Tide times in Stockton Ship Channel at Burns Cut Off — CA, United States
CA, United States
Tue 3 Mar
| Time | Height | Type |
|---|---|---|
| 05:41 | 1.88m | High tide |
| 12:13 | 1.19m | Low tide |
| 17:28 | 1.93m | High tide |
This week
| Date | High tide | Low tide |
|---|---|---|
| Tue 3 Mar | 05:41 (1.88m) / 17:28 (1.93m) | 12:13 (1.19m) |
| Wed 4 Mar | 06:16 (1.91m) / 18:06 (1.86m) | 00:15 (0.93m) / 12:58 (1.15m) |
| Thu 5 Mar | 06:52 (1.94m) / 18:44 (1.79m) | 00:41 (0.97m) / 13:44 (1.10m) |
| Fri 6 Mar | 07:29 (1.97m) / 19:27 (1.71m) | 01:08 (1.02m) / 14:31 (1.06m) |
| Sat 7 Mar | 08:07 (1.99m) / 20:22 (1.62m) | 01:35 (1.09m) / 15:19 (1.03m) |
| Sun 8 Mar | 09:48 (2.00m) / 22:50 (1.56m) | 03:03 (1.18m) / 17:08 (1.02m) |
| Mon 9 Mar | 10:33 (2.00m) | 03:31 (1.28m) / 17:58 (1.02m) |
| Tue 10 Mar | 00:13 (1.53m) / 11:24 (1.99m) | 04:01 (1.38m) / 18:49 (1.03m) |
| Wed 11 Mar | 01:26 (1.55m) / 12:18 (1.98m) | 04:50 (1.47m) / 19:42 (1.04m) |
| Thu 12 Mar | 02:32 (1.59m) / 13:11 (1.96m) | 07:09 (1.51m) / 20:38 (1.03m) |
Tide times in Stockton Ship Channel at Burns Cut Off
Stockton Ship Channel at Burns Cut Off tide times at your fingertips. Reliable forecasts to help you enjoy the coast safely.
The coastline around Stockton Ship Channel at Burns Cut Off offers numerous activities depending on tide conditions:
High tide
Calm waters perfect for SUP sessions
Enough depth for water sports
Best conditions for safe swimming with deeper water
Low tide
Collect worms and shellfish for fishing
Discover shells and sea treasures on exposed beaches
Explore tidal pools teeming with marine life
Tides in Stockton Ship Channel at Burns Cut Off are influenced by the gravitational pull of the moon and sun. The tidal range varies throughout the month, with spring tides bringing the highest and lowest water levels.
Always check tide times before visiting Stockton Ship Channel at Burns Cut Off. Rising tides can cut off beaches and create dangerous currents.
Our tide predictions for Stockton Ship Channel at Burns Cut Off are calculated using astronomical data and local observations for maximum accuracy.