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  • From 2016 to 2019,

  • meteorologists saw record-breaking heat waves around the globe,

  • rampant wildfires in California and Australia,

  • and the longest run of category 5 tropical cyclones on record.

  • The number of extreme weather events has been increasing for the last 40 years,

  • and current predictions suggest that trend will continue.

  • But are these natural disasters simply bad weather?

  • Or are they due to our changing climate?

  • To answer this question

  • we need to understand the differences between weather and climate

  • what they are, how we predict them, and what those predictions can tell us.

  • Meteorologists define weather as the conditions of the atmosphere

  • at a particular time and place.

  • Currently, researchers can predict a region's weather for the next week

  • with roughly 80% accuracy.

  • Climate describes a region's average atmospheric conditions

  • over periods of a month or more.

  • Climate predictions can forecast average temperatures for decades to come,

  • but they can't tell us what specific weather events to expect.

  • These two types of predictions give us such different information

  • because they're based on different data.

  • To forecast weather,

  • meteorologists need to measure the atmosphere's initial conditions.

  • These are the current levels of precipitation, air pressure, humidity,

  • wind speed and wind direction that determine a region's weather.

  • Twice every day, meteorologists from over 800 stations around the globe

  • release balloons into the atmosphere.

  • These balloons carry instruments called radiosondes,

  • which measure initial conditions

  • and transmit their findings to international weather centers.

  • Meteorologists then run the data through predictive physics models

  • that generate the final weather forecast.

  • Unfortunately, there's something stopping this global web of data

  • from producing a perfect prediction:

  • weather is a fundamentally chaotic system.

  • This means it's incredibly sensitive and impossible to perfectly forecast

  • without absolute knowledge of all the system's elements.

  • In a period of just ten days,

  • even incredibly small disturbances can massively impact atmospheric conditions

  • making it impossible to reliably predict weather beyond two weeks.

  • Climate prediction, on the other hand, is far less turbulent.

  • This is partly because a region's climate is, by definition,

  • the average of all its weather data.

  • But also because climate forecasts ignore

  • what's currently happening in the atmosphere,

  • and focus on the range of what could happen.

  • These parameters are known as boundary conditions,

  • and as their name suggests, they act as constraints on climate and weather.

  • One example of a boundary condition is solar radiation.

  • By analyzing the precise distance and angle between a location and the sun,

  • we can determine the amount of heat that area will receive.

  • And since we know how the sun behaves throughout the year,

  • we can accurately predict its effects on temperature.

  • Averaged across years of data,

  • this reveals periodic patterns, including seasons.

  • Most boundary conditions have well-defined values that change slowly, if at all.

  • This allows researchers to reliably predict climate years into the future.

  • But here's where it gets tricky.

  • Even the slightest change in these boundary conditions

  • represents a much larger shift for the chaotic weather system.

  • For example, Earth's surface temperature has warmed by almost 1 degree Celsius

  • over the last 150 years.

  • This might seem like a minor shift,

  • but this 1-degree change has added the energy equivalent

  • of roughly one million nuclear warheads into the atmosphere.

  • This massive surge of energy has already led to a dramatic increase

  • in the number of heatwaves, droughts, and storm surges.

  • So, is the increase in extreme weather due to random chance, or changing climate?

  • The answer is that

  • while weather will always be a chaotic system

  • shifts in our climate do increase the likelihood of extreme weather events.

  • Scientists are in near universal agreement that our climate is changing

  • and that human activity is accelerating those changes.

  • But fortunately,

  • we can identify what human behaviors are impacting the climate most

  • by tracking which boundary conditions are shifting.

  • So even though next month's weather might always be a mystery,

  • we can work together to protect the climate for centuries to come.

From 2016 to 2019,

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