Kim Stanley Robinson's recent book The Ministry For the Future starts with a very disturbing scenario: A heatwave with a "web bulb" temperature of 35 Celsius.
It turns out, in those temperatures, even young and healthy people can't survive. Combined with power outages, as happens in the book, everyone living under such a heat wave will likely die.
It's looking increasingly likely that such heatwaves are possible in the future, and possibly quite deadly. This could result in the mass deaths of many people, especially in poor tropical countries that don't have a stable infrastructure to cool most people during such a heatwave. I hope a mass death event from a "web bulb" 35C heatwave never happens, but I'm losing hope, especially with the increasing global temperatures, and the very lackluster progress being made on carbon output.
> Combined with power outages, as happens in the book, everyone living under such a heat wave will likely die.
That's an exaggeration. Extreme heat (including heat waves that exceed this threshold) happen semi-regularly, and the death rate when they occur is nowhere near 100%. More like 0.1% or less.
Electrically-powered air conditioning is not the only way to cool a human body.
Simply escaping to an underground or substantially enclosed area is sufficient for periods of up to a few days, or even weeks depending on the thickness of the walls. Car parks, cellars, caves, etc... all retain a relatively constant temperature irrespective of temporary swings of the air temperature outside.
Similarly, immersing oneself in a body of water below about 36 C is also sufficient, and that's typically available even if the local air temperature and humidity exceeds safe levels. E.g.: Rivers "carry" the cold down from mountains, and are safe havens during temperature extremes. Even the local pool is sufficient, because water has such a massive thermal capacity that it won't heat up anywhere near as fast as the air around it.
At times like this you see people filling up their bathtubs and just hanging out in there until things blow over.
More worrying is what happens to wildlife. Some animals simply can't escape like humans and most animals can. For example in Australia a recent heatwave killed something like half of all flying foxes!
> Jacobabad crossed the 35C wet bulb threshold in July 1987, then again in June 2005, June 2010 and July 2012. Each time the boundary may have been breached for only a few hours, but a three-day average maximum temperature has been recorded hovering around 34C in June 2010, June 2001 and July 2012.
These people don't have the escapes you mentioned. They are in a city with no running water and no cars, let alone car parks. There is no river, but there are a couple of small lakes.
The most dangerous / frequent occurrences seem to be measured in the middle east near shallow gulf coasts. Appleton Wisconsin holds the continental US record, apparently?
> The highest dew points, and therefore the highest heat indices are usually found near warm bodies of water.
> In the world, the warmest water is found in the Persian Gulf where the water temperature typically reaches up to 90°F (32°C) in summer. Therefore dew points will be that high as well.
> The highest dew point ever recorded, 95°F (35°C), was recorded at Dhahran, Saudi Arabia, on July 8, 2003. With an air temperature of 108°F (42°C) the heat index was 178°F (81°C).
> In the United States, the highest dew point ever recorded, 90°F (32°C), was recorded at the New Orleans Naval Air Station, on July 30, 1987, Melbourne, Florida on July 12, 1987. Heat indices were in the 130's°F (50's°C).
> Appleton, Wisconsin also had a 90°F (32°C) dew point on July 13, 1995 with a heat index of 149°F (65°C)."
> Jacobabad crossed the 35C wet bulb threshold in July 1987, then again in June 2005, June 2010 and July 2012. Each time the boundary may have been breached for only a few hours, but a three-day average maximum temperature has been recorded hovering around 34C in June 2010, June 2001 and July 2012.
Jeez what a hot place... Any idea what geographic features make it so dang hot? It's not too far from water (just looking at a map).
I lived about a hundred miles from Jacobabad in 1987. It was known as the hottest place in the world then along with Sibi to the north. I remember 50C temperatures but it was dry and I used to walk outside to the market around noon. Once my school principal saw me walking without a hat that summer and lectured me about safety but I didn’t feel anything bad. It helped that I was thin and had a high surface are to volume ratio so heat never bothered me. My father worked for Exxon and we had free electricity and every house had massive 8-ton air conditioners, so the heat was never a problem for us.
Sibi is in a hollow formed by some mountain ranges to the north. Perhaps hot winds from the south get trapped there. Not sure about Jacobabad though…could never find any reason why it was so hot.
Another time I was in a car with no AC right after a rainstorm, and it was so hot in the backseat that every time the car stopped the heat became unbearable. When the car was moving we had some wind and it helped.
In Canada I’ve always noticed the temperature can be 5-10 degrees cooler under trees in a forest. Not sure if it’ll be so cool with high humidity but certainly trees will block the sun and trap air cooled by the ground, so they are the best defence against global warming.
The city can have running water while some people living there don't. Slums or homeless encampments are common the world over in large cities.
It means some people simply have no means to escape such heat and will likely die.
In the US, they sometimes open cooling centers during heat waves so homeless people and poor people have a place to go. I never went to such but they did that in Fresno and bus rides were free if you said you were going to a cooling center.
Wet bulb of 37C does not happen semi-regularly. Table S2 of the article shows a TW of 35+ has only happened 14 times in their ~30 year dataset so I would even hazard a guess that TW of 37 has not yet happened.
These events are usually short (for TW >35, majority only last an hour, see Sup fig 2), which is perhaps why we are not seeing many deaths associated with them.
With regards to immersing oneself in water, a bathtub is good so long as groundwater is available; if everyone starts filling their tubs for every heat wave it might start becoming more scarce. I would have thought natural bodies of water like the sea would have been a good choice, but the authors point out that in one region where wet bulb temps >35 were happening they also observed frequent sea surface temps >35 too (sup fig 16).
There are ways to survive and you have provided good ones, but they won’t be available to all who experience these events if they continue to increase in number. And excellent point about wildlife! That’s a whole additional side of it that will probably get lost in the mitigation effort…
Air is an insulator, 35 degree weather will cause extreme internal temparatures but 35 degree water allows you to transport all your excess energy to the water. 38 or 40 degree water would be deadly, but I wonder what the air temparature is when it gets that far.
Many apartments don't have a bathtub, only a shower. And if everyone keeps tap water running, the pressure will drop down to trickle. Cold cellars can be in short supply, underground car parks tend to get hot too. And seems you probably never bathed in 35°C water, it's definitely not refreshing.
And there are psychological issues that people just don't know what to do till it's too late. I was living an apartment with only 1 southern window, the heat was hard to vent. Once during a heatwave I found myself in a weird lethargy then I started going sick and then I found out the thermometer shows 40°C inside. I went outside immediately. Were not a healthy young man, that could have ended up badly. Since that I never underestimate the heat.
That does not mean 100% fatality rate is possible but it definitely might be more than 0.1%.
This is something that has puzzled me every time I park in the underground garage under City Hall in Palo Alto. It is always so hot down there compared to the outside air.
I was about to ask if anyone knows why that is, and then realized I could search for the answer:
This reminds me of how the London Underground used to be much cooler, but the trains have raised the temperature of the clay surrounding the tunnels sufficiently that it never cools off:
"Many apartments don't have a bathtub, only a shower. And if everyone keeps tap water running, the pressure will drop down to trickle."
People don't have trashcans, storage bins, etc?
"And seems you probably never bathed in 35°C water, it's definitely not refreshing."
Where is this 35C water coming from?
Also, if it's a humid heat, there are likely to be natural or artificial bodies of water around. Hopefully the people have been taking care of them and they aren't a cesspool.
Sure, some people may die, but it should be very low.
Edit: why downvote? All the excuses the previous person gave seem petty to me, so I'm wondering how that person came to their conclusion. Especially for where that hot water is coming from.
I'm not sure you understand wet bulb and heat index. Heat index is largely irrelevant when talking about the precautions mentioned. The actual temperature is no where near 70C, and actual temperatures matter when talking about cooling that does not use ambient air (and evaporative cooling assuming 100% humidity in this case).
A wet bulb of 35C means that there is a thermometer covered with a wet cloth reading that temperature. That could be 35C with 100% humidity, or it could be a higher temperature with a lower humidity.
Can you explain how your air conditioner keeps you cool? Do you think this machine is the only thing that can perform a similar function? It's all about removing excess heat from your body. An air conditioner does this by cooling air and removing humidity. This can be from the cool air on your skin and the ability for your sweat to evaporate. When your sweat can't evaporate you need another way to transfer heat. Water is very efficient for this due to its specific heat (anything at a cooler temperature with sufficient thermal mass can work). Some people can even become hypothermic in 27C water if left in it long enough.
Edit: I guess people just downvote things they don't like or find to be inconvenient.
You come off as browbeating him, accusing him of not knowing things, when he said a small thing that was fully accurate if not precise. That's why you're being downvoted.
"I’m inclined to say that this is not very survivable, regardless of your precautions, if your air conditioning has died."
How is that fully accurate? It seems to me that "not very survivable" is not accurate and is an over exaggeration. I don't expect a 50% death rate, even 10% would be extremely generous. It would be like me saying linux desktops are very common.
This is silly/pedantic. He's talking about being in a typical house with a dead A/C, experiencing the equivalent of 70C. Please tell us how you're going to survive that circumstance. Answer: you're not. You're going to change your circumstance, since it's not very survivable. You're going to leave your house and try to find somewhere cooler. His statement is accurate if not precise.
Lol it is not the equivalent of 70C. Please see the other resources people have posted here about understanding wet bulb temperatures. Even a wet bulb of 35C can be tolerated by most for hours - 70C could not.
I would not leave my house. My house has insulation and thermal mass, which would delay the tempature from reaching that level until later. I could use water to cool myself, whether in the bath tub or a trashcan. I could use a fan if there's power (depends on the temperature and humidity to reach that wet bulb). I could use frozen objects (even without power, the freezer will stay cold for at least a day). I also have a generator to power these things if there's a short to medium term outage.
Their statement was not about changing one's circumstance. It was that even with precautions, it's not very survivable. This is neither accurate nor precise. It is very survivable with precautions.
You're describing tactics that will lead to your tenuous survival. If the heat doesn't last too long. And if you don't have anyone else is your house, not a likely circumstance globally considered. Almost like 35C wet is not very survivable. Your claim that 35C wet can be tolerated by most for hours contradicts the article, and your claim that it's more tolerable than 70C dry contradicts the concept of heat index. Anyhow, you're welcome for my charitably stepping in to let you know why you're being downvoted. You're stuck on pedantry and straw manning and pointless unproductive argument. The Hacker News collective had you pegged, and I'll just join the downvote parade and ignore your type in the future. I'm out.
Even if my air conditioner was still functional, its output, the attic-based tubing used to push the air around, and the cheaply-built and leaky house to which it all attaches would never be able to keep out the heat.
Also the outside end of the heat pump wouldn't be able to cool off, so it wouldn't be making any cool air inside anyway. The tipping point there seems to be way lower than the numbers above, around 50 C / 120 F.
I was specifically questioning things like where is the hot water coming from, people without tubs can't figure out how to save water, etc. Those claims sound overly pessimistic and simplistic to me.
It is about conservation of water because as the person pointed out, you can't have a bunch of people running water continuously. You can store the water in a trash can or other large container. You can immerse yourself, or parts of yourself, in this water. You can even make a gravity shower to reuse the water since it's used for cooling and not cleaning. Replace the water when it gets too warm. This would greatly reduce the water usage compares to continual showers and provides a suitable substitute the previously mentioned bath tub when one is not available.
In some places people used to pump groundwater out of the ground to use. That water should be at a temperature of around 10-20C. So you could soak your feet in that to cool off.
Well... people are resourceful. I mean, we may have gotten soft living in civilisation... but we still have some survival instinct. Shade, bathing, burrowing etc.
Still, that factoid is troubling. These are conditions that exceed humans' operating conditions. We're used to that on the cold side. Plenty of people thrive (miserably) in places that get cold.
But, there are actually far fewer good cooling options. Air conditioning is more complicated than heating. You can heat with fire, warm clothes. Even exercise, though this is not sustainable. A sauna is nice, but people don't live in their saunas until temperatures get tolerable.
Also, the heat cutoff is more of a universal. A lot of organisms seem to start failing at temperatures like this.
The human body can generate heat by eating food, it's just a matter of insulation to stay warm. Our bodies can't generate cool at a wet bulb of 35C. That's a huge difference.
I don't think space is the issue. Most people live 200 miles from the coast. If that gets as hot as the inland, people will fan out to find whatever shelter they can. While I hope there are cool materials science breakthroughs that can withstand high temperatures, I imagine a lot of people will make homes in caves and underground, like a nuclear bunker.
