Monthly Archives: February 2019

Weather While Traveling in Mexico – Feb 25, 2019

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In lieu of an early week forecast this week, I’m opting to share some observations about weather I experienced in Mexico last week while on vacation. I stayed in Isla Mujeres, a small island located about 13 miles off the coast of Cancun. Temperatures were of course quite warm. It was also unusually windy for this time of year down there, though nothing quite like the windy weather NYC experienced today with some peak winds recorded at over 50 mph nearing 60 mph.

KJFK 250551Z 27022G38KT 10SM FEW070 06/M05 A2953 RMK AO2 PK WND 27049/0504 SLP998 T00611050 10083 20061 53017 $

KLGA 251351Z 28020G42KT 10SM SCT065 03/M11 A2970 RMK AO2 PK WND 27050/1331 SLP058 VIRGA W-N T00281106 $

METAR READINGS FROM JFK and LGA showing peak winds of 56 mph and 58 mph respectively recorded at 12:04AM and 8:31AM respectively todaY

I’m only just getting adjusted back to cold temperatures, and am not looking forward to snow possibly falling Wednesday night and another storm bringing wintry precipitation Friday. On the bright side, we are now only about 3 weeks off from the vernal equinox and the start of spring!

On the Servicio Meteorológico Nacional (SMN) – National Meterological Service of Mexico

Since I was going to be in Mexico, I started checking out the Mexican government’s weather service page. Check out the surface analysis below that’s overlaid on what looks like a GOES East image from last Thursday (02/21/2019).

Click to enlarge this surface analysis from the Mexican SMN

Unlike our own National Weather Service, the SMN numbers frontal systems that move through Mexico. Notice the stationary front in the center of the image is labeled as “Frente No. 38” (Front #38) and you can see “Frente Frio No. 40” (Cold Front #40) crossing from southern California into northern Baja California in the upper left corner of the image. They also number their winter storms. The “B” (representing a low pressure center) over Nevada is labeled as “Octava Tormenta Invernal” (Eighth Winter Storm). “Corriente en Chorro Polar” (polar jet stream), “Corriente en Chorro Subtropical” (subtropical jet stream) are familiar features to us, which we seen streaking across the northwest and central portions of Mexico respectively. A “Corriente de Bajo Nivel” (low-level jet) is seen flowing from the east towards the Yucatan. Here’s a translation of the text in the lower left panel:

Systems affecting Mexico
The Eighth Winter Storm over the southwestern US combined with cold front #40 in northwestern Mexico will favor showers with some strong storms, very cold temperatures, and wind gusts over 60 km/h in the northwest and northern Republic, and also the potential for snow or sleet in mountainous areas of Baja California, Sonora, and Chihuahua, extending gradually towards Durango. Front #38 with stationary characteristics extends over the western Gulf of Mexico and will generate clouds with isolated rain in the eastern and northeastern parts of the country.

Servicio Meteorológico Nacional of mexico

Synotpic Conditions – the Tropical Big Picture

The consistent breezy south-southeasterly winds I felt on Isla Mujeres were tied to that low-level jet (LLJ) pictured above. This LLJ enhanced the general easterly trade winds in the area. This was a result of the influence of a high anchored over the Western Atlantic, and a low over northern Colombia pictured in the OPC surface analysis below (issued Friday 2/22 02:35Z) “funneling” the winds.

In this analysis of the Western Atlantic from NOAA’s Ocean Prediction Center, you can see that a broad high pressure center was anchored near Bermuda. Meanwhile, a low sat over northern Colombia. The clockwise flow around the high and counterclockwise flow around the low in proximity to each other act to enhance the easterly trade winds found in the tropics.

A sounding from Philip Goldson International Airport near Belize City (the closest sounding station I could find to Cancun) showed clear evidence of a well-mixed layer from the surface to just about 900 mb. It felt like in Cancun, this mixed layer extended a bit further up into the 850 mb level where the LLJ sat because the winds were stronger.

Sounding taken above Philip Goldson International Airport near Belize City at 7PM Feb. 20, 2019, showing a well-mixed boundary layer representative of the area around the Yucatan Peninsula during these few days

By way of brief explanation, well-mixed layers like the one shown above provide favorable conditions for faster moving winds aloft to transfer their momemtum downwards, in this case all the way to the surface. It shouldn’t be a surprise that a deep well-mixed layer also existed today over NYC – enabling the strong winds aloft to mix down, leading to some very strong winds and gusts.

Sounding from Upton, NY for at 7AM Feb. 25, 2019, showing a deep well-mixed layer down to the surface from around 800 mb with strong winds 35-50 knots through most of this layer

Aside from the winds, the weather followed a pretty standard tropical pattern with clouds building in the afternoon and isolated showers. Despite how flat the Yucatan Peninusla is, it nevertheless provides at least some small potential for lift and convergence for air flowing off the Caribbean Sea. This is because there’s actually a significant difference in frictional properties of land and water, which makes sense since the surface of the ocean is considerably “smoother” than the corresponding forested Yucatan. One other notable trait was that the base of rain clouds in the area took on a distinctively blue hue, which I imagine was a reflection of the characteristically blue waters of the Caribbean Sea.

NYC Weekend Weather – Feb 15, 2019

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A weak cold front passes through to start the weekend. a decent weekend is in store with a chance for snow showers on Sunday night. Temperatures will be about average for this time of year through Presidents Day. We have a chance for more significant winter storm mid-week next week although details are fuzzy. At this time, thermal profiles at the coast suggest a mixed event like this past week with snow transitioning to sleet, freezing rain and plain rain. This event looks longer in duration due to a slow moving high east of the incoming storm. I will be on vacation next week and won’t be posting until the following week.

Rest of today – overcast with temperatures in the low-50s. Slight chance for rain with a weak cold front passing later in the afternoon. Overnight lows in the mid-30s.

Weather Prediction surface forecast for 7PM Friday

Saturday – mostly sunny with highs in the low-40s. Overnight lows around 30°F.

Sunday – mostly sunny during the day with highs around 40°F. Overnight lows in the low-30s will support some light snow associated with a broad area of low pressure. Not anticipating much accumulation beyond a coating.

Monday (President’s Day) – imoroving conditions. Partly sunny with highs in the low-40s and overnight lows dropping into the low-20s.

NYC Weekend Weather – Feb 8, 2019

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A mild start to this weekend will transition quickly to colder temperatures more typical of this the of year. A windy day in store on Saturday in the wake of a cold front bringing us rain today. cold temperatures remain in place into the beginning of next week. No more 60°F+ days in store for us!

Rest of today – rain tapering off by around lunchtime. Mild temperatures with highs in the mid-50s with clearing conditions. Once the cold front sweeps through, winds will pick up from west into the 15-20 mph range. This will advect cold air into the area and overnight lows are forecast in the mid-20s. By midnight, temperatures will be around the freezing mark.

Weather Prediction Center’s surface forecast for 7PM tonight

Saturday – a windy day on tap with much colder high temperatures in the mid-30s. Winds expected in the 15-20 mph range with strong gusts around 35 mph. Overnight lows again in the mid-20s.

Sunday – winds abate as the low responsible for the rain today moves further off. High temperatures in the mid-30s with mostly sunny skies. Overnight low around 30°F, with a small chance of snow showers.

Monday – increasing clouds ahead of the next storm system that could bring us some wintry weather Tuesday. High temperatures in the low-40s. Overnight lows in the upper-30s.

NYC Jan 30, 2019 Snow Squall Analysis

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Last Wednesday, a strong Arctic front swept across much of the Northeastern US, impacting many areas with a line of heavy snow showers, then ushering in record-breaking cold. The line of heavy snow immediately preceding the frontal boundary set off Snow Squall Warnings, which many readers would have seen on their mobile devices. The Snow Squall Warning is a new type of warning that went live nationwide on November 1, 2018. I believe that last Wednesday’s event was the first time National Weather Service forecast offices issued this new warning type for a widespread frontal snow squall. In this post, I’ll share my thoughts on the new warning type, and some observations about the event itself.

The New Snow Squall Warning

The relatively new snow squall warning product is, like other existing warnings, an effort by the National Weather Service to inform the public about imminent hazardous weather impacts. The main motivation behind this new warning type is to try and reduce the number of potentially fatal multi-vehicle accidents that can occur in snow squalls. Snow squalls can cause these kinds of accidents because the intense snow and wind in them can rapidly reduce visibility to near whiteout conditions with little advance warning. The heavy snow can also result in quick accumulations that make driving even more dangerous. Snow squalls can occur along frontal boundaries, like what we saw last week, but they can also be isolated or form in conjunction with lake effect snow. Although I haven’t as yet seen a clear-cut definition of what triggers this new warning, the criteria I have seen tie in directly with the hazards mentioned above: visibility less than 1/4 mile (whiteout conditions), strong wind gusts (above 35 mph, it appears), heavy snow, and surface temperatures below freezing.

