Click on a thumbnail graphic to view a gallery of drought data from the US Drought Monitor website.

Click the link to go to the US Drought Monitor website. Here’s an excerpt:

This Week’s Drought Summary

The week was highlighted by a band of above-normal precipitation extending from south Texas into eastern Oklahoma, Missouri, Illinois, Michigan, and southern Wisconsin. Many areas in this swath received greater than 150% of normal precipitation, with some locations exceeding 400% for the week. From the Ohio Valley south into the Southeast, conditions remained quite dry, with little to no precipitation recorded across most of the region.

The West was also largely dry, with only coastal areas of California and parts of the Pacific Northwest recording above-normal precipitation. Northern portions of the Northeast received rain, with areas from western New York into Maine recording 200% or more of normal precipitation.

Temperatures were near normal to slightly below normal across the West, with departures of up to 5°F below normal in some areas. Portions of the central Plains, Midwest, Northeast, and Mid-Atlantic experienced above-normal temperatures, with departures of 5–10°F above normal. Temperatures in the Southeast were near to slightly above normal, with cooler conditions in the Florida Panhandle…

High Plains

The region was mostly dry, with isolated rainfall in far southeast Nebraska, northern and southeast Kansas, and small areas of Colorado and North Dakota. Temperatures were generally above normal, with the warmest departures in southeast Nebraska and eastern Kansas.

Dryness and a warm spring led to widespread degradation. Extreme drought expanded across central and western Nebraska and into northwest Kansas. Severe drought expanded in central and southwest Kansas, with new extreme drought in far southwest Kansas.

Degradation continued across the plains of Wyoming and Colorado, with expansion of moderate to extreme drought. Extreme drought was also introduced in southern South Dakota.

Some improvements occurred in southeast Kansas, where moderate drought and abnormally dry conditions were reduced due to recent rainfall…

West

Precipitation was mixed. Parts of central to northern California, western Oregon and Washington, much of Idaho, and isolated areas in Montana, Utah, and Colorado recorded above-normal precipitation. However, most of the region remained drier than normal.

Temperatures were generally cooler than normal, with northern Nevada experiencing departures of up to 6°F below normal. Southern California and Arizona saw the warmest conditions, with temperatures up to 6°F above normal.

Drought conditions worsened across much of Nevada, with expansion of abnormal dryness to severe drought. Severe drought expanded into northwest Utah, while moderate to severe drought increased in western and southern Arizona. Severe drought also expanded in western Wyoming, and extreme drought was introduced in southwestern Montana.

Oregon and Washington saw slight expansion of abnormally dry to moderate drought, with a small increase in severe drought in southwest Oregon. Southern California also experienced expansion of abnormally dry conditions.

Impacts are becoming more evident as snowpack has largely melted, and early runoff may contribute to future water supply issues… [ed. emphasis mine]

South

Temperatures were above normal across northern and eastern areas, with departures of 2–6°F. Across Texas, temperatures transitioned to below normal in southern and western areas, with departures of 2–6°F below normal.

The heaviest rainfall occurred from central to southern Texas into central and eastern Oklahoma, where totals reached 150–400% of normal. Elsewhere, conditions were mostly dry, including the Texas and Oklahoma Panhandles, and much of Arkansas, Louisiana, Mississippi, and Tennessee.

Where rainfall was sufficient in Texas and Oklahoma, drought conditions improved or were removed. However, drought intensified across Mississippi, where nearly the entire state experienced a full category of degradation and is now 100% in drought.

Extreme drought expanded in eastern Arkansas and northern and southern Louisiana, with moderate drought increasing in southern Louisiana. Severe and extreme drought expanded across western Tennessee, while moderate drought increased in the east. Tennessee is now also fully in drought…

Looking Ahead

Over the next 5–7 days, the highest precipitation chances are expected from the central Plains into the South, Midwest and parts of the Mid-Atlantic. The Pacific Northwest and northern Rockies may also see widespread precipitation.

Temperatures are expected to be above normal across the southern Plains, South and Southeast, with departures of 9–11°F in north Texas and Oklahoma and 5–7°F elsewhere. Cooler-than-normal temperatures are forecast for the northern Plains, northern Rockies, and California, with departures of 9–12°F below normal in North Dakota and Montana and 6–9°F below normal in California.

