De Tour Village, MI
Climate overview — based on NOAA 1991-2020 normals from DETOUR VILLAGE, MI US.
Year-round temperatures (°F)
Climate summary
De Tour Village has an annual average temperature of 42.1°F with about 31.9 inches of precipitation per year and 74.6 inches of snow. The warmest month is July (average high 75.0°F), and the coldest is January (average low 8.7°F). October is typically the wettest month (3.83 in) and February the driest (1.31 in). Snow typically falls from October through April.
Best time to visit De Tour Village
Full guide →Climate change signal
All-time records →34 of 366 (9.3%) of De Tour Village's all-time daily heat records have been set since 2015. If records were spread evenly across the station's history, only about 5% would fall in any given decade.
| 1900s | 27 | |
| 1910s | 27 | |
| 1930s | 0 | |
| 1940s | 0 | |
| 1950s | 0 | |
| 1960s | 51 | |
| 1970s | 55 | |
| 1980s | 64 | |
| 1990s | 43 | |
| 2000s | 43 | |
| 2010s | 34 | |
| 2020s | 22 |
Bars: number of all-time daily heat records still standing that were set in each decade.
Monthly averages
| Month | Avg High | Avg Low | Avg Temp | Precipitation | Snow | Rainy days |
|---|---|---|---|---|---|---|
| January | 23.9°F | 8.7°F | 16.3°F | 1.93 in | 20.2 in | 13 |
| February | 25.6°F | 8.7°F | 17.2°F | 1.31 in | 13.9 in | 9 |
| March | 34.1°F | 17.0°F | 25.5°F | 1.75 in | 12.0 in | 9 |
| April | 45.9°F | 29.9°F | 37.9°F | 2.44 in | 4.6 in | 10 |
| May | 59.3°F | 41.5°F | 50.4°F | 2.62 in | — | 11 |
| June | 69.9°F | 51.6°F | 60.8°F | 3.06 in | — | 10 |
| July | 75.0°F | 57.6°F | 66.3°F | 3.07 in | — | 11 |
| August | 74.0°F | 58.0°F | 66.0°F | 3.35 in | — | 11 |
| September | 66.1°F | 51.3°F | 58.7°F | 3.61 in | — | 11 |
| October | 52.9°F | 39.7°F | 46.3°F | 3.83 in | 0.3 in | 13 |
| November | 40.9°F | 29.6°F | 35.2°F | 2.58 in | 5.7 in | 11 |
| December | 30.9°F | 18.8°F | 24.9°F | 2.32 in | 17.9 in | 12 |
Climate twins of De Tour Village
Why these? →The most climatically similar US cities at least 140 miles away (by monthly temperature + precipitation pattern).