That would definitely change cultures and economies, but if you can't get out of those places, it might be your only option.
The problem with lots of people in water is that leads to drownings.
"There is a clear connection between heat and drowning. That's when people want to go in or near the water, and the risks of drowning increase," FSL's Executive Director Kristiina Heinonen told Yle in July:
Well yes, and the problem with lots of people out of the water is that it leads to traffic accidents. Is there a name for this fallacy that proclaims things risky by comparing them to a theoretical situation where everyone is immortal?
There's a difference in that deadly heat can make people who cannot swim, start panic crowding in the water in tens of thousands of people large groups?
Sounds to me like a mostly not seen before thing
> Is there a name
"False analogy" is what comes to my mind, maybe there's something better
> start panic crowding in the water in tens of thousands of people large groups?
I guess it depends on where you are, I live on the Mediterranean, where, if you panic in the water, you're just standing in calm water. I imagine the ocean is much scarier.
> maybe there's something better
I think we do need something better, I see it too often for it to not have an exact name.
Yes, in my case I was imagining a wide river close to a many millions people city, and people from the slums (no AC) go there to cool down, and more and more people arrive all the time to the river, pushing those already there outwards, deeper water, people cannot swim
At rock concerts 10 000 people can create dangerous pressure, I wonder if a deadly heat wave and the chance to cool down at a specific place can do that too
Or maybe people would spread out along the water, but at the same time, it might be hard for an individual person with occluded vision to know what makes sense to do
Sometimes people rush out from a building in panic, everyone gets stuck in the door opening
Even if they are not that deadly extreme heat waves could crash power grids (which is very costly due to lost productivity), kill crops and livestock, damage infrastructure, cause extreme increases in energy demand, and generally cost a shitload of money.
A higher frequency of extreme cold in winter in areas that are not accustomed to it, like what recently happened in Texas, may also occur with similar consequences.
I don't think climate change will be a catastrophe movie directed by JJ Abrams. I think it will be a gradual process in which we pay back the "loan" of fossil fuel use with interest.
We put our civilization on a credit card without knowing the interest rate.
We could have really slowed down our running up the balance in the 1970s and 1980s with nuclear power, but we didn't. We could still be doing that plus deploying a lot of renewable and storage tech that was not mature back then, but we're doing far too little of that. We are still adding to the card balance and we still don't know the interest or the repayment terms.
If there are feedback loops in the climate system that we trigger, the loan could be an ARM with unscheduled interest rate increases and balloon payments.
Wet bulb thermometer is the kind that a pair of thermometers are mounted together with one wrapped in wet cotton and the other dry. Typically between the two glass tubes is a little look up table that gives humidity from current dry bulb temperature and delta between the two.
I don't know what exactly environment reaching 35C/95F web bulb means, but considering 1) it indicates temperature of a thermometer cooled by evaporation, and 2) body temperature of a human is ~40C/100F, I think it means evaporative cooling aka sweating is becoming useless. It won't be a huge stretch to consider that unsurvivable.
Wet bulb 35C is equivalent to a heat index of 160F.
One issue that people who haven't experienced extreme heat might not realize is a lot of people just pass out really quickly. While it takes a while to go past the point of no return and they theoretically could be egressed to somewhere they can cool off and recover, if they're alone, they're not going to.
I understand you are probably American and therefore not used to Celsius but just so you know the body of a human is around 37.7 °C. 40 °C is already life-threatening.
Indeed. Strapping on a pair of active CPU heatsink through a B6 sized aluminum cold plate to the back of waist helps immensely in that kind of climate. But it needs constant 12V/0.5-1A DC supply.
> It turns out, in those temperatures, even young and healthy people can't survive.
Of note: that’s literal, even doing nothing and sitting in front of a fan you can’t cool down.
And do one of the issues 35 WBT “hides” is that any activity lowers the heat stress threshold. Sugarcane workers are already dying due to heat stress today, and have been for a while. There’s been an “epidemic” of “kidney disease” in central american sugarcane fields for a decade now, with young men showing rates of kidney diseases 15x the norm.
"Even heat-adapted people cannot carry out normal outdoor activities past a wet-bulb temperature of 32°C (90°F), equivalent to a heat index of 55°C (130°F). The theoretical limit to human survival for more than a few hours in the shade, even with unlimited water, is 35°C (95°F) – theoretically equivalent to a heat index of 70°C (160°F), though the heat index does not go that high."
So the practical limit is indeed much lower than 35°C; that's the limit at which you're basically going to fall over and die.
I'm not sure that phrase means what you think it means... Yes, there were ~600 tragic deaths in BC from the heat dome, but en masse means 'as a whole' or 'as a group', and a .012% death rate does not really qualify there.
i probably have a comment somewhere recently, but singapore is already in WBT >35 conditions in the day. it eases to around 30 at night or when rain falls.
as long as power is running, it's actually fine in this country, but that's because we've designed our living space around the heat. it is entirely possible to never be exposed to the sun in a normal day in the life of a working resident here if you stay in the right neighbourhood, and this includes the daily commute, hobbies, physical activity, going out for drinks etc.
more and more of the country is being built underground and more and more of our air is becoming conditioned. this is the arcology of the future and it is somewhat pleasant.
edit: actually i think our infrastructure was built around protecting us from the harsh and unpredictable tropical thunderstorms and the protection from heat turned out to be a nice bonus.
Having lived in Singapore for five years (2012-2017) (and worked out in the field for about 50% of that time) I can say that Singapore is one of the milder places to live. It never ever gets particularly hot (I genuinely can't recall a 100+ degree day in the entire time I was there), and the humidity, while, "sticky" is never really extreme. The thing that gets to you is that the climate never seems to change (with the exception of a lot of rain) - it's always pretty humid and in the high 70s/low 80s, 24x7x365.
Once you acclimate to it though - it's fine - I used to do a 5 mile run every day from Anson Road/GardensByTheBay/MBS - wasn't an issue.
I worked in Dubai for about 6 months, and there were days there that I honestly thought I might die if I didn't get somewhere cool. And it wasn't the days that were 115 degrees Fahrenheit (46 Celsius) (though those were intense) - but the 100-105 degrees at super high humidity that would knock you on your back. Your entire body would be instantly bathed in sweat and it wouldn't help.
I was fine without Air Conditioning in Singapore - would sometimes turn mine off and just open the windows, but I can imagine anyone doing that in Dubai during the hot season.
> I can say that Singapore is one of the milder places to live. It never ever gets particularly hot
Singapore is almost exactly on the equator. UV readings get up to 11 each day (extreme), whereas the most I ever saw in say SF was 5.
Your experience is one experience, mine is that it's a sauna every day of the year. I've experienced extremely hot days in terms of subjective experience of WBT as explained in article. My gf, a local here, also decries the heat. I personally cannot go running before 5:30pm. I got a major sunburn on my back at 5:30pm the time I tried running shirtless at east coast park. Granted, I am pale.
Really? London is 6 today, was 7 last week and 8 earlier this year.
I do also concur with the GP that Singapore is relatively mild as far as equatorial/tropical climates go. India, the Middle East, the Philippines and even Australia are sometimes much more oppressive.
The hottest day ever recorded in Singapore was 37c, whereas London is 38c and SF is apparently 41c. Of course, Singapore is more humid (and thus higher WBT) - but it's also much more consistent. In theory that would make it easier to acclimate..... but then Singaporeans seem to run their AC set to freezing.
It is unintuitive, but equatorial locations are usually stable and relatively moderate. They will tend to be uncomfortably warm year round, but never experience the temperature swings of locations much further north or south.
Look at this map of max temperatures and note that the equator runs through a band of relatively low max temperatures: Indonesia, northern South America, and the more southern part of Africa show bands of conspicuous coolness. The hottest max temperatures are in places like southern North America, India, Northern Africa, and Australia; locations that are in fact very far away from the equator.
The max temperatures of a place is caused by many things, such as proximity to water and local wind currents, but one driving reason is relatively simple: because of the tilt of the earth, every day on the equator is 12 hours. North or south of the equator, on the summer solstice, you can get 15 hour days, depending on latitude. The summer is a period of continuously intense solar heating. Again, there are other factors, but the sun is the driving force.
As a fellow Singapore resident, it's undoubtedly hot. The parent's point was that there are places like the Gulf that are unquestionably hotter.
I once visited Kuwait in August, and it was 52 degrees in the shade with near-100% humidity. I genuinely do not understand how some people survive there today without aircon, much less how they will do so if temps go up a few more degrees.
But what are you comparing it to? Anywhere tropical (or even mediterranean) is going to seem hot compared to SF. Not being able to run until the evening and getting sunburn at 5.30pm are standard in a mediterranean summer too
Singapore is also really cloudy. Definitely not "Sauna" like Dubai (or Washington DC on a bad day) - but non-stop "Sticky". I was always wet, but would work outdoors for 4-6 hours/day doing field survey work across the entire island.
In the time I spent in Dubai (about six months) in comparison, I had to seek shelter from the heat/sun a half-dozen times, and came close to heat-stroking a bunch of times. That was after 4+ years in Singapore.
I drank a lot of water in Singapore - but never, in a million years would I have gone on a trek like MacRitchie reservoir in Dubai - and in Singapore I took my 65 year old mother through the entire loop.
Just completely different environments - Singapore is not the type of environment being discussed in the original article.
The Changi airport weather station does not have any recordings of a 35C wet bulb temperature. And this paper suggests that it is a very uncommon occurrence as yet. What source are you using?
Yes sorry I shouldn’t be conflating two different concepts. Wbt >35 is the fatal temperature. Wbgt black (>31-32 depending on source) is where physical activity is dangerous.
Yes, I sometimes feel like I'm at death's door when jogging outdoors. Myself and some Westerners I know haven't "adapted", even after years being here. The strategy is just always have ice water in hand if outdoors for prolonged time. I sometimes get laughed at for not adjusting to the heat, but I think it's just too much for some genetic lineages from outside tropics.
Unfortunately a large percentage of folks in HDB flats don't have AC, so I do fear for many citizens in Singapore. With global warming trends it should simply be a free or heavily subsidized utility here.
After a car accident, I had to depend on public transport in the boondocks where my job required shuttling from site to site in very humid hot tropical weather.
I thought I was going to die that first week.
One of the locals finally told me I couldnt just walk out of airconditioned low humidity offices into the street and roam around, without giving my body 10-15 minutes to recalibrate. So before setting out from air conditioned buildings, I would stand outside in the shade for a bit and then head out. And that made a big difference. I started sweating less and didnt feel humidity as much.
I've been thinking about this, and it's seeming like childhood exposure to prolonged heat and humidity may be what gives you the ability to handle it as an adult.
It's just an anecdote, of course, but there are notable examples of people i think should be from genetic backgrounds that could handle the heat that can't, and vice versa.
Without a reference handy to back this statement up I think there may indeed be epigenetic changes. Perhaps even more pronounced would be the experience of the mother in hotter environments during pregnancy.
I used to work construction and when I was a teenager I worked on farms growing up in the rural South.
If you work outside all day you adapt very quickly to it. During the adjustment period you are chugging water all the time but you eventually adjust. It's a circulation adaptation that's been observed with special forces recruits.
> If you work outside all day you adapt very quickly to it.
Sort of yes, sort of no. In some industries, those who do hard labour in heat have a terrible death rate from kidney disease. There is a lot in the news about this in relation to sugarcane workers.
Eg:
https://www.theguardian.com/world/2012/oct/14/kidney-disease...
I'm in Denmark, when it gets 26 degrees here I drench my shirts in ice water and put in the freezer for a bit and then put on to cool down. I'm guessing, given what a wimp I am about the temperature, a few more degrees and I'm one of the first to die.
I've lived in Australia and Norway. Your body adapts to ongoing temperatures. In Norway you're taking off your jumper as heads into double digits entering spring time. In Australian summer your putting on a jumper at 22 if there's a cold summer night.
We've literally be talking to Norwegian family about their nice 22 degree day at the beach while I was loading the fire place, they asked me the temperature, checked and was 22 also, though would have dropped later at night.
I find over 35 gets tough to do ongoing outdoor work. An hour or 2 then you need an hour or 2 to cool down. Hitting, 40c this is getting too hot.
Yeah, people don't understand that the human body is remarkably adaptable. Just need to stay in a place for a while (a few weeks to months). I've cycled to school ~10 kms everyday in 35-40° as a kid, came home to cool down instantly under a ceiling fan. Now in my current city I find 27+ too hot.