The 6–10 day outlook shows the highest chances for cooler-than-normal temperatures across the Plains and Midwest, with the greatest potential over the High Plains and upper Midwest. The best chances for above-normal temperatures are in the Pacific Northwest and along the southern Gulf Coast. The greatest likelihood of above-normal precipitation is across much of the central and southern United States, with the highest chances in the Southwest. Meanwhile, the northern United States along the Canadian border is expected to have the best chances for below-normal precipitation.

Click the link to read the article on the Water Education Colorado website (Shannon Mullane):

April 16, 2026

As Coloradans grapple with a record low snowpack heading into summer, the super El Niño and strong monsoon season in the forecast could provide some late summer relief.

Colorado’s weather is impacted by everything from temperature changes in the Pacific Ocean to pressure patterns over Texas — not to mention rising temperatures around the globe. This year’s La Niña conditions, created by cooler water temperatures in the Pacific, should have brought snow to Colorado’s northern mountains. Instead, the state ended the winter a month early with record hot days and a rapid snowmelt, prompting drought restrictions and water cutbacks around Colorado.

As of last week, the La Niña is over and the odds are increasingly good for a super El Niño later in 2026 — a climate pattern that has historically brought wetter winter conditions to Colorado, according to the National Weather Service.

It’s a tentative dose of hope for residents looking for a reprieve from record-breaking dry conditions, said Russ Schumacher, Colorado state climatologist and a professor at Colorado State University.

“Things are probably going to get worse before they get better,” Schumacher said. “I don’t think we’re going to be stuck in just dry, dry, dry for many, many more months to come. I think there is some reason for optimism.”

A lot of Colorado’s bad drought years have come during La Niña conditions, and Colorado has had multiple La Niña years in a row. Colorado should be rooting for La Niña to go away at this point, he said.

“It doesn’t guarantee that things are going to improve in the near term,” Schumacher added, “but we have a better chance of it if La Niña is in the rearview mirror.”

What are El Niño and La Niña?

El Niño and La Niña are opposing climate patterns in the Pacific Ocean that can affect weather worldwide. Together, they’re called the El Niño-Southern Oscillation cycle, ENSO for short.

The patterns vary based on water temperatures in the central and eastern Pacific Ocean that are influenced by winds circling the Earth near the equator, called trade winds because of their use in early sail-dependent commerce.

Meteorologists watch a specific region in the Pacific near the equator to determine whether the water temperature is warmer or cooler than normal, said Erin Walter, a service hydrologist for the National Weather Service in Grand Junction.

If the region’s water temperature is more than 0.5 degrees Celsius warmer than usual, then scientists call it an El Niño.

If the temperature is more than 0.5 degrees Celsius cooler than usual, it is a La Niña.

“They’re basically like opposite waves,” Walter said. “They ebb and flow together. And they’re more irregular than one would think.”

The warmer or cooler temperatures need to last for months before scientists will shift the classification from neutral into El Niño or La Niño territory. The climate patterns typically last nine to 12 months, but can sometimes last for years.

El Niño and La Niña events occur every two to seven years, on average, but they don’t occur on a regular schedule. Generally, El Niño occurs more frequently than La Niña, according to the National Oceanic and Atmospheric Administration.

Fun fact: The names for the two climate patterns can be traced back to observant South American fishermen in the 1600s, NOAA says.

The fishermen first noticed periods of unusually warm weather in the Pacific Ocean and called the resulting patterns El Niño de Navidad, the Christmas Child or the Christ Child in English, because El Niño typically peaks around December.

La Niña means Little Girl in Spanish. La Niña is also sometimes called El Viejo, anti-El Niño, or simply “a cold event,” according to NOAA.

How do ENSO cycles impact Colorado and the world?

The temperature fluctuations in the Pacific Ocean impact how and where jet streams, narrow bands of strong wind, flow in the atmosphere. Those jet streams impact which regions of the world have a dry spell, and which ones are hit with storms.

The ENSO events can lead to flooding, heavy rains, landslides and drought. They change where fish can find nutrients in the ocean. La Niña can lead to a more severe hurricane season, according to NOAA.

In the United States during El Niño conditions, a subtropical jet stream moves across southern states, like California, Texas and Florida, making them cooler and wetter than usual. Northern states tend to be warmer and drier than average, Schumacher said.

