If you're looking for an in-depth discussion of the storm, scroll down to the next post...this post is simply a quick update to say that my hunch about favoring the northern solution seems to be correct, as the GFS model has moved way north. In addition, the NAM model is coming into a useful range, and it is also similar to the GFS & ECMWF. So for now, the northern solution looks to be the way to go. In general, this is good for SE Michigan to see snow, but if this storm track is what ends up happening, we will certainly have to look out for rain to mix with the snow in some places and cut down on accumulations.
In addition, the strength of this system is still in question, as the GFS still has a weak disorganized system, while the NAM and ECMWF have a stronger, more organized system. This would likely lead to higher snowfall accumulations on the NAM & ECMWF, but since a stronger system brings up warmer air, also more potential for rain as opposed to snow. So, there are still certainly issues to figure out. But it looks as though the models are starting to lock in on a storm track that has a good shot of at least bringing a plowable snowstorm to SE Michigan on Sunday.
At this point, the main thing that you guys have to be concerned about is the potential for temperatures to be too warm for any significant snow to fall. This is starting to become a significant concern that will have to be addressed in tomorrow's post. Anyways I'll go in detail more tomorrow afternoon. And like I said, if you want a much more polished post (albeit with old model runs), scroll down below.
As always, feel free to leave questions/comments in the comment section below.
Thursday, December 9, 2010
Wednesday, December 8, 2010
Well, just when everything seemed well...
Everything seemed to be coming into agreement last night, with most models showing SE Michigan getting a nice snowstorm on Sunday. I was one more set of similar forecast model runs from fully jumping on the snowstorm bandwagon, but then the latest run of the GFS model went way south of its previous run. In addition, the GGEM model went a little further south as well. Meanwhile, the ECMWF model is back to it's far northern solution. This storm is turning out to be one of the more interesting/challenging storms I've seen in the few years that I've been seriously following the weather. We're essentially 4 days out from this storm impacting SE Michigan, and there is still very little agreement among the models that I look at. Both solutions are perfectly plausible, yet one or both of them are going to be incorrect, which from a weather lover's standpoint, is fascinating. So, let's take a look at what the models show and what this could mean for SE Michigan...
Note that if you don't want to read the whole thing (because it's a book), the last two paragraphs adequately summarize everything.
The 12z GFS has the low pressure system tracking from Nashville, TN to Raleigh, NC to New York, NY. Although SE Michigan would still get a few inches of snow with this track, the best snowfall accumulations would be to your south. The image below shows the GFS's storm total precipitation, and as you can see, the highest amounts are to the south.
The 12z ECMWF is WAY further north, tracking the low pressure system from Des Moines, IA to Chicago, IL to Detroit, MI. SE Michigan would get a lot of precipitation from this track, but there would be the issue of rain mixing in with the snow, especially south of I-696. Areas that did mix with rain would obviously have their accumulations cut, but areas that avoided that would pick up a lot of snow. If this track happened, figuring out which areas would mix with rain would likely be a nowcasting situation, requiring the use of short-range models and observations once the storm started. The image below shows where the ECMWF has the low pressure system on Sunday Morning.
Finally, the 12z GGEM has the low tracking from around Paducah, KY to around Cincinnati, OH to around Pittsburgh, PA. This track would allow much of SE Michigan to get moderate-heavy snow, but Lake Orion would be cutting it very very close to being too far north to get significant accumulations. The image below shows where the GGEM has the low pressure system on Sunday Morning.
The fundamental difference that I see in all three models was the amount of time that it took each of them to close off the upper-level low. While the ECMWF closes off the upper-level low quickly (by the time it gets into Iowa), the GFS and GGEM keep the energy weak, allowing it to move further south, and don't close it off until it's well east of the Great Lakes states. The end result of this (the reasoning behind it is complicated to explain) is that the reason the ECMWF is much further north than the GGEM and the GFS is because it closes the low off so early relative to the other two models.
The images below show, in order, where the GFS, ECMWF, and GGEM close off the upper level low. Note the large difference in the areas where the low closes off.
The GFS closes it off in Canada.
