040, the report said, and will return to normal in the Arctic by 2045. Additionally, Antarctica could experience normal levels by 2066.

Scientists and environmental groups have long lauded the global ban of ozone-depleting chemicals as one of the most critical environmental achievements to date, and it could set a precedent for broader regulation of climate-warming emissions.

“Ozone action sets a precedent for climate action,” World Meteorological Organization Secretary-General Petteri Taalas said in a statement. “Our success in phasing out ozone-eating chemicals shows us what can and must be done — as a matter of urgency — to transition away from fossil fuels, reduce greenhouse gases and so limit temperature increase.”

And as with climate action, this is only really a “success” if we stay the course and keep not using those chemicals. As the article I quoted notes, just a few years ago, there was an upsurge in CFC emissions from eastern China a few years ago that had a number of people understandably worried. Emissions are back down now, but it’s a good reminder that we are still actively interacting with our atmosphere, and doing well for a few years doesn’t mean that we get to be irresponsible again.

Speaking of which…

While Elon Musk still has his fanboys, I think a lot of people reconsidered their belief in his genius when he kept insisting that Mars, a frozen, radioactive desert, was a totally viable place for humanity to live. Musk is, however, clearly playing five-dimensional chess. On the one hand, he’s going out of his way to obstruct mass transit projects that would reduce the need for personal cars, and on the other, he’s working hard to ensure that while it might not be frozen, Earth is also a radioactive desert:

Rocket launches emit both gases and particulates that damage the ozone layer. Reactive chlorine, black carbon, and nitrogen oxides (among other species) are all emitted by contemporary rockets. New fuels like methane are yet to be measured.

“The current impact of rocket launches on the ozone layer is estimated to be small but has the potential to grow as companies and nations scale up their space programmes,” Associate Professor in Environmental Physics Dr Laura Revell says.

“Ozone recovery has been a global success story. We want to ensure that future rocket launches continue that sustainable recovery.”

Global annual launches grew from 90 to 190 in the past 5 years, largely in the Northern Hemisphere. The space industry is projected to grow more rapidly: financial estimates indicate the global space industry could grow to US$3.7 trillion by 2040.

“Rockets are a perfect example of a ‘charismatic technology’ – where the promise of what the technology can enable drives deep emotional investment – extending far beyond what the technology also affects,” Rutherford Discovery Fellow and planetary scientist UC senior lecturer Dr Michele Bannister says.

Rocket fuel emissions are currently unregulated, both in Aotearoa New Zealand and internationally.

UC Master’s student Tyler Brown, who was involved in the research, says Aotearoa New Zealand is uniquely positioned to both lead and participate in this field. “New Zealand’s role as a major player in the global launch industry means we can help steer the conversation. We stand to benefit enormously from additional growth in our domestic space industry, and with that comes the opportunity to ensure that global activities are sustainable for the planet as a whole.”

The review lays out detailed plans of action for companies and for the ozone research community, with a call for coordinated global action to protect the upper atmosphere environment. Actions that companies can take include measuring the emissions of launch vehicles on the test stand and in-situ during flight, making that data available to researchers, and putting effects on ozone into industry best-practise rocket design and development.

“The international ozone research community has a strong history of measuring atmospheric ozone and developing models to understand how human activities could impact this critical layer of our atmosphere. By working with launch providers, we are well-placed to figure out what impacts we might see”, says Dr Revell.

“Rockets have exciting potential to enable industrial-level access to near-Earth space, and exploration throughout the Solar System. Creating sustainable global rocket launches is going to take coordination across aerospace companies, scientists, and governments: it is achievable, but we need to start now,” says Dr Bannister. “This is our chance to get ahead of the game.”

If you’re a regular reader of this blog, you know that I’m a big fan of being proactive, when it comes to the environment. “Getting ahead of the game” is the big dream, but for the most part, it has just been that – a dream. Whether it’s handling of dangerous chemicals, public testing of automated driving systems, or lying about addictiveness and pushing opioids on people, the default is for the rich to get their way. They get to do whatever they want until the peasants get together a big enough mob to stop them. Over, and over, and over again.

