Living near green spaces reduces your risk of stroke by 16%.

One of my hopes for the future involves a more urban humanity, but with cities that have plants growing wherever possible. Instead of towers covered in glass, we can have them covered in ivy, or with tiered gardens. Instead of streets, we can free underground mass transit (or elevated railways), designed for accessibility. Also maybe bicycle taxis and the like. The streets themselves can be repurposed for gardening or leisure, or even just some version of “forest”. I want cities that look like strange forested landscapes from a distance, until it gets dark, and you can see lights twinkling through the leaves. There are a lot of reasons for this, some of which I’ve talked about before, but a big one is its affect on the overall health of the population, primarily by mitigating some of the air pollution associated with traffic and industry. We should be clear; air pollution is also a problem in rural areas. That’s why simply adding more vegetation to our current cities – while that’s a decent start – isn’t enough. We also need to change how and why cities are designed, and what the options are for getting around. Regardless, even in cities as they exist today, more green space seems to mean less risk of having a stroke, even controlling for factors like air pollution, smoking, and so on:

The results indicate a direct relationship between increased levels of NO2 in the atmosphere and the risk of ischaemic stroke. For every increase of 10 micrograms (µg) per cubic metre, this risk increases by 4%. The same happens when PM2.5 levels increase by 5 µg/m3. In the case of soot particles, the risk increases by 5% for every 1 µg/m3 increase in the atmosphere. These figures are the same for the entire population, irrespective of other socio-economic factors, age or smoking habits.

“It should be borne in mind that, unlike other air pollutants, which have various sources, NO2 is mainly caused by road traffic. Therefore, if we really want to reduce the multiple risks that this pollutant poses to people’s health, we need to implement bold measures to reduce car use”, says Cathryn Tonne, a researcher at ISGlobal.

“The study demonstrates the importance of environmental determinants in stroke risk. Given that it is predicted that the incidence, mortality and disability attributed to the disease will increase in the coming years, it is important to understand all the risk factors involved”, explains Dr. Carla Avellaneda, a researcher in the Neurovascular Research Group at IMIM-Hospital del Mar and one of the main authors of the study. Previous studies by the same group had already provided evidence on the relationship between factors such as soot or noise levels and the risk of suffering a stroke and its severity. All these factors act as stroke triggers.

In contrast, having an abundance of green spaces within the same radius from the home directly reduces the risk of suffering a stroke. Specifically, up to 16%. In this sense, “People who are surrounded by greater levels of greenery at their place of residence are protected against the onset of stroke”, says Dr. Avellaneda. Exposure to green spaces is generally considered to have beneficial effects through a variety of mechanisms, such as stress reduction, increased physical activity and social contact, and even exposure to an enriched microbiome.

Societies tend to be guided based on the goals of those governing them. Currently, the goal is ever-increasing wealth and power for those at the top. That’s not how things have always been, and it’s not how things have to be in the future. We can have a society aimed at giving everyone the time and resources to really seek meaning and happiness for themselves, and research like this can go a long way to showing us what that society should look like, at least in general terms. We should want things like a more verdant kind of city for the same reason we should want universal healthcare – it makes people’s lives better, and gives them longer, healthier lives.

The image shows concept art for China's Liuzhou Forest City. It shows buildings that are tiered almost like step pyramids, or some forms of mountainside farming. Each tier has trees growing on it, with the walls of the building showing white amid the greenery. Closer to the foreground is a sleek-looking railway station, and in front of that is a multi-lane highway. The overall effect is similar to that of overgrown ruins.


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Tegan Tuesday: War threatens food supplies, drives up prices

In 2020, world production of wheat was 731 million tons (1.7 trillion pounds), making it the second most produced cereal after maize. Since 1960, world production of wheat and other grain crops has tripled and is expected to grow further through the middle of the 21st century. Global demand for wheat is increasing due to the unique viscoelastic and adhesive properties of gluten proteins, which facilitate the production of processed foods, whose consumption is increasing as a result of the worldwide industrialization process and the westernization of the diet. https://en.wikipedia.org/wiki/Wheat

Many people who are more informed, more educated, more aware of global politics than I, have discussed what’s going on with the Ukraine-Russian war. I’d like to pull the conversation back from the — equally valid! — discussions on nuclear or fossil fuel power, or NATO involvement, and talk about food. Specifically, wheat. The Ukrainian flag is a light blue band over a yellow band, and represents a blue sky over a ripe wheat field. Ukraine has been called the bread basket of Europe, and Ukraine is one of the five largest producers of wheat around the world. Unsurprisingly, wheat is a major part of Ukrainian culture, as well. One of the traditional plants for the Ukrainian flower crown (vinok) is wheat, worn during a harvest festival by an engaged woman, as good luck and honor, among other uses of wheat as a cultural icon. Ukraine and Russia together make up one-third of all wheat production and export globally. Because of the war, Ukraine is not harvesting winter wheat right now, nor planting any new crops (sunflowers and corn for oil are also supposed to be planted now).

Because of the war, Ukraine has no one to spare to transport or sell the wheat already harvested. Because of the war, Russia is banned from selling their wheat due to economic sanctions and countries making political stances against the Russian aggression and empire-building. Because of the war, people around the globe will be starving:

Grain prices were already rising before Russia invaded Ukraine, and recent days have seen unprecedented further gains as two of the world’s biggest producer are at war.

Wheat closed in Chicago at the highest price ever on Monday. Benchmark corn and soybean futures have each surged by 26% this year. Those kinds of increases in food-staple commodities have been associated with social unrest throughout history.

