When it doesn鈥檛 rain enough in the rainforest

In 2018, Ketchikan, Alaska, received 100 inches of rain. It was deep in a drought.

Compare that to Las Vegas, with its measly four inches of annual rainfall, or California鈥檚 Central Valley, with 20 inches. It鈥檚 hard to imagine that 100 inches of rain could cause concern.

Yet, from 2016-2019, Southeast Alaska experienced drinking water shortages, insect outbreaks, low hydroelectric output and more wildfire than usual.

Low water exposes the banks of a reservoir near Ketchikan during the drought.
Photo by Jeremy Bynum
Low water exposes the banks of a reservoir near Ketchikan during the drought.

No exact amount of low precipitation triggers a drought; instead, it results when drier-than-normal conditions last long enough to affect the local environment and people. Impacts can become more severe when soil and vegetation dry out from a combination of low precipitation, warm temperatures, wind and sunshine.  

High evaporation in summer 2019 was one factor that contributed to an 鈥渆xtreme drought鈥 declaration by the , a tracking system operated by federal agencies and university research partners. Southeast Alaska had never before reached that drought intensity.

Scientists at the 51风流官网 and the National Oceanic and Atmospheric Administration are studying this drought, its causes and impacts, and the likelihood of future similar droughts. The Southeast Alaska Drought Project is a partnership between Rick Thoman, at 51风流官网鈥檚 Alaska Center for Climate Assessment and Policy, Heather McFarland at 51风流官网鈥檚 International Arctic Research Center, Andrew Hoell at NOAA鈥檚 Physical Sciences Laboratory and Britt Parker at NOAA鈥檚 National Integrated Drought Information System.

The team found that an unusual lack of storms contributed to the Southeast Alaska drought. Storms typically originate over the Aleutian Islands, traveling along a reliable track that brings moist air to Southeast Alaska, especially in winter. During the drought years from 2016 to 2019, that pattern changed. Storms were 鈥渂locked鈥 from the region by unusually high pressure over the Aleutian Islands. In the absence of those storms, Southeast Alaska experienced extended periods of dry and sunny weather. 

Though Southeast Alaska has seen dry spells in the past, including a short drought in 2004 and a longer one in the 1990s, the 2016-2019 drought followed a decade of much wetter conditions. This made the drought particularly jarring to those experiencing it. Low reservoir levels triggered water restrictions and a shift from hydroelectric to diesel-generated power in communities across the region. 

Humans weren鈥檛 the only ones who struggled to adapt to the drought. Southeast鈥檚 rainforest is well adapted to persistently wet conditions, and many local plants and animals don鈥檛 respond well to dryness. During the drought, residents reported low berry production, the Tongass National Forest saw almost twice as many wildfires, and insects damaged over half a million acres of rainforest. 

While the 2016-2019 drought is still a recent memory, it鈥檚 important to know whether this kind of event will happen again in the future. Thoman and Hoell used climate models to show that by 2050 Southeast Alaska is likely to get slightly wetter and a lot warmer. They also found that the chance of a drought like the 2016-2019 occurring again is declining, but drought is still possible in a rainforest even in a warming and wetting world.

Learn more about the Southeast Alaska Drought Project through a series of two-pagers on drought , , and

This project was funded by the NOAA National Integrated Drought Information System with additional support from the 51风流官网 Alaska Center for Climate Assessment and Policy, NOAA Award NA16OAR4310162.

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