I’m in favor of space exploration, and in developing our ability to get off this planet. I love the idea of humanity as an interstellar species, and one of my biggest gripes with mortality is that I won’t be able to see that happen. On the plus side, there’s no guarantee that it’ll happen how I want it to, and I also won’t be alive to see the horror show that is space exploration and exploitation driven by the greed of capitalists.

My big dream for my lifetime is to see humanity move towards a society that values life and the common good over the greed of the worst among us. Decade by decade, we have developed our ability to see problems coming well before they arrive. In the past, I’ve likened science to a flickering light over a rough sea. It gives us a series of imperfect snapshots of an ever-shifting future, and as we’ve gotten better at it, the flashes of light have gotten closer together, and lasted longer. A side effect of our success with the ozone layer was that it proved not just that we could see a problem coming – we’ve been able to do that for centuries – but that we could change course in response, and avoid that problem almost entirely.

The climate movement is plagued by fatalism, and it’s easy to understand why. It took decades of fighting to address the problem of lead pollution, and decades to get the truth about tobacco and cancer, and decades to get any protections of air and water. The fight for climate action is older than I am, and it seems like emissions only keep increasing, and the main thing governments are doing to prepare for the rising temperature, is increasing police and military spending. Worse, we live with the knowledge that at any moment, some multi-billionaire could use their obscene power to do something with global implications, like risking our ability to see into space, or mucking about with geo-engineering.

Or ignoring the warnings and undoing everything we’ve achieved in protecting the ozone layer.

But that achievement itself is worth remembering. The other source of doom-flavored fatalism that same group of powerful people who want to continue preventing real change. They spend so much money trying to stop us, because they know that we can change things, and that we can build a world in which nobody has the power to just fuck up the whole planet because of their greed and insecurity.

We can do this. We’ve done it before.

Thank you for reading! If you found this post useful, please share it around. If you read this blog regularly, please consider joining my small but wonderful group of patrons. Because of my immigration status, I’m not allowed to get a normal job, so my writing is all I have for the foreseeable future, and I’d love for it to be a viable career long-term. As part of that goal, I’m currently working on a young adult fantasy series, so if supporting this blog isn’t enough inducement by itself, for just $5/month you can work with me to name character in that series!

Researchers see good results from lower mowing intensity, and fewer pesticides

My posts about agriculture tend to lean one of two ways. The first is to advocate for a dramatic, rapid increase in indoor food production. That includes the various forms of indoor farming, as well as efforts to cultivate edible bacteria and microalgae. The second is that for the land that’s currently being used for farm, we shift to a form of ecosystem management much closer to what Native Americans did prior to the European invasion. Land Back should be part of that, of course, but the basic idea is to cultivate an ecosystem that’s full of useful and edible organisms, and to treat it as a community resource, owned in common by everyone, for everyone’s benefit. As always, the exact specifics of this approach will vary depending on regional and local conditions.

I get that just swapping over would feel like a big change to most people. We’re very used to what “farming” looks like, and it can be hard to trust that something like bacterial flour or rows of plants under LEDs would be able to feed humanity in our billions. Fortunately, while I’m more interested rapid, radical change, my philosophy for making the world better is one where every step along the way should come with its own improvements. My favorite example is probably the use of plant life to mitigate air pollution. There’s ample evidence that being around greenery improves both our mental and our physical health (not that those are really separate things). We’d get pretty immediate benefits from adding plants to the urban landscape. Those improvements to our health and wellbeing give us more power, through better health and saved money, to fight for the next step up.

That’s why, while the vision in my head may be some sort of solarpunk permaculture utopia, there are actually much smaller steps that we could take, which would have measurable benefits, both in terms of dealing with climate change directly, and in terms of improving ecosystem health. For example, this study lays out what seems to be a sort of intermediary step, designed to capture carbon, improve ecosystem health, and reduce dependence on pesticides and herbicides, with relatively little effort:

The researchers conducted two independent experiments at the University’s research facilities at the Ruissalo Botanical Gardens in Turku. In the greenhouse and common garden studies, the research team showed that the intensity of mowing has a great impact on pastures. By reducing the intensity of the mowing and cutting the plant higher, the overall yield of the pasture increased and the plants developed bigger roots. This indicates a higher atmospheric carbon sequestration into belowground storage.