“Remember, bread riots are what started the Arab Spring, bread riots are what started the French Revolution,” said Sal Gilbertie, CEO of Teucrium, the largest U.S. exchange-traded fund issuer focused solely on agriculture funds. “It is a biblical event when you run low on wheat stocks. You won’t see a global food shortage. Unfortunately, what you’re going to see globally is that billions of people might not be able to afford to buy the food.”

Gilbertie doesn’t think the world will run out of wheat — but prices could continue to rise, and that will be most problematic for vulnerable global populations. “Ukraine dominates what they call the sun-seed market,” he said. “Sunflower oil is a major component of cooking oil and food, and you see palm oil rising, and soybean oil rising. That is a big deal, especially for the poorest of the poor, where cooking is a big part of the daily budget.”

Global food prices rose to a record high in February, led by vegetable oil and dairy products, according to the United Nations Food and Agriculture Organization.

Wheat traded in Chicago, the international benchmark, has jumped more than 50 per cent since Russia invaded Ukraine. Prices rose to as high as $13.40 a bushel on Friday, while European milling wheat in Paris hit a record of €406 per tonne.

North American wheat harvests were curtailed by drought this past year, as were South American soybeans and corn. Severe weather all around the globe has impacted global food commodities, and food insecurity was already on the rise in many areas. The countries most reliant on Slavic wheat imports are in Africa or the middle east. Some particular countries are Egypt, Cameroon, Democratic Republic of Congo, Lebanon, Libya, Nigeria, South Sudan, Sudan, Turkey, and Yemen — all of these whom have a fair amount of unrest even with full access to foodstuffs. Sudan in particular has already been suffering from wheat shortages due to the closing of ports during protests. But countries like Lebanon are buying 96% of its wheat consumption from either Ukraine or Russia, Egypt buying 85%, Turkey buying 78%, and the others listed above with similarly high amounts of annual consumption supported from Slavic wheatfields. Some countries, like Egypt, have attempted to buy imports from countries like France, but France has not been able to keep up the demand. Lebanon doesn’t have their expected stockpiles, as the explosion in the port of Beirut in 2020 destroyed its only large grain silo. Turkey, in particular, needs wheat not just for it’s populace, but for it’s own exports: Turkey is a major producer and exporter of pasta, flour, biscuits, and semolina. Without the raw materials to make such items, Turkey’s economy will also suffer, along with everyone else in the region.

The price of bread has been a politically explosive issue in Egypt as on several occasions in the past 50 years it triggered angry protests, to which the Police usually responded by firing shots over the heads of demonstrators. Particularly strong protests were staged in March 2017 in Alexandria, Giza and many other areas after the government cut the supply of subsidized bread amid an economic crisis.

Also during the so-called “Bread Intifada” in January 1977 violent protests broke out and the Egyptian security forces killed 70 people and wounded more than 550 protesters, but in the end the government was forced to re-institute the subsidies.

Bread subsidies are considered a red line among Egyptians and people in other countries in the Middle East, as they are a staple for every family in the region. Bread is sold at very low prices, for example, a subsidized flat loaf costs 0.05 Egyptian pounds, less than one US cent, which covers only a small part of the real cost of producing it and the government coffers cover the rest.

It’s not just the general populace that is worried here either. The bakers who rely on the imported flour are the face of the government-subsidized bread for most families, and they are equally worried about what the future holds.

Tunisia’s government remains tightlipped on the flour shortages, even though the evidence is already apparent. Across the country, bakeries are shutting early, or rationing supplies, with anger growing among owners.

“There’s been a problem building for months,” said Hazem Bouanani, a baker. “Normally, we buy flour from mills and the government will reimburse us. For 10 months, we haven’t seen any payment.”

And that’s just wheat. Russia and Belarus also provide a significant amount of the world’s fertilizers, and the corn and soybeans grown in Ukraine feed livestock. People are going to starve. With a third year of a global pandemic, many industries failing or businesses failed, extreme weather patterns (flooding in Australia as we speak!); most people don’t have the funds to weather an additional hardship like severe food shortages.

This century is likely to be one instance of food insecurity after the next. I know that I will be working hard to have a large enough pantry to cushion any sudden surprises, considering how to eat more locally, and I think that I should look into how to support my local food banks. For those who wish to support those relieving the food insecurity of Ukrainian refugees, and many other global catastrophes, World Central Kitchen is usually one of the first organizations on the scene, and they provide hot food for all who can come.


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We need to downsize the fish.

Going vegetarian or vegan has long been a big part of the environmental movement in general, and the climate movement in particular. The reason is pretty simple – producing a pound of meat generally requires around ten times as much resources as a pound of whatever food that livestock eats. Animals have to eat, and only a fraction of what we consume is turned into muscle.

We generally think about this in terms of land animals – cows, chickens, sheep, etc., but this also applies to fish. Raising something like a salmon is going to require more energy than raising the smaller fish that salmon eat. That means that if we want to continue using fish as a source of protein, it would probably be a good idea to farm those fish that are cheapest to raise, and as much as I love salmon, farming it is not a good use of our resources.

Increased demand for seafood has driven an expansion in aquaculture. However, 90 percent of commercial fish feed is made from food-grade fish such as sardines and anchovies that are edible to humans. To analyze the efficiency of aquaculture in terms of net nutrient production, researchers first quantified the volume of micronutrients and wild fish retained by fish-fed farmed salmon using 2014 data on Scotland’s farmed salmon production. They calculated the volume of micronutrients used as aquaculture inputs and compared it to salmon aquaculture nutrient outputs. Using these data, the researchers modeled several seafood production scenarios to assess potential sustainability benefits of alternative seafood systems.