The ECMWF closes it off all the way back in the Midwest.
The GGEM closes it off in the Mid Atlantic.
While all three solutions are fully believable at this point in time, I've been thinking about this lately, and I'm really starting to favor the stronger/further north solution of the ECMWF. As you know if you've been reading my posts on this storm, this is a fairly strong/dynamic system. With this in mind, I tend to believe that something closer to the ECMWF is likely to happen. In my experience following these storms, I just don't remember seeing these dynamic systems take as long to get their act together as this one has on the GFS and GGEM. It's entirely possible that something like what is shown on the GFS and GGEM could happen, but I just feel that the ECMWF/northern solution is more likely to happen.
To summarize, there is a large spread of solutions among the models I look at. The GFS has SE Michigan receiving little snow. The GGEM has SE Michigan receiving a decent amount of snow, but it would be a very close call (if it went even a little more south, Lake Orion would be largely left out of the best snow accumulations). The ECMWF has SE Michigan receiving a lot of precipitation, but mixing issues would be present, especially south of I-696. The reason why these models are showing such different solutions is that the GFS and GGEM take way longer to close off the upper level low than the ECMWF, resulting in a further south track. Due to reasons mentioned in the previous paragraph, I feel the ECMWF solution is the most likely, and that is the solution I am currently leaning towards. However, there is obviously still a lot of uncertainty.
If it all works out, SE Michigan could definitely see a great snowstorm with a high likelihood of a snow day on Monday. However, there is a higher than average bust potential with this system than there normally is at 3.5-4 days out. Issues such as the storm tracking too far south resulting in SE Michigan being north of the best snow accumulations, and on the other hand, the storm tracking too far north resulting in SE Michigan dealing with mixed precipitation could both greatly diminish the snow day possibilities. We can only hope that the models come to a better agreement soon so I can start discussing the likelihood of a snow day, but at this time I am still unsure as to what exactly will happen, and am in fact less confident than I was in my last post. This is an extremely interesting storm to follow, and I'll likely have my next post up by the time you leave for school tomorrow morning.
Until then, feel free to leave questions/comments in the comments section below.
Note that if you don't want to read the whole thing (because it's a book), the last two paragraphs adequately summarize everything.
The 12z GFS has the low pressure system tracking from Nashville, TN to Raleigh, NC to New York, NY. Although SE Michigan would still get a few inches of snow with this track, the best snowfall accumulations would be to your south. The image below shows the GFS's storm total precipitation, and as you can see, the highest amounts are to the south.
The 12z ECMWF is WAY further north, tracking the low pressure system from Des Moines, IA to Chicago, IL to Detroit, MI. SE Michigan would get a lot of precipitation from this track, but there would be the issue of rain mixing in with the snow, especially south of I-696. Areas that did mix with rain would obviously have their accumulations cut, but areas that avoided that would pick up a lot of snow. If this track happened, figuring out which areas would mix with rain would likely be a nowcasting situation, requiring the use of short-range models and observations once the storm started. The image below shows where the ECMWF has the low pressure system on Sunday Morning.
Finally, the 12z GGEM has the low tracking from around Paducah, KY to around Cincinnati, OH to around Pittsburgh, PA. This track would allow much of SE Michigan to get moderate-heavy snow, but Lake Orion would be cutting it very very close to being too far north to get significant accumulations. The image below shows where the GGEM has the low pressure system on Sunday Morning.
The fundamental difference that I see in all three models was the amount of time that it took each of them to close off the upper-level low. While the ECMWF closes off the upper-level low quickly (by the time it gets into Iowa), the GFS and GGEM keep the energy weak, allowing it to move further south, and don't close it off until it's well east of the Great Lakes states. The end result of this (the reasoning behind it is complicated to explain) is that the reason the ECMWF is much further north than the GGEM and the GFS is because it closes the low off so early relative to the other two models.
The images below show, in order, where the GFS, ECMWF, and GGEM close off the upper level low. Note the large difference in the areas where the low closes off.
The GFS closes it off in Canada.
The ECMWF closes it off all the way back in the Midwest.