What was surprising, Fuchs emphasises, is that the researchers found a detrimental effect of herbicide residues in soil on root growth regardless of the intensity of the yield harvest.

“This demonstrates a tremendous limitation to the potential carbon binding and storage belowground when soils are polluted by pesticide. Considering the vast amount of pesticides applied to agricultural fields yearly, we can conclude that the impact on soil quality is a major driver of limited root growth, carbon sequestration, and consequently plant resilience and productivity,” Dr Fuchs says.

The authors propose additional field studies to extrapolate their findings onto a field scale. Both studies conclude that climate change mitigation via optimising carbon sequestration and storage in soil can be achieved by reducing pesticides, which will facilitate root growth and improve plant resilience.

All over the world, cultivated grasslands are used as grazing pasture as well as for growing fodder that is turned into hay and silage. They cover large parts of the world’s agricultural land and have a tremendous potential for climate change mitigation through carbon storage. The plants use carbon dioxide as they grow, and some of this atmospheric carbon becomes bound in the soils.

“Consequently, understanding how pesticide pollution in soil and intensive management limit plant productivity is the key to optimising intensive grassland-based agriculture in a sustainable and climate-friendly way,” Fuchs concludes.

Oh yeah, it means better crops, too. Did I bury the lede? Maybe a little. They don’t really talk about ecosystem health, but I think it’s pretty easy to see how less intensive mowing, and less pesticide use would both have a “side effect” of improving the general health of the area.

I think we should be ending most of our animal agriculture, which would eliminate much of the need for grasslands as fodder, but we’re not going to get there overnight, and anything we can do to improve things now will make our lives just a little bit easier down the line. Of course, that only matters if this research actually leads to a change in practice. It always comes back to that, doesn’t it? There’s something we could try to make the world better, but nobody in the aristocracy seems to feel like investing in it. That’s why I keep coming back to collective power and political change.

As I said at the beginning, the steps we take now can be both immediately beneficial to us, and beneficial to our ability to get bigger changes down the road. We’re not capitalists here at Oceanoxia, so don’t think in terms of “political capital”. The kind of power we on the left want to build isn’t something that’s lost when used. Each victory brings more people and power to the cause, and sets us up for an even bigger victory.

I think many of us are accustomed to witnessing a political and economic “ratchet” effect, in which Republicans use their power to damage things like the social safety net, and Democrats stabilize things, but don’t actually reverse the damage, or guard against further damage. I mean, the Dems do plenty of damage themselves, but we’re talking generalities. While we’ve made great advances in terms of civil rights (hence the current reactionary backlash), 9/11 ushered in a new era of authoritarian government power in the United States, coupled with a dramatic increase in the concentration of wealth and power in the hands of the ruling class. It’s discouraging, and often horrifying to watch.

The one bit of hope I’m offering today is that we can, by working together, create our own ratchet effect, whereby we can increase our own power and happiness, and lay the foundations of a much better future than what currently looms on the horizon.

Thank you for reading! If you found this post useful, please share it around. If you read this blog regularly, please consider joining my small but wonderful group of patrons. Because of my immigration status, I’m not allowed to get a normal job, so my writing is all I have for the foreseeable future, and I’d love for it to be a viable career long-term. As part of that goal, I’m currently working on a young adult fantasy series, so if supporting this blog isn’t enough inducement by itself, for just $5/month you can work with me to name character in that series!

Nitrogen pollution causing soil to lose carbon

As I recently covered, sulfuric air pollution once acted as free fertilizer for farms. As efforts to clean the air succeeded, farmers had to increase their use of sulfur fertilizers to compensate. With that knowledge, it seems entirely reasonable to assume that nitrogen, another element often put in fertilizer, would behave in a similar manner. Apparently not.

Instead, the team found that under certain conditions, extra nitrogen causes dryland soil to acidify and leach calcium. Calcium binds to carbon, and the two elements then leave the soil together. This finding is detailed in the journal Global Change Biology.