The researchers found that in 2014, 460,000 tonnes of wild-caught fish were used to produce 179,000 tonnes of Scottish salmon. 76 percent of the wild-caught fish were edible for human consumption. The data also suggest that multiple alternative seafood production models would be more efficient in terms of net nutrient production, so could significantly reduce wild fish capture while increasing global seafood supply. However, these data were limited to only one year (2014). Future studies are needed to better understand how to operationalize a global shift away from farmed fish toward sustainable fisheries.
According to the authors, “Feed production now accounts for 90% of the environmental footprint of salmonid production. Allowing salmonid production to expand further via its current approach will place exceptional stress on global fish stocks already at their limit. Our results suggest that limiting the volume of wild-caught fish used to produce farmed salmon feed may relieve pressure on wild fish stocks while increasing supply of nutritious wild fish for human consumption.”

The authors add: “Nutritious fish stocks are being squandered by salmon farming. Scientists reveal that eating the wild-caught fish destined for salmon farms would allow nearly 4 million tons of fish to be left in the sea while providing an extra 6 million tons of seafood.”

I spent a semester in Tanzania, back in 2006, and one thing I noticed there was that many markets would have a bin or even just a pile of tiny dried fish that you could buy in bulk. It was basically an easy way to add protein to a meal, by just tossing a handful of dried minnows into whatever you’re making. They did not taste as good as salmon, but they get the job done, and if you’re a decent cook and have access to spices, you can do good things with them.

As with so many other things,  I think our best path forward is to work on having a diverse array of options for anything we need to do, so that a catastrophic failure in one area, like a livestock epidemic or extreme weather event, won’t be enough to cause mass starvation or malnutrition. The way we do things now is not the way things have to be.


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New drought forecast for the 21st century looks grim. We urgently need to move food production indoors.

We need to move food production indoors. I keep saying it, but weirdly nobody running the world seems to read my blog. One of the central theses of this blog is that we missed the deadline on climate change, by at least a decade. That doesn’t mean we’re all doomed, but it does mean that returning to the global climate that gave birth to our current civilization is not an option. It could happen in a few hundred years, with active efforts from a global human society, but for that to happen, we need to survive those centuries of warming. To do that, we need to change how we do things in a number of ways, and agriculture is very near the top of that list.

A Washington State University-led research team analyzed climate, agricultural and population growth data to show continuing fossil fuel dependence will increase the probability of co-occurring droughts 40% by the mid-21st century and 60% by the late 21st century, relative to the late-20th century. That comes out to an approximately ninefold increase in agricultural and human population exposure to severe co-occurring droughts unless steps are taken to lower carbon emissions.

“There could be around 120 million people across the globe simultaneously exposed to severe compound droughts each year by the end of the century,” said lead author Jitendra Singh, a former postdoctoral researcher at the WSU School of the Environment now at ETH Zurich, Switzerland. “Many of the regions our analysis shows will be most affected are already vulnerable and so the potential for droughts to become disasters is high.”

I’d just like to pause to emphasized that. 120 million people dealing with severe drought each year. For a comparison, the WHO estimates the current annual number at 55 million, and they don’t even specify “severe” drought. I’ve mentioned before that starvation and malnutrition around the globe isn’t due to a lack of resources, but the factors that create that artificial scarcity are likely to be exacerbated by this increase in drought, causing mass famine well before we get to the point where conventional farming can’t produce enough food because of climate change. Without systemic change, this could mean anywhere from hundreds of millions to billions starving to death.

But because we know this is coming, I would argue that none of those deaths are unavoidable, even now. We could invest heavily in various forms of indoor food production, which can recycle water used, and be immune to things like drought. Making that a global priority now would mean that our inevitable mistakes will do less harm, because conventional farming is still producing food. If, as seems more likely, the people running the world continue to procrastinate on avoiding our looming extinction, then we’re going to have much less leeway. We’ve already lost a lot of that slack, but I fear we’re going to lose what remains pretty quickly.

The elevated risk of compound droughts estimated by Singh and colleagues is a result of a warming climate coupled with a projected 22% increase in the frequency of El Niño and La Niña events, the two opposite phases of the El Niño Southern Oscillation (ENSO).

The researchers’ projections show that nearly 75% of compound droughts in the future will coincide with these irregular but recurring periods of climatic variation in the world’s oceans, which have played a large role in some of the greatest environmental disasters in world history.

[…]

The researchers’ analysis specifically focused on ten regions of the planet that receive most of their rainfall during June-September, have high variability in monthly summer precipitation and are affected by ENSO variations, factors that lead to an increased potential for co-occurring drought. Several of the regions analyzed include important agricultural regions and countries that are currently facing food and water insecurity.

Their results indicate areas of North and South America are more likely to experience compound droughts in a future, warmer climate than regions of Asia, where much of the agricultural land is projected to become wetter.

Food produced in the Americas could therefore be more susceptible to climatic hazards. For instance, the United States is a major exporter of staple grains and currently ships maize to countries across the globe. Even a modest increase in the risk of compound droughts in the future climate could lead to regional supply shortfalls that could in turn cascade into the global market, affecting global prices and amplifying food insecurity.

“The potential for a food security crisis increases even if these droughts aren’t affecting major food producing regions but rather many regions that are already vulnerable to food insecurity,” said coauthor Weston Anderson, an assistant research scientist at the Earth System Science Interdisciplinary Center at the University of Maryland. “Simultaneous droughts in food insecure regions could in turn amplify stresses on international agencies responsible for disaster relief by requiring the provision of humanitarian aid to a greater number of people simultaneously.”

