I think most people will agree that in North America (and other places) we’ve been having some bad weather. Some of the weather is not necessarily intrinsically bad … so what if it is a little cooler or a little warmer than you expect. Aridity? Deserts are nice! Extra rainfall? Great for the plants. But actually that sort of thing has its down side since important systems like agriculture, the water supply, and Spring Break work reasonably well because of expectations that might not be met if the weather is different.
Other weather is intrinsically bad. I’d mention tornadoes but at the moment climate and weather experts are not at all agreed on whether or not we are having more, worse, bigger, or otherwise badder tornadoes and if there are differences in tornadoes this decade compared to earlier decades, why that is the case. But other things can be pointed to. Superstorm Hurricane Sandy was the hurricane that should not have gone where it went, should not have been so strong, perhaps should not have been at all. Droughts. Widespread wildfires caused by droughts. Lots and lots and lots of rain causing widespread flooding. Heat waves and cold waves. As a category of things that can happen, these things are in the “bad weather” category, and it is reasonable to ask why they are happening so much “these days.”
It is possible that these changes in weather, or more exactly, these examples of rapidly changing weather that have come to be known as “Weather Whiplash,” are caused by global warming which in turn is caused by the unchecked release of large amounts of fossilized carbon into the atmosphere with the burning, by humans, of fossil fuels. But before I get to that argument (short answer: Weather Whiplash is caused by global warming, but hold on just a sec..) I want to point something else out that is very important.
I want to point out the problem of understanding shifting conditions. Let’s say you are a storekeeper and every day you make a certain amount of profit. How much you make each day varies a great deal owing to a large number of factors. I knew a guy who worked in a camera shop just off Wall Street. He would sell no cameras for days on end and then suddenly sell a gazillion cameras. That would be on a day that the stock market went way up and traders felt flush, and went and bought the expensive cameras and lenses they had been coveting for weeks. I know people who had businesses on Cape Cod and how much money they made on a given weekend depended on the weather forecast for “The Cape” shown to Boston area audiences on Friday (regardless of the actual weather itself, generally). But underlying all this is another set of factors that do not vary day to day or hour to hour (or week to week or even seasonally). One is the overall long term state of the economy (how much stuff do people buy, based on how free they feel with their cash). Another is the overall demand for your particular goods, which may vary little if you sell food but a lot if you sell some trendy widget.
In the absence of good information, how do you know if your business is about to either tank, because people stopped buying your goods, or take off, because people can’t get enough of your goods? If your sales shift a great deal in one day, is that enough information? No. If your sales shift for an entire week, does that tell you something? Maybe, probably not. Most likely, you can identify normal pseudo-cycles, ups and downs, that occur in your business and estimate their length. Some factors cause your business to go up and down over scales of weeks, some over scales of days. Perhaps you can estimate that if you get an average amount of business over six months, and that is higher or lower than the previous six months, then you can say that a basic shift has happened.
Weather has cycles and pseudo-cycles just like businesses do, and they run over the course of days, seasons, years, and somewhat longer cycles that have to do with the position and relationships of major high pressure systems that shift around over cycles of five to fifteen years, and a few other thigns.
Now think about what we expect from global warming.
A simple yet usable model is this: More CO2 in the atmosphere = more heat (energy) in the atmosphere = climate change. But the expected climate change is not linear. Models that seem to work together with direct observation show us that more CO2 has resulted in aridity and wildfires in certain areas. But if we go back in time to when there was even more CO2 in the atmosphere, it seems like everything was wetter, so the whole drought and wildfire thing may be something that gets worse and worse through the 21st century, but at some point is replaced by a whole different set of problems. With respect to sea level rise, which I think is one of the biggest problems we face, it is not likely that the continental glaciers will melt steadily. Most likely they will melt, once their melting really gets going, both steadily and in fits and starts, causing the occasional large rise in sea level.