To obtain their results, the research team sampled soil from ecological reserves near San Diego and Irvine that have been fertilized with nitrogen in long-term experiments. This allowed them to know precisely how much nitrogen was being added, and account for any effects they observed.

In many cases, nitrogen can affect biological processes that in turn influence how soil stores carbon. Such processes include the fueling of plant growth, as well as slowing down the microbes that help decompose dead things in the soil.

What the researchers did not expect was a big effect on carbon storage through abiotic, or non-biological means.

The pH scale measures how acidic or alkaline — basic — something is. In general, soils resist dramatic changes in pH by releasing elements like calcium in exchange for acidity. As nitrogen acidified soils at some of the sites in this study, the soil attempted to resist this acidity by releasing calcium. As it did so, some of the carbon stabilized by association with the calcium was lost.

“It is a surprising result because the main effect seems to be abiotic,” said Johann Püspök, UCR environmental sciences graduate student and first author of the study. “That means bare patches of soil with no plant cover and low microbial activity, which I always thought of as areas where not much is going on, appear to be affected by nitrogen pollution too.”

Dryland soil, characterized by limited ability to retain moisture and low levels of organic matter, covers roughly 45% of Earth’s land area. It is responsible for storing a large amount of the world’s carbon.

Future studies may shed more light on how much dryland soil is being affected by nitrogen pollution in the way the study plots were. “We need more information as to how widespread such acidification effects are, and how they work under non-experimental conditions of nitrogen deposition,” Püspök said.

However, since there is no quick fix for this phenomenon, and no clear way to reverse the process once it has begun, researchers recommend reducing emissions as much as possible to help soil retain its carbon stores.

“Air pollution generated by fossil fuel combustion has an impact on many things, including human health by causing asthma,” Homyak said. “It can also impact the amount of carbon these dryland systems can store for us. For many reasons, we have to get a handle on air pollution.”

Oh, joy.

Given that we already knew that high temperatures cause soil to release carbon, that was already a source of concern for me. Now it turns out that the air pollution I’m always raving about is doing that as well.

On the plus side, this means that as we end fossil fuel use, this particular effect should reverse, which could make a reduction in greenhouse gas levels happen more quickly. We’ll still get that temperature spike from decreasing particle pollution, but anything that causes levels to drop faster is a win for us, I think.

So while this is bad news in our current situation, I’ll take it as good news by looking to the future. .

 

Greenpeace occupies Shell oil rig

I’ve long been troubled by the unequal power dynamic that allows a wealthy person to poison thousands of poor people, without having to fear those poor people acting in self-defense to end that attack. Instead, the victims must play a game of papers and rhetoric with rules written by and for the wealthy. If they rise up, well, that’s violence you see, unlike the chromium in their water, or mercury in their air. If they rise up, they just have to be crushed for the public good!

It’s not an easy thing, figuring out how to get systemic change in a system designed to prevent just that. At what point does the law, in protecting the rich and powerful, lose its legitimacy? The answer to that is going to be different for everyone, and it’s worth remembering that, because we are all vulnerable to propaganda, there’s an ongoing effort to influence how we think about it.

The problem is, while we are trying to figure out what we can do to change course, the whole system continues barreling onwards, crushing countless lives, and carrying us towards climate catastrophe. Our future – the future of all humanity, is being burned before our eyes, and yet we must keep paying rent, and keep paying the arsonists for the privilege of getting to live in the present, and to read by the light of that fire.

I suppose in a lot of ways I’m one of the people who’s “still deciding”. I certainly haven’t done much beyond my effort to make this blog a viable source of income, which is why I’m glad for people like the Atlanta forest defenders, and Greenpeace. Say what you will about that organization, but it does me good to see them occupying another oil rig:

In an effort to call attention to the company’s planet-wrecking drilling projects, several Greenpeace International campaigners on Tuesday boarded and occupied a Shell-contracted platform in the Atlantic Ocean as it headed toward a major oil and gas field in the U.K. North Sea.