There is some good news, Anderson said. The researchers’ work is based on a high fossil fuel emissions scenario, and in recent years, the global community has made progress toward lowering carbon emissions which would greatly mitigate the frequency and intensity of co-occurring droughts by the end of the 21st century.

Also, the occurrence of nearly 75% of compound droughts alongside ENSO events in the future climate highlights the potential to predict where these droughts may occur with a lead time of up to nine months.

“This means that co-occurring droughts during ENSO events will likely affect the same geographical regions they do today albeit with greater severity,” said Deepti Singh. “Being able to predict where these droughts will occur and their potential impacts can help society develop plans and efforts to minimize economic losses and reduce human suffering from such climate-driven disasters.”

Research and development of new technologies should always be an ongoing investment we make as a society. That said, it is not necessary to do more research and development in order to take major action on climate change. We already have everything we need to make a huge difference in what our future looks like, except for a political and economic system that actually values humanity (let alone the rest of life). I know I keep repeating myself, but until real change actually happens, it needs to be repeated, and said in different ways and different contexts. The people who currently run the world, and the political and economic systems that put them in power are not going to save us. I don’t think they particularly want to, but I also don’t think they’re capable of doing it.  We can work within the system to do at least some good, but that will not be enough. I feel like that should be increasingly obvious to people, given how many decades it’s been since the IPCC was first convened. Vote, protest, and do all the rest, but we need to view democracy as a part of our daily lives and our daily work, not just something we participate in now and then. We need to stop relying on political parties for our political organizing, and start organizing more directly to put real pressure on politicians no matter who’s in office, and to work towards revolutionary change in who our society serves.


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Dipping into degrowth

I’m a believer in the power of repetition to spread and embed ideas in our culture. Just as repetition is useful for learning new subjects or skills, it’s also useful for making certain ideas familiar to people. An example that’s relevant to this blog is the switch from using “global warming”, to using “climate change” in mainstream public discourse. It was a deliberate policy, pushed by Frank Luntz, because his focus groups thought the latter was less scary than the former. Not only did that effort work, but it also paved the way for climate deniers to say that the change was made by environmentalists because there wasn’t any warming.

There’s a simple rule: You say it again, and you say it again, and you say it again, and you say it again, and you say it again, and then again and again and again and again, and about the time that you’re absolutely sick of saying it is about the time that your target audience has heard it for the first time.

-Frank Luntz

I think this approach is also why it’s now pretty normal to heard the Democratic Party referred to as the “Democrat party”, because someone decided that change made them look worse, and the Republicans look better. Luntz is a horrible person, judged by the harm he has done, but I think his understanding of propaganda is worth learning from.

All of this was to say that I’m aware that I repeat myself on this blog, and to some degree that’s deliberate. That said, this blog isn’t just about spreading a set number of messages I believe should be spread. It’s also an ongoing learning process for me, and for anyone who happens to learn from my work. That means that as much as I do repeat myself, I also try to delve into new topics on a regular basis.

Degrowth is one of those topics that I’ve been meaning to dig into, but I’ve been putting off. At my current level of understanding, it feels a little over-simplified, but like an obvious conclusion. Infinite growth is not possible in a finite world, and so any system that relies on infinite growth is definitionally unsustainable, and so dangerous. As with the constant calls to “organize” or to “build collective power”, my knee-jerk reaction is to ask, “Ok, yes, but how? What can we actually do in our day-to-day lives that counts as ‘organizing’?”

I don’t have the answer, and my guess is that most other people are in the same situation. We mostly haven’t been taught how a post-capitalist society could even exist. The default stance in mainstream “western” politics is that capitalism and liberal democracy are the end goal of humanity, and that they should be how everything is run for the rest of our existence of a species.

This is, apparently, as good as it gets.

It’s not surprising that we weren’t taught to think outside that box – that’s not what our education systems were designed for. So I’m trying to do at least a little to fill that gap, as one human among a multitude working on the same project. I’m going to start learning more about “degrowth” and writing more about it, about the proposals for achieving it, and so on.

For now, here’s a video from Our Changing Climate on the subject:

There are lot of ways a degrowth scenario could play out, the worst of which would be forced upon us by the climate. I remain firm in my belief that we can build a sustainable society that still benefits from advanced technology, but that doesn’t mean that it won’t require big changes to our own lives as we change things at a systemic level. I think that the more pro-active we are about this, the better our chances for a good outcome, and the more room we will have to screw up without disaster.

Going forward, I’m going to be putting more effort into degrowth content, and stuff like that, and I welcome any input and suggestions that you, dear reader, may have.


Thank you for reading. If you find my work interesting, useful, or entertaining, please share it with others, and please consider joining the group of lovely people who support me at patreon.com/oceanoxia. Life costs money, alas, and owing to my immigration status in Ireland, this is likely to be my only form of income for the foreseeable future, so if you are able to help out, I’d greatly appreciate it. The beauty of crowdfunding is that even as little as $1 per month (that’s like three pennies a day!) ends up helping a great deal if enough people do it. You’d be supporting both my nonfiction and my science fiction writing, and you’d get early access to some of the fiction and some other content.

Oh the tides, they are a-changin’: There’s a new report on sea level rise

As many of you are no doubt aware, a report has just come out about the rate of sea level rise. The news is not good.

