Does this automatically mean that the decent water conditions of the past year will be wiped out? Not necessarily. La Niña is favored to develop by this winter. For instance, the extremely wet 1982-83 water year was a year with one of the strongest El Niños on record, and the extremely dry 1976-77 water year had a strong La Niña that winter. The wettest water years in California tend to occur with El Niño conditions during the winter, while the drier years are often concurrent with La Niña winters. It was an unusually high amount of precipitation to occur during a La Niña winter. Much of this precipitation fell during an extremely wet January and February as numerous atmospheric river events drenched the state. By the end of the water year in September 2016, only 8% was in drought, and exceptional drought was down to 0%. In fact, 83.6% of the state was in drought, with 21% of California in an exceptional drought, the most severe category listed by the United States Drought Monitor. Farther south near the agriculture-heavy San Joaquin Valley, a five-station average showed that the past water year was the second wettest on record after 72.7 inches fell.Īt the start of the previous water year, Californians were still worried about drought. As of October 9, most of the reservoir levels across the state were higher than average, including Lake Shasta which was 73% full-23% higher than normal for this time of year.Īcross the Northern Sierra Mountains, where the highest rainfall amounts were recorded, an eight-station average of precipitation totals during the 2016-2017 water year reached 94.7 inches, the highest on record and over six inches higher than the previous record set in 1982-83. The relatively large amount of precipitation helped to drastically increase the snowpack in the mountains and raise reservoir levels across the state. Precipitation during the 2016-2017 water year exceeded 100 inches across the higher elevations in the Sierra Nevada Mountains, with lesser amounts, 25-50 inches, falling across lower elevations. The amounts are determined through a combination of radar estimates and rainfall gauge reports. Pictured here is the total observed precipitation from the PRISM dataset for October 2016 through September 2017. Due to the high amounts of fall and winter precipitation across California, the “water year” there is defined as October 1–September 30. But a “year” did in fact end on September 30: the water year for California. After all, no ball was dropped, and there were no parties to attend. It may not have seemed like the year was ending when September turned into October recently.
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