Greenpeace said in a press release that the platform is “a key piece of production equipment that will enable Shell to unlock eight new wells in the Penguins North Sea oil and gas field,” an extraction effort that the climate group has attempted to block in court.

Four Greenpeace activists—Carlos Marcelo Bariggi Amara from Argentina, Yakup Çetinkaya from Turkey Imogen Michel from the U.K., and Usnea Granger from the U.S.—managed to board the Shell vessel using ropes after reaching the platform in three boats deployed from Greenpeace’s Arctic Sunrise ship.

Greenpeace Southeast Asia executive director Yeb Saño, who tried and failed to board the platform, said in a statement that Shell “must stop drilling and start paying.”

“We’re taking action today because when Shell extracts fossil fuels, it causes a ripple of death, destruction, and displacement around the world, having the worst impact on people who are least to blame for the climate crisis,” said Saño, the former lead climate negotiator for the Philippines.

Couldn’t have said it better myself. The CEO of Shell is the guy who told John Stewart that maybe a goal of 1.5 degrees by 2100 means we pass that by 2050, and then spend the second half of the century cleaning up. I’ve written before about how this attitude is not only reckless, but also a horrifically callous dismissal of those people whose lives are already being destroyed or disrupted by the climate change that is lining that fucker’s pockets.

Excuse my Anglo-Saxon, it’s just infuriating to see a rich scumbag like that just sort of politely writing off countless lives. Personally, I think the temporary occupation of a drilling platform is the gentlest of responses. As far as I know, Greenpeace doesn’t even do any damage to the equipment when they do this stuff. They’re just making a statement, but even that is too much for the sensitive souls at Shell:

A Shell spokesperson claimed in a statement that the Greenpeace campaigners’ demonstration is “causing real safety concerns, with a number of people boarding a moving vessel in rough conditions.”

But the spokesperson signaled that the company has no intention of altering its development plans in the North Sea, despite warnings from the scientific community that continued drilling will usher in catastrophic climate outcomes.

“Shell and the wider fossil fuel industry are bringing the climate crisis into our homes, our families, our landscapes, and oceans,” Saño said Tuesday. “So we will take them on at sea, at shareholder meetings, in the courtroom, online, and at their headquarters. We won’t stop until we get climate justice. We will make polluters pay.”

Greenpeace’s latest direct action came days before Shell’s earnings report, which will follow the banner profit announcements of competing oil and gas giants such as Chevon and ExxonMobil.

On Tuesday, Exxon said it raked in a record $56 billion in profits in 2022.

Yes I’m sure Shell really cares about safety.

The reality is that these corporations have no more right to plunder the world than did the colonial empires that built their foundations. As far as I’m concerned, they’ve never had legitimacy, and I don’t see how one can look at their history and conclude otherwise. I fully support this occupation, and I hope to see many more like it in the future.

Thank you for reading! If you found this post enjoyable or interesting, please share it around! Due to my immigration status, my writing is my only source of income right now, which is why I like to “pass around the hat” now and then for people’s spare change. Supporting me on Patreon can cost as little as three or four cents per day, and when enough people join in, even those $1/month pledges add up. There’s not currently much in the way of patron-only content, but my $5 patrons do have the option to name a character in the fantasy novel I’m currently working on, so if you like my fiction and want to immortalize yourself, or someone you know, then giving me money may just be your best option!

Filtration Friday: Kelp farms reduce water pollution

I’m not certain, but it’s likely that my favorite climate solution is covering everything in plants. In additional to mental health, they can improve our health in various ways, help guard against the harms of air pollution, and help mitigate that pollution. This isn’t just because I spent a good chunk of my childhood in the woods, either. I honestly love living in cities, I just want that life to be healthier and more pleasant for everyone.

Given all of that, I think it makes perfect sense that similar benefits would apply to plant life in the oceans. Water is, after all, another sort of “atmosphere”, for the organisms that inhabit it, and we’ve been polluting that as well. Researchers from the University of Alaska Fairbanks have been studying kelp, and have found that depending on the species used, kelp farms could make a big difference in coastal pollution:

The paper, published in the January issue of Aquaculture Journal, analyzed carbon and nitrogen levels at two mixed-species kelp farms in southcentral and southeast Alaska during the 2020-21 growing season. Tissue and seawater samples showed that seaweed species may have different capabilities to remove nutrients from their surroundings.

