Trout don’t follow the weather forecast

Spring storms don’t trigger steelhead to migrate, according to a UC study

An endangered fish in California might use its internal clock to decide when to migrate, according to a study by the University of Cincinnati.

UC visiting assistant professor of biology Michael Booth studied the migration patterns of steelhead, a subpopulation of rainbow trout that migrates to the Pacific Ocean, where the growing fish hunt and feed until they return to their natal freshwater streams to spawn.

While working at the United Water Conservation District, Booth used 19 years of records from a designated fish trap on southern California’s Santa Clara River to identify potential environmental drivers that spur some fish to make the arduous trip to the Pacific Ocean. The trap is part of a diversion off the river where fish can be counted and, if necessary, relocated downstream past the river’s low or dry spots.

He found that steelhead migration was triggered by the lengthening daylight of spring rather than factors like recent rains, which had little correlation to migration.

The study was published in the North American Journal of Fisheries Management.

Michael Booth wearing a facemask stands next to a freshwater aquarium.

UC visiting assistant professor Michael Booth studied endangered steelhead in California before coming to UC. Now he is studying freshwater fish found in Ohio. Photo/Joseph Fuqua II/UC Creative + Brand

The Santa Clara River is one of the largest coastal watersheds in southern California. It’s an important source of water for Ventura County’s $2 billion agriculture industry, famed for its strawberries, lemons, peppers and avocados.

But sections of the river often go dry completely, isolating fish in upstream tributaries until the seasonal rains return.

Two fish swim in a stream.

Steelhead. Photo/NOAA

“The Santa Clara River is a massive desert river,” Booth said. “The river channel is braided with sand and gravel. It’s about 1,000 feet wide in its lower sections and it’s always changing.”

The river is fed by cold-water mountain streams typically associated with rainbow trout. Some of the fish remain in these tributaries their entire lives, spawning and dying not far from where they hatched. Others undergo physiological changes that allow them to tolerate the saltwater of the Pacific Ocean. While rainbow trout are typically green and pink, steelhead can take on a silvery sheen, giving them their name.

Steelhead in southern California are federally protected as an endangered species. Anglers must release any they catch.

Booth said there are big genetic benefits to making the dangerous trip to the Pacific Ocean. Steelhead grow much faster in the food-rich ocean than trout that remain in the freshwater streams. Fish that migrate to the ocean have an advantage in passing on their genes to subsequent generations when they return to spawn, he said.

“A 3-year-old resident trout might be a foot long, but a steelhead might be 3 feet long,” he said. “Their fecundity is directly related to size. So the bigger the fish, the more eggs it can make. There’s a really strong genetic advantage to making more babies.”

Michael Booth, PhD visiting assistant professor Fish & Aquatic Ecology shown here in his lab with fish tank at Rieveschl. Michael Booth studied migration patterns of steelhead in California's Santa Clara River. UC/ Joseph Fuqua II

UC visiting professor Michael Booth is helping to unravel the mysteries of steelhead migration. Photo/Joseph Fuqua II/UC Creative + Brand

The study recommended limiting the extraction of water from the Santa Clara River during the migration months of mid-March to May. Likewise, Booth said the water flow in the river should be maintained where possible to allow late migrating steelhead to return upstream.

The trout’s migration opportunities might shrink from climate change, the study warned.

“There are a lot of challenges in the Santa Clara River. The water levels go up and down,” he said. “This river has a massive sediment load. During a big storm, the river bed can erode 20 feet. The water looks like a smoothie coming downstream.”

Booth said steelheads likely wait for sediment-choked river water to settle before migrating.

Since the river in most years is only navigable after storms get water flowing again, Booth hypothesized that heavy rains triggered the steelhead’s movement to the ocean.

“We thought the fish would migrate when the river was flowing and wouldn’t migrate in years without storm events,” Booth said. “It turned out that wasn’t the case. They migrated regardless of whether the river was flowing to the ocean.”

Booth isn’t sure if the fish that reach dry spots head back upstream or simply perish in the main stem of the river.

This is a very wicked problem.

Michael Booth, UC biologist

Booth's research is significant because it could help wildlife managers and government regulators make more informed decisions about water use. The Santa Clara River is a major source of water for agriculture and people who live in the watershed. Knowing what months are crucial for steelhead migration could help wildlife managers avoid conflicts.

“It’s really hard for a water manager to decide this is when we can and can’t divert water if you have no data on when the fish are migrating,” Booth said.

For fish that miss the narrow window to navigate the Santa Clara while it’s running, there are few practical solutions, Booth said.

“This is a very wicked problem. The water available is dependent on rain, snowfall and the recharge of the groundwater,” he said. “We can avoid taking water from the river or reducing extractions but there isn’t an extra water source to make the river flow during droughts.”

But Booth is optimistic the steelhead will persist in the Santa Clara River, at least for now.

“Steelhead are very resilient. They’ve been holding on for a while,” he said

Featured image at top: The braided sand and gravel of the Santa Clara River erodes with each major storm. Droughts can dry up entire portions of the river, interrupting the migration of anadromous fish such as steelhead. Photo/Michael Booth

Michael Booth stands in a courtyard at UC.

UC visiting assistant professor Michael Booth spent years studying endangered steelhead in California. Now he is turning his attention to freshwater fish found in Ohio. Photo/Joseph Fuqua II/UC Creative + Brand

More UC biology news

Adam Parlin, UC student shown here with one of his silk mask in his lab at Rieveschl Hall. UC biology professor Patrick Guerra says silk face masks are especially effective barriers, particularly when used in conjunction with N95 masks. UC/ Joseph Fuqua II

UC postdoctoral researcher Adam Parlin studied the beneficial properties of silk masks in UC biologist Patrick Guerra's lab. Photo/Joseph Fuqua II/UC Creative + Brand

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