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Do you know how Garibaldi Lake was formed?

Full house for lecture exploring how volcanoes and glaciers shaped Sea to Sky
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Researchers recently learned more about Lake Garibaldi and its origins after mapping the lake鈥檚 floors. Volcanologist Dr. Steven Quane discussed his findings during last Wednesday鈥檚 鈥淪pires, Columns, Tables and Lakes: How volcanoes and glaciers shaped our land," a free talk held as part of the Whistler Public Library and Quest University鈥檚 monthly lecture series.

Looking out to Black Tusk while cruising down Whistler Blackcomb鈥檚 slopes, it鈥檚 difficult to imagine the Sea to Sky鈥檚 colossal peaks and valleys looking any different than they do today.

But between 10,000 and two million years ago, the Sea to Sky would have been unrecognizable. At points throughout that period, the valley floor was covered by nearly two kilometres of glacial ice, while several of those peaks belonged to active volcanoes, regularly erupting with steady streams of lava.

As Dr. Steven Quane, a professor of physical sciences at Squamish鈥檚 Quest University explained during a free lecture held at the Maury Young Arts Centre last Wednesday, Nov. 14, that unique combination of geologic events is responsible for creating many of the similarly unique natural features found throughout the Sea to Sky.

The free talk, "Spires, Columns, Tables and Lakes: How volcanoes and glaciers shaped our land," was part of the Whistler Public Library and Quest University鈥檚 monthly lecture series, presented in partnership with the Resort Municipality of Whistler.

The topic was clearly one the community wanted to learn more about: less than 10 minutes after the doors opened for the lecture, every seat in the Maury Young Arts Centre was filled, with a sizable crowd left trickling into overflow seating in the lobby.

Attendees spanned across all demographics, with everyone eager to learn about how some of the Sea to Sky鈥檚 more beloved geographical features were formed in the first place.

One of those features was Garibaldi Lake, a glacier-fed body of water just south of Whistler 鈥渢hat shouldn鈥檛 really be there,鈥 according to Quane. The lake, 鈥渇ormed through a conspiracy of geologic events, I like to think,鈥 he added.

The crowd remained tuned in as Quane explained how examining the texture of lava flows鈥攍ike one that trickled down from Mount Price and Clinker Peak in Garibaldi Provincial Park around 11,000 years ago鈥攃an give researchers the power to determine whether those lava flows were interacting with ice when they formed the land masses we see today. For example, that specific volcanic flow left behind pressure ridges that show the lava was moving towards the Cheakamus Valley, which, at the time, was still buried underneath ice.

The Barrier is a 250-metre thick mass of unstable igneous rock that extends approximately one kilometre back, to the shore of Garibaldi Lake. That buildup of lava created a natural dam, which led to the formation of Garibaldi Lake, as well as Lesser Garibaldi Lake and Barrier Lake.

But Quane and his fellow researchers wanted to learn more, and decided to spend the summer mapping the floor of Garibaldi Lake. They discovered the lake reaches a maximum depth of 265 metres, with a 鈥渧ery flat bottom鈥 in the middle.

While one end of the lake shows a normal, gradual slope from the shore to the deepest part of the lake, the opposite shore鈥攃losest to the campsites and the Barrier鈥攄isplays 鈥渁n undulating plateau鈥 that 鈥渓ooks an awful lot to me like a lava flow,鈥 Quane explained, referencing a 3D onscreen model showcasing the lake鈥檚 shape and varying depths.

After finding a similar plateau in Lesser Garibaldi Lake, researchers began to wonder why the lava flow that created the Barrier wouldn鈥檛 have filled the deep, pre-existing depressions behind it. As Quane and his students hypothesize, that might be because the lava flow was forced to wrap itself around stranded icebergs stuck in the basins that now hold Garibaldi Lake, Lesser Garibaldi Lake and Barrier Lake.

Quane鈥檚 lecture also touched on other local features like Black Tusk, the Table and Rubble Creek, his team鈥檚 latest research, and the much-publicized increase in fumarolic activity at Mount Meager in Pemberton (for more information, check out the in-depth feature investigating the risks associated with Mount Meager published by Pique earlier this fall.)

For those who weren鈥檛 able to attend but want to learn more, the one-and-a-half-hour lecture is available to watch in full on the Whistler Public Library鈥檚 Facebook page.

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