The GGEM closes it off in the Mid Atlantic.
While all three solutions are fully believable at this point in time, I've been thinking about this lately, and I'm really starting to favor the stronger/further north solution of the ECMWF. As you know if you've been reading my posts on this storm, this is a fairly strong/dynamic system. With this in mind, I tend to believe that something closer to the ECMWF is likely to happen. In my experience following these storms, I just don't remember seeing these dynamic systems take as long to get their act together as this one has on the GFS and GGEM. It's entirely possible that something like what is shown on the GFS and GGEM could happen, but I just feel that the ECMWF/northern solution is more likely to happen.
To summarize, there is a large spread of solutions among the models I look at. The GFS has SE Michigan receiving little snow. The GGEM has SE Michigan receiving a decent amount of snow, but it would be a very close call (if it went even a little more south, Lake Orion would be largely left out of the best snow accumulations). The ECMWF has SE Michigan receiving a lot of precipitation, but mixing issues would be present, especially south of I-696. The reason why these models are showing such different solutions is that the GFS and GGEM take way longer to close off the upper level low than the ECMWF, resulting in a further south track. Due to reasons mentioned in the previous paragraph, I feel the ECMWF solution is the most likely, and that is the solution I am currently leaning towards. However, there is obviously still a lot of uncertainty.
If it all works out, SE Michigan could definitely see a great snowstorm with a high likelihood of a snow day on Monday. However, there is a higher than average bust potential with this system than there normally is at 3.5-4 days out. Issues such as the storm tracking too far south resulting in SE Michigan being north of the best snow accumulations, and on the other hand, the storm tracking too far north resulting in SE Michigan dealing with mixed precipitation could both greatly diminish the snow day possibilities. We can only hope that the models come to a better agreement soon so I can start discussing the likelihood of a snow day, but at this time I am still unsure as to what exactly will happen, and am in fact less confident than I was in my last post. This is an extremely interesting storm to follow, and I'll likely have my next post up by the time you leave for school tomorrow morning.
Until then, feel free to leave questions/comments in the comments section below.
Confidence Increasing On Sunday Storm
The two main forecast models that I look at, the GFS and ECMWF, have now largely come into agreement for the first time with regards to the track of the upcoming winter storm on Sunday. My confidence is increasing that this storm will have adverse impacts on SE Michigan, and here's why.
First, I'll look at the latest (00z) run of the GFS model. If you recall from my last post yesterday evening, this model was the one with the southernmost track. Since my last post, the GFS (and other models, as I'll get to shortly) no longer favors a transfer of energy from a primary low pressure system to a secondary low pressure system (if you want a more detailed explanation on this scroll down to my previous post). The latest run of the GFS now favor a single main low pressure system tracking from Paducah, Kentucky to Columbus, Ohio to Pittsburgh, Pennsylvania. This is usually a fairly ideal storm track for SE Michigan to receive good snowfall, and it looks like if that track happens for this storm, that will again be the case, as the GFS shows a period of Moderate/Heavy snow occuring from Sunday Morning through Sunday Evening. The image below shows the storm total precipitation from the latest run of the GFS. This is about 0.5" of liquid, which using the typical 10:1 snowfall ratio, would result in about 5" of snow. However, since temperatures would likely be fairly cold if this storm track took place, I am betting that snowfall ratios would be higher than normal, meaning more than 5" of snow would likely fall.
Next, I'll look at the latest (00z) run of the ECMWF model. As you may recall, as of my last blog post this model was the main outlier, showing a storm track from Chicago to Saginaw, which would result in a very sloppy rain/snow storm for SE Michigan, which would severely limit snow accumulations. I mentioned that I favored the GFS track over the ECMWF track, but that I was still unconfident. As it turns out, it appears that yesterdays GFS track will be closer to being correct than the ECMWF track (although neither of them will likely end up being perfectly correct). This is because, relative to yesterday, the ECMWF model has made a significant southward shift, and now also shows a significant snow storm for SE Michigan. The exact center of low pressure is fairly difficult to depict on the ECMWF, but I will say it likely tracks from Evansville, IN to Dayton, OH to Erie, PA. This is slightly north, but still fairly similar to, the track of the the latest GFS, and the ECMWF now also shows SE Michigan getting Moderate/Heavy snow all day Sunday. While I can't post images of precipitation from the ECMWF, I can say that it shows SE Michigan getting around 0.6" of liquid, which would translate to around 6" of snow using standard 10:1 snowfall ratios. While the ratios if the ECMWF track were to occur would be less than the ratios using the GFS track, they would still likely be above 10:1, meaning more than 6" of snow would likely fall.