A new report provides an alarming forecast for the US: Sea level will rise as much in the next 30 years as it did in the past 100 — increasing the frequency of high-tide flooding, pushing storm surge to the extreme and inundating vulnerable coastal infrastructure with saltwater.

The interagency report, led by the National Oceanic and Atmospheric Administration, shows how scientists are increasingly confident that US coasts will see another 10 to 12 inches of sea level rise by 2050.

As the article says, the implications of this are enormous. Beyond the eventual inundation of low-lying coastal areas, sea level starts affecting us through the intrusion of salt into rivers and groundwater, and through higher storm surges. It’s also worth noting that in areas like Florida, the groundwater seepage can also represent a decrease in stability, which could lead to grim outcomes for housing and other infrastructure. I’ve delayed this post, simply because the whole thing is draining. I’ve been actively trying to get people to treat climate change like a crisis for about a decade. A lot more people have been doing it for a lot longer and/or a lot harder, and yet here we are. Right where we didn’t want to be. In some ways, I don’t have a lot to say about this. We knew this was coming. We knew what had to be done to stop or slow it. What we didn’t have was a global society capable of accepting reality and changing as needed.

Now that adaptability is going to be necessary for survival, because prevention didn’t happen, and we’re not going to be able to reverse course in any of our lifetimes, without technological and social change beyond anything we have reason to expect. So as I always say, organize. Practice pro-social prepping. If you’re in a low-lying coastal area, consider moving if you can afford to. And, as always, remember that as destructive as this rapid sea level rise will be, it’s just one aspect of what’s happening to our climate. It’s going to be a lot to deal with. For many folks it already is a lot to deal with. That means we also need to be proactive about our own mental health, and the mental health of those around us. Leaving aside the fact that higher temperatures literally mean hotter tempers, we have every reason to believe that things are going to keep getting worse, at least in some ways.

It should shock nobody that I appreciate Beau’s take on this:

To take a break from the doom and gloom, I wanted to address one thing mentioned in the video – sea level rise is not even around the globe. There are a variety of reasons for this. The first thing to remember is that the planet itself is not an even “globe”. It’s an “oblate spheroid”, which means it’s closer to a sphere that was slightly squished from its top and bottom. The next thing to remember is that gravity isn’t a one-way affair, even on a planet. The vast majority of the gravitational force is “down” towards the center of the Earth, but things like mountains also exert a gravitational pull. It’s very weak compared to a planet, but the inconceivably huge pile of water molecules we call “ocean” settles itself out, roughly, according to the various forces exerted upon it. That means that the ocean actually gets further from the center of the planet, and closer to space, as it gets closer to places like continents. The unevenness is spread out over such great distances that we don’t notice it as we interact with the water, but it’s there. Further, oceanic currents cause water to “pile up” against continents. Changes in sea level can also be caused by land sinking, as is happening in various places around the world.

I’ve shared it before, but this video from Minute Physics is a great primer on the subject of sea level:

Maybe I’m overly pessimistic, but I don’t get the feeling that any country is actually prepared for sea level rise, though some are closer than others. As I said earlier, I think we’re in for extremely stressful times ahead, and it’s going to feel like new hits keep coming from every direction. That’s going to be amplified by a media environment that profits far more from sensationalism than from honest reporting.

I also want to end on a less gloomy note. As it stands, things are likely to keep getting worse, but that’s not some unavoidable destiny. There are a myriad of things we can do to make life better for everyone (except maybe our current ruling class), even as the heat and waters rise. Take care of yourselves, take care of each other, and continue to fight as you’re able. I really do believe that it’s possible to turn this horror story into something more uplifting.


Thank you for reading. If you find my work interesting, useful, or entertaining, please share it with others, and please consider joining the group of lovely people who support me at patreon.com/oceanoxia. Life costs money, alas, and owing to my immigration status in Ireland, this is likely to be my only form of income for the foreseeable future, so if you are able to help out, I’d greatly appreciate it. The beauty of crowdfunding is that even as little as $1 per month (that’s like three pennies a day!) ends up helping a great deal if enough people do it. You’d be supporting both my nonfiction and my science fiction writing, and you’d get early access to some of the fiction and some other content.

Power demand from air conditioning could soon exceed total power supply in the United States

I had hoped to have my next bit of science fiction out today, but it’s just not there yet, so here’s something else instead.

One of the most long-standing cases for acting on climate change is the simple fact that the sooner we act, the cheaper and easier it will be. The reality is that avoiding any cost is simply not an option. Extreme weather events, rising sea levels, damage to crops and infrastructure – climate change costs money, no matter how you look at it. By delaying action as long as we have, we’ve entered the age of endless recovery. Any action we take to deal with climate change will now be impeded by ongoing efforts to rebuild from damage already done.

Unfortunately, the cost increase goes beyond that. A big reason for why it’s in our best interest to take action is that there are limits to the temperatures humans can withstand. On our current trajectory, it’s likely that for at least some days out of the year, many parts of the world will be too hot for humans to survive very long without some external means of cooling. These days, that often means air conditioning, which is already a pretty energy-intensive process. As temperatures continue to rise, AC units will have to work harder to achieve the same cooling, and more people are going to need to rely on it to get by. In short, it’s very possible that the power demands of air conditioning will soon exceed the amount of power being generated in the United States:

Climate change will drive an increase in summer air conditioning use in the United States that is likely to cause prolonged blackouts during peak summer heat if states do not expand capacity or improve efficiency, according to a new study of household-level demand.