“Some seaweeds are literally like sponges — they suck and suck and never saturate,” said Schery Umanzor, an assistant professor at UAF’s College of Fisheries and Ocean Sciences and the lead author of the study.

“Although carbon and carbon sequestration by kelp received most of the attention, kelp is actually much better at mitigating excessive amounts of nitrogen than carbon,” Umanzor said. “I think that’s a story that’s really underlooked.”

Nitrogen pollution is caused in coastal areas by factors such as urban sewage, domestic water runoff or fisheries waste disposal. It can lead to a variety of potential threats in marine environments, including toxic algae blooms, higher bacterial activity and depleted oxygen levels. Kelp grown in polluted waters shouldn’t be used for food but could still be a promising tool for cleaning such areas.

Kelp farming is an emerging industry in Alaska, touted to improve food security and create new job opportunities. It’s also been considered as a global-scale method for storing carbon, which could be a way to reduce levels of atmospheric carbon that contribute to climate change.

Analysis of kelp tissue samples from the farms determined that ribbon kelp was more effective than sugar kelp at absorbing both nitrogen and carbon, although that difference was somewhat offset by the higher density of farmed sugar kelp forests.

Umanzor cautioned that the study was limited to two sites during a single growing season. She is currently processing a larger collection of samples collected from six Alaska kelp farms for the subsequent season.

“Maybe it’s a function of species, maybe it’s the site, maybe it’s the type of carbon and nitrogen out there,” Umanzor said. “There’s a lot to know in a follow-up study.”

Personally, I’d want to know more about what else the kelp is absorbing, before I commit to it as a food source, but I’m in favor of using kelp farming and things like it to mitigate water pollution, whether or not it helps feed people. I do wonder to what degree it’ll turn out that efforts to reduce water pollution upstream will end up leaving kelp nitrogen-starved the way reductions in air pollution have led farmers to use more sulfur fertilizers. I also wonder how these results would compare to similar studies for species on the Atlantic side of the continent, since we wouldn’t want to just introduce a new species. After all, it wouldn’t do to create a new invasive species problem in the name of fighting pollution.

I look forward to hearing about future research on this subject, but I kinda feel like I’ve heard enough – every offshore turbine should have a seaweed farm built into it, for starters. I think we should largely leave the sea floor alone, pending a better understanding of how to help that ecosystem recover, but floating structures seem to be a different matter, to me. I’ll admit I know far less about oceanic ecosystem dynamics than terrestrial ones, but I’m excited to see where this goes.

Thank you for reading! If you found this post enjoyable or interesting, please share it around! Due to my immigration status, my writing is my only source of income right now, which is why I like to “pass around the hat” now and then for people’s spare change. Supporting me on Patreon can cost as little as three or four cents per day, and when enough people join in, even those $1/month pledges add up. There’s not currently much in the way of patron-only content, but my $5 patrons do have the option to name a character in the fantasy novel I’m currently working on, so if you like my fiction and want to immortalize yourself, or someone you know, then giving me money may just be your best option!

Massachusetts lawmakers propose prison organ-harvesting scheme

What would you give for your life?

What would you give for your freedom?

I periodically talk about the ways in which our society coerces people into accepting circumstances that they wouldn’t otherwise. Bad working conditions, insufficient pay, extortionate rent, little time in which to actually live – that’s the default for a growing number of people. The problem is that it gets so much worse.

The U.S. carceral system is rife with abuse, torture, rape, and murder, from inmates, sometimes, but from guards often. I don’t know what proportion of the U.S. public actively likes that our prisons are such horrific places, but there’s always a pretense that justice is somehow involved. After all, we don’t explicitly sentence anyone to rape or torture, right? We just sentence them to spend months, years, or their entire lives in a place where we know, for certain, that that happens.

