A three month range!
Why do different locations have such radically different dates of warm temperatures? Let's think about it.
On a superficial level, one might suppose that the hottest day of the year would be the day when the sun is strongest and most overhead: the summer solstice (June 21st).
But thinking about it a bit more carefully, it is apparent that warming occurs as long as the amount coming in, i.e., the solar radiation, exceeds what is going out (infrared radiation to space). And that might be later than the maximum solar radiation.
Consider the daily (diurnal) temperature variation--the warmest temperatures are not at solar noon (roughly 1 PM PDT) but several hours later (around 5 PM) in summer. Furthermore, there is thermal inertia of the atmosphere and the surface that further delays the warming (takes a while for the soils, water, and air to warm up).
So one might conclude that having the warmest day of the year in July or early August might be expected.
But why are things so different around the country, with the warmest day ranging from near the solstice (June 21st) to the equinox (Sept 21)?
I think I can offer an explanation.
First, consider the very early dates from western Texas to Arizona. I think those are due to the North American or Southwest Monsoon, a period of clouds and thunderstorms over the interior SW U.S. that develop in late June and extends to early September. With all the clouds and moisture moving in during late June, the high temperatures are lowered during mid to late summer, pushing the highs into June.
But why are the high temperatures so late in the summer in steamy eastern Texas, Louisiana and Arkansas? Because they have a lot of thunderstorms and clouds during late spring and early summer, which delays the onset of high temperatures. This precipitation characteristic is illustrated by the monthly precipitation in Houston, Texas (see below), with June being their wettest month.
Moving back to the western U.S., most of the interior has a late July maximum, which makes sense from the radiation viewpoint discussed earlier. But what about the craziness along the thin coastal strip, where many locations don't hit their high temperatures until late August or September?
The reason has to do with the cool Pacific Ocean and the eastern Pacific high that dominates the region from late spring into mid-summer. The Pacific Ocean is cool year around (roughly 50F near the West Coast). During spring and most of the summer, high pressure exists offshore, with lower pressure over Arizona (see surface pressure map for June), which creates a large onshore pressure gradient along the West Coast that pushes the cool air and low clouds into
the coastal zone, keeping things cool (see satellite image for Monday afternoon).
By September, the situation changes (see below), with pressure building over the Pacific Northwest and the coastal pressure gradient weakening.
In short, the variations in the dates of the high temperature days actually make sense with a little meteorological sleuthing.
from Cliff Mass Weather and Climate Blog http://ift.tt/2sDtiIG
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