A dry #RioGrande in springtime isn’t normal. But it will be — New Mexico Political Report #ActOnClimate

The headwaters of the Rio Grande River in Colorado. Photo: Brent Gardner-Smith/Aspen Journalism

From the New Mexico Political Report (Laura Paskus):

In early April, when the Middle Rio Grande should have been rushing with snowmelt, New Mexico’s largest river dried. It started through Bosque del Apache National Wildlife Refuge, spreading to more than 20 miles by now. The Albuquerque stretch may dry come June or July, which would mean some 120 miles dry altogether this summer.

Already, if you live in Albuquerque, you may have peered over the bridges and seen sandbars and slow water this spring. Even in places like Velarde or Española, historically low flows are trickling through your town, the result of not enough snow in the mountains this winter.

To see this happening in spring is shocking. But we shouldn’t be surprised. We knew this could happen. Just like we knew the climate was changing.

We know, for example, that warming makes an arid climate even drier.

On average, our snowpack is decreasing, moving north and melting earlier. That leads to less water in the rivers when we need it—spring and early summer before monsoons arrive.

And even when there is snow, warmer temperatures transform more of it to water vapor before it can liquefy its way into the watershed. Warming dries out soils and sends more dust into the air. That’s bad news, both for breathing creatures and snowpack, as topsoil-coated snowpack melts faster.

Warming means less water in rivers and reservoirs, and also less water underground.

Groundwater isn’t being recharged through snowmelt and streamflows, and we’re pumping more to compensate for the lack of surface water. New Mexicans survived the drought of the 1950s by pumping groundwater when the rivers slowed and the rains failed to fall. Since then, we’ve kept pumping, depleting aquifers and groundwater supplies.

Warmer, drier conditions also mean bigger, hotter wildfires and a longer wildfire season.

And after the fires, some of our forests can’t regenerate. Where they once thrived, ponderosa pine and mixed conifer forests can’t survive because it’s too warm—not to mention dry. In some places, even hardy junipers are drying out and dying off.

Before the Dome Fire and then Las Conchas, which burned here in the Jemez Mountains seven years ago, this was a dense conifer forest. Today, the climate is too warm for those trees to return.

In some places across this 30,000-acre burn scar, aspens and locust trees are sprouting where firs used to grow. In other places, the ground remains bare. When rains fall here, floods drive torrents of mud, ash and debris downstream.

Climate change means our forests change; our rivers and our grasslands change. It means our cities and small towns, farms and orchards change.

And we’ve known this for a long time.

In 1965, President Lyndon B. Johnson’s science advisers told him humans were “unwittingly conducting a vast geophysical experiment” by burning within a few generations fossil fuels that had accumulated over hundreds of millions of years. The carbon dioxide humans were injecting into the atmosphere would cause changes, they wrote, that would harm human beings.

In 1988, the New York Times reported on its front page that the Earth was warming. NASA scientist James Hansen testified before Congress, urging action to cut carbon emissions.

We knew what was happening.

In 2005, New Mexico released a report on the potential effects of climate change on the state. The 51-page summary report laid out a range of problems and potential solutions, related to everything from water and infrastructure to public health, wildfire and environmental justice.

New Mexicans then elected a governor who ended all state programs under her authority related to climate change.

Ten years later, scientists, economists and hydrologists worked together to understand New Mexico’s drought vulnerabilities. They handed off a report to the legislature that revealed problems with groundwater supplies in the Lower Rio Grande.

Our state Legislature didn’t renew their funding.

For decades, there have been scientific papers, government reports, planning documents, economic studies and international agreements.

We knew what was going to happen.

And yet, here we are.

No matter what you might hear from certain voices, this drying in the Middle Rio Grande is not normal for springtime.

That’s not to say that the river here has never dried in the spring, since records have been kept or before.

But just because something has happened before doesn’t mean it’s normal.

As it continues happening—as a river that supports millions of people in three states and two countries continues to dry—we all need to pay attention.

We also need to understand what biological, chemical and hydrological impacts are occurring, says Clifford Dahm, professor emeritus at the University of New Mexico’s Department of Biology and an expert on intermittent and ephemeral rivers.

“The aquatic creatures that live in the river, as it’s drying and staying dry longer, are going to change,” he said. “There will be a shift towards completely different communities of fish, algae, invertebrates and trees.”

Right now, we don’t know how quickly those shifts will occur, which species will survive, die or recover. But when the water table drops to more than ten feet below the surface, we do know cottonwood trees struggle and then die, Dahm said.

Right now, we know that in the Rio Grande Basin, warming will lead to a four to fourteen percent reduction in flow by the 2030s and an eight to 29 percent reduction by the 2080s.

On the Colorado River—which New Mexico also relies upon—scientists have predicted a 20 to 30 percent decrease in flows by 2050. And a 35 to 55 percent decrease by the end of the century.

Even on the Gila River in southwestern New Mexico, warming will decrease flows by about 5 to ten percent due to decreasing snowmelt runoff.

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