As gruesome as the scene had been on land that January day, Pearce’s main concern then, and in the ensuing weeks, has been for a fish, the Macquarie perch. This species, which grows to about 16 inches in length and can live for 25 years, was once abundant and commercially fished throughout the Murray River basin. Today it’s endangered and only found in a handful of sites across southeast Australia, including in this 3.7-mile section of the Mannus Creek. Even before the bush fires, Pearce had been thinking about moving perch out of the creek and into captivity because of declining water quality caused by drought; the fires made that urgent. He managed to net nine perch in the days following the fires—at least some were still alive, he was glad to find—and arranged to return with some colleagues to net more.
What Is an Atmospheric River?
Then, on January 19, thunderstorms dumped large amounts of rain in the Mannus Creek catchment area. It was a relief for many, putting out fires and watering parched cattle paddocks, but the downpours triggered disaster in the creek. When Pearce arrived in Bogandyera Nature Reserve with his fish-netting teams around midday on January 20, they watched in “complete and utter despair” as huge volumes of ashy sediment, like dark, runny mud, came down the stream. “My initial feeling was that everything was going to die,” said Pearce, “I just didn’t know how anything was going to survive in that thick soup.”
Mannus Creek is one of many waterways in Australia that have been inundated with ash and debris following the devastating bush fires this spring and summer, killing fish and other aquatic life and fouling drinking water supplies. In some areas, scientists have mounted unprecedented efforts to create captive populations of endangered fish species threatened by the flood of ash into creeks and rivers.Luiz Silva and Katie Doyle, freshwater fish scientists at Charles Sturt University, have now documented 14 sites where ash-related fish kills occurred across southeastern Australia in recent months.
“We have never seen that extent of fire-related fish kills anywhere in the world,” said Silva, adding that he and Doyle documented fish mortality along more than 40 miles of the upper Murray River, even in its large main channel, where pollution would normally be diluted. “People don’t associate fire with water,” he said. “For most people, it seems hard to understand that fire impacts water—and how it impacts water.”
In fact, as the climate warms, droughts become more severe, and the incidence, intensity, and duration of wildfires increases, more rivers and streams worldwide are being adversely affected by ash and debris pouring into aquatic ecosystems in the wake of blazes.
At Mannus Creek, one of the primary impacts of the large pulse of ash was a rapid decline in dissolved oxygen levels in the water. With an electronic probe, Pearce documented oxygen levels dropping from an already-low 7.5 milligrams per liter to 0.06 milligrams per liter on January 20—virtually zero. “Everything was trying to get out of the creek,” he recalled. “Freshwater shrimp, yabbies [Australian freshwater crayfish], mayfly larvae, freshwater snails—they were all crawling out.”