Finally, I'd also like to mention two other models that I also take into consideration, the GGEM and UKMET. The GGEM model shows the storm tracking from Evansville, IN to Columbus, OH and also gives SE Michigan a significant snowstorm, as shown in the image below. The UKMET model is currently a large southern outlier, taking the system from Nashville, TN to Raleigh, NC...which is obviously significantly further south than the other three models I look at. For this reason, I doubt that track will happen, but it is something to keep in mind.
In summary, the forecast models seem to be coming into agreement on a potentially significant winter storm that could impact SE Michigan on Sunday. The main timeframe for snowfall would likely be from Early Sunday Morning through Early Sunday Evening. While this may not be the best timeframe to get a snow day on Monday, I do believe that IF this storm occurs as currently shown on most of the models (and that's still definitely not a sure thing), there would be a good chance of a snow day on Monday. This is because I believe that SE Michigan could possibly see totals well above 6", and also because I believe there will be a significant wind component with this storm system, which would lead to blowing and drifting of snow, and likely subzero wind chills. So, while a snow day is far from a sure thing at this point (and it never really is 5 days out), it's definitely something to keep an eye on. I still have some reservations w/ regards to this storm, but I am much more confident than I was in my last post.
I will likely have another post up tomorrow afternoon. Until then, feel free to leave questions/comments in the comments section below.
First, I'll look at the latest (00z) run of the GFS model. If you recall from my last post yesterday evening, this model was the one with the southernmost track. Since my last post, the GFS (and other models, as I'll get to shortly) no longer favors a transfer of energy from a primary low pressure system to a secondary low pressure system (if you want a more detailed explanation on this scroll down to my previous post). The latest run of the GFS now favor a single main low pressure system tracking from Paducah, Kentucky to Columbus, Ohio to Pittsburgh, Pennsylvania. This is usually a fairly ideal storm track for SE Michigan to receive good snowfall, and it looks like if that track happens for this storm, that will again be the case, as the GFS shows a period of Moderate/Heavy snow occuring from Sunday Morning through Sunday Evening. The image below shows the storm total precipitation from the latest run of the GFS. This is about 0.5" of liquid, which using the typical 10:1 snowfall ratio, would result in about 5" of snow. However, since temperatures would likely be fairly cold if this storm track took place, I am betting that snowfall ratios would be higher than normal, meaning more than 5" of snow would likely fall.
Next, I'll look at the latest (00z) run of the ECMWF model. As you may recall, as of my last blog post this model was the main outlier, showing a storm track from Chicago to Saginaw, which would result in a very sloppy rain/snow storm for SE Michigan, which would severely limit snow accumulations. I mentioned that I favored the GFS track over the ECMWF track, but that I was still unconfident. As it turns out, it appears that yesterdays GFS track will be closer to being correct than the ECMWF track (although neither of them will likely end up being perfectly correct). This is because, relative to yesterday, the ECMWF model has made a significant southward shift, and now also shows a significant snow storm for SE Michigan. The exact center of low pressure is fairly difficult to depict on the ECMWF, but I will say it likely tracks from Evansville, IN to Dayton, OH to Erie, PA. This is slightly north, but still fairly similar to, the track of the the latest GFS, and the ECMWF now also shows SE Michigan getting Moderate/Heavy snow all day Sunday. While I can't post images of precipitation from the ECMWF, I can say that it shows SE Michigan getting around 0.6" of liquid, which would translate to around 6" of snow using standard 10:1 snowfall ratios. While the ratios if the ECMWF track were to occur would be less than the ratios using the GFS track, they would still likely be above 10:1, meaning more than 6" of snow would likely fall.