In other ways, the climate system is likely to change rapidly from one state to another. We are seeing the melting of Arctic Sea Ice each year doing this now, going from one system where there was melting and re-freezing at a certain rate, and changing to a completely different system. Along with this we may be seeing a fundamental long term shift in the nature of Arctic air masses from one way of being to another.
It is like making ice cream, or butter, shaking catchup out of a bottle, or going steady. You work on it and work on it and work on it and all you have is cream and ice, or cream in the churn, or catchup stuck in the bottle, or a friend. Then, suddenly, you have ice cream, or butter, catchup spewing out all over the place, and a significant other. There are many things in life that work this way, where there is not a steady change over long periods of time, but rather, a lot of one thing followed by a sudden shift to a whole different kind of other thing.
So, here’s the problem. If cycles of normal climate change are in the order of a dozen years, but a particular true shift in the basic pattern of climate takes, say, five years and thereafter everything is different, how do you know it happened? How do you know that the “new normal” is a long term change rather than a temporary shift?
There are two ways to know this. One is to wait and see, but if you were thinking of doing something about it but only taking action after you are sure, this is foolish. The other is to use reason and science and stuff to figure out what is going on and then make your best estimate of the situation.
And this brings us back to Weather Whiplash, the New Normal, and the nature of the climate change we may very well be experiencing now. There is an explanation for Superstorm Hurricane Sandy, for Nemo and some of the other storms we’ve had over the last year or so, and for the strange spring and early summer we are experiencing now, and please don’t forget, the strange winters and summers we’ve been having for the last few years. This explanation applies mainly to the Northern Hemisphere and has to do with the Arctic and the Polar Jet Stream.
The Earth’s climate operates as a mechanism for moving excess heat form equatorial regions towards the poles in air and oceanic currents. In the atmosphere, part of this happens when warm tropical air rises and moves away from the equator, drops, and then flows back towards the equator. Farther from the equator, a separate cycling of air currents is thus set up, where air moves up then south at altitude, then drops along side that first cycle of air. Then, there is a third similar giant rotating donut of air closer to the poles. At those positions where the air is moving up, there tend to form high pressure systems, and where the air flows away from these high pressure ridges or mounds, low pressure systems develop. If you stand back and look at the Earth from a distance you can see bands of wet and bands of dry, and regions where certain kinds of storms (like hurricanes, for example) tend to be confined.
The jet streams form at the boundaries between these large scale systems, at altitude, near the top of the troposphere. The jet streams don’t really shape the larger scale systems; rather, they exist because the larger scale systems exist. But once they are in place, the jet streams can determine what happens in those systems.
One of the major jet streams is the Polar Jet Stream that separates temperate regions form more arctic regions. This boundary between two major air masses, defined by that jet stream, can be thought of as analogous to the partition that separates the freezer compartment in the top of a typical refrigerator from the fridge part down below. With this partition in place, the stuff in the freezer stays very cold, and the stuff in the refrigerator stays less cold. If you kept all the cooling coils in place but removed that partition, the difference between the freezer and refrigerator compartments of your Frigidair would be reduced significantly.
Another thing the Polar Jet Stream does is to generate the overall shape of the boundary between temperate and more northerly air masses. The jet stream can be straight, like a big ring around the earth, or it can be all wavy, with major undulations north and south. In the latter case, these undulations can move around the planet or they can sit in place. When they sit in place, they may cause an entire region to be habitually wet, or dry, or more importantly cool or warm, for a long period of time. (This is called “blocking.”) The shape and movement pattern of the Polar Jet Stream ultimately determines the overall pattern of weather everywhere in temperate and subarctic regions.
Now, remember that the position and shape, and movement pattern, of the Polar Jet Stream is determined by high pressure ridges and the low pressure systems they set up (more accurately, these things interact). High pressure systems are relative; A warmish region of the earth, warm relative to nearby cooler regions, will set up a high pressure system. So, during the summer, land masses tend to create high pressure relative to nearby oceans, but during the winter, the oceans may create stronger high pressure relative to land.
