It’s hot. It’s late July. It’s not abnormal

Nearly every area of the mid-latitudes will see summer heat during the high sun angle summer months.

Some years the extremes are greater and more persistent than other years. Ocean temperature patterns, solar drivers and local factors including soil moisture, and foehn wind events play a key role in extreme temperatures in summer.

This year, the summer started out on the cool side in many areas including the tropics which averaged -0.65F colder than the 30-year average as measured by satellites. Some warmth was starting to show in the south-central U.S and western Europe at this time.

LA NIÑA SUMMERS

We are in the third year of ‘La Niña’. It is the strongest year of the event. Strong La Niñas have historically been hot and dry in the central states into the eastern United States. They produce more tornadoes in the spring and when the Atlantic is warm and also more landfalling hurricanes in the east.

Indeed, the heat is augmented where the springs and early summers are drier than normal. The July to September mean temperature anomalies for La Niñas are shown here (CPC).

The Southern plains often see the most persistent heat in La Niñas. So far, there have been 26 100F days in Dallas, TX in 2022. No end is in sight until heavy rains develop and put out the fire. Some showers and storms recently lowered maximums a bit.

See how after a cold spell in May, it has been increasingly hot in Dallas.

Models have more showers the next two weeks. But without an organized event (like a tropical event), it is difficult to get enough rains to suppress highs in mid-summer for longer periods. Dallas has seen 34 days of 100F heat so far in 2022, but do not be alarmed, Dallas since 1950 has had as many as 71 days over 100F in one year.

We can see below that the hot summers were indeed strong in multi-year La Niñas (negative MEI v2 (Multivariate ENSO Index) usually found in periods of a negative PDO (Pacific Decadal Oscillation).

You can see that the Multivariate ENSO Index (MEI) and the negative PDO are both the strongest since 1979 (right side of the above graph). This was a strong event.

As the Dallas data showed, heat is not a new phenomenon nor getting more frequent. In fact, the warmest decade for Texas and the entire U.S. by far was the 1930s. 22 state/territory all-time heat records still reside in the record books that were set in the 1930s. There have been more record lows since the 1940s than record highs.

The 1930s were extreme for the heat during the ‘dust bowl’. 14 of the 15 years with the most heat records occurred before 1960.

Even the EPA shows the heat of the 1930s:

The mid 1930s were especially hot (and record cold in winter). Dryness accentuates both heat and cold.

The Washington Post this week talked about the amazing heat of the summer of 1936 (following the coldest winter).

The summer of 1936 produced triple digit heat in 45 of the 48 C states in the continental U. S., most records that are still standing. Eight states saw highs over 120F!

The central heat in La Niñas often plumes north and east in mid-summer into the eastern U.S. and southeast Canada.

BAKED APPLE

In NYC, 7 of the top 10 warmest Julys occurred in La Niña summers. The other 3 were in years where ENSO was neutral and/or transitioning to La Nina. As of July 21, 2022 Central Park has averaged 78.6F.

In Central Park, the 1950s was the hottest decade by far.

The current heat wave in the Big Apple, in what had been a mostly moderate summer in the first half, will continue to Monday before the typical summer weather returns.

Central Park has had nine 90F days as of July 22, 2022. As many as 39 days of that temperature were logged in other years.

LACK OF SOIL MOISTURE ACCENTUATES WARMING

Soil moisture is a key factor in summer. When the soil is dry, the sun’s energy warms the ground and is not consumed in evaporating moisture back into the air. It amplifies any heat building in an amplified pattern.

La Niña induced dryness effect on vegetation in the southern plains is evident. Europe, like the central US, has found itself in a part of the global wave pattern that has limited rainfall and enhanced the summer temperatures. Notice the cold alternates with the warm, a sign of an amplified trough ridge pattern.

The UK is surrounded by water and often that limits the heat. However, the winds turned from off the warm continent into Britain for a few days last week and the temperatures spiked for two days until the maritime influence returned.

Even with the high heat, nights are bringing some relief. More seasonable air has returned.

In the UK, cold is a greater danger than heat especially as blackouts threaten in the winter when solar energy is limited given the latitude and cold often comes with little winds at night.

Over 20 percent of the population are now in energy poverty, often having to chose between heating and eating.

Britain and most countries find 10 to 20 times more people die from cold than heat.

DOWNSLOPE WINDS IN THE WEST

In the western U. S. west of the mountain ranges of the Cascades and the Sierra Nevadas, the area normally has a natural air conditioner working with the cool waters of the eastern Pacific. Only when there is a pressure pattern strong enough to force downslope winds does the heat develop to the coast. The air is warmed by compression of the air as it descends from low pressure into higher pressure near the surface. These episodes are usually brief.

In late June 2021, a three-day heat wave besieged the near coastal areas of the dry Pacific Northwest as a heat ridge set up in British Colombia on position to cause intermountain heat to sink down to the lower elevations with the accompanying compression producing all-time record heat. See the brief heat burst in Seattle in late June.

hese local heat events are not uncommon and often are found in urban areas near mountains and especially in dry years.

This event led to new record highs in the coastal cities as downslope winds kept the ocean cooling at bay. Triple digit heat is common in summer in the intermountain areas away from the ocean influence. But occasionally some of that heat makes its way to the coast and is superheated by compression as it sinks downslope.

This event is similar to a Sundowner, dubbed a “poison wind.” One such event was reported June 17, 1859, by the Coastal Pilot of California. According to the report, the morning air temperature of 75 to 80 degrees rose steadily until about 1 p.m., when a series of superheated waves of wind blasted the Santa Barbara area.

By 2 p.m., the air temperature reached 133 degrees and hovered there for three hours, killing small animals, destroying fruit, ruining gardens and heavily damaging trees the newspaper reported. That year a similar powerful heat ridge likely forced the wind to sink off the mountains to the north and superheat just as we saw this June.

These events are usually brief and these local weather oddities are NOT signs of man-made changes.

Many heat records occurred in locations where downslope winds added heat to transitory very warm air masses – found in the east coastal states of the United States, Canada, Europe, Asia, Africa, Australia and even the Antarctic Peninsula.

The metropolitan areas of the Mid-Atlantic and Northeast U.S., experience this compressional warming from downslope winds when heat ridges build east from the central in summer, which also block any sea breezes. , Most of the triple digit readings and high records here occur with west to northwest winds.

Sleep well, it is late July and it is hot. There is nothing unusual nor unprecedented about that.

See more here: co2coalition.org

Bold emphasis added

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Comments (6)

  • Avatar

    Moffin

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    A foehn wind is warmed by adiabatic heating.

    foehn
    fœn, fān
    noun
    A warm dry wind coming off the lee slopes of a mountain range, especially off the northern slopes of the Alps.
    A warm, dry wind which descends from the upper Alps into the valleys on the north side of the chain of the Alps, from Geneva to Salzburg.
    A warm dry wind that often blows in the northern valleys of the Alps, due to the indraught of a storm center passing over Central Europe. The wind, heated by compression in its descent from the mountains, reaches the base, particularly in winter, dry and warm.

    Reply

  • Avatar

    sunsettommy

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    It happens during the winter too when a “Chinook” sweeps down from the east Cascade slopes to wipe away the snow and see temperature rise rapidly for a few hours before it cools down.

    Reply

  • Avatar

    Jerry Krause

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    Hi Moffin and Sunset,

    Excellent comments (information). A few days ago I was having a conversation with Saeed about what is SCIENCE and I have searched and search this morning can not find it. And recently someone (name I cannot remember) was reporting his measurements with an IR thermometer and I wanted to report to Saeed that this person was clearly a SCIENTIST doing what real SCIENTISTS do. And you two are real SCIENTISTS because of what you have just done. Referred to actual observations that cannot be doubted.

    Sunset, I believe we can get together if you are interested because of our common interest.. So if you are interested, please reply here and I will give my phone number. We get many unwanted calls, so a few more will not matter much.

    Have a good day, Jerry

    Reply

  • Avatar

    Jerry Krause

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    Hi Sunset,

    Have you looked at the Salem OR atmospheric sounding data for this morning and the previous soundings of this month?

    I haven’t advertised a great 1966 book–WEATHER & CLIMATE–by R. C. Sutcliffe for sometime. Chapter 11–The Winds of the World and the General Circulation of the Atmosphere–is very informative.

    Have a good day, Jerry

    Reply

  • Avatar

    Jerry Krause

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    Hi Sunset, Moffin, and PSI Readers (with similar interests),

    Here is an paragraph from Sutcliffe’s Chapter 11.

    “Viewing the matter from a rather different angle we may say that the earth’s atmosphere has a complex pattern of structure and behavior–in terms of winds, pressures, temperatures, humidors, etc.–which is characteristic of the earth and so far as we know unique in the universe. The whole may be called a thermodynamic physical ‘system’, it may be called an ‘organization’ and, with no great stretch of imagination, an ‘organism’, suggesting an analogy with a biological organism. It is an analogy worth pursuing a little way because the methods of investigating the climatological organism have had something in common with methods of biological study and, so far, rather little similarity with the mathematical deductive methods of ‘solving’ problems in physical science.”

    However, as interesting Sutcliffe’s proposal might seem, we must first identify possibly WRONG accepted SCIENTIFIC ideas and by experiment (observation) prove that they are ABSOLUTELY WRONG.

    We need to begin at the beginning of Chapter 11 asking: Could this, or that, statement of Sutcliffe be wrong?

    Have a good day, Jerry

    Reply

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