Finally, I'd also like to mention two other models that I also take into consideration, the GGEM and UKMET. The GGEM model shows the storm tracking from Evansville, IN to Columbus, OH and also gives SE Michigan a significant snowstorm, as shown in the image below. The UKMET model is currently a large southern outlier, taking the system from Nashville, TN to Raleigh, NC...which is obviously significantly further south than the other three models I look at. For this reason, I doubt that track will happen, but it is something to keep in mind.
In summary, the forecast models seem to be coming into agreement on a potentially significant winter storm that could impact SE Michigan on Sunday. The main timeframe for snowfall would likely be from Early Sunday Morning through Early Sunday Evening. While this may not be the best timeframe to get a snow day on Monday, I do believe that IF this storm occurs as currently shown on most of the models (and that's still definitely not a sure thing), there would be a good chance of a snow day on Monday. This is because I believe that SE Michigan could possibly see totals well above 6", and also because I believe there will be a significant wind component with this storm system, which would lead to blowing and drifting of snow, and likely subzero wind chills. So, while a snow day is far from a sure thing at this point (and it never really is 5 days out), it's definitely something to keep an eye on. I still have some reservations w/ regards to this storm, but I am much more confident than I was in my last post.
I will likely have another post up tomorrow afternoon. Until then, feel free to leave questions/comments in the comments section below.
Monday, December 6, 2010
Small Storm Thursday Night. Bigger One Sunday?
Not much has changed since this time yesterday. SE Michigan is still looking at a weaker clipper system moving through the area Thursday Night, followed by a much stronger, but much more unpredictable storm on Sunday.
First I will mention the clipper. Earlier in the week, I was thinking that advisory level snows were possible with this storm system, but unfortunately for SE Michigan it has continued to trend further and further north on the forecast models, and it's just not looking like this will provide much more than 1-2" of snow on Thursday Night. To be honest, it's barely worth mentioning now, because although it's going to be the first snow SE Michigan will receive from an actual storm system as opposed to lake effect snow, it's not like it's going to give SE Michigan much more snow than some of the lake effect events you guys have received so far this year. I'll probably continue to update the forecast with this storm just for the heck of it, but really the main thing to focus on is a potentially significant storm on Sunday, which is what the next portion of this post will cover.
Again, over the past day the main medium-range forecast models (the GFS and ECMWF) have all continued to favor a strong low-pressure system affecting the Eastern U.S. around next Sunday. There is now enough consistency for me to fully believe that there will be a significant snow storm somewhere in the Eastern U.S. this Sunday. Obviously, the million-dollar question now becomes: Where will this storm track? The answer to this question will adversely affect what SE Michigan sees from this system.
As far as I see it, there are three main possibilities for where this storm will track. Option one has this storm bombing out near the East Coast, providing a nice snow storm for areas east of MI but leaving SE Michigan largely dry. Option two has the primary low pressure system moving to the east through Illinois, Indiana, Ohio, etc...with the primary low eventually occluding and transferring energy to a secondary low, which would move up through Central PA & NY. This is the scenario to hope for if you want a snow day. This scenario would likely give SE Michigan at least several inches of snow, with Winter Storm Warning criteria snowfalls entirely possible. In addition, as the secondary low rapidly intensifies, high wind & blowing/drifting snow would certainly become an issue. Option three has the primary low becoming stronger, which would result in a further west track with the likely result in SE Michigan being a sloppy mix of rain/snow.
At this time I believe it's prudent to look at some forecast models & at least try to get an idea of which track I might favor.