During La Niña, the jet stream comes out of the Northwest across the western United States. The Pacific Northwest and Midwest are cooler and wetter than average, while the Southwest is warmer and drier than average.

Colorado sits in the middle, which makes it harder to define clear impacts of ENSO events and to separate them from other common climate variations around the Rocky Mountains, Schumacher said.

Typically, El Niño tends to bring wetter-than-average conditions, particularly to southern Colorado and in the fall and spring. (This year, that would mean fall 2026 and spring 2027.)

During La Niña, the conditions flip. Colorado’s northern mountains often receive more snow while southern portions of the state are warmer and drier.

That doesn’t always happen: This winter is an example of La Niña conditions that did not drop very much snow on the northern part of the state — or anywhere.

Which team should Coloradans be on? Definitely El Niño, Schumacher said.

“It tilts the odds towards things being wetter,” he said.

A “super” El Niño in the forecast

This year, the region’s water temperature is more than 2 degrees Celsius warmer than usual for multiple months — prompting climate scientists to dub it a super El Niño.

They expect neutral conditions between April and June. After that, conditions could stay neutral or transition into a strong El Niño, according to the National Weather Service’s Climate Prediction Center. Seeing El Niño conditions is likely, but whether they appear will depend on wind patterns over the Pacific Ocean.

For anyone looking for rain and snow in Colorado, this is a reason for optimism later in the summer and for the coming winter, Schumacher said.

In 1997, the last really strong El Niño brought moisture to most of Colorado in the summer and fall. There were floods along the Front Range and Eastern Plains.

But just because that’s what happened one other time doesn’t mean Colorado will see the same conditions again.

“It would be speculation to read too much into that,” Schumacher said.

So what exactly would a super El Niño mean for Colorado?

“The short answer is, we don’t really know,” he said.

Climate and weather researchers only have a few similar years in history to analyze, and that’s not enough data to identify clear trends with high certainty. There have been only five strong El Niños since 1950, with the last taking place from 2015 to 2016.

“In terms of what that’s going to mean for how the jet stream responds to that, and then in turn, what kind of precipitation we get in Colorado?” Schumacher said. “I think it’s too early to say.”

The non-Niño weather event you should be watching

There is one other weather phenomenon that will come into play this summer: monsoons.

“The outlooks are pointing towards the active monsoon season this summer, and so that’s probably the thing to keep a closer eye on in the near term,” he said.

Monsoons are different from ENSO patterns. El Niño conditions are stronger in the winter and weaker in the summer and have global impacts.

Monsoons are local seasonal circulations that develop every summer in the Southwest. They arise when shifting wind patterns bring moisture from the eastern Pacific and the Gulf of California into the Southwest.

Active monsoon seasons can provide a large fraction of the annual precipitation to lower elevations in parts of the state, like western and southeastern Colorado. This year’s forecast indicates monsoons are likely for July, August and September, Schumacher said.

These active seasons bring afternoon thunderstorms every day and flash floods in Colorado’s canyons. They can help reduce some of the risks of a historic drought year, like wildfire risks later in the summer.

“As with any seasonal forecasting, it’s uncertain,” Schumacher said. “Four months out it’s hard to put really high probabilities on anything.”

What do monsoons mean for Colorado’s water supply?

An active monsoon season will offer some relief, but it will not refill Colorado’s reservoirs.

The monsoon storms might bring intense rain over a short amount of time, but in the big picture, they do not provide very much water. The amount of water that normally comes from a big winter snowstorm is much higher than the amount of water in an afternoon storm. The cloudy and cool weather with rain showers would help reduce the demand for outdoor irrigation for gardens and crops while providing a small boost in the supply, Schumacher said. [ed. emphasis mine]

“Monsoon rains just aren’t nearly enough to fill up reservoirs or even bring them back up from really low levels,” he said.

More by Shannon Mullane

Click the link to read the release on the Colorado State University website (Anthony Lane):

April 10, 2026

Colorado State University Extension experts are working with partners statewide to host drought planning workshops for farmers, ranchers and land managers seeking advice and support responding to the state’s abnormally dry conditions.
 
The workshops, drawing on materials and expertise from the Colorado Agricultural Drought Advisors, will highlight research on drought resilience and adaptation, with a focus on supporting agricultural producers as they develop and refine their own drought-response plans.  