And at the same time, prisoners are still expected to enrich the ruling class, through charging extortionate rates for booksfood, necessities, and even contact with family and loved ones. How much would you pay to talk to your spouse after a year apart? How much to talk to your children? How much to see the face of someone who you know – or at least hope – still loves you? What if you had the option to be tortured, for someone else’s benefit, to get your freedom a little bit faster?

Would you let the government take your organs for a shorter sentence?

SECTION 1. Chapter 127 of the General Laws is hereby amended by adding the following text after the word “petition”:-

Section 170. (a) The Commissioner of the Department of Corrections shall establish a Bone Marrow and Organ Donation Program within the Department of Correction and a Bone Marrow and Organ Donation Committee. The Bone Marrow and Organ Donation Program shall allow eligible incarcerated individuals to gain not less than 60 and not more than 365 day reduction in the length of their committed sentence in Department of Corrections facilities, or House of Correction facilities if they are serving a Department of Correction sentence in a House of Corrections facility, on the condition that the incarcerated individual has donated bone marrow or organ(s).

(b) The Bone Marrow and Organ Donation Committee shall consist of five members: The Commissioner of the Department of Correction or their designee who will act as chair of the committee; the Medical Director of the Department of Corrections or their designee; a Bone Marrow and Organ Donation Specialist from a hospital within the Commonwealth or their designee; a representative of an organization advocating for bone marrow donations within the Commonwealth or their designee; and two appointments shall be made by the Governor to serve three-year terms and one of whom shall be a board member of an advocacy group advocating for the rights of incarcerated individuals, and one of whom shall be from the Massachusetts District Attorney’s Association. The Bone Marrow and Organ Donation Committee shall be responsible for the effective implementation and ongoing administration of the incarcerated individual Bone Marrow and Organ Donation program. The Bone Marrow and Organ Donation Committee shall also be responsible for promulgating standards of eligibility for incarcerated individuals to participate and the amount of bone marrow and organ(s) donated to earn one’s sentence to be commuted. Annual reports including actual amounts of bone marrow and organ(s) donated, and the estimated life-savings associated with said donations, are to be filed with the Executive and Legislative branches of the Commonwealth. All costs associated with the Bone Marrow and Organ Donation Program will be done by the benefiting institutions of the program and their affiliates-not by the Department of Correction. There shall be no commissions or monetary payments to be made to the Department of Correction for bone marrow donated by incarcerated individuals.

This bill has been sponsored by two Democrats from my former home state of Massachusetts – Carlos Gonsález and Judith A. Garcia, and personally I think support for it should immediately disqualify anyone from holding any power. If inmates want to donate organs, marrow, or blood, they should absolutely be able to, but tying it to a reduced sentence means that we’re now viewing organ harvesting as an acceptable punishment within our so-called justice system, same as prison time (no less than two months and no more than one year), or the fines some people are able to pay in lieu of prison time.

This is the kind of shit I’ve seen in dystopian, gritty scifi shows like Killjoys or Lexx. It’s the kind of stuff people say China does, when they want to wave away the fact that the “Land of the Free” locks up a much larger proportion of its population. I’m not sure there’s really much more to say about this. U.S. prisons are traumatic hellholes as a matter of policy, and both major parties have played a huge role not just in locking up so many people, but in ensuring that prison conditions stay horrific. They much prefer spending money on armed goons to punish you for speaking or acting out.

So I ask again? What would you give for your freedom?

The image shows Captain Barbossa from Pirates of the Caribbean, with a neon glowing hat brim, a popped collar with neon light bars on the inside, and a glowing VR-lookin visor thing. The text reads, “You best start believing in cyberpunk dystopias – you’re in one”

Hat tip to @NoCopsNoMasters for putting me onto this.

Let There Be Elephants.