That's contradictory to leading sleep scientists like Matthew Walker, Peter Attia, etc. which is clear about need for chilly environment for sleep quality, eg < 21C. Granted, sleep science isn't oriented towards the genetics of the tropics yet, but there's plenty of evidence about temperature and sleep quality for more northern genetics anyway.
I agree with the parent. Killing the AC for weeks on end really helped me acclimate to the local temperature.
I'm not saying it resulted in quality sleep (as a Canadian - I set the thermostat to 13 degrees in the winter when sleeping, and my ideal temperature in the summer is about 18 degrees) - but you get used to the outdoor climate reasonably quickly (in my case, about 4-6 months).
Is 18 degrees assuming a fairly warm duvet covers / blankets? When I was staying hostels the dorms would sometimes be air conditioned and only a sheet would be provided for cover, and I struggled to sleep in anything colder than 21, and I'd have had it up to 22-24 if I could.
Sort of - now that I live in Michigan, and re-acclimated to a northern climate, at 21 I have to sleep on top of blankets or I overheat (though, I will find that after a few hours, my body cools down while sleeping and I may pull a blanket overtop me). 18 + a normal duvet is perfection. Cool enough for blankets, but not so cold that I feel uncomfortable.
This is mostly a meditation on the fact that I used to be able to sleep in temperatures of 26-27 in Singapore. The human body (at least this one) can definitely acclimate to local environments given some time and exposure.
Of course - no acclimating whatsoever will help you if the wetbulb temperature gets up to 35. You are just dead unless you can find some active cooling at that point fairly quickly.
I don't think it is contradictory - that is the point of adaptation that you expose yourself to something that is not optimal and your body learns to handle it. Think of it as artificially changing the range of conditions needed for good sleep quality by training.
Big factor is body fat, when I was very skinny I could take higher temperatures than 40pounds later. It made basically 5 celsius degrees difference of "quite nice and warm" vs "too hot to operate" temperature.
Lack of sun exposure can cause hypovitaminosis D, which is a known risk factor for COVID-19 and other infectious diseases. It also impacts nitric oxide production which is a factor in cardiovascular system health. Supplements can mitigate the problems to an extent but are inferior to natural sun exposure.
And before anyone brings up skin cancer, there is no reliable evidence that brief daily sun exposure increases all cause mortality.
Can't find it now, but this is probably based on a study/studies that I've seen that showed that lack of vitamin D is correlated with bad things, but supplementation doesn't fix the bad things nearly as much as you would expect. So, the idea some people have is that vitamin D is merely a correlate of something else that sun exposure does. I call it "sun magic" :)
...sometimes I secretly wonder if sunscreen (over-)use in America would one day be found to be the cause of rise in depression and other things like that over the last few decades, kinda like lead pipes of old. I don't think it's likely but it would be kinda funny.
My understanding is that it’s extremely hard to get large scale controlled studies on sun exposure vs vitimin d supplementation, so there is lots of uncertainty still on relative efficacy. I wouldn’t say certainly that it’s inferior to sun exposure, but sun exposure can clearly have many more effects than just stimulating production of vitimin d that could then appear to correlate with D serum levels.
Supplements for fat soluble nutrients like vitamin D generally have poor bioavailability unless used with specialized emulsifiers for insoluble compounds that aren't widely used [1]. The body has a hard time buffering and storing the excess, which it can't filter out through the kidneys.
It's like fast acting insulin versus insulin produced by a functioning pancreas - it's going to keep someone alive but it's not ideal for the body long term.
It is worth correcting, because I think most people haven't heard of wet-bulb, just as the methods and formulas that give us humidex "feels-like" temperatures aren't common knowledge.
A lot of ways we measure and describe the human experience of humidity and temperature are not standardized from location to location, so the non-local methods and terminology can be arcane for anyone who isn't a meteorologist.
No, dew point is the temperature of an object on which air will start to condensate (because cooling the given air to the dew point lets relative humidity rise above 100 %, i.e. condensation). Wet-bulb temperature is the lowest temperature an object can reach through evaporative cooling (i.e. humans).
The two are the same only if relative humidity is 100 %: 100 % relative humidity means that if the air cools at all, it will condensate; so the air temperature is the dew point. 100 % relative humidity also means that water cannot evaporate, as the air is already saturated with water, so the wet bulb temperature is also the same as the air temperature.
But that's the same isn't it, because condensation is a reversible process, as evaporation. At some point they will balance, and this is the dew point.
I find it amusing that people are trying to downplay this because it is feasibly survivable in their opinions. If you're wondering "how I can survive these circumstances in my own home?" things are already really, really bad.
95 Fahrenheit is actually quite survivable. It is dangerous for old people, young people, and the very sick when combined with sun exposure and other factors.
I spent much of my life living in that temperature range without A/C, working outside during the day in the sun.
It's hot but not going to kill you. In fact, there are massive homeless encampments outside my window right now in extremely humid, hot, Texas weather (it is 95-97 all week and very human). The homeless have endured many summers like this.
It is a massive stretch to say these temperatures are not survivable. They are not healthy in the long run - but neither is sun exposure.
It's an incredible exaggeration to say Chicago (where 600 people died in the heat wave) is not survivable at all when millions actually did survive the heat wave without AC.
35 wet-bulb temperature is not survivable. That is not a matter of opinion, it is a fact. Your body generates heat and at that temperature it is unable to shed it through any means and you will die in a couple of hours.
If a major city has such a heatwave, it will almost certainly be a mass casualty event, mitigated only by the duration of the wave and how many people have A/C (or how long the blackouts last).
A fan won't work because your sweat will not evaporate: in fact it just heats you up faster (like breathing on your skin in a sauna).
Such temperatures have only been measured a few times on earth, so no, you have not experienced them.
N.B. the 35c/95f temperature they're talking about is _not_ air temperature. It's 'wet bulb' temperature, or what the air temperature would be at 100% humidity. Only when the actual humidity is 100% are the two equivalent. Otherwise, the wet-bulb temperature measures the lowest temperature achievable by evaporative cooling. The survivability concerns of sweat being unable to cool humans below hyperthermic levels should be obvious.
At quick check, humidity in Houston is like 55%, so the wet-bulb temperature is only ~80f. Uncomfortably hot, but not close to the threshold discussed in TFA.
They're talking about wet bulb 95 degrees which occurs at somewhere around 130 degrees of open air temperature. You have not spent much of your life at wet bulb 95 degrees.
Critically, not just 'dry air' vs 'humid' in the human sense. Wet-bulb is temperature at 100% relative humidity. A 'humid' day in the human sense is like 60-70%.
For people reading "web bulb" here and not having the least idea of what it is, first of all it's "wet bulb", and this article explained it very clearly to me:
Seems like Wet Bulb is a more precise version of what some weather reporters call "Heat Index". Meant to measure how hot it actually feels on the skin. Is there any sort of formula mapping heat + humidity to wet bulb?
Genuine question: does old-style insulation not help? From when I was a kid I remember that a log house built using 60ies village technology (realistically probably more like 19th century technology), insulated with something stuffed in the triangles between logs and wallpaper and logs and planks (and partially eaten by mice ;)), stayed pleasantly cool on 90-degree days. And the dugout under it that we used to store potatoes and stuff like that was actually cold.
In a recent Seattle heatwave, when it was 107 outside my much poorer insulated semi-basement with direct sun shining into its large-ish windows, stayed under 85 without AC.
Couldn't people just build better / underground housing using relatively primitive technology?
This is temperature of air (big amplitude) vs temperature of ground X meters undergrounds. If you go deep enough it doesn't matter how hot it is outside - the temperature is basically constant the whole year.
I'd bet that data is from sensors with low heat dissipation. Unfortuantely, humans produce ~100W of heat each. If you're using a small underground basement as a place to escape lethal heat aboveground, or even a large underground basement with high people/m³, this added heat will steadily increase the basement's wall temperature.
The rate of temperature increase depends on physical properties of the basement walls: using the first equation here[0] as an approximation, set x to 0, set q"_o to 100W*(# people)/(basement surface area). α is the thermal diffusivity of the wall material [1].
A lot of new technology could potentially solve this problem.
There are certain types of roofs being installed called cool roofs that reflect heat and don’t absorb it that keeps the inside of building a little cooler.
Radiative cooling roofs, like those from sky cool systems actually cool your house during the day. I'm not sure how cost effective those are but the technology seems to be very promising.
Yep! Looks like the authors of the first paper I read on it (glass microspheres in silver-backed clear plastic film) are finally starting to commercialize it too... http://radi-cool.com/technologies/
Imagine a future where looters drive through wastelands where heat waves killed off the entire human population, dead bodies rotting in the street, and the looters rummaging through whatever valuables they find, exchanging occasional gunfire with a survivor or rival clans.
> everyone living under such a heat wave will likely die.
I mean ground and buildings have thermal inertia, if the heatwave is relatively short you can survive in basements or underground parking. Also water in the pipes will still be colder than the air most likely.
If there’s a heat wave and drought the only way is to dig tunnels and build cities underground. Water can be imported from the ocean (rising sea levels) and desalinated using solar/thermal power above ground and feed an aquifer!
What is actually going to happen is displacement. The hundreds of millions of people most vulnerable to the consequences of climate change don't have much choice but to start walking. The 2015 refugee crisis in Europe was nothing compared to that, never mind the tiny trivial inconvenience that is current illegal immigration across the Mexico–US border.
Agreed. Europe struggled to relocate 2.5M of refugees over several years.
What happens when people from India, the middle east, ... are forced to relocate? I expect some kind of conflict/war of expansion and probably famine since a lot of the land will be abandoned and hence become unproductive.
I'd expect the land to become unproductive first. A huge amount of agricultural land is threatened by the climate change, accelerated by other anthoropogenic effects such as soil erosion due to deforestation. Besides drought, heat, wind, and excess rainfall, there's flash floods caused by melting glaciers in the Alps, Himalayas, …
I think Bangladesh is also scheduled for certain crisis.
And let's be real, no wall (or frontex and the like) will ever keep out billions of people. If the world doesn't get its shit together and respond globally and collaboratively now, this will get ugly beyond imagination and no one, no matter the edgy coldness of their x-first attitude, will come out of this recognizable. People won't just die politely, much less when informed about who's to blame for all this hell.
I think there may be even possible consequences beyond everyone's worst nightmares when we see massive ecosystem collapses. What is it gonna be like, if you have unimaginable fields of mold and bacterial overgrowth? The winds bring Sahara's heavy mineral dust to Europe now, I am sure spores and toxic particles fly much better tomorrow...
On a purely technical basis that may seem reasonable.
On a "we're talking about human beings here" basis what do you do about all the people who feel that the selection and admission process was corrupt and that they've been robbed of their chance at safety? Do you expect them to meekly acquiesce?
I imagine once the first big wave where a nation hits the wetbulb temperature and there is a mass die off you will see panic in surrounding nations and they will scramble to a border. What will nations do with millions of people knocking at the fence wanting in? Uncertain times for sure.
I imagine this happening only in the least well-run countries. In any country with a functioning military, they'll probably organize a mass operation of moving people into temporary refugee camps in cooler areas of the country or into caves, underground structures etc. For people who won't be moved, they'll provide food and water for them so that people don't need to leave their hiding places during the day. (Also, I suspect that, after first major killer heat wave hits an area, people will have their own contingency strategies - be it digging a cellar for themselves to stay in, move to relatives in cooler areas for the duration etc.). However, I'm not sure if for example India is organized enough to pull this off, given their absolutely massive population.
"The study — published in the British journal The Lancet — analyzed data on more than 74 million deaths in 13 countries between 1985 and 2012. Of those, 5.4 million deaths were related to cold, while 311,000 were related to heat."
People are unlikely to start a mass migration from traditionally cold climates, but it is very likely that a mass migration will start when densely populated regions become lethal a couple of times a year.
Deaths from natural disasters are at or near civilizational all time lows on a fractional basis of the population, see quote below. This trend in lower deaths should continue. It is not clear to me that we are experiencing more extreme weather events than 100 years ago. We haven't had anything like the Dust Bowl (1930s) or the Great Chinese Famine that killed 45 million (https://alphahistory.com/chineserevolution/great-chinese-fam...) or the Chinese Famine of 1907 that killed 25 million (https://www.bartleby.com/essay/The-Deadly-Famine-And-The-190...). Or the Bengal famine or the Vietnamese famine of the 40s. Or the Yangtze flood of 1931 that killed 2 million. Or the Bhola cyclone of 1970 that killed 500K (https://en.m.wikipedia.org/wiki/1970_Bhola_cyclone)
"What we see is that in the early-to-mid 20th century, the annual death toll from disasters was high, often reaching over one million per year. In recent decades we have seen a substantial decline in deaths. In most years fewer than 20,000 die (and in the most recent decade, this has often been less than 10,000). Even in peak years with high-impact events, the death toll has not exceeded 500,000 since the mid-1960s.