“Our goal at these workshops is to leverage what farmers and ranchers already know,” said Retta Bruegger, a CSU Extension range management specialist who co-founded Drought Advisors in 2020. “We offer support and a flexible framework to help producers create a formalized plan that they can use to make more strategic decisions when coping with drought.”

The workshops

Responding to Drought Impacts in 2026: A Workshop for Livestock Producers
Routt County
5:30-8:15 p.m. Monday, April 13 
STARS Ranch, 35465 U.S. Highway 40, Steamboat Springs

When in Drought: Smart Irrigation and Soil Management
Larimer County
8 a.m. to noon Tuesday, April 21 
McKee Building at The Ranch, 5280 Arena Circle, Loveland
(The program will continue with a drip irrigation demonstration from noon to 2 p.m. at Flores Del Sol Natural Area, 8101 S. Timberline Road, Fort Collins.)

Agriculture Drought Management Workshop
Montezuma County
5:30-7:30 p.m. Thursday, April 23
Lewis Arriola Community Center, 21176 County Road S, Cortez

Details forthcoming for the following:

• Fremont County on Wednesday, June 10
• Morgan & Adams County (date TBD)

In addition to hosting workshops, Drought Advisors provides one-on-one drought planning assistance and offers resources for producers statewide, including the “Colorado Agricultural Drought Handbook” and sample drought plans . For more information, visit https://droughtadvisors.org. 

Click the link to read the article on The High Country News website (Anna Marija Helt):

April 14, 2026

Old snow crunched underfoot in mid-January as a dozen people snowshoed near Molas Pass in Colorado’s San Juan Mountains. The interpretive hike, hosted by local environmental organizations, covered ecology, climate change and snow. It was the perfect classroom: below an azure sky, bare ground beneath trailside spruces and pines was a local example of what turned out to be a devastating lack of snow across the West.

Mountain snowpack is the West’s largest reservoir, providing water for 100 million people and diverse ecosystems. The amount of water stored in the snowpack historically peaks around April 1. But this year, the snowpack in many places was absent, or nearly so, by then — the lowest level in the 45 years since automated measurements began.   

A stubborn high-pressure ridge contributed to the snow drought by shunting winter storms north to Canada in January. But the main culprit, according to the nonprofit Climate Central, was exceptional heat from climate change, which also caused a spring heat wave that decimated what snow there was at a time when other dry winters have seen “miracle March” snowstorms.

The lack of snow was unusually widespread across the Western U.S. But considering it as a whole makes it easier to miss the regional manifestations and implications of a winter that also brought record flooding and record dryness in addition to record heat. Here’s how the snow drought played out in a few regions that exemplify this winter’s variability:

Whiplash in Washington’s Cascades

Winter in Washington’s Cascade Range started and ended in “wet” snow drought — with precipitation falling as rain instead of snow. In December, over 2 feet of rain fell in two weeks in some places, melting much of the nascent snowpack and causing catastrophic flooding west of the Cascades. But it also replenished reservoirs in the Yakima Basin, on the drier eastern side of the range, which were only 8% full in October, a quarter of their normal volume.

Dry snow drought hit in January, when little precipitation fell. While pockets of Washington’s Cascades saw near-normal precipitation in February, most of the mountains stayed dry, and the range’s snowpack remained well below average. Then, despite several feet of snow landing in March, rain followed and washed it away.

That’s a problem for the Yakima Basin, which lacks the reservoir capacity to store enough runoff to meet the region’s needs. The snowpack typically serves as an additional reservoir, storing water as snow into summer, said hydrogeologist and geochemist Carey Gazis of Central Washington University in Ellensburg.

South of Ellensburg lies the Yakima Valley — the “fruit bowl of the nation” — where snowmelt is essential for irrigating crops, including cherries, apples, grapes, hops and mint. It also supports the Yakama Nation’s efforts to restore populations of culturally important migratory fish. As of March, the Bureau of Reclamation forecasted that many farmers in the Yakima Valley would receive just 44% of their usual water supply this growing season due to the snow drought.

One long-term solution is to create more water storage by augmenting aquifers. “There’s all this space under the surface that can hold more water,” said Gazis, who studies such processes. Projects pumping runoff or enhancing passive water infiltration into the ground are already happening in parts of the basin, including on the Yakama Nation reservation.