The study projected summertime usage as global temperature rises 1.5 degrees Celsius (2.7 degrees Fahrenheit) or 2.0 degrees Celsius (3.6 degrees Fahrenheit) above preindustrial levels, finding demand in the United States overall could rise 8% at the lower and 13% at the higher threshold. The new study was published in Earth’s Future, AGU’s journal for interdisciplinary research on the past, present and future of our planet and its inhabitants.

Human emissions have put the global climate on a trajectory to exceed 1.5 degrees Celsius of warming by the early 2030s, the IPCC reported in its 2021 assessment. Without significant mitigation, global temperatures will likely exceed the 2.0-degree Celsius threshold by the end of the century.

Previous research has examined the impacts of higher future temperatures on annual electricity consumption or daily peak load for specific cities or states. The new study is the first to project residential air conditioning demand on a household basis at a wide scale. It incorporates observed and predicted air temperature and heat, humidity and discomfort indices with air conditioning use by statistically representative households across the contiguous United States, collected by the U.S. Energy Information Administration (EIA) in 2005-2019.

The new study projected changing usage from climate influence only, and did not consider possible population increases, changes in affluence, behavior or other factors known to affect air conditioning demand.

“We tried to isolate just the impact of climate change,” said Renee Obringer, an environmental engineer at Penn State University and lead author of the new study. “If nothing changes, if we, as a society, refuse to adapt, if we don’t match the efficiency demands, what would that mean?”

Technological improvements in the efficiency of home air conditioning appliances could supply the additional cooling needed to achieve current comfort levels after 2.0 degrees global temperature rise without increased demand for electricity, the new study found. Increased efficiency of 1% to 8% would be required, depending on existing state standards and the expected demand increase, with Arkansas, Louisiana and Oklahoma on the high end.

“It’s a pretty clear warning to all of us that we can’t keep doing what we are doing or our energy system will break down in the next few decades, simply because of the summertime air conditioning,” said Susanne Benz, a geographer and climate scientist at Dalhousie University in Halifax, Nova Scotia, who was not involved in the new study.

Exceeding capacity

The heaviest air conditioning use with the greatest risk for overloading the power grid comes during heat waves, which also present the highest risk to health. Electricity generation tends to be below peak during heat waves as well, further reducing capacity, Obringer said.

Without enough capacity to meet demand, energy utilities may have to stage rolling blackouts during heat waves to avoid grid failure, like California’s energy providers did in August 2020 during an extended period of record heat sometimes topping 117 degrees Fahrenheit.

“We’ve seen this in California already — state power suppliers had to institute blackouts because they couldn’t provide the needed electricity,” Obringer said. The state attributed 599 deaths to the heat, but the true toll may have been closer to 3,900.

The consequences of cascading electrical grid failures are likely to impact already vulnerable populations, including low income, non-white and older residents, first, Obringer noted.

“When they say there’s going to be two weeks where you don’t have cooling on average — in reality, some people will have cooling. Disadvantaged people will have less cooling,” Benz said.

How long are we going to wait to take this seriously? How many people will have to suffer and die in the heat? We know what we need to do. We need to update the power grid. We need to invest in home energy efficiency, and in passive cooling wherever we can use it. We also need to have sources of power – like wind and solar – that don’t need to be shut down during heat waves, when the need for cooling can be a matter of life or death. As I’ve said before, science is a way for us to see what’s coming, but a warning is no good if it’s not heeded.

We are running out of time.


Thank you for reading. If you find my work interesting, useful, or entertaining, please share it with others, and please consider joining the group of lovely people who support me at patreon.com/oceanoxia. Life costs money, alas, and owing to my immigration status in Ireland, this is likely to be my only form of income for the foreseeable future, so if you are able to help out, I’d greatly appreciate it. The beauty of crowdfunding is that even as little as $1 per month (that’s like three pennies a day!) ends up helping a great deal if enough people do it. You’d be supporting both my nonfiction and my science fiction writing, and you’d get early access to some of the fiction and some other content.

From home gardens to communal greenhouses: changing agriculture for a changing climate

Before getting to the main point, I just wanted to vent for a moment. When I was looking through articles on food prices, two caught my attention for the same reason – they talked about the predicted price increases, but in discussing causes, they limited themselves to “supply chain problems” and corporate greed. The first article was, unsurprisingly, Ben Shapiro’s The Daily Wire; I would have been shocked if they mentioned climate change. The second I find a tad more worrisome, and it’s abc15 in Arizona, a “local” news source. The media’s love for ignoring climate change is a well-known phenomenon, but I find it discouraging that even in the most obvious circumstance, with “bad weather” being a known factor in the ongoing rise in prices, it’s not even mentioned. This kind of “reporting”, whether through malice or incompetence, serves to downplay the severity of the crisis we’re in, and to slow any efforts to respond to it.

Now that I’ve got that out of my system, I want to dig into the issue of food prices and agriculture a bit, as well as what we can be doing to both prepare our food supply for a hotter, more chaotic climate, and to decrease agricultural emissions.

These days, food shortages are a matter of policy. We produce enough food to feed everyone, but that’s not actually the goal of a lot of global food production. Things that humans could be eating, like grains, are used to feed livestock, so that wealthy countries have access to unlimited beef, pork, and chicken. Food that was produced for humans is left to rot because giving it to the hungry either wouldn’t generate profit, or would actually cost money. We create artificial scarcity for profit, and rather than rationing food to make sure everyone gets fed, we ration it to make sure those with money can buy as much as they want – by increasing prices. This is further complicated by the nature of our “just-in-time” production and distribution system, which is designed to maximize profits by removing the costs of buying more than a business needs, and of storing the excess. The COVID-19 pandemic highlighted this problem, as there was a sudden spike in demand for certain goods, in a system that has no slack. Further, the same profit motive has always resulted in mistreatment of those people – like truck drivers – which means that they are also stretched to their limits. For all the pandemic and the Suez Canal incident put the supply chain in the spotlight, the relentless greed of the aristocracy was already starting to cause problems well before that.

As with so much else, there is a great deal that needs to change if we want a better future; with climate change already affecting global agriculture, and still on track to collapse the world’s fisheries by 2050, the time to make those changes is now. When I wrote about this before, I focused on factory-style production of high-protein algal and bacterial foods. I still think they’re something we should invest in right away (along with things like lab-grown meat), both because of the potential to provide a great deal of food, and because it’s a relatively new technology. There are going to be challenges in scaling it up, and would be better to run into unforeseen problems before large portions of the population are dependent on this stuff for survival. That said, I’m generally of the opinion that we would be wise to invest in a diverse array of food sources, both to distribute food production closer to where it’s consumed, and to reduce the chance of something disrupting the whole world’s supply. That’s why I like the community greenhouse solution that Aron Kowalski describes in the discussion below. The whole thing is worth your time, but I’m specifically talking about the bit starting around 29 minutes in:

 

Having collectively owned greenhouse farms for both food and recreation sounds like a brilliant idea to me. Even if you’re in an area without cold winters, climate-controlled green spaces like that can be a wonderful break from the world. It also makes me think of the Vietnamese arrangement that lets people who’re willing to do the work have space in a collectively owned rice field, to grow their own rice:

Even better, I’m willing to bet it would be possible to build indoor rice paddies pretty much anywhere in the world, even when the climate won’t allow them outdoors. The amount of food you can get that way never ceases to amaze me. I think it’s also worth noting that even with existing indoor farm models, there are models that combine vegetable farming with fish farming:

A sprawling new building that will soon be constructed in Luzerne County, Pennsylvania—at 250,000 square feet, roughly the size of two entire city blocks in Manhattan—will be the largest vertical farm in the world when it’s completed in 2023. Inside, though, you won’t find just vegetables: Tanks full of fish will sit near vertical stacks of trays filled with certified organic microgreens.

In the vertical farming industry, which is raising billions from investors, many startups grow greens like spinach or bok choy inside carefully-managed indoor spaces, and then selling the fresh produce to local consumers. But Brooklyn-based company Upward Farms is unusual in its use of fish, a version of a centuries-old practice called aquaponics. While others use synthetic fertilizer in their growing systems, the company uses fish waste that it filters out of tanks to provide nutrients to its plants. Both the fish and greens are then sold for food.

There’s a near-infinite array of ways to use communal greenhouse space, especially if the greenhouses are viewed as an integral part of the communities that work them. It can range from the methods currently being explored by for-profit enterprises, to dedicated food production zones like the aforementioned rice paddies, to space for people to experiment with new crops or techniques.  Additions or changes could be made with community approval, to better serve the wants or needs of that particular community, and to accommodate those interested in making food production their primary occupation. What’s important is that it’s done by and for the people, and that we change how things work to both allow and encourage people to take a little time to grow food.

As Kowalski said in the video at the top, it would be a good idea, on an individual level, to plant a garden if you have the ability, but remember that this is very much like the broader climate crisis – we need systemic change, and a revolutionary shift in societal priorities. We can have a society that clings to its greed as it withers away, or we can have one with indoor food forests with fish ponds, walking paths, and food carts, all next door to mostly-automated vertical farms that produce a majority of the food for the nearby population. I don’t think this would necessarily be “economical” as it’s reckoned today, but it would yield far richer rewards than any future the status quo can offer. Since we have to reshape society anyway, why not aim high?


Thank you for reading. If you find my work interesting, useful, or entertaining, please share it with others, and please consider joining the group of lovely people who support me at patreon.com/oceanoxia. Life costs money, alas, and owing to my immigration status in Ireland, this is likely to be my only form of income for the foreseeable future, so if you are able to help out, I’d greatly appreciate it. The beauty of crowdfunding is that even as little as $1 per month ends up helping a great deal if enough people do it. You’d be supporting both my nonfiction and my science fiction writing, and you’d get early access to the fiction.

A brief agricultural report

I’m putting together a larger post on this, and I wanted to take a little time with it, so here’s a sort of preview. It’s a report from a regular caller to The Majority Report on his perspective as a farmer about the state of things:

Basically, there are a number of factors converging to create what looks to be an ongoing food shortage that will cause more empty shelves in some places, and higher prices in others. It’s important to remember that a lot of problems like this are things that could be solved, but not if access to food is controlled by the markets, with rationing based on wealth rather than need.

As with so many other problems today, we have the resources and understanding to solve this. What we lack is an economic and political system that values life.

Heroic Leader Braves the Gates of Hell to Defend the Environment (not really)

Gurbanguly Berdimuhamedow, president of Turkmenistan, is doing us all a favor and closing the gates to hell!

Well, not really.

For those who are unfamiliar, the “Gates of Hell” (also known as the Darvazagas crater) is a huge sinkhole in Turkmenistan that is thought to be the result of Soviet oil exploration, which collapsed a natural gas cavity, creating a sinkhole. The gases coming out of it were lit on fire to keep them from spreading at ground level and poisoning people.

