Precipitation Records B

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"Night" here refers to 9pm from last day to 9pm of this day. So for instance Tuesday night is Monday at 9pm to Tuesday at 9am.
"Day" here refers to 9am from this day to 9pm of this day. So for instance Tuesday day is Tuesday at 9am to Tuesday at 9pm.
Records begin on 1 Jan 2023 (Sunday night) and end on 25 Feb 2023 (Saturday day).
Recorded in the middle of the Laurentians region, Quebec, Canada.
cm refers to snowfalls, mm refers to rainfalls.

Sunday night
0cm 0cm 0cm 0cm 4cm 3cm 0cm 0cm
average snowfall: 0.87cm
average chances of precipitation: 25.0%

Sunday day
0cm 1cm 0cm 2cm 8cm 5cm 0cm 0cm
average snowfall: 2.00cm
average chances of precipitation: 50.0%

Monday night
0cm 0cm 0cm 2cm 0cm 1cm 0cm 0cm
average snowfall: 0.37cm
average chances of precipitation: 25.0%

Monday day
0cm 3cm 0cm 0cm 4cm 0cm 0cm 0cm
average snowfall: 0.87cm
average chances of precipitation: 25.0%

Tuesday night
0cm 4cm 0cm 2cm 0cm 0cm 0cm 0cm
average snowfall: 0.75cm
average chances of precipitation: 25.0%

Tuesday day
0cm 0cm 0cm 0cm 0cm 4cm 0cm 4cm
average snowfall: 1.00cm
average chances of precipitation: 12.5%

Wednesday night
0cm 0cm 1mm 0cm 0cm 2mm 0cm 0cm
average snowfall: 0.03cm
average chances of precipitation: 25.0%

Wednesday day
0cm 0cm 0cm 7cm 0cm 1cm 20mm 0cm
average snowfall: 1.25cm
average chances of precipitation: 37.5%

Thursday night
15cm 1cm 0cm 16cm 2cm 0cm 0cm 4cm
average snowfall: 4.75cm
average chances of precipitation: 62.5%

Thursday day
0cm 3cm 0cm 3cm 5cm 6cm 0cm 5cm
average snowfall: 2.75cm
average chances of precipitation: 62.5%

Friday night
1cm 12cm 5cm 0cm 0cm 12mm 16cm 2cm
average snowfall: 4.65cm
average chances of precipitation: 75.0%

Friday day
4cm 5cm 3cm 2cm 0cm 1cm 2cm 0cm
average snowfall: 2.12cm
average chances of precipitation: 75.0%

Saturday night
1cm 0cm 0cm 5cm 0cm 1cm 0cm 0cm
average snowfall: 0.87cm
average chances of precipitation: 37.5%

Saturday day
0cm 0cm 0cm 0cm 0cm 0cm 2cm 0cm
average snowfall: 0.25cm
average chances of precipitation: 12.5%

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Comments:

Ministry of Environment observations show an abnormal weather pattern, similar to the Groundhog Week Effect observed by Skieswanne J. during summer 2022. Precipitations rates were recorded starting on Jan 1 2023, one week after the ski season had officially begun, in the Laurentians, Quebec, a touristic area that's renowned for its ski attractions. Precipitations rates were then recorded for 8 consecutive weeks into the ski season, until Feb 25 2023. Rates were confirmed with official weather records, and precipitation rates were recorded every 12 hours.

Our observations:


-During those 8 weeks there were 13 significant snowfall events, of at least 5 cm (2 inches) each.

-Of these 13 significant snowfalls, 11 of them (84.6%) show an unusual clustering pattern around Thursday/Friday (occuring 24h, or less, around those two days).

-Of these 13 snowfalls, 12 of them (92.3%) occurred from Thursday to Sunday. The 13th was the only exception, however it merely occurred 12 hours earlier, on a Wednesday, and represented the beginning of a significant snowfall on a Thursday.