This decline is even more impressive when we consider the rate of population growth over this period. When we correct for population – showing this data in terms of death rates (measured per 100,000 people) – we see an even greater decline over the past century. This chart can be viewed here."
Your confusion is caused by conflating two effects: the reduction in impacts from extreme weather driven by improved technology and scientific knowledge, and the increase in impacts driven by an increase in the frequency and severity of extreme weather events.
The reductions you discuss are attributable to the first of those two effects. Climate change drives the second. If we mitigate climate change then we can spare ourselves the increases attributable to the second effect.
You may reply that the first effect can always outpace the second, but I hope with some thought you can recognise that there is no evidence to support that claim, and it is essentially just an article of faith.
I wonder how practical it would be to sink 30 foot deep concrete tube shelters with a ladder and a lid. They could serve as emergency daytime shelters and someone could climb out at night to search for a location with working power or cooler weather.
There'll be issues keeping that cool and the air fresh putting enough people into them. Also some of the most endangered places have huge populations that would make sinking enough shelters difficult. Depending on the soil composition that might be a short term solution too. The soil surrounding the London Underground is particularly bad for this and it's estimated that 80% of the heat ever generated in the Underground is still there in the walls.
If mankind has to start living at night because daytime is too hot, at least night owls will no longer have to shorten their life expectancy to fit into a daytime schedule.
I do wonder, if wet bulb temperature is a function of temperature and humidity (assuming reducing temperature requires electricity usually) will the real trick to reduce mortality will be to reduce relative humidity in a confined space. A supply of emergency desiccants somewhere at home may be an avenue worth exploring.
I suppose the best available option for a lot of people if designated shelters aren't available would just be to walk to the nearest body of water and climb in, and wade around until the heat subsides.
Well, you'd have to take it on a case-by-case basis. I suppose as long as the water is at least somewhat below hot-tub temperatures it might be a reasonable way to sort-of cool off.
In the locations this happens, does everyone : have access to a bath (one per family member), running water (in a city were everyone is running a bath at the same time), a job where the aren't forced to go out and work every day to survive?
It only works if the water is cooler than the ambient air. A bathtub full of water will warm up to ambient at some point and won't be as effective after that.
Yes... But the first chapter the OP is talking about is truly horrifying, I honestly wish I hadn't read it. His other book New York 2041 also deals with climate change and is less traumatizing.
Yeah, there's so much unavoidable negativity around, so when I have the chance to choose I'd rather focus on positive things and read/consume things that make me happier instead of depressed.
Especially in terms of climate change. I try to live as green as I can and I vote for a climate focused party, other than that there's not much I can do as an individual. Reading about how bad things may become doesn't help me one bit.
Something else you can do as an individual is teach others about certain physics concepts that are massively misunderstood such as how air conditioning and heat pumps work.
Ask a layman and most of them will tel you a fridge just “creates cold” or something and don’t understand why leaving the fridge door open is not a way to cool your room.
Having people understand these concepts is critical so they can better reason about climate change, climate policies, make better and greener decisions etc.
A mass death event will likely happen in a city with 26 million people that most folks outside China aren’t aware of the danger..Shanghai. Shanghai has been having extreme heatwaves, the worst one in 2017 where the temperature went to 46 degrees. Shanghai is projected to be unlivable in this century.
I’m not sure if it’s an issue specifically around Shanghai, but electric power has been unsteady in China at large. An energy crisis during a heatwave could be indeed deadly, especially with the ambient temperatures of city life. I’m bullish on Chinese acumen for major infrastructure projects and I’m sure they will adapt, but that seems like a crazy costly set of projects. At this point ultrawhite paints look promising.
> especially in poor tropical countries that don't have a stable infrastructure to cool most people during such a heatwave
Like California? They already can’t keep the lights on with rolling blackouts happening every year. If one of those blackouts happens during a severe heatwave, it could be serious. Not to mention the serious economic cost of having a third-world quality grid in what should be one of the union’s most prosperous states.
For now. I was seeing temps pretty close to 120 last year. It was dry, but who knows how the climate will change either the humidity or the high temps. 130+ doesn’t seem inconceivable and that gets pretty close to the limit.
I think you don't understand what wet bulb temperature is.
Wet bulb temperature is a combination of humidity and temperature.
Wet bulb temperature of 35C means your body physically cannot get rid of heat and you WILL die, rather quickly, even in shade. There is no escape unless you have ability to control humidity (ie. remove some humidity from the air).
Up until recently we did not have situations on earth where wet bulb temperature would reach 35C. Even in the most hot places the air would be dry enough to bring wet bulb temperature down under 35C meaning, things can cool below human body temperature.
The issue is that a lot of people in hot places simply do not have the means to control their climate in their houses, assuming they have any.
I think we know based on the science we’re not going to see a stabilization in temperatures for at least 30 years under the best scenarios. We should focus on ways to save these lives. Solar powered swamp coolers is what is I’m thinking about. They require water however and that’s going to be as big of a problem as heat. Already is in many places.
Swamp coolers cool based on evaporative cooling: water evaporating into dry air reduces the (dry bulb) temperature of the air. So with high wet bulb temperatures indicating air is already saturated with moisture, the swamp cooler won't work.
Dehumidifiers are a thing. I presume that having water and electricity is a bigger problem for most people, but I’d love to be educated more on the problem, if you have links or literature.
(Commercially available) Dehumidifiers are basically small air conditioners with both the hot and cold side in the same room. You can't run them without electricity, and if you can run a dehumidifier, you may as well dump the heat outdoors instead and cool and dehumidify your space.
Yes, but combining a swamp cooler and a dehumidifier is most of the way there to a modern AC unit, both in concept and electricity need.
Most modern ACs in fact dehumidify and cool in one step with a compressor and then use the collected water to help carry heat away from the compressor by letting the water evaporate into the exhaust to save power (it's why you rarely have to empty water from modern dehumidifying ACs).
Dehumidifiers are air conditioners that put the heat back in the air they treat instead of dumping it outside. Your electricity would be better spent operating a real air conditioner.
Or you could use an Einstein-Szilard (aka absorption) refrigerator that works without electricity. It’s driven by heat. It uses 3 gases (butane, ammonia and water.) It has no moving parts so it’s safe.
Someone could make a “Einstein dehumidifier” using 19th century technology and roll it out across the world. If embedded in buildings it could cool them constantly with no electricity required.
I'm dissappointed to see you're being downvoted for what looks like a good faith (and common) misconception with a request for more information.
Anyway, the best way to learn more about this is to search for resources describing the "psychrometrics of evaporative cooling". Psychrometrics is the study of the thermodynamics of air and water vapor mixtures. Learning about the psychrometric chart, in particular, is helpful since it is a very clear, expressive tool that will illustrates how adiabitic (no change in thermal energy transfer) cooling can occur by adding humidity to dry air.
Swamp coolers do not work in high humidity. Running cool water from underground over oneself works, but is unsustainable and impractical. Going underground to someplace cool is also sometimes an option that does not require electricity, but is often impractical and highly situational.
Ultimately all that really works in our modern world at scale in such a heat wave is powered air conditioning, so ensuring that electrical power is not interrupted during such an event is of paramount importance if we are to avoid this new sort of natural disaster.
Interesting idea, though I'm not aware of any desiccants that would be appropriate for the scale we'd need to operate at here. Silica gel, for instance, wouldn't work because there's too much water to handle. Dehumidifiers could be used instead, but they heat up the air as they dry it out. I believe desiccants also heat up the air, but only slightly. Maybe they would heat up the air a significant amount if they were removing enough water from it for this scenario.
Migration. Large parts of the taiga and permafrost are about to open up to human habitation. All the folks in the Middle East and India should move north in search of better weather.
Human societies have been historically very bad at handling large scale migrations, but it's about to become necessary.
Apart from all the other issues (societal, etc) with that the climate of Yakutsk[1] can give an indication of how hospitable that region is. Spoiler: It’s temperature span is over 100C (nearly 200F). Brutal winters, brutal summers.
there was an article during the recent Oregon heat wave by someone who moved to the PNW as a hedge against climate change. that heat wave killed almost 200 people and is estimated to have killed a billion marine animals.
Migration is not going to cut it. Climate change is making weather more chaotic and unpredictable. Escape is impossible. The only place you can go where the planetary weather system’s disintegration does not pose a danger is space, where the absence of that same disintegrating weather system makes survival even harder.
No place is going to be safe, but some places are going to be a lot safer than others. The PNW or Canada is a lot better bet than the Middle East or Bangladesh.
Reversal is not really an option either; the best scientific evidence I've seen is that we've already past several tipping points that will accelerate warming regardless of what we do, and even if we haven't, we've had about zero decrease in worldwide CO2 emissions and a terrible track record in getting humanity to work together for common good.
Instead you build and live in highrise/towers - that gives cheap ventilation which is a half the solution.
And I liked the siesta and the following it very active life till deep night in Spain - another natural adaptation to hot climate. It makes for much calmer and steady life rhythm and feeling.
I mean, I'm sure this is valid in some places but having lived in high rises relatively far north in Canada let me tell you it is very possible (and in my experience very common) to build high rises that retain heat so well they basically bake the occupants in high heat/humidity.
I doubt most of North America's high rise apartment buildings above some latitude are particularly well equipped for this, so there's almost certainly a shift required in how you build them.
You can build ventilation or even just building houses with basements would help a bunch. The temperature underground is a lot more cool and steady and would help you escape the heat. There is a town in Australia that does exactly this because it's so friggin hot:
There are two cities in India that are pretty close by where this difference is very clear. Chennai is on the coast, while Bangalore is inland at a higher altitude while they’re both pretty much the same latitude.
The difference in perception even if the dry bulb temperature is the same is insane. In Bangalore I can always find shade and it’ll be cool instantly, but in Chennai my whole body is always soaking wet, my clothes are drenched with my own sweat and I still feel like always about to faint.
I used to take long walks during the day when I lived in Bangalore (it has other man made problems like traffic which are still irritating) but here I Chennai I can’t walk or jog outside even if I wanted to. I step outside only to run to the car and turn the AC on.
It's striking to me that according to the map in figure 4, the parts of the Indian subcontinent most at risk are in the Indus and Ganges valleys. Areas hundreds of miles further south (including Chennai and Bangalore) are safe!
Why is this? I see that the south is much more mountainous [1], whereas the Indus and Ganges valleys are very flat (hence that term "Indo-Gangetic Plain"). Is it just the combination of being low-altitude, being inland, and having lots of water? Or are there also differences in prevailing wind, or something else?
The seabreeze colliding with the mountains in South India likely results in significant cloud cover, which cools the surface by reflecting sunlight. You can see here that the southern region has less total sunlight per year (lighter = cloudier):
The article indicates that in tropical regions cloud cover has an impact on maximum temperature reached; subtropical regions have less consistent cloud and so have stronger heatwaves.
Similar question to this that I've been wondering this wildfire season -- at what point is AQI (Air Quality Index) too severe for human tolerance? The scale tops out at 500, what happens to a person if the air is even worse than that?
Some sensors near Medford, OR are reading in the upper 400's and even low 500's -- what happens if it hits what would be the 1000's if the scale went that high?
I'm mostly thinking of particulates, but AQI includes other gases like CO, SO2, NO2 so maybe those would be more dangerous than particulates (and certainly harder to filter out)
Practically speaking, you start wearing a mask. You start filtering the air inside, and you stop going outside. This way-of-life is already familiar to people in certain major cities, and to those with health issues that make them more vulnerable to air quality problems. It's a worse life, but it's still life.
This is one reason I hope it continues to be socially acceptable in the U.S. to wear masks. I've wanted to wear one even pre-covid for pollution and pollen, but you would get very weird looks, or even stopped by security in some cases.
I still wear mine. Recently visited family who live in $RED_VOTER area. Got a bunch of looks from the locals. Nobody said anything - and who cares if they did? I've learned to say "fuck off" in multiple languages (thank you internet!)
Medford resident here. We experienced a few days of 900+ last summer.
It's very bad. Even in the 400's, it feels like chain smoking. At 900 the air is thick enough to block out most of sun. I have no idea what this has done to my health, but I guarantee it's not good.
Wow. It hit 140 where I live and I immediately ran to the hardware store to buy better AC filters, and more air purifiers. How are you handling it in a practical sense?
Practically speaking... I guess you get used it. Yesterday I spent the afternoon outside by a river in 200+ AQI, and it didn't seem too bad. I use an N95 mask if it's bothering me, and a respirator if I have a lot of work to do outside.
The main issue for me so far has been psychological. Summer used to be peak season here, with tons of amazing nature and outdoor activities. Now, it's just a waiting game until the rain starts back up again.
The loss of place is palpable, honestly. My niece and nephew have never gotten to experience a normal summer:
https://imgur.com/a/EAVStxe
Edit: This graph cuts off at 2018, but believe me when I say that 2019, 2020, and 2021 have been even worse.
I’m speaking out of my depth here but I believe exposure related disease is based on the particle density over time. Particles can clog the respiratory system, reducing blood oxygen and introducing free radicals. To a large extent the body is able to remove the debris, but if there is too much buildup due to prolonged exposure to high AQI then it can be difficult to recover without intervention.
I was at a chain drug store the other day and saw a display for canned oxygen, regular and Peppermint flavor!?! It seemed like another sign of the apocalypse to me, but maybe just a gimmick or stopgap for terrible air quality events.
There are a bunch of cities in China and India where AQI peaks at well over 1000. As you'd expect, the long-term health effects are similar to chain smoking, but it doesn't cause healthy people to drop dead on the spot or anything. Asthmatics, on the hand, are in for a bad time.
One of the previous years AQI 246 (in SF) was compared to smoking 11 cigarettes a day by some researchers. Assuming you do literally nothing to avoid it, 500 must be like smoking a ~pack a day. That is a typical, easy to track volume for many smokers; I used to smoke a pack a day for a couple years (gave up completely ~15 years ago)... it's not great statistically (and certainly make cardio harder from my experience), but it feels just like normal life and is low enough impact that many people never give up 0_o
Well it already happens when big wildfires happen and people have dangerous air around for days. In the short term, keeping everything closed and using masks is probably enough.
If you mean as a permanent thing, you'd need houses to start having filters on air intake and no openable windows, with instead all air being circulated by the place that has a filter
Due to local geography trapping wildfire smoke, last week SLC, UT, USA hit over 200 and even walking to the mailbox without a mask on was uncomfortable. My friends were wearing N95s and respirators when walking to their cars and using the recirculation setting. My HVAC filter was dark with smoke particles.
Anything over 100 and I'm feeling uncomfortable. Practically speaking what happens is you stay inside and get good air filters if you have to go outside.
I wonder if people confuse wet bulb and dry bulb here. Wet bulb is related to how well your air conditioner or sweating will cool you. Dry bulb is what we usually say when taking a temperature reading, or listening to the local news' meteorologist.
Fair. Cooling towers in commercial HVAC use evaporative cooling. Residential cooling doesn't, but still has to exchange heat to a system above the load it common transfers. I think it may be worse in these situations, but I am not sure.
Sure, but the water in commercial AC is just to cool the compressor coils. It still uses a phase change system like any other AC, so it’s not limited by the wet bulb temperature (although the warmer the ambient temperature is, the less efficient it is).
We should call them exterminating heat events, make it clearer.
Love the people calling for air conditioning. They should make peace corp or something compulsory, the degree of out-of-toucedness on some people about the degree of infra and poverty that exists here is extraordinary.
> Our survey of the climate record from station data reveals many global TW exceedances of 31° and 33°C and two stations that have already reported multiple daily maximum TW values above 35°C.
I only did a quick skim of the paper, but I couldn't actually find which two stations they were talking about. I'm curious as to which two places they were.
Jacobabad - Pakistan, Ras al Khaimah - United Arab Emirates, and Jeddah - Saudi Arabia are the only cities with multiple TW>=35 recordings according to their table S2 in page 24 of this pdf https://advances.sciencemag.org/content/suppl/2020/05/04/6.1...
I see a lot of uninformed people on this thread thinking 35C wet bulb temperature isn't such a big deal and proposing various ineffective tips to cool down.
Let me explain what the issue is, in simple words:
WET BULB TEMPERATURE IS NOT TEMPERATURE YOU SEE ON A THERMOMETER. (please, don't nitpick, I am aware of wet bulb thermometers)
Wet bulb temperature is combination of temperature and humidity.
The simple layman way to understand it is it says what minimum temperature an object can attain by evaporating water off it, in perfect conditions (forced airflow, full shade, no internal heating, etc.)
When air is dry, even if it is hot you can evaporate sweat and cool down -- the wet bulb temperature is low in dry air.
You can survive on Sahara because while the air can be very hot, it is also dry. You sweat and you cool down.
As the humidity rises, the wet bulb temperature approaches dry bulb temperature and at 100% humidity they are both the same.
When air is 100% humid you cannot cool down by sweating at all -- the sweat will not evaporate in 100% humidity regardless of temperature.
Meaning that an air with 35C and 100% humidity has 35C wet bulb temperature but so can hotter air that has less than 100% humidity. The hotter air the lower humidity is needed for the object to cool down to 35C.
Wet bulb of 35C is a limit of human endurance. Even if you lie down in shade and do nothing and are completely healthy, your body is barely able to remove enough heat to survive. Any higher temperature and you WILL eventually die.
People who need to work (like move around at all) or are sick or are small (kids) will die faster.
The only way to resolve this issue is to dry the air somehow.
Things that don't work:
-- going into shade. You are still going to die, just a little bit slower.
-- having a fan. It can't cool you down, because water will not evaporate to cool anything below wet bulb temperature. You are going to die.
-- going into cellar. The air will get cooler but the humidity will rise. You are going to die, unless you can cool the air DRY BULB temperature below 35C. At which point your cellar will have water condensing on its walls which means you can remove humidity from air. It will be shitty, wet, 100% humid, hot place, to sit half a day in with your family, kids and neighbors that don't have an expansive cellar like you, but at least you will survive. Yay...
The issue is in areas that tend to be very hot and susceptible to this phenomenon, people tend to not have means to dry the air. They either don't have money for equipment or they have open homes (who keeps their home shut in a climate like that) assuming they have home at all.
From economic point of view, the problem is that even under wet bulb temperature of 35C some people will already be dying and others will have to stop whatever they are doing, which is not good for your economy.
> please, don't nitpick, I am aware of wet bulb thermometers
I don’t want to nitpick. Everything you wrote is correct as far as I know. I only want to add to it.
I think understanding what a wet bulb thermometer is crucial to understand the term. And it is a very simple thing: you take a totally normal thermometer, you put it in the shade. So far everything is normal, this is how you measure air temperature since forever. You then put a little sock on the end of the thermometer and make it wet. Super simple. On a traditional mercury thermometer the end is a little glass sphere where the mercury is stored. This glass sphere is called the “bulb”. A wet bulb thermometer is just a thermometer where the bulb is wet. Super simple.
Why would you do this? Obviously this “wet bulb” thermometer will measure a lower temperature than the dry one. This is because evaporation of the water takes away energy from the thermometer. The faster the water can evaporate bigger the difference you will see between the dry and the wet thermometers. If the air is saturated with water vapor then the two measurements will be the same. If the air is dry you will have lots of evaporation and the wet bulb will be way colder than the dry one. So if all you have is two thermometers a sock and a bucket of water you can measure the relative humidity in this indirect way by comparing the two temperatures.
An other way to think about a wet bulb thermometer is that it is a very crude modell of a sweating human. You keep the sock wet and that simulates the thermometer sweating. The temperature the termometer reaches is the limit of temperature you can cool yourself down using evaporative cooling.
I would add the wet bulb thermometer needs large evaporation area (so the sock cannot be too wet and definitely you can't put it in the bucket) and/or some airflow around it. Otherwise it will show some temperature between actual dry bulb and wet bulb temperatures.
In practice, nobody seriously uses wet bulb thermometers outside of school experiments because they are such a PITA. It is easier to just measure dry bulb temperature and humidity separately and then look up wbt in a table.
In general measuring temperatures correctly is a tricky business, what with temperature gradients in the objects you try to measure and the thermometer itself. I just recently needed to explain to a bunch of people why there is no such thing as "temperature in the sun" and that you can pick any temperature between WBT and around 5800K and it is going to be a correct temperature "in the sun" depending on properties and shape of the object you are trying to measure..
>nobody seriously uses wet bulb thermometers outside of school experiments because they are such a PITA. It is easier to just measure dry bulb temperature and humidity
How is humidity typically measured? I was under the assumption a hygrometer uses both dry and wet bulb measurements.
I guess I was dancing around the point a bit. I meant the definition of relative humidity uses dry/wet-bulb comparisons but we use all sorts of more pragmatic calibrated proxies to measure it in practice.
It looks like I’m confusing a classic psychrometer with more modern ones. The modern ones still use absorption of water to change some physical property like capacitance or resistance but this is also why they need to be continually calibrated against a true dry/wet bulb hygrometer.
My experience is that they tend to get out of cal quite often which can lead to bad scenarios, like if using enthalpy setback for air-handling
Well, wet bulb thermometer works specifically by evaporating water and measuring temperature.
Psychometer is completely different idea.
Yes, measuring humidity reliably is a difficult problem as basically any other measurement that requires direct exposure of eroding/corroding components and fragile electronics to elements.
I believe a psychrometer operates on the same principle.
"A psychrometer, or a wet and dry-bulb thermometer, consists of two calibrated thermometers, one that is dry and one that is kept moist with distilled water on a sock or wick. At temperatures above the freezing point of water, evaporation of water from the wick lowers the temperature, such that the wet-bulb thermometer will be at a lower temperature than that of the dry-bulb thermometer. "
The psychrometer just compares the wet and dry bulb temperatures to arrive at a relative-humidity value. I.e., it still operates on the principle of a wet-bulb thermometer.
> going into cellar. The air will get cooler but the humidity will rise. You are going to die, unless you can cool the air DRY BULB temperature below 35C.
Don't you mean wet bulb temperature? Why would you need a dry bulb temperature below 35C?
> It will be shitty, wet, 100% humid, hot place, to sit half a day in with your family, kids and neighbors that don't have an expansive cellar like you, but at least you will survive
If we do start seeing this kind of temperature around the world, I expect people will start building underground refugees or repurposing existing structures.
I mean DRY BULB temperature. Reducing dry bulb temperature == removing heat. Reducing wet bulb temperature == removing humidity.
But it doesn't matter a lot, because at 100% humidity (required to spontaneously dew humidity out of air) dry bulb temperature equals wet bulb temperature.
Dry bulb changes indpendently of wet bulb temperature but cannot be lower than wet bulb temperature.
Because when air temperature (dry bulb) reaches wet bulb temperature you are at dew point and when you cool down further all that moisture is going to either cause mist or dew or snow or rime.
In fact, lowering DRY BULB temperature under dew point (WET BULB temperature) is the leading way to remove humidity in nature -- the water precipitates in the form of mist high up in the atmosphere, the mist coalesces into droplets and falls down on air as rain. Alternatively, if the temperature is below zero, it causes snow by sublimation (both wet and dry bulb temperatures are equal.
>Reducing dry bulb temperature == removing heat. Reducing wet bulb temperature == removing humidity.
This isn't the best interpretation. Both reducing humidity and reducing dry-bulb temperature can reduce the amount of energy in the air.
Take a look at a psychrometric chart [1]. If you hold the humidity constant and reduce dry bulb temperature, you indeed reduce the enthalpy (what I interpret you mean by 'heat'). Likewise, if you keep the dry-bulb temperature constant and reduce the humidity you also reduce the enthalpy
To your point, this is why fixed dry-bulb economizers aren't recommended in humid climates as a means of conserving air-conditioning energy by bringing in outside air but enthalpy controllers are allowed across all zones.
TLDR: The air gets cooler but still can't cool you. Your body produces heat that has nowhere to go and you still die. Then the walls of the cellar heat up immediately, because cooling 100% humid air requires sinking a lot of energy.
If you found yourself in conditions of an actual heat wave as described, you would despair at the fact the air can get cooler in your cellar but it doesn't cool you at all.
Which is counterintuitive but unfortunately that's how physics works.
First, humidity does not have to be very close to 100%.
In fact, in most cases it isn't and the reported waves of 35C WBT are almost all between 42 and 44C in absolute temperature. This means the air has to cool down 7-9 degrees before it even reaches dew point.
7-9 degrees is a huge temperature difference when temperature is over 40C.