Northern Rocky Mountain high

As in Washington’s Cascades, winter in the Rocky Mountains of Idaho, Montana and western Wyoming was bookended by wet snow droughts, with a dry January in between. However, colder temperatures at higher elevations allowed for a near- to above-average snowpack in some areas that persisted into mid-March, leaving them in better shape than most of the West in early April.

That helped places dependent on winter tourism, such as Idaho’s Wood River Valley. “It’s as busy as ever, if not a little busier, because we have snow,” unlike many other winter destinations, such as those in Colorado, said the director of the valley’s Environmental Resource Center, Ashton Wilson, in February.

Additionally, Russell Qualls, Idaho’s state climatologist, speculated that the Wood River Basin and others nearby may do “fairly well” this summer in terms of providing water for the towns and agriculture that depend on them.

But little to no snow at middle and lower elevations in Idaho, Wyoming and Montana — and ongoing unseasonable heat — might mean a long fire season unless sufficient rain arrives in spring and summer. Indeed, while fire season usually starts in May or June in Montana and Wyoming, both states experienced wildfires over 1,000 acres in March.

But high and dry in Colorado

Colorado also experienced such medium-sized wildfires, but they started much earlier — in December. Both December and January were abnormally dry, and one of the few storms that did arrive dropped rain at up to 11,000 feet — unusually high for winter, and unprecedented in much of Colorado.

This was evident at the January snowshoe hike near Molas Pass, led by the San Juan Mountains Association and Mountain Studies Institute. Outdoor educator Colin Courtney guided attendees wielding avalanche shovels in digging a snow pit to measure the snowpack’s depth and water content. With a dull thunk, shovel blades hit dirt just 2 feet down. As he melted snow samples over a camp stove, Courtney noted that the snowpack at the pass held 23% as much water as in an average year — the snow water equivalent, a more meaningful measurement than depth alone when planning for annual water needs and wildfire risk. “It’s a very real thing to be concerned this year,” said Courtney.

There are ecological threats, too. Research in New Hampshire and Finland has shown complicated effects on tree health when root systems lack an insulating layer of snow during winter. The impact on trees here — already stressed from the worst megadrought in 1,200 years —isn’t known.

“This is our worst snowpack on record,” wrote climatologist Allie Mazurek of the Colorado Climate Center in an early April email. She blamed the West’s record-breaking March heat wave for tipping the state beyond its prior historic low, in 1981.

Denver has already initiated water restrictions. But the implications go beyond state lines: Colorado’s snowpack also provides water to 18 other states, dozens of tribal nations and parts of Mexico. The Colorado River Basin provides drinking water for one in 10 people in the U.S., irrigates over 5 million acres of cropland and generates substantial hydroelectric power. This year’s snow drought is exacerbating an already fraught fight among the seven states in the Colorado Basin over how to manage the dwindling river.     

“One caveat to some of this is El Niño,” wrote Mazurek. The climate pattern may bring lots of rain to Colorado, and forecasters expect it to develop in early fall. “Still, rain tends to do much less for our water supply than snow,” she added.

And snow is a resource that will likely be in shorter and shorter supply in the years to come in the West, where researchers expect climate change to shrink snow-supplied water by about a quarter by mid-century. Mazurek summed up the region’s predicament succinctly: “We should probably be preparing for less water to be coming down from the mountain snowpack than usual.”

Click on a thumbnail graphic to view a gallery of drought data from the US Drought Monitor website.

Click the link to go to the US Drought Monitor website. Here’s an excerpt:

This Week’s Drought Summary

Much of the country continued to experience above-normal temperatures in April. During the last week, the warmest temperatures were over the southern Midwest and into the central Plains, where departures were 9°F or greater. California and portions of the Southeast into the Mid-Atlantic were near normal to slightly below normal. Dryness has continued in the Southeast, portions of the South, the Northeast, and much of the High Plains. The greatest precipitation occurred in the Great Basin, northern California, central and west Texas, northeast Kansas, and across much of Michigan and Wisconsin, where spring thunderstorms developed within an active weather pattern, mainly over the Midwest…

High Plains

Temperatures were mostly above normal, with only eastern North Dakota and northeast South Dakota near or below normal. The greatest departures occurred in central Kansas, where temperatures were 12–15 degrees above normal. Above-normal precipitation was observed in southwest and northern North Dakota.