Archived text of the snow squall warning issued for NYC by the local National Weather Service. Credit: Iowa State University‘s archive tool for NWS warnings.

Snow squall warnings are functionally similar to severe thunderstorm warnings, which makes sense because snow squalls and severe thunderstorms share some sensible weather impacts and meteorological properties. In this case, with a frontal snow squall, my professor and seasoned forecaster Steve Corfidi observed that “Essentially, a winter cold-frontal snow squall band is simply a summer cold frontal squall line with its bottom two-thirds or so chopped off. For all practical purposes today you simply experienced the passage of a narrow, fast-moving band of convective cirrus!”

Snow Squall Event in NYC

The snow squall that hit NYC last week was associated with a strong Arctic front. As I’ll discuss below, this frontal boundary provided the necessary lift to generate a narrow band (along the east-west dimension) of heavy snow along much of its length. Light snow began falling around 3:30PM by my estimate. The intensity of the snow picked up moderately over the next 15 minutes. However, it wasn’t until close to the end of the event that snowfall rates truly kicked into high gear, along with the winds. During a span of about 5-10 minutes, as the snow and wind rapidly picked up, visibility dramatically decreased, with scenes like the one below typical.

Storm Prediction Center’s Mesoscale Discussion graphic showing the general set up of the snow squall event
Image taken looking north along Sixth Avenue from the 12th floor of my office building at approximately 3:50PM. The building that is barely visible as a dark grey blob in the middle is about 400 feet (2 blocks north), showing you just how bad visibility was at the peak of this snow squall.

Once the worst of the snow squall cleared, conditions rapidly improved, with visibility recovering quickly and precipitation ending rather abruptly. Following the passage of the Arctic front, forced subsidence with the much colder and denser air behind the front sinking to the surface helped mix down some very strong wind gusts, and helped usher in some of the coldest air of the season.

Why the Squall Seemed to Peak at the End

The snow squall started off as a few flurries, and for most of the duration of the event, it seemed like that was all we’d get. Then, within a very brief span, the squall peaked in intensity, and as quickly as it had peaked, it was over. So, why did this event appear to unfold this way to us as observers on the ground? It all has to do with the profile of the winds above surface relative to the Arctic front and the squall line.

A sounding collected at KPIT (Pittsburgh) earlier during the day, close to the time that the same snow squall line was progressing through Pennsylvania. This sounding is thus a reasonable approximation for what the atmosphere looked like over NYC later in the afternoon.

In the sounding above, we can observe that the wind barbs on the right side of the sounding are generally increasing in speed up to 600 mb – triangles represent 50 knots, each full tick represents 10 knots, and half a tick is 5 knots. At the surface, winds were west-northwest at 10 knots, but at 600 mb, winds were at 90 knots! Quite a difference. The second thing to note is above 850 mb, the wind barbs are oriented roughly at the same angle, indicating winds from the same direction at these levels (west-southwest) . This is what forecasters refer to as a “unidrectional” wind profile. The result here is that we had a set up where there was significant vertical speed shear. This has tangible effects on the structure of the clouds/convective activity within the snow squall, as shown below.

Simplified illustration showing the scenario during the snow squall

In the diagram above, as the leading edge of the Arctic front progresses, the air ahead of it is mechanically lifted above the dome of cold air behind the frontal boundary. Once the air reaches the LCL (lifting condensation level), it’s saturated and clouds begin to form. In this case, there’s enough lift and available moisture that precipitation begins to fall. Temperatures at the time supported all snow. Lift provided by the front would continue allowing the clouds to grow until they hit a stable layer – I won’t go into specifics about this but suffice to say that at this point, the cloud can’t keep growing vertically. This results in the cloud spreading out horizontally, creating an “anvil”. Because the wind speed is so much faster at this level, the anvil is sheared away from the direction of oncoming wind producing a “leaning” effect.

This radar image from the Newark TDWR (Terminal Doppler Weather Radar) at 2:58PM last Wednesday has a good depiction of the light snow falling ahead of the main squall line that’s coming from the sheared anvils of the main convective line. Note the scattered lobe of light snow ahead of the solid band of darker blue hues indicating heavy snow.