Unfortunately the problem isn't the air temperature. The problem is your body's ability to remove heat. And if you take air and cool it down the temperature will drop but humidity will rise. The wet bulb temperature is preserved unless you can somehow remove water from air. And with wet bulb temperature being same 35C your body still doesn't have any way to remove heat and you are still going to die.
Only after the air cools down by 7-9 degrees celsius you can start seeing any effects, but don't be too happy.
Because physics has a nasty trick to play on you.
The effects of water condensing on walls of your cellar is going to be your cellar walls heating up immediately.
Yes, water cools stuff efficiently when it evaporates but just as efficiently it heats it up when it condenses.
Conservation of energy is a bitch. Please, learn some physics, it is really fun. And sometimes terrifying.
So your cellar is very likely to have very limited ability to cool down very hot humid air and condense water out of it.
This is all fascinating stuff to me, I'd never really heard of wet bulb before. Quick question though: how does the pressure difference play into this in a basement? As far as I'm aware below ground pressure and voids under basements tend to cause pressure differentials in even non-AC basements (causing radon issues where I'm from)? I assume this would help a cellar situation in the event of power outage as air even slightly below ground tends to be much cooler than above ground air?
The pressure difference between your backyard and your basement is for all practical purposes null. It is also orders of magnitude smaller than those caused by gusts of wind and changing weather.
I'm not sure this is so simple. Clearly your answer is correct with a largely uninsulated house with a basement only partially below ground (perhaps most of the developing world to be fair). Any semi-sealed home will have heat naturally accumulate (and dissipate) at the top. Apparently the movement of air upward - known as the stack effect - creates a (slight) vacuum pull at the bottom. Of course it's a small effect in normal temperatures but in extreme reverse stack-effect scenarios like you're describing the ground temperature below 3 - 5 feet should result in a basement being lower temperature than the backyard as available air gets sucked through the cooler ground to get into the basement? I'm sure this varies widely by region (ground temps vary in 3 - 5 ft depths) but everywhere this temperature will be cooler than the outside in such weather extremes.
>The effects of water condensing on walls of your cellar is going to be your cellar walls heating up immediately.
While true about the conservation of energy, the drastic differences in both mass and heat capacity of air/earth mean the cellar walls will probably have no perceptible change in temperature.
> TLDR: The air gets cooler but still can't cool you.
Evaporative cooling is not the only kind of cooling that exists.
If this were the case you’d die of heat death standing in the middle of 100% humidity antarctica.
If your cellar is cold enough you’ll be in a much better situation than before. You seem to assume that the moment you open your cellar door, all humidity and temperature will immediately equalize with the outside.
There are generally two type of heat in this scenario sensible and latent.
Think about when you heat up water on the stove. If you were to graph the temperature T against the heat energy added Q, you would see the temperature gradually rise as the amount of heat was added. This is the 'sensible' heat. But at a certain point the water would hit boiling temperature. You're still adding heat but the temperature is no longer increasing so what gives? The energy is now going towards phase changing the water from a liquid to a gas. This is the 'latent' heat.
The OP is just saying there are more paths than just latent heat transfer, which is why they said you won't overheat in Antarctica if it's 100% RH. Your statement here is that evaporative (latent) cooling won't happen at 100% humidity but sensible cooling can still occur. You're both on the same page.
The most dangerous / frequent occurrences seem to be measured in the middle east near shallow gulf coasts. Appleton Wisconsin holds the continental US record, apparently?
> The highest dew points, and therefore the highest heat indices are usually found near warm bodies of water.
> In the world, the warmest water is found in the Persian Gulf where the water temperature typically reaches up to 90°F (32°C) in summer. Therefore dew points will be that high as well.
> The highest dew point ever recorded, 95°F (35°C), was recorded at Dhahran, Saudi Arabia, on July 8, 2003. With an air temperature of 108°F (42°C) the heat index was 178°F (81°C).
> In the United States, the highest dew point ever recorded, 90°F (32°C), was recorded at the New Orleans Naval Air Station, on July 30, 1987, Melbourne, Florida on July 12, 1987. Heat indices were in the 130's°F (50's°C).
> Appleton, Wisconsin also had a 90°F (32°C) dew point on July 13, 1995 with a heat index of 149°F (65°C)."
The RCP8.5 scenario would require that humanity burned almost every last drop of oil and did nothing to mitigate carbon. That's not likely because the remaining fossil fuel deposits are significantly more costly and energy-intensive to extract. Eventually the energy return on energy invested will drop to economically nonviable levels. It's debatable whether the carbon emitted in 8.5 is even physically possible.
My guess is humans collaborating on a green future will mitigate emissions ever so slightly. But it will be energy/financial crises that force us to.
So can we look forward to fewer impacts under a more moderate pathway (say 4.5 w/m^2)? Probably not. The IPCC has consistently under-estimated the impacts and ignored feedback loops. Even the latest AR6 report says "Additional ecosystem responses to warming not yet fully included in climate models, such as CO2 and CH4 fluxes from wetlands, permafrost thaw and wildfires, would further increase concentrations of these gases in the atmosphere." We're locked into runaway climate impacts for centuries either way, not much of a consolation prize.
Obviously no one wants this to happen, but I wonder about any possible mitigation strategies. Like creating homes and infrastructure under the ground, or at least covered by lots of insulation, like a Moon base covered with lots of dirt.
Of course, that would completely suck for the people who have to live there, and we should do our best to prevent it, but some people probably aren't going to have a choice but to try and handle it in whatever way they can.
One kind of building that I came across is called an "Earthship", which relies on "thermal mass construction and natural cross-ventilation to regulate indoor temperature".[1]
It will be somewhat difficult to retrofit buildings to take advantage of e.g. thermal mass inertia, but I'm hopeful that new construction will increasingly favor passive/low-energy cooling methods.
I’ve been saying for years now that we’ll most probably see a time in our lifetime where you need to wear a (light) space-suit style thing to go outside in some seasons. Insulated and actively heated/cooled, possible with air filtration for pollution/smoke/etc. There’s already been some companies playing with the idea as a prototype/art/statement level but I truly think it’s inevitable that it becomes more common.
They make refrigeration systems for people who work outside. It’s a giant compressor that cools a liquid and moves that liquid through a tube and across a persons body via a vest. I remember one guy who owns a roofing business was saying that it’s totally worth the money to cool your crew down because your guys actually work faster and also you won’t have any heat injuries.
There are 4 broad scenarios according to which (or a combination thereof) the climate emergency will develop:
1) In a giant case of prisoners' dilemma, the humanity will coordinate worldwide and rise to the occasion, massively cut emissions, tax carbon, build out renewables, etc.
2) There will be massive technological breakthru-s in carbon capture and/or energy production and/or geo-engineering (and I am not talking about things like nuclear, where the tech is mostly there but the rising-to-the-occasion bit is missing).
3) Somehow, the models and projections would turn out to be overblown, or the more mellow of the serious models that project we lose N% GDP or whatever would turn out to be correct.
4) We're doomed, doomed!
Given the humanity's realistic record with (1) and (3)... either fusion works, or [0]
Whether it's 2050, 2060, or 2070 for going carbon neutral does not actually matter that much. It's one of the main points people are haggling about right now (e.g. in Glasgow at the climate change conference in a few months). Which will feature a lot of #1 enabled by #2. How good or bad our models are right now is going to be of interest to historians only (i.e. #3). We'll dodge extinction but will likely deal with the aftermath of our past actions for centuries regardless. But getting to carbon neutral seems to get us to a stage where we might manage.
The point is that we can call a date for this at all at this point because things are happening that are going to make that a reality. That's because of technical breakthroughs (i.e. scenario #2) that mostly already happened. And more is on the way. So any conservative date policicans call, might end up moving to an earlier date when that happens.
Whether you consider nuclear/fusion part of this progress is a bit of a political topic. My point is that we'll be fine with or without that happening. The "we're doomed unless we bet everything on technology X" scenario is basically just a variant of #4.
Actually, we're just dealing with the logistical aftermath of the results of these technical breakthroughs not being ubiquitous yet. But technically there's no other reason to keep burning stuff (coal, wood, gas, peat, etc.) other than that we are dependent on burning lots of it with our existing and increasingly more expensive to operate infrastructure. It's cheaper to not do that already but it just takes time to get ourselves there. 30-40 years sounds about right for getting that done.
Fixing our infrastructure is much less dependent on new technical breakthroughs (e.g. fusion or nuclear) than it is on simply doing more of the (already profitable) things that are being done anyway. Whether it is building gigafactories for batteries, building off shore wind farms, or deploying solar; it all seems to have decent ROI and popular with investors. Unlocking more capital for this is actually becoming easy and uncontroversial. If you separate the moralism and rhetoric from the economics, even the most conservative climate change deniers would not mind some cheap solar on their roof, lower electricity bills, or a ridiculous electrical ford truck with low cost and operational expenses. Paying less for more is a great way to drive progress and incentivize the masses. That's not to say that further breakthroughs aren't needed. They are, and they will happen as well. And IMHO speed up the agenda here.
While it would cost tens of trillions to make a sunshade by launching from Earth, making sunshades and launching them from the moon should be viable thanks to the lack of atmosphere and low gravity. Assuming that a few million tons of mass is enough to set up a space sunshade manufacturing station (and railgun launch rails) it should only cost a few trillion dollars, cheaper than reducing CO2 emissions.
Thanks for distilling the situation so well. I’ve been stuck obsessing over the doomsday scenario. It’s easy to forget there’s other possible futures that might lessen my anxiety and push me to make certain helpful personal and career choices.
Its funny how many people inflate their importance and think their occupation makes the world go round. In reality it takes a lot of people to keep everything in working order. Specially low wage labor is of disproportional importance. Work done by people who are often (or by definition) financially fragile. A good number of these (and slightly above) involve manual work in already harsh (if not hot) environment. When things get unbearable these people will look at their cards, fold and run away leaving hard to predict holes in the economy.
Can we start considering high tech solutions to actively cool the planet? We're going to slowly work on carbon, but it won't be fast enough. In the meantime, We need to prevent heat getting to Earth, either via more cloud cover or space mirrors in the LaGrange point.
I'm not a fan of either, but what's the alternative? Bake to death while the powerful decision makers delay changing anything?
We can’t. Let’s say that you find a magic box that can offset 20% of the carbon emissions globally. Yay you just reduced carbon emissions. But there is no budget for carbon emissions. So those who produce it (agriculture, heavy industry) can now feel free to just produce more CO2 and toss it into the air. Besides, not every place is as industrialized as the US or China but they want to be. So the emissions will soon catch up to the old levels while your machine is cranking at full speed.
It’s the equivalent of getting a second job because you can’t stop spending money: it’ll offset when you go broke but won’t prevent it. The only way to fix this is to tax the shit out of anything that pollutes with CO2 or other greenhouse gasses (which will naturally be passed on as a cost to consumers). There is jo other way out.
People emit little CO2 by themselves. Your choice of a Prius vs a Camry isn’t by and large as important as the food you eat. Just by being alive you are consuming about 10kW if you live in the US, the majority of which is the fact that the food you eat is grown on mega farms. Between agricultural machinery, fertilizer, and transportation of that food from the farms to your grocery store, that’s the major part of your energy consumption. Per capita energy consumption is a surprisingly strong indicator of quality of life. Third world countries often top out at less than 1kW for example.
So in a world where everyone is trying to get to a high quality of life and only about 1B out of 8B have it, and in a world where for 7B to get to that quality of life we need to increase their energy consumption by a factor of 5-10, we are in a constant increase of total human energy consumption. Combined with population growth, we are nowhere near peak human CO2 output. In other words if you can make a device that can remove 20x of the CO2 we are currently putting out, then yes we could use that tech, assuming we don’t come up with some more quality of life ideas that push the energy budget further up the scale of course. But anything less than that won’t be enough as there is an accelerating growth in CO2 emissions with more or less no end in sight.
Here again, one of those cases where as a non-native English speaker, despite 12+ years living in English-speaking countries and working for English-speaking companies, I encounter a term for the first time in my 44-years old life: "wet-bulb".
The wet-bulb temperature is defined as the temperature of a parcel of air cooled to saturation (100% relative humidity) by the evaporation of water into it, with the latent heat supplied by the parcel.
But don't worry, ironically the people who so generously provided the raw materials needed to raise global temperatures and sea levels are equally working on solutions to keep their asses out of the heat and their feet from getting wet.
From the abstract of the last paper, which isn't fully available online, sadly:
"...this paper ventures regional planning responses to adapt to these threats through decentralising populations to inland areas."
Dispersion to the inland areas?