In a lot of ways, that was probably a good call. While the smoke from the crater isn’t great for either local life or for the climate, it’s almost certainly better for both than the unburnt gas would have been. That said, they expected the fire to last for a couple weeks, not half a century, and the fumes from the fire have been causing problems. So, when I first heard that there are new plans to extinguish the fire and seal it off, I had one brief, happy moment where I forgot what world I live in, and thought that it was because of the harm being done to the environment (a category in which I include humanity). There are actually a number of underground fires (many of them in coal seams) that are emitting CO2 and other dangerous chemicals, and are obviously are dangerous to any structures or infrastructure above them. To be sure, Berdimuhamedow does seem to be trying to gain whatever “green” points he can, but…

Berdimuhamedow said that the burning crater “negatively affects both the environment and the health of the people living nearby” and that Turkmenistan is “losing valuable natural resources for which we could get significant profits.”

Turkmenistan possesses the world’s fourth largest reserves of natural gas in its underground, intending to significantly increase its export of gas to many countries such as Pakistan, China, India, Iran, Russia and also Western Europe by 2030.

Yeah…

Turkmenistan isn’t exactly the worst offender when it comes to the climate or other environmental issues, but this is very much part of an ongoing trend – world leaders pay lip service to the climate crisis, while continuing to expand fossil fuel extraction.  The story very much brings to mind the oh-so subtle satire of Doom Eternal, with capitalists reacting to the discovery of Hell by looking for ways to directly profit off of it.

Unfortunately, this goes beyond increasing the already monumental task of ending fossil fuel use, because while the industry has developed ingenious high-tech methods for accessing and extracting fossil fuel deposits, the wealth that has come from that has been used to shield them from ever having to figure out how to clean up after themselves. One part of this is the criminal laziness was probably best highlighted by the pathetic industry response to the Deepwater Horizon disaster in 2010, and the demonstration that there had been no advances in oil cleanup in the decades since the Exxon-Valdez disaster, and BP’s oil spill response plan for the Gulf of Mexico included species like walruses and sea otters. The other part tends to be less dramatic, but could end up being as destructive as the more attention-grabbing spills and leaks – abandoned extraction sites:

How many of them are there, and where are they located?

A recent investigation by Reuters estimates that the United States could have more than 3.2 million orphaned and abandoned wells. Some states have a few hundred; others have a few thousand. And some have a staggering number of them: Pennsylvania reportedly has more than 330,000 of these wells within its borders.

“Orphaned and abandoned oil and gas wells are located everywhere,” says NRDC senior advocate Joshua Axelrod. “They can be in the middle of a forest, in backyards, in farm fields, even under sidewalks and houses.” Basically, they are anywhere that oil and gas development has taken place—at sites of large-scale operation spread out over many acres as well as single-well outfits on tiny parcels of land.

Why are they so dangerous?

Simple: Because they leak. Among the chemicals that can seep out and contaminate air, soil, or groundwater are hydrogen sulfide, benzene, and arsenic. Even the smallest leaks can adversely affect the local environment if they go unaddressed or undetected for many years.

Most alarmingly, though, these wells emit a lot of methane, an odorless gas that can seep into nearby buildings (a home, school, or office, for example) and pose major health hazards. When concentrated in enclosed spaces—such as a basement or a bedroom, for instance—methane will take the place of oxygen in the lungs and can cause weakness, nausea, vomiting, and convulsions. Long-term methane poisoning can even be fatal. And methane, of course, doesn’t just make people sick: It’s also highly explosive. In 2017, two men were killed while installing a hot water heater in the basement of a home in Firestone, Colorado, that had been built adjacent to an oil and gas field. When the neighboring petroleum corporation restarted a well that had been dormant for a year, a damaged flowline filled the basement with gas, which ignited into a fireball that destroyed the house in an instant.

I suppose it’s a good thing that we’re aware of this problem, and know where all of these abandoned wells are. It’s also helpful that many of them are on dry land, which reduces the resources required to actually seal them off. There’s another problem that, while probably less severe, is also less well-mapped, and is pretty much all under water – sunken ships.

The image is an infographic titled

I’ve long believed that the climate will continue warming for generations to come. If we’re going to survive, we’re going to have to find a way to exist as a part of global ecosystem that is, at least to some degree, actively managed. It’s not that I think nature needs us to “fix” it, but rather than we desperately need a healthy and diverse ecosystem for us to survive and thrive. That means that we can’t just stop doing the bad things – we also have to clean up after ourselves and our predecessors. This is work that is vital to our future, and it’s work that will take at least as long to do as it took to make the mess.

I also don’t think it will be profitable. The closest we could get to dealing with this problem in a capitalist society would be to provide government incentives. There will be some forms of cleanup that could be directly profitable, like “mining” raw materials from various kinds of trash, but that won’t be the case for everything that needs cleaning up, and the history of that economic model makes clear that the people forced to engage in that dangerous work will be treated horrifically.

We have a very long way to go before we can consider ourselves responsible residents of the planet. The cleanup will take generations. It will take far longer if it’s still limited by obsession with profit and disdain for human life, but no matter how we go about it, it will be the work of multiple lifetimes. In my lifetime, I’ll be content if I see us change to the point where those doing this necessary work are treated with the dignity and respect they deserve – it’ll be a good sign that we’re on the right track.


Thank you for reading. If you find my work interesting, useful, or entertaining, please share it with others, and please consider joining the group of lovely people who support me at patreon.com/oceanoxia. Life costs money, alas, and owing to my immigration status in Ireland, this is likely to be my only form of income for the foreseeable future, so if you are able to help out, I’d greatly appreciate it. The beauty of crowdfunding is that even as little as $1 per month ends up helping a great deal if enough people do it. You’d be supporting both my nonfiction and my science fiction writing, and you’d get early access to the fiction.