Surrey — Current Water Temperature, Annual Trends and Forecast
This page provides information on the current water temperature in Surrey, trends, monthly ranges and the forecast for the coming days.
Current Water Temperature
Water Temperature in Surrey today is 14.2°C.
Water Temperature: Daily Trends, Historical Records, and Forecast
⚠️ As of today, the minimum water temperature ranges from 54°F (12°C) to 60°F (15°C). The water is significantly warmer, and swimming becomes possible for most people. However, caution may still be required for prolonged stays in the water, as extended exposure can cause discomfort. This is a suitable temperature range for short swims and for those accustomed to cooler water. For more comfortable swimming, it is recommended to use proper gear. It is important to note that these swimming tips and recommendations apply only in good weather. When the air temperature is below 68°F (20°C), and sometimes even below 77°F (25°C), swimming can be unpleasant even with relatively high water temperatures.
Water Temperature Chart Over the Last 30 Days
Table of Daily Sea Temperature Data
| Date | Current | Average | Forecast |
|---|---|---|---|
| JUN 3 | 13.9°C | 13.5°C | |
| JUN 4 | 14.5°C | 13.5°C | |
| JUN 5 | 14.8°C | 13.5°C | |
| JUN 6 | 14.7°C | 13.5°C | |
| JUN 7 | 14.8°C | 13.5°C | |
| JUN 8 | 14.6°C | 13.5°C | |
| JUN 10 | 14.2°C | 13.5°C | |
| JUN 11 | 13.5°C | 14.2°C | |
| JUN 12 | 13.5°C | 14.1°C | |
| JUN 13 | 13.5°C | 14.1°C | |
| JUN 14 | 13.5°C | 14.1°C | |
| JUN 15 | 13.5°C | 14.0°C | |
| JUN 16 | 13.5°C | 14.0°C | |
| JUN 17 | 13.5°C | 14.0°C |
* Current - Actual water temperature value
** Average - Average water temperature on this day in recent years
*** Forecast - Our water temperature forecast
Actual nearshore water temperatures may fluctuate by several degrees from the reported values, especially following heavy rainfall or extended periods of strong winds. Certain wind patterns can cause colder, deeper waters to rise and replace the sun-warmed surface water, leading to noticeable variations.
Our forecast is based on a proprietary mathematical model that considers real-time water temperature changes, historical trends, key weather patterns, wind strength and direction, and air temperature specific to each region. Additionally, we incorporate data from other resorts to enhance accuracy.
Monthly Water Temperature Range (Min, Max & Average)
| Month | Min | Avg | Max |
|---|---|---|---|
| January | 0°C | 3°C | 7°C |
| February | 0°C | 3°C | 6°C |
| March | 0°C | 3°C | 7°C |
| April | 0°C | 5°C | 11°C |
| May | 4°C | 8°C | 15°C |
| June | 7°C | 14°C | 18°C |
| July | 15°C | 18°C | 23°C |
| August | 17°C | 19°C | 24°C |
| September | 11°C | 16°C | 20°C |
| October | 7°C | 12°C | 16°C |
| November | 3°C | 6°C | 11°C |
| December | 0°C | 3°C | 7°C |
Surrey: Weather Forecast
June 9
June 10
June 11
June 12
June 13
Location & Local Information
The Fraser River, which forms the northern boundary of Surrey, British Columbia, maintains consistently cold water temperatures due to its immense volume and origin from glacial and mountain runoff. Even during the peak summer months, surface temperatures in this section of the river typically only reach a maximum range of 17∘C to 20∘C (63∘F to 68∘F). This is a temperature that presents a significant risk of cold shock and hypothermia, making extended swimming dangerous. In the winter, the water is much colder, generally cooling to the range of 4∘C to 10∘C (39∘F to 50∘F).
Swimming in the Fraser River near Surrey is strongly discouraged and considered extremely hazardous, and there are no official swimming areas. The primary danger stems from the river's massive flow rate, which generates powerful, unpredictable currents and strong undertows that are difficult to escape. Furthermore, the river serves as a major commercial waterway, increasing the risk of collision with debris and large vessels. As a result, any attempt at swimming is strictly at one's own risk, and local safety authorities consistently warn the public against entering the river due to the combination of swift hydraulics and low temperatures.