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Fire’s Effects on Soil Moisture, Runoff

By American Society of Agronomy | December 12, 2018

The 2011 Las Conchas mega-fire in New Mexico burned more than 150,000 acres and threatened the Los Alamos National Laboratory. Credit: Brian Klieson.

Fire and water. Timeless, opposing forces, they are actually linked in powerful ways that can have major impacts on communities and ecosystems.

The 2011 Las Conchas mega-fire in New Mexico burned more than 150,000 acres and threatened the Los Alamos National Laboratory. Now, using data from the fire, researchers at Los Alamos have created an experimental model that will help us better understand the interactions of fire and water in the soil.

Adam Atchley, a researcher at Los Alamos National Laboratory, and his team set off with a goal: to evaluate how the soil’s water balance changes before and after a fire, depending on the burn severity.

They designed an experimental model to simulate the effects of wildfire on the water balance of a burned site. The model used actual site condition measurements in the Las Conchas fire region. These measurements were taken several years before the fire by the Bandelier Fire Ecology Field Team. The model also incorporated burn severity data from the wildfire.

They found low- to moderate-severity wildfires result in wetter soil.

Water leaves soil in multiple ways. Water can move through plants, escaping as vapor through pores in the leaves. This is called evapotranspiration. When vegetation is burned, evapotranspiration is typically reduced until plants regrow. As a result, less water is pulled out of the soil. It remains wetter.

Surface runoff is another mode of water movement. Wildfire can make the soil more vulnerable to this moisture loss. Fire removes the absorbent layers of fallen and decaying plant matter on the forest floor. These layers, called litter and duff, can store more moisture than soil can. Without these layers, heavy rain can provide more water than the ground can absorb. This contributes to surface runoff.

“It is well known that fire disturbances can have a strong effect on how water interacts with land,” said Atchley. “Fire often dramatically increases flashy runoff responses to storms following the fire disturbance. But it also reduces evapotranspiration. What is not well understood, and is hard to measure, is how these two competing processes change the site water balance, or how wet or dry a burn site will be after the fire. Increasing the runoff would make the site dryer overall while decreasing the evapotranspiration will keep water on the site and make it wetter,” Atchley said.

The experimental model identified an important tipping point. In high-severity burn sites, increased runoff outweighs the effect of reduced evapotranspiration. Water runoff is greater than the water retained, leaving comparatively drier soils after the fire.

It’s all a matter of degree of severity. “What we found,” Atchley said, “is that burn sites will generally become wetter because the change in evapotranspiration is bigger than the change in runoff. However, in the case of high-burn severity, the site could become drier because the change in runoff shortly after the fire becomes bigger than the change in evapotranspiration.”

The soil and vegetation conditions that affect moisture after a wildfire will also change over time. For initial site recovery and water management planning after a wildfire, these findings have important implications.how to 

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