-Of all recorded snowfalls, the 4 largest snowfalls all occured on a Thursday or on a Friday.

-There were never any significant snowfalls on any Saturday days. This conveniently correlated with people visiting ski stations, increased touristic activity, and increased financial profits for businesses.

-With the exception of the one snowfall mentioned above, there were never any significant snowfalls on any other Wednesday days.

-There were never any significant snowfalls on any Monday nights, nor on any Monday days, nor on any Tuesday nights, nor on any Tuesday days, nor on any Wednesday nights, at all.


All things considered, chronological precipitations patterns were, to say the least, extremely unusual, almost "intelligent". Every week it would always snow (at least 5 cm) less than 72 hours (usually less than 60 hours) before that week's Saturday ski event. When ski was extended to include events on Sundays, on two occasions there were significant snowfalls at those exact events, not immediately before nor after. Then, there were never any significant snowfalls at all, for at least half a week following the snowy ski event. All 8 weeks were observed to follow this very same pattern. Even the civilian population noticed this pattern, however we have not recorded those civilian anecdotes.

If we were to separate a week into two components of equal durations, Timeframe A and Timeframe B, we can easily analyze that week's statistical likelihood. Timeframe A would include Saturday day, Sunday night, Monday night, Monday day, Tuesday night, Tuesday day and Wednesday night; and Timeframe B would include Saturday night, Sunday day, Wednesday day, Thursday night, Thursday day, Friday night and Friday day. If we were to assign the binary value "0" to any Timeframe during which there were no significant snowfall, and assign the binary value "1" to any Timeframe during which there were at least one significant snowfalls, then during the 8 weeks of observations every "Timeframes A" could invariably be represented by the binary value of 0 and every "Timeframes B" could invariably be represented by the value of 1, which is statistically astonishing. This gives a unusually coherent binary sequence of "01" for 8 weeks straight (01-01-01-01-01-01-01-01), of which the likelihood of occuring naturally is 1 over 2 to the power of 14 (16 total Timeframes measured, minus the 2 first Timeframes that set the trend). In other words, it can be concluded that the odds for this weather pattern to occur naturally are 1/16384; or, consequently, that the odds this weather pattern was artificially engineered are above 99.993%.

This confirms a winter Groundhog Week Effect (named as to reference the "Groundhog Day" movie) in the Laurentians, Quebec. This effect was already noticed in summer 2022 by Skieswanne before his departure, and whose graph we've archived on the forum. Just like Skieswanne's summer Groundhog Week Effect, the Jan-Feb 2023 anomalous weather pattern also conveniently correlated with touristic activity and maximized financial profits.

The NOAA, official weather agency of the USA, provides records of nongovernmental weather modification operations, and many of those have recently been intended to "enhance" precipitation and "augment snowpacks", at least in the USA. The Canadian government however fails to provide any similar records that would be accessible to the scientific community. We suspect that the weather pattern we observed may have been engineered through weather modification technologies, which usually involve chemicals (humidity-absorbing "Dyn-O-Gel" powder, carbon dioxide, etc) that are voluntarily dispensed into the atmosphere. The Ministry of Environment voices concerns regarding the impact those potentially-artificial snowfalls have on the ecosystem (for instance they may decrease animals' access to food), and the impacts the chemicals involved in said weather modification activities have on both the environment and on public health.

Due to suspected tampering with local weather we therefore cannot at this time determine the actual effects of climate change on local precipitations rates since we are denied access to the data on nongovernmental or governmental weather modification activities, more specifically the date, duration and nature of those operations if any.

Official Laurentians ski calendar: www.divisionlaurentienne.com/calendrier.html
Laurentian Government Weather stations for historical weather: weather.gc.ca/city/pages/qc-33_metric_e.html
NOAA weather modification operations records (USA only): library.noaa.gov/Collections/Digital-Collections/Weather-Modification-Project-Reports

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Figure: