Tide times in Bourcefranc-le-Chapus
Charente Maritime, Nouvelle-Aquitaine, France
Sun 7 Dec
| Time | Height | Coefficient | Type |
|---|---|---|---|
| 05:54 | 2.18m | 94 | High tide |
| 12:17 | 2.68m | - | Low tide |
| 18:28 | 1.83m | 87 | High tide |
This week
| Date | High tide | Low tide | Coefficient |
|---|---|---|---|
| Mon 1 Dec | 00:59 (1.35m) / 00:59 (1.35m) / 13:21 (1.67m) | 07:17 (1.68m) / 19:51 (1.93m) | 83 |
| Tue 2 Dec | 01:49 (1.64m) / 01:49 (1.64m) / 14:11 (1.88m) | 08:15 (2.04m) / 20:44 (2.23m) | 88 |
| Wed 3 Dec | 02:36 (1.90m) / 15:00 (2.03m) | 09:09 (2.38m) / 21:34 (2.49m) | 91 |
| Thu 4 Dec | 03:22 (2.11m) / 15:48 (2.10m) | 09:58 (2.66m) / 22:20 (2.67m) | 92 |
| Fri 5 Dec | 04:10 (2.22m) / 16:39 (2.08m) | 10:45 (2.81m) / 23:06 (2.72m) | 94 |
| Sat 6 Dec | 05:01 (2.25m) / 17:32 (1.98m) | 11:31 (2.82m) / 23:50 (2.64m) | 95 |
| Sun 7 Dec | 05:54 (2.18m) / 18:28 (1.83m) | 12:17 (2.68m) | 94 |
| Mon 8 Dec | 06:50 (6.02m) / 19:25 (5.61m) | 00:36 (1.54m) / 13:05 (1.56m) | 120 |
| Tue 9 Dec | 07:46 (5.83m) / 20:20 (5.41m) | 01:23 (1.84m) / 13:55 (1.89m) | 120 |
| Wed 10 Dec | 08:41 (5.62m) / 21:15 (5.21m) | 02:13 (2.18m) / 14:49 (2.23m) | 120 |
Tide times in Bourcefranc-le-Chapus
Your complete guide to Bourcefranc-le-Chapus tide times. Updated forecasts for safe and enjoyable coastal visits.
Make the most of Bourcefranc-le-Chapus's coastal environment with these tide-dependent activities:
High tide
Best conditions for safe swimming with deeper water
Explore coastal caves and hidden spots
Calm waters perfect for SUP sessions
Low tide
Collect worms and shellfish for fishing
Extended sandy areas to explore
Discover shells and sea treasures on exposed beaches
Understanding tides at Bourcefranc-le-Chapus helps you stay safe and make the most of your visit. Tides follow a roughly 12-hour cycle, with two high tides and two low tides each day.
Be aware of local conditions at Bourcefranc-le-Chapus. Some areas can become inaccessible during high tide.
Our tide predictions for Bourcefranc-le-Chapus are calculated using astronomical data and local observations for maximum accuracy.