This is a diagram showing the effect of the speed shear on the evolution of the snow squall line’s cloud structure.

Because the winds were coming from the west-southwest, the anvils leaned in the opposite direction to the east-northeast. For us on the ground, that meant the light snow preceded the heart of the action, “the worst of the storm” that was closer to the leading edge of the Arctic front itself. Had winds aloft been weaker, or from a different direction, suppose more parallel to the frontal boundary itself, the contrast between the light and intense snow wouldn’t have been as dramatic.

Thoughts on Improving the Snow Squall Warning

This was the first widespread use of this new warning product, and it’s not surprising that this led to some confusion. I had several people ask me when the warning was issued and the snow started “How long is this going to last?”. Some people even did the exact opposite of what the warning is intended to prevent: they rushed out to “beat the snow” since it started off light and they didn’t realize it would be over in a short span of time.

I think that these warnings could be improved if a specific duration of the event were mentioned in the warning text, something along the lines of “Expect snow squall conditions to last between 30-45 minutes”. Some other weather forecast offices issue warnings with such text. As discussed above, frontal snow squalls are similar in nature to their warm season relatives. While people are used warm season convective activity ending pretty quickly, intense snow squalls here are often caused by the mesoscale bands accompanying Nor’easters. These can last several hours. In general, many winter weather warnings are long duration, which I believe contributed to some of the confusion that people had about this new type of warning.

NYC Lunar New Year Weather Update, Feb 4, 2019

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What a difference a week makes. Last week, we saw some of the coldest air to hit NYC in quite a while. This week, we’ll have the chance to hit 60°F. Two low pressure systems will impact the area, the first is not forecast to produce precipitation, while the second will likely bring rain. Both of these lows will bring a surge of warm air in their warm sectors prior to the passage of the trailing cold front accompanying them. Enjoy the balmy February weather while you can, because the warmth won’t last.

Rest of today – mostly sunny with high temperatures reaching into the low-50s. Patchy fog developing overnight with low temperatures near 40°F.

Tuesday (Lunar New Year)– a mild start to the day gives us a shot to reach into the upper-50s. We’ll be in the warm sector of the first low. If a deck of low clouds builds in and persists, we might be a bit cooler in the mid-50s. On the other hand, if we get a relatively sunny day instead we could see high temperatures around 60°F. Overnight lows considerably cooler around 30°F with a dry cold frontal passage from this first low pressure system.

Weather Prediction Center’s surface forecast for 7PM Tuesday, showing the “dry” passage of a cold front

Wednesday – a cooler start to the day should result in temperatures only reaching the low-40s. Clouds increasing, and rain expected to develop overnight into Thursday with low temperatures in the mid-30s.

Thursday – a few degrees warmer with high temperatures in the mid-40s and rain. Rain expected to taper off a bit after the warm front associated with the second low to hit us moves north of the area. This will set us up for a warm day on Friday as well. Overnight lows going into Friday not much cooler than day time highs, in the low-40s.

NYC Weekend Weather – Feb 1, 2019

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The weekend (and ironically February) brings welcome relief from the blast of Arctic cold that gripped a large swathe of the Midwest and Northeast the second half of this week. This record-breaking cold resulted in multiple deaths from people literally freezing to death to being involved in weather-related accidents. Not only does the cold snap end, but there will be a gradual warming trend each day such that by Tuesday, we could see high temperatures near 60°F. The overall pattern of upper level flow across the continent looks to be flattening into a zonal and progressive one, versus the extreme ridging/troughing that brought this polar vortex on us.

Rest of today – high clouds build in as a disturbance to our south moves offshore. Not anticipating any precipitation from this. Warmer than yesterday though still cold with highs in the low-20s. Overnight lows also remaining cold in the mid-teens

Saturday – slow clearing from partly sunny skies. High temperatures in the mid-30s. Overnight lows not much colder around 30°F.

Weather Prediction Center’s surface forecast for 7AM Saturday

Sunday – as a center of high pressure moves offshore to the east, clockwise return flow around the western periphery of this high will bring much warmer air with it, bringing high temperatures into the mid-40s with partly cloudy skies. Overnight lows in the mid-30s may equal the high temperature for Saturday

Monday – we’ll be in the warm sector of an approaching low, and that’ll bring high temperatures into the low-50s with mostly sunny skies. Again, overnight lows look to be similar to the previous day’s highs, in the low-40s.