First, I'll start off by looking at the 12z GFS. The 12z GFS has some energy diving SE from the Dakotas. This energy eventually phases with the digging polar jet, with the result being a primary low pressure system that gets to around Cincinnati before transferring its energy to a secondary low pressure system which tracks from SE VA to Central NY. Yes, this is a rather complicated storm system with the transfer of energy...so I understand if it's tough to follow. The result is a very good storm system for the I-80 corridor of Northern IL, IN, and OH, with MI missing out on the best snows, but still getting several inches. In addition, winds would get very strong at the end of this storm and in the following days if this solution verified. Some images showing what happens are below:
1 a.m. Sunday
7 a.m. Sunday
1 p.m. Sunday
7 p.m. Sunday
The next model to look at is the 12z ECMWF. Although I do have access to images from this model I can't repost them, but I will describe what it shows. Essentially, the main difference between the ECMWF and GFS is that the ECMWF has the primary low pressure system moving much further north than the GFS, and it also does not feature an energy transfer. The result is a low pressure system that tracks from Iowa to Chicago to Central MI, and while SE Michigan would see a lot of precipitation from this track, a lot of it would fall as rain. I doubt there would be much accumulating snow, and what would accumulate would likely be washed away as precipitation changes over to rain.
So, obviously there is a significant amount of disagreement among the forecast models. At this time I would favor the GFS track as the GFS has been outperforming the ECMWF w/ regards to accuracy in recent weeks. However, this by no means is equal to me calling for a guaranteed snowstorm for SE Michigan on Sunday & Sunday Night. If things work out correctly, there could definitely be a big snowstorm for SE Michigan, with a snow day being possible next Monday, but there's still a lot of uncertainty. I will probably have another post up tomorrow night.
First I will mention the clipper. Earlier in the week, I was thinking that advisory level snows were possible with this storm system, but unfortunately for SE Michigan it has continued to trend further and further north on the forecast models, and it's just not looking like this will provide much more than 1-2" of snow on Thursday Night. To be honest, it's barely worth mentioning now, because although it's going to be the first snow SE Michigan will receive from an actual storm system as opposed to lake effect snow, it's not like it's going to give SE Michigan much more snow than some of the lake effect events you guys have received so far this year. I'll probably continue to update the forecast with this storm just for the heck of it, but really the main thing to focus on is a potentially significant storm on Sunday, which is what the next portion of this post will cover.
Again, over the past day the main medium-range forecast models (the GFS and ECMWF) have all continued to favor a strong low-pressure system affecting the Eastern U.S. around next Sunday. There is now enough consistency for me to fully believe that there will be a significant snow storm somewhere in the Eastern U.S. this Sunday. Obviously, the million-dollar question now becomes: Where will this storm track? The answer to this question will adversely affect what SE Michigan sees from this system.
As far as I see it, there are three main possibilities for where this storm will track. Option one has this storm bombing out near the East Coast, providing a nice snow storm for areas east of MI but leaving SE Michigan largely dry. Option two has the primary low pressure system moving to the east through Illinois, Indiana, Ohio, etc...with the primary low eventually occluding and transferring energy to a secondary low, which would move up through Central PA & NY. This is the scenario to hope for if you want a snow day. This scenario would likely give SE Michigan at least several inches of snow, with Winter Storm Warning criteria snowfalls entirely possible. In addition, as the secondary low rapidly intensifies, high wind & blowing/drifting snow would certainly become an issue. Option three has the primary low becoming stronger, which would result in a further west track with the likely result in SE Michigan being a sloppy mix of rain/snow.
At this time I believe it's prudent to look at some forecast models & at least try to get an idea of which track I might favor.
First, I'll start off by looking at the 12z GFS. The 12z GFS has some energy diving SE from the Dakotas. This energy eventually phases with the digging polar jet, with the result being a primary low pressure system that gets to around Cincinnati before transferring its energy to a secondary low pressure system which tracks from SE VA to Central NY. Yes, this is a rather complicated storm system with the transfer of energy...so I understand if it's tough to follow. The result is a very good storm system for the I-80 corridor of Northern IL, IN, and OH, with MI missing out on the best snows, but still getting several inches. In addition, winds would get very strong at the end of this storm and in the following days if this solution verified. Some images showing what happens are below:
1 a.m. Sunday
7 a.m. Sunday
1 p.m. Sunday
7 p.m. Sunday
The next model to look at is the 12z ECMWF. Although I do have access to images from this model I can't repost them, but I will describe what it shows. Essentially, the main difference between the ECMWF and GFS is that the ECMWF has the primary low pressure system moving much further north than the GFS, and it also does not feature an energy transfer. The result is a low pressure system that tracks from Iowa to Chicago to Central MI, and while SE Michigan would see a lot of precipitation from this track, a lot of it would fall as rain. I doubt there would be much accumulating snow, and what would accumulate would likely be washed away as precipitation changes over to rain.