And at this point we can see how climate change caused by CO2 increases create Weather Whiplash and other effects.
Warming conditions have caused the Arctic sea to have much less sea ice on it for much longer periods of the summer. This, in turn, allows more sunlight to heat the arctic, because less sunlight is reflected away by shiny ice, and more sunlight provides heat to the sunlight absorbing open water. This changes the relationship between high and low pressure areas in the Northern Hemisphere. This, in turn, has caused the Polar Jet Stream to freak out. Sometimes it is very wavy, often it is blocked, and sometimes it is simply weakened to the point that it almost goes away and allows the freezer and refrigerator compartments to meld.
Cool weather in the United States is not really cool wether. It is the more even, less compartmentalized, distribution of heat across the region north to south. Everything is on average warmer (because of warming) but there is not a very stark boundary between the northern colder regions and the more southerly warmer regions. Last April when we were busy getting snowed on every few days in Minnesota, the Arctic was warmer (but still cold) than it normally would be. Last fall, the shape of these weather systems caused Superstorm Hurricane Sandy to be stronger, and to fail to do what these storms normally do: head north by northeast and dissipate. Instead, the storm turned left and blotto’ed New York, Connecticut and New Jersey.
Peter Sinclair of Climate Denial Crock of the Week, famous for his videos, in a post on Weather Whiplash, has produced a video that covers some of this very nicely:
So, lets get back to the original question. Why are we having such bad weather? Because the system that is usually in place, with a strong Polar Jet Stream that tends to be linear during the summer, has changed to a different system where the Arctic Oscillation … a high-low pressure system pattern … has shifted to a “negative” configuration because of warming of the Arctic sea. This different system has a number of effects that combine with other effects of global warming to produce strange weather. Those other effects include there being more energy in the atmosphere, and more moisture concentrated in more discrete dense patches, which therefore also means some very dry conditions. Blocking may have caused dry conditions to persist longer over selected areas than otherwise, and at the moment, blocking and added moisture seems to be causing the midsection of the United States to become the world’s largest water park. And, between storm fronts, the overall weather of the region is cool, yet the storm systems are very energetic.
Weather Whiplash. It makes sense because everything that is happening conforms to expectations based on what we know about climate and weather. Will this really be the “new normal?” Is a few years in a row of a strange acting Polar Jet Stream and that other stuff the result of a fundamental change in the way our climate system works, or is it just a typical variation that we can expect to happen now and then. Well, if this was a typical variation of the type we normally see on occasion, there would be less incredulity among climatologists, meteorologists, and forecasters. It makes more sense to explain Weather Whiplash as a new state that the climate has shifted to (mostly, expect some more back and forth, I assume) because of the unchecked release of fossil Carbon into the atmosphere by the burning of fossil fuels by humans.
7 thoughts on “Why are we having such bad weather?”
So, it seems that we might expect unusual weather, but does the fact that it is cause by a blocking jet stream mean that the specific bad weather we have in a give season will be different every time that season comes around or will patterns develop, so for example, Central Europe will always have a lot of early summer rain?
So we should probably not build the Keystone Pipeline then.
Thanks for that explanation. Skeptical Science has some good info on how Jet-streams work too.
Could the weather not just be a case of the Earth itself slightly going off course due to Earthquakes,Items being tested in the atmosphere etc and not global warming!!!!! After all the seasons have changed and Countries are experiencing weather they have never had before!!! Just a simple suggestion
The global warming theories have made famous political figures and others rich rich rich. They have brainwashed people into thinking that this cold weather is global warming. I cannot believe that people believe this crap. Wake up and stop buying these books. Remember a few months ago when scientists got stuck up in ho ho land on boat? The waters froze instantly. I cannot believe sane people would believe such nonsense. For the hard core beleivers go buy more books and make them richer, No im not a conservative nor a republican, but I have opened my eyes and woke up.
Ron, what books are you yammering about? Books about science? Physics and climatology text books used in school? What books!