The science is in, and we need more ginormous critters. Well, ok, not exactly, but this research does remind me a bit of the ecosystem benefits of whales that I’ve mentioned before. The idea that elephants are good for the ecosystems in which they live is not at all new. When it comes to the forest elephants, it has long been clear that, as with whales, the ecosystem seems likely to collapse if they go extinct. With that as context, it makes sense that the presence or absence of elephants can have pretty big implications for the global climate:

In findings published in Proceedings of the National Academy of Sciences (PNAS), Saint Louis University researchers and colleagues report that elephants play a key role in creating forests which store more atmospheric carbon and maintaining the biodiversity of forests in Africa. If the already critically endangered elephants become extinct, rainforest of central and west Africa, the second largest rainforest on earth, would gradually lose between six and nine percent of their ability to capture atmospheric carbon, amplifying planetary warming.[…]

An elephant looks into the camera as it moves through the rainforest. Photo by Stephen Blake, Ph.D. The elephant’s face forms a gray, wrinkled wall in the background of the picture. Out-of focus leaves in the foreground give a sense of depth. The elephant’s eye is visible just above the middle of the right half of the picture. It’s facing to the right, and you can see that the eye is turned forward, off-camera. The iris looks to be a light gold or yellow with a dark ring around it, and the eye’s white has a tinge of pink to it. The trunk is off-screen to the right, and you can see its ear extending off screen to the left.

“Elephants have been hunted by humans for millennia,” Blake said. “As a result, African forest elephants are critically endangered. The argument that everybody loves elephants hasn’t raised sufficient support to stop the killing. Shifting the argument for elephant conservation toward the role forest elephants play in maintaining the biodiversity of the forest, that losing elephants would mean losing forest biodiversity, hasn’t worked either, as numbers continue to fall. We can now add the robust conclusion that if we lose forest elephants, we will be doing a global disservice to climate change mitigation. The importance of forest elephants for climate mitigation must be taken seriously by policy makers to generate the support needed for elephant conservation. The role of forest elephants in our global environment is too important to ignore.”

Elephants play multiple roles in protecting the global environment. Within the forest, some trees have light wood (low carbon density trees) while others make heavy wood (high carbon density trees). Low carbon density trees grow quickly, rising above other plants and trees to get to the sunlight. Meanwhile, high carbon density trees grow slowly, needing less sunlight and able to grow in shade. Elephants and other megaherbivores affect the abundance of these trees by feeding more heavily on the low carbon density trees, which are more palatable and nutritious than the high carbon density species. This “thins” the forest, much like a forester would do to promote growth of their preferred species. This thinning reduces competition among trees and provides more light, space and soil nutrients to help the high carbon trees to flourish.

“Elephants eat lots of leaves from lots of trees, and they do a lot of damage when they eat,” Blake said. “They’ll strip leaves from trees, rip off a whole branch or uproot a sapling when eating, and our data shows most of this damage occurs to low carbon density trees. If there are a lot of high carbon density trees around, that’s one less competitor, eliminated by the elephants.”

Elephants are also excellent dispersers of the seeds of high carbon density trees. These trees often produce large nutritious fruits which elephants eat. Those seeds pass through the elephants’ gut undamaged and when released through dung, they are primed to germinate and grow into some of the largest trees in the forest.

“Elephants are the gardeners of the forest,” Blake said. “They plant the forest with high carbon density trees and they get rid of the ‘weeds,’ which are the low carbon density trees. They do a tremendous amount of work maintaining the diversity of the forest.”

This kind of thinking is part of the ecosystem management that I think we should be doing. This doesn’t mean that we should try to introduce elephants (or mastodons, or wooly mammoths) to areas that haven’t had them in recent centuries, but it does mean that our conservation efforts, even those focused on getting plants to absorb carbon, need to include the various big mammals that we’ve pushed to the brink of extinction. Once again, this isn’t particularly new information. In addition to what we already knew about elephants, there’s also plenty of evidence that restoring bison herds also dramatically helps prairie ecosystems, and moose play a big role farther north.

This is also why I like the notion of local organizing with global networking and a global perspective. Different regions will have different needs, from a social perspective, from an engineering perspective, and from an ecological perspective. Folks on the left talk about the intersection between social dynamics like race, sex, gender, class, and so on, and bringing environmental justice into that has brought us to the point where it’s pretty clear that the social, engineering, and ecological perspectives aren’t really different things at all. They’re just different parts of the same big, complex system. The bad news, as always, is that we’re headed in the wrong direction. The good news, as always, is that we’ve got a pretty good map showing us where we need to go.