So, obviously there is a significant amount of disagreement among the forecast models. At this time I would favor the GFS track as the GFS has been outperforming the ECMWF w/ regards to accuracy in recent weeks. However, this by no means is equal to me calling for a guaranteed snowstorm for SE Michigan on Sunday & Sunday Night. If things work out correctly, there could definitely be a big snowstorm for SE Michigan, with a snow day being possible next Monday, but there's still a lot of uncertainty. I will probably have another post up tomorrow night.
Sunday, December 5, 2010
Two Upcoming Systems...
For fans of snow in SE Michigan, you will likely finally get the snow you have been hoping for in the next week. Two systems will likely affect the area...
System one is going to be a clipper system that will come out of Canada and then track through ND, MN, WI, and Northern MI. However, SE Michigan will definitely see some snow out of this system on Thursday Night & Friday Morning. It is not going to be a particularly strong system, and at this time it looks as if it will not have access to moisture from the Gulf of Mexico, so I don't believe this will be a very high impact event for SE Michigan. Right now I think around 2-4" of snow are likely on Thursday Night & Friday Morning. This is not enough snow for a snow day, but will be enough to cause disruptions to the Friday Morning commute, so be prepared for that. For being 4.5 days out, I have fairly high confidence that SE Michigan will see snow from this system, but I do not believe it will be a high impact event.
System two is the system that you will have to keep your eyes on w/ regards to snow days. There is good support among the models for a strong low pressure system to affect the Eastern U.S. around next Sunday or Monday. Depending on what happens in the upper levels of the atmosphere (and I will likely explain this further in the next few days), this storm could affect a variety of different places. The only real agreement among the models at this time is that there will be a strong storm somewhere. Some of the models have the storm mostly affecting the NE and missing SE Michigan. Some of the models have the storm cutting into the Great Lakes, which is a good storm track for SE Michgian. Another possibility is that the storm track could be too far to the west for SE Michigan to receive any significant snow, with most of the precipitation falling as rain. I am not confident enough to favor any of these scenarios at this time. While I do believe it is likely that someone in the Eastern U.S. will see a good snow event around next Sunday or Monday, I am not willing to make a prediction as to which areas will be affected.
As always, feel free to ask me questions or leave comments in the comments section.
System one is going to be a clipper system that will come out of Canada and then track through ND, MN, WI, and Northern MI. However, SE Michigan will definitely see some snow out of this system on Thursday Night & Friday Morning. It is not going to be a particularly strong system, and at this time it looks as if it will not have access to moisture from the Gulf of Mexico, so I don't believe this will be a very high impact event for SE Michigan. Right now I think around 2-4" of snow are likely on Thursday Night & Friday Morning. This is not enough snow for a snow day, but will be enough to cause disruptions to the Friday Morning commute, so be prepared for that. For being 4.5 days out, I have fairly high confidence that SE Michigan will see snow from this system, but I do not believe it will be a high impact event.
System two is the system that you will have to keep your eyes on w/ regards to snow days. There is good support among the models for a strong low pressure system to affect the Eastern U.S. around next Sunday or Monday. Depending on what happens in the upper levels of the atmosphere (and I will likely explain this further in the next few days), this storm could affect a variety of different places. The only real agreement among the models at this time is that there will be a strong storm somewhere. Some of the models have the storm mostly affecting the NE and missing SE Michigan. Some of the models have the storm cutting into the Great Lakes, which is a good storm track for SE Michgian. Another possibility is that the storm track could be too far to the west for SE Michigan to receive any significant snow, with most of the precipitation falling as rain. I am not confident enough to favor any of these scenarios at this time. While I do believe it is likely that someone in the Eastern U.S. will see a good snow event around next Sunday or Monday, I am not willing to make a prediction as to which areas will be affected.