Sure, but the inland areas of which countries?
...
But if they are lucky, they will maybe provide the material for cool and vast underground arcologies that could even reduce carbon dioxide emission from the building industry:
95F TB (Temperature Wet Bulb) is when the humidity is 100% and it is 95F out. The lower the humidity, the lower the TB value. At 40% humidity and 120F temperature, you get 96F TB. Imagine 120F at 40% humidity. Insane, right?
That’s what kind of temperatures this paper is talking about: dangerously hot and humid.
Of all the gibberish conspiracy theories about the downfall of society, this is the one thing that's definitely happening and needs to be addressed urgently.
Don't worry about it. All this "doom and gloom" stuff will only affect the poor in far away countries. It'll be decades before it seriously impacts your way of life.
I hope it does impact rich countries soon though. That's the only way they'll take the problem seriously without pushing vague ideals like "human rights and dignity"
Strangely enough, there seems to be a correlation between governments and people ignoring the effects of their actions on the climate, and the doom and gloom posts.
What about just nationalizing the entire energy industry and everything related, instead of trying to work within the parameters of a free market for something with so many externalities?
Interesting. It’s possible the government could run it well but I would worry without a profit motive they might not adjust to supply and demand quickly and might not pursue new technologies like fusion.
energy research is typically publicly funded, no? With a profit motive, why would you even do anything besides the easiest and cheapest option of burning fossil fuels?
Fusion research, especially, is so pie-in-the-sky right now that I doubt any profit-motivated company would even touch it with a 10 foot pole.
Call me Mr Glass Half Full, but since cold kills 20x more people than heat shouldn't we look forward to a future where many more people survive temperature extremes?
Another problem is that in wet conditions the virus aerosols spread much more rapidly. If people crowd into cooling shelters they’ll all get covid, masks or no masks.
Wet bulb 35°C, which feels like 160°F dry bulb for those of us who are in the USA with varying amounts of water in the air.
> The wet-bulb temperature is defined as the temperature of a parcel of air cooled to saturation (100% relative humidity) by the evaporation of water into it
...
The theoretical limit to human survival for more than a few hours in the shade, even with unlimited water, is 35 °C (95 °F) – theoretically equivalent to a heat index of 70 °C (160 °F)
Tell that to the conservatives/climate change deniers. They are already in favour of "moving inland" to combat rising sea levels due to climate change. I'm sure they are also in favour of evolving mankind to be able to survive harsh climate.
The limit is 35°C wet bulb temperature. The temperature you're accustomed to reading is dry bulb. You can't compare wet and dry bulb readings; they're completely different measures.
The annual maximum wet bulb temperature in Arizona the last few years has been about 24°C. You were nowhere near the limit.
It gets to 115+F where I live, sometimes for a few days. If you go outside bald in full sun without a hat, within seconds it feels as though your brain is cooking in your skull. It's liveable for a short stretch, but seriously discourages you from going outside. Parts of the garden crisp up and die in a day.
This post appears to be fully within the
Hacker News "approach to comments" and
"site guidelines".
The atmospheric temperature discussed as
dangerous has been common in many parts of
the earth for many years and is not nearly
new. The real threat discussed is from
heavy consideration of
"business-as-usual RCP8.5 emissions
scenario"
and that is based on climate models
evaluating the future, 2050+, effects of
human sources of CO2 on temperature and
climate.
We have a long history of such models.
Apparently they are usually based on the
fact that CO2 is a greenhouse gas.
The main question about CO2 is how much
warming will be caused by a given quantity
of CO2 from human activities.
Yes, CO2 is a greenhouse gas, but maybe
surprisingly so far from either
observations or models, we have no
credible evidence that human sources of
CO2 have caused, are causing, or will
cause significant warming.
Okay, let's look at the observational
data:
There was a movie, An Inconvenient
Truth. With data from Antarctic ice
cores, the movie showed, for the
atmosphere, a graph of temperature and CO2
concentrations going back about 800,000
years.
As I watched the movie, it appeared that
the claim was that the graph showed
temperature and CO2 concentrations going
up and down together. Then the movie
concluded that the higher concentrations
of CO2 caused the higher temperatures.
Then there was a claim that currently more
CO2 from human activities would rapidly
cause significantly higher temperatures.
But, we could look at that graph more
closely, and doing that we will see three
situations:
(1) When temperature started to increase,
CO2 (concentration, here and below) was
low, not high. So, something caused the
warming, but it was not high CO2.
(2) About 800 years later, CO2 had
increased. Presumably the cause was more
biological activity from the higher
temperatures.
(3) Some thousands of years later, while
CO2 was high, the temperatures fell again.
There was a cause, but it was not low CO2.
Indeed, the high CO2 did not keep
temperatures from falling.
Net, from that 800,000 years of data,
there is no evidence that high CO2 caused
high temperatures. It would be more
accurate (though of course still wrong) to
say that the data supported that CO2
caused LOWER temperatures.
For some more recent data, there was some
significant warming during the time of the
Roman Empire and during the Medieval Warm
Period, and there is no evidence that the
cause was high CO2. There was some
significant cooling during the Little Ice
Age from roughly 1300 to 1900, but there
is no evidence that the cause was low CO2.
There was some cooling from 1940 to 1970
and concerns in the media about another
ice age, and those years were when there
was more CO2 from human activity from WWII
and the post-war economic boom. So, in
those years, with more CO2, we got some
cooling instead of warming.
Again it would be more accurate (though of
course still wrong) to say that the data
supported that CO2 caused COOLING.
For some details, can start with "Global
Cooling" at
which discusses the two famous magazine
stories, the 1974 <i>Time</i> story and
the 1975 <i>Newsweek</i> story, worrying
about "global cooling" and asking if we
were entering a new ice age. For more on
these magazine stories, at
can see the April 28, 1975,
<i>Newsweek</i> article “The Cooling
World”.
So, net, there is no data on temperature
and CO2 from the past that says that CO2
will cause warming.
Yes, CO2 is a <i>greenhouse</i> gas. This
means that it absorbs some light in the
infrared but not the visible. In the case
of CO2, it absorbs light out in the
infrared in three narrow bands. The
absorption spectrum is given at
Part of the mechanism is Planck black body
radiation.
We have had some warming since the Little
Ice Age. It may be that we are still
pulling out of the Little Ice Age, e.g.,
it can take a long time for the oceans to
warm up. But even with this warming, it's
cooler than in the Medieval Warm period
and the Roman times when the polar bears
didn't go extinct, the ice in Greenland
and the Antarctic didn't melt, the oceans
didn't rise and flood the coasts, and
apparently humans didn't suffer.
Apparently the main effects were greater
agricultural productivity, e.g., in
England, grapes were grown for wine.
Could the warming since the Little Ice Age
be due to CO2? No: The warming is at the
surface, and CO2 absorbs high in the
troposphere with definition at Google:
<blockquote>the lowest region of the
atmosphere, extending from the earth's
surface to a height of about 3.7–6.2 miles
(6–10 km), which is the lower boundary of
the stratosphere. </blockquote>
which, from MIT climate scientist Richard
Lindzen, Alfred P Sloan Professor of
Atmospheric Sciences, Emeritus, at
Massachusetts Institute of Technology, has
gotten cooler, not warmer.
Several attempts were made to model the
atmosphere and calculate and predict the
effects of human sources of CO2 on
temperature. Nearly all the efforts
predicted temperature increases that were
rapid and significant.
It has now been some years since the times
of the predictions, and the predictions
and reality are compared in the graph at
Summary: Nearly all the predictions were
way too high.
Science: So, so far climate modeling has
no predictive value and, thus, is not good
science.
Result: The predictions have no
meaningful credibility.
Current Summary: There is no credible
evidence from either the 800,000 years of
the earth or the climate models that human
sources of CO2 have had, are having, or
will have significant effects on
temperature or climate.
As a result of this lack of evidence,
there is no scientific reason to attempt
to lower human sources of CO2.
Resolving at least what is in my post is much easier than working through the IPCC's reports:
It's simple, really simple, just as in my post:
Observational data: The main observational data used to argue the dangerous effects of CO2 is just the 800,000 years of ice core data. But just looking at that data, as I explained in fine detail, that data does not support the claimed effects of CO2.
Models. Again as I explained carefully, so far the climate models have been proven wrong by reality and, in particular, have no predictive value and, thus, are not good science.
Net, there is nothing credible in data or models that says human sources of CO2 will cause significant warming.
In particular, the IPCC has no data or models that do better.
If you want to make an argument for being alarmed, I can do better than the IPCC: We don't really know what CO2 will do. In particular we have no data or models that are credible and say that we are safe.
I have shown, in just one simple post, that the alarmists don't have credible evidence. But I have not shown that we are safe.
Now the next real question is, what to do when we don't have any credible evidence that we are safe or not.
"It is unequivocal that human influence has warmed the global climate system since pre-industrial times."
"The likely range of human-induced warming in global-mean surface air temperature (GSAT) in 2010–2019 relative to 1850–1900 is 0.8°C–1.3°C, encompassing the observed warming of 0.9°C–1.2°C, while the change attributable to natural forcings is only −0.1°C–0.1°C."
This is as far as I go to help educate you, as I remain unconvinced any efforts to do more would be helpful.
I have seen that IPCC statement you quoted before and don't regard it as credible.
Again, once again, over again, yet again, one more time, just
from what I wrote, from either data or models, there is no credible evidence that CO2 from human activities has had, is having, or will have a significant effect on temperature.
When there is credible evidence, I will pay close attention.
The IPCC can say "unequivocal" all they want, but that does not make their claims true.
Actually saying "unequivocal" is at best just a qualitative summary and no evidence at all.
So far, no one has any credible evidence that humans are significantly warming the earth, and in particular the IPCC has no such evidence.
If you want to point to where the IPCC has credible evidence, then fine, but just their claiming "unequivocal" means nothing.
But again, so far no one has any such credible evidence; in particular, the IPCC has none, and there is none to point to in their many long documents.
To explain further, the data from the 800,000 years has not changed. Data from just the last 150 years or so is not very much data. The models that have been tested by comparison with reality have nearly all failed. That's where we stand, including the IPCC.
I love how "skeptic249757" think their few hours of google searching is somehow comparable to a massive body of climate researchers that have spend decades digging into the state of our climate. It's like the time my boss told me the lump in my neck was nothing to worry about and I was wasting my time by having a doctor look at it.
But, as they say, you can't reason someone out of a position that didn't reason into in the first place.
It’s wild to me that even the Biden administration appears so cavalier on climate. $1.2T on infrastructure and a follow up $3.5T budget bill and in both the environmental provisions are lame. Still no carbon pricing or anything that might make Exxon execs too uncomfortable (yes, I know Exxon supports carbon pricing in public because they don’t think anyone will actually do it).
I imagine it would be a lot easier if it weren’t bundled with trillions of dollars for other programs. It kind of feels like climate should be the number one priority and while Republicans are close to worthless it feels like Democratic politicians aren’t much more interested in offending their corporate masters. But in general I agree, it’s hard to get these things passed when so many congresspeople are in the pockets of moneyed interests.
Traditionally presidents set the agenda and work to get support, but you’re right that it’s a team sport and Biden needs congressional support. It’s disappointing that there isn’t enough support even among Democrats (Biden is trying to push through a $3.5T budget plan without any Republican support so clearly he thinks he can get things done on just a Democratic basis, but apparently he doesn’t think major climate initiatives will be popular with the Democratic crowd?).
While it's great and all for america to invest in the environment at the end of the day america is still only a small part of the world. The issues of climate are global in nature and unlikely to be solved in my lifetime.
The US needs to be leading on this issue. They're the largest economy and have benefited the most out of everyone (on a per-capita basis) from the carbon pollution that they're causing, leaving the poorer and hotter countries in the global south to bear the brunt of the downside a century later.
Agreed. It’s going to be pretty lame when Biden tries to convince the world to do better on climate at the upcoming summit when Biden can’t get significant policy implemented at home. Anyway, every country needs to do its part and ours, like many others, is failing.
There being an energy imbalance in the world comes from somewhere. It could not have come, at least not so fast, without an imbalance in the human psyche for the last couple of hundred years.
How much is enough, when is enough enough, what is my purpose for existing, how can I be of service while not being taken advantaged of, and without unreasonable demands?
There is a need for reckoning, though it needs to start from within.
This crisis may be of a more spiritual nature than is evident on the surface.
It's hilarious to me that people somehow think hot is MUCH more dangerous than cold. If you do any homework you will see which end results in more deaths.
