Ships taking extra caution after seiche exposes parts of the Detroit River's bank
CBC
When Windsor Harbour Master Peter Berry looked at the Detroit River earlier Friday, he saw things he hadn't seen in more than a decade.
"We haven't seen the bottom of the river since 2010, 2011. They're now exposed," Berry told CBC Windsor.
"Fish habitats we installed years ago that were under water are now exposed. The root balls and root wads, we can now see them."
The culprit is a seiche that has taken the river and Lake Erie by storm. It's a natural phenomenon that happens when strong winds push water from one end of a basin to another.
In this case, water in Lake Erie and the Detroit River are being forced into the northeastern basin by a strong, sustained southwest wind — all in a very short amount of time.
Berry says they lost about three-and-a-half to four inches of water in roughly a 24-hour period, which is why the water level is so low and parts of the riverbank are exposed.
That water loss, coupled with the strong winds, is a concern for shippers, according to Berry.
"Certainly, it's something that mariners are keeping watch of," said the chief operating officer of the Windsor Port Authority. "They've got to go look at those depths, those approaches to the docks."
"Three, four feet, you know, a metre coming into a dock when you're fully loaded could be a problem."
Although three to four feet of water may not seem like much, Berry says navigating that difference in water levels takes extra effort.
"The depth on your vessels, your draft is everything," he said, adding that mariners also have to consider where their load line is, where they're sitting in the water, and the attitude of the vessel itself.
Prior to the seiche, Berry said the Detroit River was experiencing low water levels, especially when compared to previous years.
"We're still slightly above the mean average, but we're [lower] than we were this time last year by 20, 30 centimetres," he said.
The water decline isn't necessarily a bad thing — Berry says it's part of "a natural cycle of the Great Lakes" due to evaporation, water temperatures and climate change.