June 12, 2024

Farmers and ranchers in the Southwestern US face challenges due to human-induced atmospheric warming
Map of study region and extent of 2020 drought. The study region is shown in black, encompassing portions of Utah, Colorado, New Mexico, and Arizona. Extent of USDM drought classifications for 29 December 2020 are shown as well. Credit: Earth’s Future (2023). DOI: 10.1029/2022EF002943

The American Southwest has always been a dry place—cue romantic visions of hot, rugged, sun-bleached, seemingly infinite landscapes and star-filled night skies. And yet, the plants, animals and people of the Four Corners region (Utah, Colorado, New Mexico and Arizona) have managed to adapt to and even flourish in the land of low rainfall and high temperatures.

Long before the arrival of Spanish settlers to the region in the 1500s Indigenous Puebloan communities practiced agriculture that is uniquely suited to and thus thrived in this dry environment. When the Spanish introduced cattle and other livestock, available forage was found suitable and abundant enough for grazing, leading to a dominance of ranching in the region

However, the rising temperatures brought on by human-driven atmospheric warming are bringing big changes to agricultural life in the Southwest. According to a recent paper by researchers at UC Santa Barbara and UC Merced, “increased temperatures from human-caused climate change are having persistent and damaging impacts on vegetation productivity, with significant implications for ranchers and other land users in the region.”

“There are that are tied to too much rainfall or too little rainfall,” said UCSB climate scientist Chris Funk, co-author of a research article that appears in Earth’s Future. “What this work has really focused on is a different and equally dangerous type of climate change that is associated with the desiccation of plants by .”

On top of a two-decade ongoing megadrought, the researchers found that rising average air temperatures have exacerbated the dryness and other conditions that increase evaporation from leaves. The result? A decrease in vegetation to support life on the range.

The ability of air to hold water (as vapor) is central to their findings, according to Funk, who leads the Climate Hazards Center at UCSB.

“For every degree Celsius of warming, the amount of water vapor the air can hold goes up by about 7% because the hydrogen and oxygen atoms in the air are bouncing around more,” he said. “So there’s more space in between them and that can hold more water.” Ironically, he added, that increased capacity can lead to more extreme floods when the saturation tipping point is reached because there’s more water in the atmosphere to rain out.

But the atmosphere’s increased ability to hold water also amplifies dry seasons, drawing water out of vegetation to satisfy the increased demand for moisture in the warmer air. This difference in the amount of water in the air and how much it can hold to saturation is called a vapor pressure deficit (VPD).

“There are three major impacts of this deficit on the landscape,” Funk explained. “One would be less productive crops. Another, which is the one we focused on, is rangeland productivity—pasture health. And the third is wildfire extent and low dead fuel moisture levels.”

Over the last century, according to the U.S. Environmental Protection Agency, average temperatures across the entire Southwest, with California and Nevada in addition to the Four Corners states, have increased by up to 2°F (that’s about 1.1°C).

And it shows. In the Four Corners region, the researchers note a big decrease in the amount of green vegetation in 2020. They estimate that about half of that decrease was due to the impact of rising air temperatures.

It’s not only plants and the animals that depend on them that are being affected. Farming and ranching communities, and in particular Indigenous communities in the Southwest who rely heavily on the vegetation may have to resort to purchasing fodder—the prices for which could be impacted as well by the abnormally dry weather.

“The reality is that these vapor pressure deficits, though they seem intangible, are leading to real-life impacts for people, such as inadequate water or poor forage,” said lead author Emily Williams, who completed this work as a doctoral student at UCSB before moving to UC Merced for postdoctoral research. “And many of the people most impacted, like tribal communities, who have lived here for generations in relative balance with the land, are now uniquely vulnerable and have moreover done the least to contribute to human-driven climate change.”

Despite an El Nińo system that is predicted to bring more rain to the Southwest this winter, the Four Corners region is likely to remain parched, Funk said.

“First, ‘Southwest’ and Four Corners can be quite different,” he said. ” The link between the Four Corners summer monsoon and the El Niño Southern Oscillation is weak.” The recent summer monsoon was inadequate in terms of the moisture it brought to the area, he added, and the abnormal heat, especially across Colorado, New Mexico and Arizona, have amplified the VPD effects.

“So, while El Niño can amplify winter rains across parts of the Southwest, it also increases air temperature and VPD,” he explained. “The latter effect, combined with a poor summer monsoon, means that Arizona and especially New Mexico, are still in serious drought.”

The results of this study, the researchers say, may be applicable to other regions in the world with an arid or semi-arid climate. Funk and colleagues at the Climate Hazards Center are rapidly advancing their climate prediction capabilities by understanding the roles and impacts of vapor pressure deficits during the alternating El Niño and La Niña weather systems, each of which bring different temperatures and the likelihood of different weather events.

Ironically, climate-change enhanced moisture convergence over the Pacific is enhancing the strength of La Niñas. With better predictions, it may become possible to anticipate and adjust to the impacts of drought and other heat-driven events in the future.

More information:
Emily L. Williams et al, Anthropogenic Climate Change Negatively Impacts Vegetation and Forage Conditions in the Greater Four Corners Region, Earth’s Future (2023). DOI: 10.1029/2022EF002943

Farmers and ranchers in the Southwestern US face challenges due to human-induced atmospheric warming (2023, December 11)
retrieved 11 December 2023
from https://phys.org/news/2023-12-farmers-ranchers-southwestern-due-human-induced.html

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