Kansas experienced the most active weather, with southwest and eastern areas of the state and southeast Nebraska recording above-normal precipitation. Some areas of northeast Kansas received more than 400% of normal precipitation. These rains led to improvements in abnormally dry and moderate drought conditions across southeast Nebraska and northeast Kansas. Some areas of eastern Nebraska and south-central Kansas also saw improvements.

Extreme drought expanded across southwest Nebraska and northwest Kansas, while severe drought expanded across southwest Kansas. The plains of eastern Colorado experienced nearly a full-category degradation, with expansion of moderate, severe, and extreme drought…

West

Warmer-than-normal temperatures dominated the region this past week. Departures were 6–8 degrees above normal across most of Utah, Colorado, and Wyoming. Only the Sierra Nevada area and northern California were near to slightly below normal.

Precipitation was mixed, with parts of northern California, northern Nevada, eastern Oregon, southern Utah, eastern and western New Mexico, southwest Idaho, and eastern Washington receiving above-normal precipitation.

The lack of snowpack will continue to impact the region in the coming months. Earlier-than-normal snowmelt, below-normal seasonal totals, and increased liquid precipitation are contributing to hydrological impacts.

Changes this week included improvements in moderate drought in northeastern California and expansion of moderate and severe drought in southern Arizona. Southern Idaho into northern Nevada saw expansion of severe, extreme, and exceptional drought, while severe drought expanded across eastern and northern New Mexico…

South

Precipitation was mixed across the region. Oklahoma and much of central and western Texas received more than 150% of normal precipitation. Farther east, eastern Arkansas and Louisiana saw light precipitation, while areas farther west and into Tennessee remained mostly dry.

Temperatures were above normal across much of the region, with only southern Texas, southern Louisiana, and eastern Mississippi near or below normal. The greatest departures occurred in western Oklahoma and the Texas Panhandle, where temperatures were 12–15 degrees above normal.

Drought expanded and intensified across much of Tennessee, with moderate and severe drought expanding statewide and a new area of extreme drought developing in the northwest. In Mississippi, moderate and severe drought expanded across eastern and southern areas, with extreme drought expanding in the northwest. Arkansas remained dry, with extreme and exceptional drought expanding in both northern and southern areas.

Louisiana saw expansion of extreme drought across much of the south, as well as central and northern areas. Moderate and severe drought also expanded across southern portions of the state. Oklahoma remained largely unchanged, with only minor expansion of severe drought in the panhandle.

The most significant improvements occurred in Texas, where much of central, southern, and southeastern portions of the state saw a full-category improvement in drought conditions. However, severe drought expanded in parts of the panhandle…

Looking Ahead

Over the next 5–7 days, precipitation is expected to be most prominent across the southern Plains, Midwest, and Northeast. The heaviest precipitation is likely from eastern Kansas into Missouri and northward into eastern Iowa, northern Illinois, and the Great Lakes.

Additional precipitation is expected from the Pacific Northwest into the northern Rockies and High Plains. Dryness is likely to persist across much of the Southwest and Southeast.

Temperatures are expected to be above normal from the northern Rockies into the High Plains, with the greatest departures in western Nebraska, eastern Colorado, and central Montana (10–13 degrees above normal). Cooler-than-normal temperatures are anticipated across much of central Texas (5–9 degrees below normal), while warmer-than-normal conditions are expected across the Mid-Atlantic (5–7 degrees above normal).

The 6-10 day outlooks show that the locations with the best chances of experiencing below- normal temperatures are in the Southwest, especially those locations in Arizona and southern Nevada and California as well as in New England with the best chances in both Arizona and Maine. There is a high likelihood of above-normal temperatures over much of the Midwest, Plains, and into the South and Southeast with the best chances over Kansas, Missouri, Arkansas, Oklahoma into southern Nebraska and Iowa. Precipitation chances are expected to be near-normal over southern Florida and southern areas of New Mexico and Arizona. Near-normal precipitation is also expected over the Pacific Northwest, upper Midwest and into the Northern Plains. In the Northeast, there will be a mix of near-normal to below-normal precipitation chances. Most of the rest of the country has above-normal chances of recording above-normal precipitation with the greatest chances over an area from northern Louisiana to Indiana.