Two river systems drain and define the two parts of the Central Valley. The
Sacramento River, along with its tributaries the
Feather River and
American River, flows southwards through the Sacramento Valley for about . In the San Joaquin Valley, the
San Joaquin River flows roughly northwest for , picking up tributaries such as the
Merced River,
Tuolumne River,
Stanislaus River and
Mokelumne River. The Central Valley
watershed encompasses over a third of California at , with 46 percent draining into the Sacramento River, 26 percent into the San Joaquin, and 27 percent into Tulare Lake. In the southern part of the San Joaquin Valley, the
alluvial fan of the
Kings River and another from Coast Ranges streams have created a divide. The dry Tulare basin of the Central Valley receives flow from four major Sierra Nevada rivers, the Kings,
Kaweah,
Tule, and
Kern. This basin, usually
endorheic, formerly filled during snowmelt and spilled out into the San Joaquin River. Called
Tulare Lake, it is usually dry because the rivers feeding it have been diverted for agricultural purposes. Central Valley rivers converge in the
Sacramento-San Joaquin Delta, a network of marshy channels, distributaries, and sloughs that wind around islands mainly used for agriculture. There the rivers merge with tidewater, and eventually reach the ocean after passing through
Suisun Bay,
San Pablo Bay, upper
San Francisco Bay, and finally the
Golden Gate. Many of the islands lie below sea level because of intensive agriculture, and face a high risk of flooding, which would allow salt water to rush back into the delta, especially when too little fresh water is flowing in from the Valley. The Sacramento River carries far more water than the San Joaquin, with an estimated of virgin annual runoff, as compared to the San Joaquin's approximately . Intensive agricultural and municipal water consumption decreased the rate of outflow to about for the Sacramento and for the San Joaquin. These figures vary widely from year to year. Over 25 million people, living in the valley and other regions of the state, rely on the water carried by these rivers.
River engineering Sierra Nevada runoff provides one of California's largest water resources. The Sacramento River is the second largest river to empty into the Pacific from the
contiguous United States, behind only the
Columbia River and greater than the
Colorado River. Combined with the fertile and expansive area of the Central Valley's floor, the Central Valley is ideal for agriculture. The Central Valley is one of the United States' most productive growing regions. This is made possible by engineering the watercourses to prevent flooding during the spring snowmelt and drying up in the summer and autumn. Many dams, including
Shasta Dam,
Oroville Dam,
Folsom Dam,
New Melones Dam,
Don Pedro Dam,
Hetch Hetchy Dam,
Friant Dam,
Pine Flat Dam and
Isabella Dam, were constructed on the rivers, with many of them being part of the
Central Valley Project. Post-World War II demand for urban development, most notably the
San Francisco Bay Area and the
Los Angeles/
Inland Empire/
San Diego, required water resources. Moreover, agriculture in the southern Central Valley required far more water than was available locally. The
Feather River in the Sacramento Valley was looked to as a water source, leading to the
California State Water Project. This transports water to the southern San Joaquin Valley and urban areas south of the Tehachapi Mountains. Runoff from the Sacramento and San Joaquin Rivers is intercepted in the delta through a series of pumps that divert water into the
California Aqueduct, which runs south along the length of the San Joaquin Valley. In parallel, pumps divert water into the
Delta–Mendota Canal. The flow of the Sacramento River is further supplemented by a tunnel from the
Trinity River (a tributary of the
Klamath River, northwest of the Sacramento Valley) near
Redding. Cities of the
San Francisco Bay Area, also needing water, built aqueducts from the
Mokelumne River and
Tuolumne River that run east to west across the middle part of the Central Valley.
Flooding Most valley lowlands are prone to flooding, especially in the old
Tulare Lake,
Buena Vista Lake, and
Kern Lake rivers. The
Kings,
Kaweah,
Tule and
Kern rivers originally flowed into these seasonal lakes, which would expand each spring to flood large parts of the southern San Joaquin Valley. Farms, towns, and infrastructure in these lakebeds are protected with levee systems, while the risk of floods damaging properties increased greatly. The
Great Flood of 1862 was the valley's worst flood in recorded history, flooding most of the valley and putting some places as much as under water. In 2003, it was determined that Sacramento had both the least protection against and nearly the highest risk of flooding. Congress then granted a $220 million loan for upgrades in Sacramento County. Other counties in the valley that often face flooding are
Yuba,
Stanislaus, and
San Joaquin.
Landslides A very strong positive correlation exists between rainfall and slow-moving
landslides in Northern California, especially in the Central Valley region. Changes in climate and precipitation levels have shown that consistent average rainfall has increased the number and intensity of landslides within the past 5–6 years. This information was shown in a study that focused on the behavior of these slow-moving landslides and how their nature changed with years of extreme average rainfall versus minimal average rainfall. In 2016, the average annual precipitation levels were lower because of a drought that was coming to an end at that time. The minimal rainfall in that year showed that 119 landslides had been moving. Comparatively, in 2017, there were very extreme levels of precipitation in the Central Valley, which cause 312 landslides to move that year. Slow-moving landslides are impacted even if the intensity of the rainfall is not as severe. Consistent, moderately intense rainfall increases the saturation of water in the ground. This over-saturation is what causes the movement of a slow-moving landslide, rather than the more quick-moving and rigorous landslides that also occur in this region of California. Quick-moving landslides are caused by very intense rain, or sometimes earthquakes, that make a greater difference in the land in a shorter amount of time. According to a survey paper written in 1988 about a storm that occurred in 1982 in the Central Valley region, rainstorms that can cause that type of landslide to happen about every 5 years. Landslides to higher degrees, such as the ones that happened due to the 1982 storm, only occur every 20 to 100+ years. This intense storm in the San Francisco Bay area caused a lot of damage as a result of moving debris and landslides. They caused damage to the land and put people living in these areas that are susceptible to these disasters in great harm. The aftermath of this storm involved millions of dollars in retributions to restore the land and surrounding areas. It also led people to make greater efforts into planning around the danger of these landslides, as in how to manipulate the land to accommodate the consequences.
Droughts Out of the past twenty-two years, California has experienced significant drought conditions for thirteen years. From 2000 to 2018 was the second driest period that California has ever experienced. The driest three-year period ever in California was from 2012 to 2014. Three-quarters of the state of California is experiencing extreme drought conditions. There are also multiple types of droughts such as agricultural droughts, meteorological droughts, snow droughts, and hydrological droughts. All of these droughts affect California in different ways. Droughts can damage forests and can cause wildfires. Droughts cause forests to become dry which causes trees to die. Dead trees result in wildfires. The U.S. drought monitor is released every Thursday, showing which parts of the U.S. are in a drought. It started in 2000, and since then the longest duration of a drought in California lasted a total of 376 weeks. It started on December 11, 2011, and ended on March 5, 2019. The most intense period captured on the drought monitor was on the week of July 29, 2014. It showed that 58.41% of California's land was affected by a drought. In 2014–2015, farm-related losses in California totaled $5 billion and 20,000 farmers also lost their jobs. ==Economy==