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Weekly Look Ahead

July 2, 2026 (Updated Every Thursday)

1–7 Day

Hot, humid weather will persist through the Independence Day weekend in most areas along and east of a line from the southern High Plains into the upper Midwest. Some of the most extreme heat will affect the middle Atlantic States, parts of which will experience multiple days with triple-digit (100-degree) heat. Although the Midwest will remain hot, temperatures in most areas will barely reach stressful thresholds (95°F of higher) for corn and soybeans entering the weather-sensitive reproductive stage of development. Furthermore, many Midwestern crops are progressing through the hot spell with adequate to locally surplus soil moisture. Meaningful precipitation during the next 5 days should be limited to parts of Florida’s peninsula and the upper Midwest; both areas could see 1 to 4 inches, with locally higher totals. Other areas of the central and eastern U.S. should receive spotty thunderstorms, while little or no rain will accompany a Western warming trend.

6–10 Day

The National Weather Service Climate Prediction Center's 6–10 day outlook (valid July 7–11, 2026) calls for the likelihood of hotter-than-normal weather nationwide, except for near-normal temperatures along and near the Pacific Coast, extending as far south as central California. 

Meanwhile, odds will be tilted toward near- or above-normal rainfall across most of the country, with drier-than-normal conditions expected to be limited to the Great Basin and environs.

 

This weekly look ahead is modified from the U.S. Drought Monitor's National Drought Summary for June 30, 2026, written by Brad Rippey (U.S. Department of Agriculture) and Richard Tinker (NOAA's Climate Prediction Center).

Featured Outlooks & Forecasts

Predicting drought depends on the ability to forecast precipitation and temperature within the context of complex climate interactions. Many different datasets and maps are available that predict how precipitation and temperature may change in the future.

Official NOAA Drought Outlooks

Drought Is Predicted To...
Drought Is Predicted To...
2-4 Week Hazard Outlook

Official NOAA Precipitation Forecast

Predicted Inches of Precipitation
1.75
Predicted Inches of Precipitation
1.75

Official NOAA Precipitation Outlooks

Probability of Below-Normal Precipitation
100%
Probability of Above-Normal Precipitation
100%
Probability of Below-Normal Precipitation
100%
Probability of Above-Normal Precipitation
100%
Probability of Below-Normal Precipitation
100%
Probability of Above-Normal Precipitation
100%
Probability of Near-Normal Precipitation
50%
Probability of Below-Normal Precipitation
100%
Probability of Above-Normal Precipitation
100%
Probability of Near-Normal Precipitation
50%

Official NOAA Temperature Outlooks

Probability of Below-Normal Temperatures
100%
Probability of Above-Normal Temperatures
100%
Probability of Below-Normal Temperatures
100%
Probability of Above-Normal Temperatures
100%
Probability of Below-Normal Temperatures
100%
Probability of Above-Normal Temperatures
100%
Probability of Near-Normal Temperatures
50%
Probability of Below-Normal Temperatures
100%
Probability of Above-Normal Temperatures
100%
Probability of Near-Normal Temperatures
50%

Official NOAA Fire + Heat Outlooks

Forecast Risk of Fire Weather
Hazard Outlook for Days 3–7
Hazard Outlook for Days 8–14

Official NOAA River Stage (Level) Forecast

Maximum Forecast River Stage

Challenges with Predicting Drought

Pressure Systems

High pressure systems, which hinder cloud formation and lead to low relative humidity and precipitation, can cause drought. When large-scale anomalies in atmospheric circulation patterns last for months or seasons, prolonged drought occurs (NDMC).

Temperate Zone Forecast Reliability

In temperate regions (above 30 north latitude), long-range forecasts have limited reliability. Due to differences in observed conditions and statistical models, reliable forecasts for temperate regions may not be attainable for a season or more in advance (NDMC).

Interconnected Variables

Anomalies in precipitation and temperature may last from several months to several decades, and how long they last can depend on air–sea interactions, soil moisture, land surface processes, topography, and weather systems at the global scale (NDMC).

ENSO and Global Weather Patterns

Teleconnections, such as ENSO and La Niña events, are atmospheric interactions between widely separated regions. Understanding these teleconnections can help in forecasting droughts, floods, tropical storms, and hurricanes (NDMC).