We can distribute blankets and warm clothes to practically anywhere at scale. You can't scale air conditioners the same.
Your "homework" doesn't matter if super heat waves are a new phenomenon since data was collected.
You can't even glean anything useful from total deaths of heat vs cold. You'd need an equal number of people in equally hostile hot/cold environments of the same size. And even then there's still so many other variables can contribute to a result.
If you clicked on the link you are commenting about, you would have learn that we are talking about 35°C wet bulb. Which will kill you, whatever your age, your health, or what you try to do to overcome it. Basically, without air conditioning, so without energy, you are dead.
Cold, instead, will not kill you if you are able to cover yourself with a sufficient coat and/or you are able to start some fire.
Most places in the world, even in rich countries, neither have air conditioning nor sufficient energy power plants to cool everyone.
People who own a car in Yakutsk must leave it running all winter, or the oil will freeze & cause engine damage. A toolbox is always present in the car, since being stranded on the road, without cell phone signal, will lead to death within a couple of hours. Having a part of your ears exposed for 15 minutes will lead to frostbite. Cold is no joke...
Couple notes from someone who lives somewhere less cold than Yakutsk, but still cold:
* Synthetic oil won't really ever freeze. Other car components will freeze up prior to oil ever freezing - notably the battery will freeze if it's cold enough, which will permanently damage it. Most any other car component won't suffer permanent damage from cold.
* A toolbox isn't the best option to rely on if you're driving in a remote area in the cold (I'm basically incapable of wrenching anything at -40 other than a tire change) - if I'm driving in the winter I carry (among some other things) a) a sleeping bag that's warm enough to keep me alive indefinitely given the shelter that a car provides, b) snacks and water that I can thaw with body heat in my sleeping bag and c) a PLB that, in a life or death situation, I can activate regardless of cell service.
From ~ 8:43 in the video:
"The scariest thing about being on the road is that people whose cars break down have a risk of dying if they cannot fix it within 30 minutes. Otherwise, engine oil under the hood freezes in minutes. If people get stranded in these rural areas with no phone signal, they have no choice but to freeze to death within a couple of hours. That's why every driver carries a toolbox in his or her car."
He mentioned engine oil freezing a few times throughout that video.
Perhaps their information & strategies are outdated, or perhaps there's some specifics to Yakutsk that is different from your circumstances. The people there seem to recognize changes in temperature based on the visibility & other heuristics, where it's recognized that a 10 degree Fahrenheit difference in temperature is something to consider.
Perhaps you have some innovations that could help these people. The PLB seems like a good idea, though 30 minutes does not seem like enough time for a search/rescue effort. Either way, it's interesting to see how people adapt to their circumstances.
I've watched documentaries on Mt. Everest ascents where the climbers faced brutal cold, wind, & avalanches. Perhaps gear adapted to the conditions of the tundra could be an effective "survival pack" enabling people to survive for a few more hours should a car be stranded.
> I've watched documentaries on Mt. Everest ascents where the climbers faced brutal cold, wind, & avalanches. Perhaps gear adapted to the conditions of the tundra could be an effective "survival pack" enabling people to survive for a few more hours should a car be stranded.
Having a car simplifies life a lot compared to alpine ascents. A car is going to be a better shelter than any tent available, and you don't really need to be concerned about volume/weight/water resistance of sleeping bags. (So it's still not cheap, but buying and layering some cheaper synthetic options saves a lot of money compared to -40C down bags.)
I’m afraid that you’re taking gp comment too lightly. The described frosts are really dangerous, it’s not your regular get-two-blankets cold. One may die or become disabled in minutes after a technical failure, which is similar to failure of an AC. A little camp fire and running in circles will barely help you, because animals become frozen literally mid-step in it, https://www.google.com/search?q=animals+frozen+solid&tbm=isc... (dead animals warning)
Well, one can warm up by eatnig lots of food, wearing other critters' skins, and burning stuff; all of which are stone-age (or earlier) technologies. Cooling down requires air conditioning (modern tech) or access to natural cold water (privilege)
Which isn't likely to be a reasonable solution when we have a few days notice of an extreme hot weather event reaching a region for the first time. Predicting how common they'll be in a given place and arguing to prepare beforehand for what will likely still be a somewhat rare event (with unknown exact frequency) is hard.
That's of course cherry picked. But I think the sucky part is increasing the variance of the temperature distribution. So the hot is hotter and the cold is colder, and both ends really suck.
Interestingly, the emory link did not quote how many deaths were due to cold vs heat, but it did say that cold related deaths were going down and heat related deaths were going up.
By cherry picking just the part of the article that support a global warming narrative, but leaving out that cold is still, by far, the main danger, emory is seriously misrepresenting the science, imo.
Btw, the Guardian coverage for the same article is only slightly better:
I peeked at the lancet study, but it didn't support my trollish response to the OP.
The real point I was trying to make was the crazy extremes, the higher variance. I vividly recall running one morning when it got to -40F/-40C the night before. It sucked. The house was cold, work was cold. But one day is just a freak thing we all deal with, like snow in Atlanta. I remember a lot of government buildings shut down, to conserve natural gas. they made that resource available to everyone. Some people lost heat. I don't remember if people died. If that lasted for a week, I don't know what would have happened. I imagine it would have been bad. not riots, but heading in that direction.
There are 7 billion of us. We're pretty well adapted to our environments. We can handle a few bumps and potholes. Pushing those extremes, longer and deeper, that's not going to be fun.
Heat will kill. Cold will kill. Both are tolerable in the short run, but days of it is pretty scary. We're facing more of both. I don't have an answer to solve either case.
Thank you for the thoughtful reply. I can't say I'll get much use out of it tomorrow, but this is a long haul problem. I'll try to commit this evidence to memory. Maybe in a few months or years I can point at these references.
If the ratio is 10:1, then even if you have increasing variance (which is bad), an increase in the mean may offset that badness. I can't comment beyond that, I'm just talking generally about distributions with two fixed cutoffs at both extremes (beyond which = death or high likelihood of death).
I'm going to quibble. This is all unfounded, you're probably right and I'm a fool.
the statistic, adding 1 degree to the temperature isn't that bad. That statistic nicely glosses over the huge amount of energy added to the system. 1 degree isn't going to melt the icecaps. 1 degree is a huge amount of energy. I think, that energy is going to make things hotter and colder and less predictable.
Moving the mean is, well not fine but that's what we're doing. Have to accept reality as it is. But as far as I can tell, we're not shifting the distribution to the right. We are flattening the distribution, the median is moving +X. So, we've got fatter tails.
Those fat tails suck. we're finely attuned to current variance, we can deal with a cold or hot day. But that fatter tail, that's the fucker. A cold or hot week is deadly.
It makes sense that adding energy to the system can lead to higher temperatures and more extreme cases of winds and precipitation.
It makes less sense that it should lead to extreme cold.
Indeed, the Lancet study did say that the number of deaths from cold were on the way down.
Also, if examining the data further, most deaths are NOT in extremely cold countries, but rather in South East Asia and Africa.
I remember spending some time in a tropical country about 10 years ago, and when I was there, there was a few nights of "extreme" weather, where nighttime temperatures fell all the way to +14C (plus!). The government declared a state of emergency, and distributed blankets to the poorest people, to prevent oo many deaths.
Clearly, the main problem is poverty, not extreme weather.
Not true. In fact, Africa is the place with the highest cold-related excess mortality. This [1] Lancet study estimates that almost 1.2M people die in Africa yearly due to cold, while only 25000 die from heat.
All-in-all 10 times more people die from cold every year (according to the study) than from heat.
"The study found that extreme heat and cold killed 5.08 million people on an average every year from 2000-2019. Of this, 4.6 million deaths on an average occurred annually due to extreme cold while 0.48 million deaths occurred due to extreme heat"
It's sadly probably more a societal wide mental illness. Big corps like the environmental movements can use the internet for wide spread control and have destroyed peoples minds.
You could argue the idea hot is bad meets expectations for hackers, computers should be kept air-conditioned. Although this is not quite true, I think uniformity is what matters (same as humans, sudden drops in cold like walking outside is what can kill)
And what runs better, a warm car or a cold car.
The number don't lie, but number don't matter. Telling people they will die in more and more crazy ways gets more control.
There's a far larger area of the world which is too cold & dry for human tolerance, yet people survive & thrive there. Probably the same for places which are hot & humid.
There are some interesting documentaries on Yakutsk, the "coldest city in the world".
There's historical evidence of global fires & mass extinctions due to Geomagnetic excursions, which we are currently going through right now, leaving Earth vulnerable to space weather.
We are in for a bumpy ride of wild temperature swings & extreme terrestrial weather driven by space weather & Earth being relatively under-protected. We need to adapt to these changes & focus on surviving & thriving with new conditions. Guilt trips about human emissions will not help our survivability when there are significantly bigger forces at play. Only preparedness & focus on the cyclical changes that have occurred on Earth throughout history, some of which is recorded in human history in books, myths, & prehistoric art, will help humanity.
IPCC 6th assessment report, summary for policymakers, page 8/42. Read it.
IPCC is the most conservative science body ever created. It comprises hundreds of scientists from all over the world, including Saudi Arabia and others, who need to unanimously approve each sentence. The role of human emissions in the current warming has been assessed without any possible doubt.
The IPCC is focusing on sensationalist & self-admitted "unlikely" models in their editorials. It's not even the majority view of the models that are being trumped up. Sensation sells. Money talks.
The role of human emissions as the key driver of climate change has plenty of doubt & plenty of money involved pushing a pre-determined outcome with the purpose of imposing taxes & centralizing power.
In the meantime, humanity is left unprepared for cosmic & geologic events (volcanic activity is driven by ionic activity from space) that are going to occur within 1-2 decades which will have drastic impacts. Since other planets in our solar system are seeing major perturbations in their climates, we should take nature more seriously.
There are other models that more heavily use solar forcing, which are gaining in number. It seems like there is increasing momentum in models which feature Solar forcing & recognizing the Geomagnetic field strength as a major factor in climate. These are all just models, but there are a growing number of scientists who are taking natural cycles more seriously than the APGW crowd.
The big global institutions are behind APGW with $Trillions invested in that industrial complex, but there are many independent scientists who are finding that natural phenomena have always been and are still the key drivers of climate change. My bet is on nature, not the wealthy 1% owned institutions with PR departments & editorial spin.
No one discusses IPCC reports. It came out this week, and was discussed at most 10 min per day on major news channels.
IPCC scientists are volunteering for the report, they are not wealthy. They are literally spending their own free time and money writing thousand-pages long reports.
You just choose not to believe the most rational answer because it's inconvenient.
The most rational answer is that the Geomagnetic excursion is causing many of this strange weather phenomenon, amplifying Solar forcing to unprecedented level in modern times, & that the modern warm period has peaked & we are going into a Grand Solar Minimum.
Most of the models factor in Solar Forcing, which was only introduced in CMIP6, to varying degrees. This means models based on <CMIP6 did not include Solar Forcing, which means there has been institutional inertia that completely ignored an important factor into what drives the climate.
This meta-analysis shows the different models & how the different factors are weighted.
> You just choose not to believe the most rational answer because it's inconvenient.
Key word is "believe". You have a belief & your scientific opinion follows that belief. Are you willing to look at the data from the perspective of other beliefs? Are you open to unknown unknowns? If not, you are in danger of practicing Pseudoscience with a pre-determined outcome. Your "belief" determines your understanding of nature.
What's "convenient" is to go along to get along, make as much money as possible over APGW, & receive the social validation that one is "saving the world". There's plenty of money, personal reputation, & many careers that depend on APGW being an "existential crisis".
You should consider if you just choose not to believe the most rational answer because it's inconvenient.
Very few people live in the cold and dry areas, though. If you compare the population densities of places like Siberia or Canada north of the Arctic circle, I think you will struggle to find a single city.
Norway and Russia have a handful of towns near the cost north of the Arctic Circle, but that is largely due to the Gulf Stream keeping the temperatures more livable. Inland, temperatures are not very compatible with human life.
It turns out, in those temperatures, even young and healthy people can't survive. Combined with power outages, as happens in the book, everyone living under such a heat wave will likely die.
It's looking increasingly likely that such heatwaves are possible in the future, and possibly quite deadly. This could result in the mass deaths of many people, especially in poor tropical countries that don't have a stable infrastructure to cool most people during such a heatwave. I hope a mass death event from a "web bulb" 35C heatwave never happens, but I'm losing hope, especially with the increasing global temperatures, and the very lackluster progress being made on carbon output.