Tide times in French Creek — 02, Canada
02, Canada
Fri 6 Mar
| Time | Height | Type |
|---|---|---|
| 00:53 | 4.95m | Low tide |
| 07:01 | 7.45m | High tide |
| 13:36 | 4.50m | Low tide |
| 19:54 | 6.92m | High tide |
This week
| Date | High tide | Low tide |
|---|---|---|
| Tue 3 Mar | 05:54 (7.55m) / 17:25 (6.95m) | 11:53 (5.18m) / 23:46 (4.20m) |
| Wed 4 Mar | 06:19 (7.53m) / 18:14 (6.97m) | 12:29 (4.92m) |
| Thu 5 Mar | 06:41 (7.49m) / 19:02 (6.96m) | 00:21 (4.55m) / 13:03 (4.69m) |
| Fri 6 Mar | 07:01 (7.45m) / 19:54 (6.92m) | 00:53 (4.95m) / 13:36 (4.50m) |
| Sat 7 Mar | 07:23 (7.37m) / 20:55 (6.88m) | 01:27 (5.38m) / 14:13 (4.35m) |
| Sun 8 Mar | 08:46 (7.27m) / 23:11 (6.86m) | 03:04 (5.81m) / 15:53 (4.25m) |
| Mon 9 Mar | 09:06 (7.14m) | 03:45 (6.22m) / 16:39 (4.23m) |
| Tue 10 Mar | 00:34 (6.88m) / 09:20 (7.01m) | 04:44 (6.55m) / 17:34 (4.26m) |
| Wed 11 Mar | 01:56 (6.94m) / 09:34 (6.88m) | 06:44 (6.73m) / 18:38 (4.30m) |
| Thu 12 Mar | 03:23 (7.04m) / 09:57 (6.72m) | 08:24 (6.70m) / 19:43 (4.30m) |
Location information
Nearby tide stations
Northwest Bay BC
12.9 km away
False Bay BC
14.5 km away
Nanoose Bay BC
17.7 km away
Winchelsea Is BC
20.3 km away
Hornby Island
27.9 km away
Port Alberni BC
35.3 km away
Tide times in French Creek
Stay informed about French Creek tides. Perfect for planning beach activities, fishing trips, or boat launches.
Make the most of French Creek's coastal environment with these tide-dependent activities:
High tide
Safe water levels for experienced jumpers
Calm waters perfect for SUP sessions
Enough depth for water sports
Low tide
Discover shells and sea treasures on exposed beaches
Explore tidal pools teeming with marine life
Extended sandy areas to explore
Understanding tides at French Creek 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 French Creek. Some areas can become inaccessible during high tide.
Our tide predictions for French Creek are calculated using astronomical data and local observations for maximum accuracy.