We’re getting close to a summer that feels like we’re in for some serious weather.
In the Northeast, the Northeast has just had the first major snowstorm of the season, with the National Weather Service warning of “snow-induced power outages.”
Meanwhile, the East Coast and Midwest have also had heavy snowfalls, and in the South, heavy rains are expected.
We’re not even close to reaching summer, but we’ve seen some pretty brutal winter weather recently.
The first few days of summer are generally very hot, and the heat has been particularly intense in the Northeast.
For example, I live in New York City, which has experienced more than 1,000 days of sustained average temperatures above 100 degrees.
The highest temperatures have been in Boston, where temperatures hit 106 degrees on a clear day.
In New Jersey, temperatures have averaged just above 100 for the past two days, and they have averaged more than 100 for most of July.
New York State’s hottest day was June 3, when it was 106 degrees in Manhattan.
We’ve seen a huge uptick in the amount of ice melting from the Northeast and Midwest to the East.
The amount of snow has gone up, but the ice is melting at a slower rate.
According to NASA’s National Snow and Ice Data Center, there has been a 15 percent increase in the average amount of time since the beginning of June between the time ice melts and the time the snow starts falling.
On the other side of the country, the warmest day was August 20 in Texas, where the average temperature was 105 degrees, and this summer has been the second warmest on record, according to NASA.
And the summer is not over yet.
In June, the heat was the third warmest ever recorded in the contiguous U.S., according to the National Climatic Data Center.
The number of days with above-normal highs is expected to continue to climb, with temperatures likely to rise above 110 degrees in parts of the Southwest, the Great Lakes, the Rockies, and southern Alaska by early July.
But the heat isn’t just the hot weather.
Some of the heat can be blamed on human-made global warming.
For one thing, our atmosphere has warmed by an average of 0.07 degrees Celsius (0.5 Fahrenheit) since the Industrial Revolution, according the United Nations.
This means that CO2 levels in the atmosphere have increased by about 0.5 degrees Celsius since 1800.
This increase in temperature is primarily because of human activities, and we’re also emitting carbon dioxide (CO2), a greenhouse gas that traps heat in the Earth’s atmosphere.
The greenhouse effect, in short, is a feedback mechanism that is changing the climate.
If you look at the weather record of the past century, you’ll see that the CO2 increases have occurred relatively early in the record.
It took about 200 years to go from about 0 degrees Celsius to a CO2 level of about 3.5 to 4.0.
In other words, by the year 2100, the climate is likely to be warmer than it is today, according an analysis by the University of California, Irvine.
And it could get warmer in the coming decades.
But the amount and pace of warming that is occurring now could be slowing the planet’s response to climate change.
While we have the ability to control the amount we emit of CO2, our ability to do so is limited by the size of the greenhouse gas we emit, according a recent study published in the journal Science.
A lot of CO₂ is emitted in the United States, but about a third of that amount is in China and India.
By contrast, the United Kingdom emits roughly a quarter of its CO⁂.
This makes it hard to estimate how much of our emissions are being redirected to the atmosphere as the Earth warms.
For that reason, we’re starting to see a shift in the balance of power in the fight against climate change, according Tom Kiernan, a senior scientist at the University at Buffalo, who led the research.
“The United States is getting less of the COℂ that is being generated by China and other developing nations, and India is gaining more of the warming emissions that are coming from the United Arab Emirates and China,” he told me.
“What’s happening in the world is we’re taking CO⒂ out of the equation.
We have a very small amount of CO 2 emissions in the air and it’s not being captured by the atmosphere.”
In fact, scientists are now trying to determine how much CO♂ has been removed from the atmosphere in the past decade.
In March, the Intergovernmental Panel on Climate Change (IPCC) released a report titled “Global emissions of greenhouse gases and their impacts on global temperatures, precipitation, and other climate processes.”
In it, the scientists noted that we have had “a significant increase in greenhouse gas emissions in recent decades.”
The report’s authors