As always, feel free to ask me questions or leave comments in the comments section.
Saturday, December 4, 2010
Very Quiet Start To Snow Season In SE Michigan
I haven't posted on here in a while, so with not much else to do at the moment it may be time for a pretty wide-ranging post. It's been a very quiet start to snow season in SE Michigan; usually you guys would see at least one storm that brings accumulation, but if I'm keeping track correctly, I don't believe you guys have seen over 1" of snow at once so far this year. So, there hasn't really been much worth blogging about, and unfortunately for snowstorm lovers, that will likely continue in the near future.
First of all, there is a clipper system that is currently moving southeast through the Upper Midwest. This system will give cities such as Chicago, Indianapolis, and Cincinnati their first notable snowfall of the year, but will be too far south to give SE Michigan any notable weather. So, that's a no go.
After that, the next thing you guys have to look forward to snow-wise are occasional snow showers in the early part of the schoolweek (Monday-Wednesday). Conditions on these days will be very similar to what you guys experienced earlier this week, with occasional snow showers and very minor accumulations of up to an inch on any given day.
The most interesting thing to me in the medium range is another clipper system that will affect SE Michigan around Friday. There is some disagreement in the models with this system, with one main model (the GFS), calling for a fairly moisture starved system that would likely only give you guys 1-2" of snow, while another main model (the ECMWF) is showing a fairly decent snowfall occurring on Thursday Night & Friday Morning. If the ECMWF's wetter solution pans out, then I bet you guys would likely see a Winter Weather Advisory, but we are still 6 days away from that potential event, and there is significant model disagreement, so I am very hesitant to feel too good about decent accumulations with this system, but they are a possibility. I will likely have a more detailed post focusing on this system up on Sunday Night or Monday when there will hopefully be more of a consensus among the models.
Finally, there are hints of a bigger storm system occurring around the 12th or 13th, but that's obviously in the extended range, so I won't bother covering that for now. For now, the bigger threat for a storm in this timeframe appears to be focused east of the Great Lakes, but it's the extended range, so things could always change...
As always, feel free to leave questions/comments in the comments section.
First of all, there is a clipper system that is currently moving southeast through the Upper Midwest. This system will give cities such as Chicago, Indianapolis, and Cincinnati their first notable snowfall of the year, but will be too far south to give SE Michigan any notable weather. So, that's a no go.
After that, the next thing you guys have to look forward to snow-wise are occasional snow showers in the early part of the schoolweek (Monday-Wednesday). Conditions on these days will be very similar to what you guys experienced earlier this week, with occasional snow showers and very minor accumulations of up to an inch on any given day.
The most interesting thing to me in the medium range is another clipper system that will affect SE Michigan around Friday. There is some disagreement in the models with this system, with one main model (the GFS), calling for a fairly moisture starved system that would likely only give you guys 1-2" of snow, while another main model (the ECMWF) is showing a fairly decent snowfall occurring on Thursday Night & Friday Morning. If the ECMWF's wetter solution pans out, then I bet you guys would likely see a Winter Weather Advisory, but we are still 6 days away from that potential event, and there is significant model disagreement, so I am very hesitant to feel too good about decent accumulations with this system, but they are a possibility. I will likely have a more detailed post focusing on this system up on Sunday Night or Monday when there will hopefully be more of a consensus among the models.
Finally, there are hints of a bigger storm system occurring around the 12th or 13th, but that's obviously in the extended range, so I won't bother covering that for now. For now, the bigger threat for a storm in this timeframe appears to be focused east of the Great Lakes, but it's the extended range, so things could always change...
As always, feel free to leave questions/comments in the comments section.
Sunday, November 21, 2010
Snow Showers Likely Thursday & Friday
Just a quick post to mention that a low pressure system that will move over the area on Thursday will be dragging a fairly strong cold front through SE Michigan by Thanksgiving morning. Behind this front, snow showers are likely on Thursday and Friday. Accumulations will be very minor but you will likely see snow during this timeframe.
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